File: | obj/gnu/usr.bin/perl/ext/re/re_comp.c |
Warning: | line 14276, column 33 Value stored to 's' is never read |
Press '?' to see keyboard shortcuts
Keyboard shortcuts:
1 | /* regcomp.c |
2 | */ |
3 | |
4 | /* |
5 | * 'A fair jaw-cracker dwarf-language must be.' --Samwise Gamgee |
6 | * |
7 | * [p.285 of _The Lord of the Rings_, II/iii: "The Ring Goes South"] |
8 | */ |
9 | |
10 | /* This file contains functions for compiling a regular expression. See |
11 | * also regexec.c which funnily enough, contains functions for executing |
12 | * a regular expression. |
13 | * |
14 | * This file is also copied at build time to ext/re/re_comp.c, where |
15 | * it's built with -DPERL_EXT_RE_BUILD -DPERL_EXT_RE_DEBUG -DPERL_EXT. |
16 | * This causes the main functions to be compiled under new names and with |
17 | * debugging support added, which makes "use re 'debug'" work. |
18 | */ |
19 | |
20 | /* NOTE: this is derived from Henry Spencer's regexp code, and should not |
21 | * confused with the original package (see point 3 below). Thanks, Henry! |
22 | */ |
23 | |
24 | /* Additional note: this code is very heavily munged from Henry's version |
25 | * in places. In some spots I've traded clarity for efficiency, so don't |
26 | * blame Henry for some of the lack of readability. |
27 | */ |
28 | |
29 | /* The names of the functions have been changed from regcomp and |
30 | * regexec to pregcomp and pregexec in order to avoid conflicts |
31 | * with the POSIX routines of the same names. |
32 | */ |
33 | |
34 | #ifdef PERL_EXT_RE_BUILD1 |
35 | #include "re_top.h" |
36 | #endif |
37 | |
38 | /* |
39 | * pregcomp and pregexec -- regsub and regerror are not used in perl |
40 | * |
41 | * Copyright (c) 1986 by University of Toronto. |
42 | * Written by Henry Spencer. Not derived from licensed software. |
43 | * |
44 | * Permission is granted to anyone to use this software for any |
45 | * purpose on any computer system, and to redistribute it freely, |
46 | * subject to the following restrictions: |
47 | * |
48 | * 1. The author is not responsible for the consequences of use of |
49 | * this software, no matter how awful, even if they arise |
50 | * from defects in it. |
51 | * |
52 | * 2. The origin of this software must not be misrepresented, either |
53 | * by explicit claim or by omission. |
54 | * |
55 | * 3. Altered versions must be plainly marked as such, and must not |
56 | * be misrepresented as being the original software. |
57 | * |
58 | * |
59 | **** Alterations to Henry's code are... |
60 | **** |
61 | **** Copyright (C) 1991, 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, |
62 | **** 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008 |
63 | **** by Larry Wall and others |
64 | **** |
65 | **** You may distribute under the terms of either the GNU General Public |
66 | **** License or the Artistic License, as specified in the README file. |
67 | |
68 | * |
69 | * Beware that some of this code is subtly aware of the way operator |
70 | * precedence is structured in regular expressions. Serious changes in |
71 | * regular-expression syntax might require a total rethink. |
72 | */ |
73 | |
74 | /* Note on debug output: |
75 | * |
76 | * This is set up so that -Dr turns on debugging like all other flags that are |
77 | * enabled by -DDEBUGGING. -Drv gives more verbose output. This applies to |
78 | * all regular expressions encountered in a program, and gives a huge amount of |
79 | * output for all but the shortest programs. |
80 | * |
81 | * The ability to output pattern debugging information lexically, and with much |
82 | * finer grained control was added, with 'use re qw(Debug ....);' available even |
83 | * in non-DEBUGGING builds. This is accomplished by copying the contents of |
84 | * regcomp.c to ext/re/re_comp.c, and regexec.c is copied to ext/re/re_exec.c. |
85 | * Those files are compiled and linked into the perl executable, and they are |
86 | * compiled essentially as if DEBUGGING were enabled, and controlled by calls |
87 | * to re.pm. |
88 | * |
89 | * That would normally mean linking errors when two functions of the same name |
90 | * are attempted to be placed into the same executable. That is solved in one |
91 | * of four ways: |
92 | * 1) Static functions aren't known outside the file they are in, so for the |
93 | * many functions of that type in this file, it just isn't a problem. |
94 | * 2) Most externally known functions are enclosed in |
95 | * #ifndef PERL_IN_XSUB_RE |
96 | * ... |
97 | * #endif |
98 | * blocks, so there is only one defintion for them in the whole |
99 | * executable, the one in regcomp.c (or regexec.c). The implication of |
100 | * that is any debugging info that comes from them is controlled only by |
101 | * -Dr. Further, any static function they call will also be the version |
102 | * in regcomp.c (or regexec.c), so its debugging will also be by -Dr. |
103 | * 3) About a dozen external functions are re-#defined in ext/re/re_top.h, to |
104 | * have different names, so that what gets loaded in the executable is |
105 | * 'Perl_foo' from regcomp.c (and regexec.c), and the identical function |
106 | * from re_comp.c (and re_exec.c), but with the name 'my_foo' Debugging |
107 | * in the 'Perl_foo' versions is controlled by -Dr, but the 'my_foo' |
108 | * versions and their callees are under control of re.pm. The catch is |
109 | * that references to all these go through the regexp_engine structure, |
110 | * which is initialized in regcomp.h to the Perl_foo versions, and |
111 | * substituted out in lexical scopes where 'use re' is in effect to the |
112 | * 'my_foo' ones. That structure is public API, so it would be a hard |
113 | * sell to add any additional members. |
114 | * 4) For functions in regcomp.c and re_comp.c that are called only from, |
115 | * respectively, regexec.c and re_exec.c, they can have two different |
116 | * names, depending on #ifdef'ing PERL_IN_XSUB_RE, in both regexec.c and |
117 | * embed.fnc. |
118 | * |
119 | * The bottom line is that if you add code to one of the public functions |
120 | * listed in ext/re/re_top.h, debugging automagically works. But if you write |
121 | * a new function that needs to do debugging or there is a chain of calls from |
122 | * it that need to do debugging, all functions in the chain should use options |
123 | * 2) or 4) above. |
124 | * |
125 | * A function may have to be split so that debugging stuff is static, but it |
126 | * calls out to some other function that only gets compiled in regcomp.c to |
127 | * access data that we don't want to duplicate. |
128 | */ |
129 | |
130 | #include "EXTERN.h" |
131 | #define PERL_IN_REGCOMP_C |
132 | #include "perl.h" |
133 | |
134 | #define REG_COMP_C |
135 | #ifdef PERL_IN_XSUB_RE |
136 | # include "re_comp.h" |
137 | EXTERN_Cextern const struct regexp_engine my_reg_engine; |
138 | EXTERN_Cextern const struct regexp_engine wild_reg_engine; |
139 | #else |
140 | # include "regcomp.h" |
141 | #endif |
142 | |
143 | #include "invlist_inline.h" |
144 | #include "unicode_constants.h" |
145 | |
146 | #define HAS_NONLATIN1_FOLD_CLOSURE(i)((! ((( (sizeof(i) == 1) || !(((U64)((i) | 0)) & ~0xFF))) ? (_Bool)1 : (_Bool)0)) || (PL_charclass[(U8) (i)] & (1U << (18)))) \ |
147 | _HAS_NONLATIN1_FOLD_CLOSURE_ONLY_FOR_USE_BY_REGCOMP_DOT_C_AND_REGEXEC_DOT_C(i)((! ((( (sizeof(i) == 1) || !(((U64)((i) | 0)) & ~0xFF))) ? (_Bool)1 : (_Bool)0)) || (PL_charclass[(U8) (i)] & (1U << (18)))) |
148 | #define HAS_NONLATIN1_SIMPLE_FOLD_CLOSURE(i)((! ((( (sizeof(i) == 1) || !(((U64)((i) | 0)) & ~0xFF))) ? (_Bool)1 : (_Bool)0)) || (PL_charclass[(U8) (i)] & (1U << (19)))) \ |
149 | _HAS_NONLATIN1_SIMPLE_FOLD_CLOSURE_ONLY_FOR_USE_BY_REGCOMP_DOT_C_AND_REGEXEC_DOT_C(i)((! ((( (sizeof(i) == 1) || !(((U64)((i) | 0)) & ~0xFF))) ? (_Bool)1 : (_Bool)0)) || (PL_charclass[(U8) (i)] & (1U << (19)))) |
150 | #define IS_NON_FINAL_FOLD(c)((( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF)) && (PL_charclass[(U8) (c)] & (1U << (21)))) ? (_Bool) 1 : (_Bool)0) _IS_NON_FINAL_FOLD_ONLY_FOR_USE_BY_REGCOMP_DOT_C(c)((( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF)) && (PL_charclass[(U8) (c)] & (1U << (21)))) ? (_Bool) 1 : (_Bool)0) |
151 | #define IS_IN_SOME_FOLD_L1(c)((( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF)) && (PL_charclass[(U8) (c)] & (1U << (22)))) ? (_Bool) 1 : (_Bool)0) _IS_IN_SOME_FOLD_ONLY_FOR_USE_BY_REGCOMP_DOT_C(c)((( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF)) && (PL_charclass[(U8) (c)] & (1U << (22)))) ? (_Bool) 1 : (_Bool)0) |
152 | |
153 | #ifndef STATICstatic |
154 | #define STATICstatic static |
155 | #endif |
156 | |
157 | /* this is a chain of data about sub patterns we are processing that |
158 | need to be handled separately/specially in study_chunk. Its so |
159 | we can simulate recursion without losing state. */ |
160 | struct scan_frame; |
161 | typedef struct scan_frame { |
162 | regnode *last_regnode; /* last node to process in this frame */ |
163 | regnode *next_regnode; /* next node to process when last is reached */ |
164 | U32 prev_recursed_depth; |
165 | I32 stopparen; /* what stopparen do we use */ |
166 | bool_Bool in_gosub; /* this or an outer frame is for GOSUB */ |
167 | |
168 | struct scan_frame *this_prev_frame; /* this previous frame */ |
169 | struct scan_frame *prev_frame; /* previous frame */ |
170 | struct scan_frame *next_frame; /* next frame */ |
171 | } scan_frame; |
172 | |
173 | /* Certain characters are output as a sequence with the first being a |
174 | * backslash. */ |
175 | #define isBACKSLASHED_PUNCT(c)((const char *) memchr("" "-[]\\^" "" , c, sizeof("-[]\\^")-1 )) memCHRs("-[]\\^", c)((const char *) memchr("" "-[]\\^" "" , c, sizeof("-[]\\^")-1 )) |
176 | |
177 | |
178 | struct RExC_state_t { |
179 | U32 flags; /* RXf_* are we folding, multilining? */ |
180 | U32 pm_flags; /* PMf_* stuff from the calling PMOP */ |
181 | char *precomp; /* uncompiled string. */ |
182 | char *precomp_end; /* pointer to end of uncompiled string. */ |
183 | REGEXP *rx_sv; /* The SV that is the regexp. */ |
184 | regexp *rx; /* perl core regexp structure */ |
185 | regexp_internal *rxi; /* internal data for regexp object |
186 | pprivate field */ |
187 | char *start; /* Start of input for compile */ |
188 | char *end; /* End of input for compile */ |
189 | char *parse; /* Input-scan pointer. */ |
190 | char *copy_start; /* start of copy of input within |
191 | constructed parse string */ |
192 | char *save_copy_start; /* Provides one level of saving |
193 | and restoring 'copy_start' */ |
194 | char *copy_start_in_input; /* Position in input string |
195 | corresponding to copy_start */ |
196 | SSize_tssize_t whilem_seen; /* number of WHILEM in this expr */ |
197 | regnode *emit_start; /* Start of emitted-code area */ |
198 | regnode_offset emit; /* Code-emit pointer */ |
199 | I32 naughty; /* How bad is this pattern? */ |
200 | I32 sawback; /* Did we see \1, ...? */ |
201 | SSize_tssize_t size; /* Number of regnode equivalents in |
202 | pattern */ |
203 | Size_tsize_t sets_depth; /* Counts recursion depth of already- |
204 | compiled regex set patterns */ |
205 | U32 seen; |
206 | |
207 | I32 parens_buf_size; /* #slots malloced open/close_parens */ |
208 | regnode_offset *open_parens; /* offsets to open parens */ |
209 | regnode_offset *close_parens; /* offsets to close parens */ |
210 | HV *paren_names; /* Paren names */ |
211 | |
212 | /* position beyond 'precomp' of the warning message furthest away from |
213 | * 'precomp'. During the parse, no warnings are raised for any problems |
214 | * earlier in the parse than this position. This works if warnings are |
215 | * raised the first time a given spot is parsed, and if only one |
216 | * independent warning is raised for any given spot */ |
217 | Size_tsize_t latest_warn_offset; |
218 | |
219 | I32 npar; /* Capture buffer count so far in the |
220 | parse, (OPEN) plus one. ("par" 0 is |
221 | the whole pattern)*/ |
222 | I32 total_par; /* During initial parse, is either 0, |
223 | or -1; the latter indicating a |
224 | reparse is needed. After that pass, |
225 | it is what 'npar' became after the |
226 | pass. Hence, it being > 0 indicates |
227 | we are in a reparse situation */ |
228 | I32 nestroot; /* root parens we are in - used by |
229 | accept */ |
230 | I32 seen_zerolen; |
231 | regnode *end_op; /* END node in program */ |
232 | I32 utf8; /* whether the pattern is utf8 or not */ |
233 | I32 orig_utf8; /* whether the pattern was originally in utf8 */ |
234 | /* XXX use this for future optimisation of case |
235 | * where pattern must be upgraded to utf8. */ |
236 | I32 uni_semantics; /* If a d charset modifier should use unicode |
237 | rules, even if the pattern is not in |
238 | utf8 */ |
239 | |
240 | I32 recurse_count; /* Number of recurse regops we have generated */ |
241 | regnode **recurse; /* Recurse regops */ |
242 | U8 *study_chunk_recursed; /* bitmap of which subs we have moved |
243 | through */ |
244 | U32 study_chunk_recursed_bytes; /* bytes in bitmap */ |
245 | I32 in_lookaround; |
246 | I32 contains_locale; |
247 | I32 override_recoding; |
248 | I32 recode_x_to_native; |
249 | I32 in_multi_char_class; |
250 | int code_index; /* next code_blocks[] slot */ |
251 | struct reg_code_blocks *code_blocks;/* positions of literal (?{}) |
252 | within pattern */ |
253 | SSize_tssize_t maxlen; /* mininum possible number of chars in string to match */ |
254 | scan_frame *frame_head; |
255 | scan_frame *frame_last; |
256 | U32 frame_count; |
257 | AV *warn_text; |
258 | HV *unlexed_names; |
259 | SV *runtime_code_qr; /* qr with the runtime code blocks */ |
260 | #ifdef DEBUGGING |
261 | const char *lastparse; |
262 | I32 lastnum; |
263 | U32 study_chunk_recursed_count; |
264 | AV *paren_name_list; /* idx -> name */ |
265 | SV *mysv1; |
266 | SV *mysv2; |
267 | |
268 | #define RExC_lastparse(pRExC_state->lastparse) (pRExC_state->lastparse) |
269 | #define RExC_lastnum(pRExC_state->lastnum) (pRExC_state->lastnum) |
270 | #define RExC_paren_name_list(pRExC_state->paren_name_list) (pRExC_state->paren_name_list) |
271 | #define RExC_study_chunk_recursed_count(pRExC_state->study_chunk_recursed_count) (pRExC_state->study_chunk_recursed_count) |
272 | #define RExC_mysv(pRExC_state->mysv1) (pRExC_state->mysv1) |
273 | #define RExC_mysv1(pRExC_state->mysv1) (pRExC_state->mysv1) |
274 | #define RExC_mysv2(pRExC_state->mysv2) (pRExC_state->mysv2) |
275 | |
276 | #endif |
277 | bool_Bool seen_d_op; |
278 | bool_Bool strict; |
279 | bool_Bool study_started; |
280 | bool_Bool in_script_run; |
281 | bool_Bool use_BRANCHJ; |
282 | bool_Bool sWARN_EXPERIMENTAL__VLB; |
283 | bool_Bool sWARN_EXPERIMENTAL__REGEX_SETS; |
284 | }; |
285 | |
286 | #define RExC_flags(pRExC_state->flags) (pRExC_state->flags) |
287 | #define RExC_pm_flags(pRExC_state->pm_flags) (pRExC_state->pm_flags) |
288 | #define RExC_precomp(pRExC_state->precomp) (pRExC_state->precomp) |
289 | #define RExC_copy_start_in_input(pRExC_state->copy_start_in_input) (pRExC_state->copy_start_in_input) |
290 | #define RExC_copy_start_in_constructed(pRExC_state->copy_start) (pRExC_state->copy_start) |
291 | #define RExC_save_copy_start_in_constructed(pRExC_state->save_copy_start) (pRExC_state->save_copy_start) |
292 | #define RExC_precomp_end(pRExC_state->precomp_end) (pRExC_state->precomp_end) |
293 | #define RExC_rx_sv(pRExC_state->rx_sv) (pRExC_state->rx_sv) |
294 | #define RExC_rx(pRExC_state->rx) (pRExC_state->rx) |
295 | #define RExC_rxi(pRExC_state->rxi) (pRExC_state->rxi) |
296 | #define RExC_start(pRExC_state->start) (pRExC_state->start) |
297 | #define RExC_end(pRExC_state->end) (pRExC_state->end) |
298 | #define RExC_parse(pRExC_state->parse) (pRExC_state->parse) |
299 | #define RExC_latest_warn_offset(pRExC_state->latest_warn_offset ) (pRExC_state->latest_warn_offset ) |
300 | #define RExC_whilem_seen(pRExC_state->whilem_seen) (pRExC_state->whilem_seen) |
301 | #define RExC_seen_d_op(pRExC_state->seen_d_op) (pRExC_state->seen_d_op) /* Seen something that differs |
302 | under /d from /u ? */ |
303 | |
304 | #ifdef RE_TRACK_PATTERN_OFFSETS |
305 | # define RExC_offsets((pRExC_state->rxi)->u.offsets) (RExC_rxi(pRExC_state->rxi)->u.offsets) /* I am not like the |
306 | others */ |
307 | #endif |
308 | #define RExC_emit(pRExC_state->emit) (pRExC_state->emit) |
309 | #define RExC_emit_start(pRExC_state->emit_start) (pRExC_state->emit_start) |
310 | #define RExC_sawback(pRExC_state->sawback) (pRExC_state->sawback) |
311 | #define RExC_seen(pRExC_state->seen) (pRExC_state->seen) |
312 | #define RExC_size(pRExC_state->size) (pRExC_state->size) |
313 | #define RExC_maxlen(pRExC_state->maxlen) (pRExC_state->maxlen) |
314 | #define RExC_npar(pRExC_state->npar) (pRExC_state->npar) |
315 | #define RExC_total_parens(pRExC_state->total_par) (pRExC_state->total_par) |
316 | #define RExC_parens_buf_size(pRExC_state->parens_buf_size) (pRExC_state->parens_buf_size) |
317 | #define RExC_nestroot(pRExC_state->nestroot) (pRExC_state->nestroot) |
318 | #define RExC_seen_zerolen(pRExC_state->seen_zerolen) (pRExC_state->seen_zerolen) |
319 | #define RExC_utf8(pRExC_state->utf8) (pRExC_state->utf8) |
320 | #define RExC_uni_semantics(pRExC_state->uni_semantics) (pRExC_state->uni_semantics) |
321 | #define RExC_orig_utf8(pRExC_state->orig_utf8) (pRExC_state->orig_utf8) |
322 | #define RExC_open_parens(pRExC_state->open_parens) (pRExC_state->open_parens) |
323 | #define RExC_close_parens(pRExC_state->close_parens) (pRExC_state->close_parens) |
324 | #define RExC_end_op(pRExC_state->end_op) (pRExC_state->end_op) |
325 | #define RExC_paren_names(pRExC_state->paren_names) (pRExC_state->paren_names) |
326 | #define RExC_recurse(pRExC_state->recurse) (pRExC_state->recurse) |
327 | #define RExC_recurse_count(pRExC_state->recurse_count) (pRExC_state->recurse_count) |
328 | #define RExC_sets_depth(pRExC_state->sets_depth) (pRExC_state->sets_depth) |
329 | #define RExC_study_chunk_recursed(pRExC_state->study_chunk_recursed) (pRExC_state->study_chunk_recursed) |
330 | #define RExC_study_chunk_recursed_bytes(pRExC_state->study_chunk_recursed_bytes) \ |
331 | (pRExC_state->study_chunk_recursed_bytes) |
332 | #define RExC_in_lookaround(pRExC_state->in_lookaround) (pRExC_state->in_lookaround) |
333 | #define RExC_contains_locale(pRExC_state->contains_locale) (pRExC_state->contains_locale) |
334 | #define RExC_recode_x_to_native(pRExC_state->recode_x_to_native) (pRExC_state->recode_x_to_native) |
335 | |
336 | #ifdef EBCDIC |
337 | # define SET_recode_x_to_native(x)(void)0 \ |
338 | STMT_STARTdo { RExC_recode_x_to_native(pRExC_state->recode_x_to_native) = (x); } STMT_ENDwhile (0) |
339 | #else |
340 | # define SET_recode_x_to_native(x)(void)0 NOOP(void)0 |
341 | #endif |
342 | |
343 | #define RExC_in_multi_char_class(pRExC_state->in_multi_char_class) (pRExC_state->in_multi_char_class) |
344 | #define RExC_frame_head(pRExC_state->frame_head) (pRExC_state->frame_head) |
345 | #define RExC_frame_last(pRExC_state->frame_last) (pRExC_state->frame_last) |
346 | #define RExC_frame_count(pRExC_state->frame_count) (pRExC_state->frame_count) |
347 | #define RExC_strict(pRExC_state->strict) (pRExC_state->strict) |
348 | #define RExC_study_started(pRExC_state->study_started) (pRExC_state->study_started) |
349 | #define RExC_warn_text(pRExC_state->warn_text) (pRExC_state->warn_text) |
350 | #define RExC_in_script_run(pRExC_state->in_script_run) (pRExC_state->in_script_run) |
351 | #define RExC_use_BRANCHJ(pRExC_state->use_BRANCHJ) (pRExC_state->use_BRANCHJ) |
352 | #define RExC_warned_WARN_EXPERIMENTAL__VLB(pRExC_state->sWARN_EXPERIMENTAL__VLB) (pRExC_state->sWARN_EXPERIMENTAL__VLB) |
353 | #define RExC_warned_WARN_EXPERIMENTAL__REGEX_SETS(pRExC_state->sWARN_EXPERIMENTAL__REGEX_SETS) (pRExC_state->sWARN_EXPERIMENTAL__REGEX_SETS) |
354 | #define RExC_unlexed_names(pRExC_state->unlexed_names) (pRExC_state->unlexed_names) |
355 | |
356 | /* Heuristic check on the complexity of the pattern: if TOO_NAUGHTY, we set |
357 | * a flag to disable back-off on the fixed/floating substrings - if it's |
358 | * a high complexity pattern we assume the benefit of avoiding a full match |
359 | * is worth the cost of checking for the substrings even if they rarely help. |
360 | */ |
361 | #define RExC_naughty(pRExC_state->naughty) (pRExC_state->naughty) |
362 | #define TOO_NAUGHTY(10) (10) |
363 | #define MARK_NAUGHTY(add)if ((pRExC_state->naughty) < (10)) (pRExC_state->naughty ) += (add) \ |
364 | if (RExC_naughty(pRExC_state->naughty) < TOO_NAUGHTY(10)) \ |
365 | RExC_naughty(pRExC_state->naughty) += (add) |
366 | #define MARK_NAUGHTY_EXP(exp, add)if ((pRExC_state->naughty) < (10)) (pRExC_state->naughty ) += (pRExC_state->naughty) / (exp) + (add) \ |
367 | if (RExC_naughty(pRExC_state->naughty) < TOO_NAUGHTY(10)) \ |
368 | RExC_naughty(pRExC_state->naughty) += RExC_naughty(pRExC_state->naughty) / (exp) + (add) |
369 | |
370 | #define ISMULT1(c)((c) == '*' || (c) == '+' || (c) == '?') ((c) == '*' || (c) == '+' || (c) == '?') |
371 | #define ISMULT2(s)((*s) == '*' || (*s) == '+' || (*s) == '?' || ((*s) == '{' && S_regcurly(s))) ((*s) == '*' || (*s) == '+' || (*s) == '?' || \ |
372 | ((*s) == '{' && regcurlyS_regcurly(s))) |
373 | |
374 | /* |
375 | * Flags to be passed up and down. |
376 | */ |
377 | #define WORST0 0 /* Worst case. */ |
378 | #define HASWIDTH0x01 0x01 /* Known to not match null strings, could match |
379 | non-null ones. */ |
380 | |
381 | /* Simple enough to be STAR/PLUS operand; in an EXACTish node must be a single |
382 | * character. (There needs to be a case: in the switch statement in regexec.c |
383 | * for any node marked SIMPLE.) Note that this is not the same thing as |
384 | * REGNODE_SIMPLE */ |
385 | #define SIMPLE0x02 0x02 |
386 | #define SPSTART0x04 0x04 /* Starts with * or + */ |
387 | #define POSTPONED0x08 0x08 /* (?1),(?&name), (??{...}) or similar */ |
388 | #define TRYAGAIN0x10 0x10 /* Weeded out a declaration. */ |
389 | #define RESTART_PARSE0x20 0x20 /* Need to redo the parse */ |
390 | #define NEED_UTF80x40 0x40 /* In conjunction with RESTART_PARSE, need to |
391 | calcuate sizes as UTF-8 */ |
392 | |
393 | #define REG_NODE_NUM(x)((x) ? (int)((x)-(pRExC_state->emit_start)) : -1) ((x) ? (int)((x)-RExC_emit_start(pRExC_state->emit_start)) : -1) |
394 | |
395 | /* whether trie related optimizations are enabled */ |
396 | #if PERL_ENABLE_EXTENDED_TRIE_OPTIMISATION1 |
397 | #define TRIE_STUDY_OPT |
398 | #define FULL_TRIE_STUDY |
399 | #define TRIE_STCLASS |
400 | #endif |
401 | |
402 | |
403 | |
404 | #define PBYTE(u8str,paren)((U8*)(u8str))[(paren) >> 3] ((U8*)(u8str))[(paren) >> 3] |
405 | #define PBITVAL(paren)(1 << ((paren) & 7)) (1 << ((paren) & 7)) |
406 | #define PAREN_OFFSET(depth)((pRExC_state->study_chunk_recursed) + (depth) * (pRExC_state ->study_chunk_recursed_bytes)) \ |
407 | (RExC_study_chunk_recursed(pRExC_state->study_chunk_recursed) + (depth) * RExC_study_chunk_recursed_bytes(pRExC_state->study_chunk_recursed_bytes)) |
408 | #define PAREN_TEST(depth, paren)(((U8*)(((pRExC_state->study_chunk_recursed) + (depth) * ( pRExC_state->study_chunk_recursed_bytes))))[(paren) >> 3] & (1 << ((paren) & 7))) \ |
409 | (PBYTE(PAREN_OFFSET(depth), paren)((U8*)(((pRExC_state->study_chunk_recursed) + (depth) * (pRExC_state ->study_chunk_recursed_bytes))))[(paren) >> 3] & PBITVAL(paren)(1 << ((paren) & 7))) |
410 | #define PAREN_SET(depth, paren)(((U8*)(((pRExC_state->study_chunk_recursed) + (depth) * ( pRExC_state->study_chunk_recursed_bytes))))[(paren) >> 3] |= (1 << ((paren) & 7))) \ |
411 | (PBYTE(PAREN_OFFSET(depth), paren)((U8*)(((pRExC_state->study_chunk_recursed) + (depth) * (pRExC_state ->study_chunk_recursed_bytes))))[(paren) >> 3] |= PBITVAL(paren)(1 << ((paren) & 7))) |
412 | #define PAREN_UNSET(depth, paren)(((U8*)(((pRExC_state->study_chunk_recursed) + (depth) * ( pRExC_state->study_chunk_recursed_bytes))))[(paren) >> 3] &= ~(1 << ((paren) & 7))) \ |
413 | (PBYTE(PAREN_OFFSET(depth), paren)((U8*)(((pRExC_state->study_chunk_recursed) + (depth) * (pRExC_state ->study_chunk_recursed_bytes))))[(paren) >> 3] &= ~PBITVAL(paren)(1 << ((paren) & 7))) |
414 | |
415 | #define REQUIRE_UTF8(flagp)do { if (!(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) { *flagp = 0x20|0x40; return 0; } } while (0) STMT_STARTdo { \ |
416 | if (!UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) { \ |
417 | *flagp = RESTART_PARSE0x20|NEED_UTF80x40; \ |
418 | return 0; \ |
419 | } \ |
420 | } STMT_ENDwhile (0) |
421 | |
422 | /* /u is to be chosen if we are supposed to use Unicode rules, or if the |
423 | * pattern is in UTF-8. This latter condition is in case the outermost rules |
424 | * are locale. See GH #17278 */ |
425 | #define toUSE_UNI_CHARSET_NOT_DEPENDS((pRExC_state->uni_semantics) || (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) (RExC_uni_semantics(pRExC_state->uni_semantics) || UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
426 | |
427 | /* Change from /d into /u rules, and restart the parse. RExC_uni_semantics is |
428 | * a flag that indicates we need to override /d with /u as a result of |
429 | * something in the pattern. It should only be used in regards to calling |
430 | * set_regex_charset() or get_regex_charset() */ |
431 | #define REQUIRE_UNI_RULES(flagp, restart_retval)do { if ((get_regex_charset((pRExC_state->flags)) == REGEX_DEPENDS_CHARSET )) { set_regex_charset(&(pRExC_state->flags), REGEX_UNICODE_CHARSET ); (pRExC_state->uni_semantics) = 1; if ((pRExC_state-> seen_d_op) && __builtin_expect(((! ((pRExC_state-> total_par) < 0)) ? (_Bool)1 : (_Bool)0),(1))) { *flagp |= 0x20 ; return restart_retval; } } } while (0) \ |
432 | STMT_STARTdo { \ |
433 | if (DEPENDS_SEMANTICS(get_regex_charset((pRExC_state->flags)) == REGEX_DEPENDS_CHARSET )) { \ |
434 | set_regex_charset(&RExC_flags(pRExC_state->flags), REGEX_UNICODE_CHARSET); \ |
435 | RExC_uni_semantics(pRExC_state->uni_semantics) = 1; \ |
436 | if (RExC_seen_d_op(pRExC_state->seen_d_op) && LIKELY(! IN_PARENS_PASS)__builtin_expect(((! ((pRExC_state->total_par) < 0)) ? ( _Bool)1 : (_Bool)0),(1))) { \ |
437 | /* No need to restart the parse if we haven't seen \ |
438 | * anything that differs between /u and /d, and no need \ |
439 | * to restart immediately if we're going to reparse \ |
440 | * anyway to count parens */ \ |
441 | *flagp |= RESTART_PARSE0x20; \ |
442 | return restart_retval; \ |
443 | } \ |
444 | } \ |
445 | } STMT_ENDwhile (0) |
446 | |
447 | #define REQUIRE_BRANCHJ(flagp, restart_retval)do { (pRExC_state->use_BRANCHJ) = 1; *flagp |= 0x20; return restart_retval; } while (0) \ |
448 | STMT_STARTdo { \ |
449 | RExC_use_BRANCHJ(pRExC_state->use_BRANCHJ) = 1; \ |
450 | *flagp |= RESTART_PARSE0x20; \ |
451 | return restart_retval; \ |
452 | } STMT_ENDwhile (0) |
453 | |
454 | /* Until we have completed the parse, we leave RExC_total_parens at 0 or |
455 | * less. After that, it must always be positive, because the whole re is |
456 | * considered to be surrounded by virtual parens. Setting it to negative |
457 | * indicates there is some construct that needs to know the actual number of |
458 | * parens to be properly handled. And that means an extra pass will be |
459 | * required after we've counted them all */ |
460 | #define ALL_PARENS_COUNTED((pRExC_state->total_par) > 0) (RExC_total_parens(pRExC_state->total_par) > 0) |
461 | #define REQUIRE_PARENS_PASSdo { if (! ((pRExC_state->total_par) > 0)) (pRExC_state ->total_par) = -1; } while (0) \ |
462 | STMT_STARTdo { /* No-op if have completed a pass */ \ |
463 | if (! ALL_PARENS_COUNTED((pRExC_state->total_par) > 0)) RExC_total_parens(pRExC_state->total_par) = -1; \ |
464 | } STMT_ENDwhile (0) |
465 | #define IN_PARENS_PASS((pRExC_state->total_par) < 0) (RExC_total_parens(pRExC_state->total_par) < 0) |
466 | |
467 | |
468 | /* This is used to return failure (zero) early from the calling function if |
469 | * various flags in 'flags' are set. Two flags always cause a return: |
470 | * 'RESTART_PARSE' and 'NEED_UTF8'. 'extra' can be used to specify any |
471 | * additional flags that should cause a return; 0 if none. If the return will |
472 | * be done, '*flagp' is first set to be all of the flags that caused the |
473 | * return. */ |
474 | #define RETURN_FAIL_ON_RESTART_OR_FLAGS(flags,flagp,extra)do { if ((flags) & (0x20|0x40|(extra))) { *(flagp) = (flags ) & (0x20|0x40|(extra)); return 0; } } while (0) \ |
475 | STMT_STARTdo { \ |
476 | if ((flags) & (RESTART_PARSE0x20|NEED_UTF80x40|(extra))) { \ |
477 | *(flagp) = (flags) & (RESTART_PARSE0x20|NEED_UTF80x40|(extra)); \ |
478 | return 0; \ |
479 | } \ |
480 | } STMT_ENDwhile (0) |
481 | |
482 | #define MUST_RESTART(flags)((flags) & (0x20)) ((flags) & (RESTART_PARSE0x20)) |
483 | |
484 | #define RETURN_FAIL_ON_RESTART(flags,flagp)do { if ((flags) & (0x20|0x40|(0))) { *(flagp) = (flags) & (0x20|0x40|(0)); return 0; } } while (0) \ |
485 | RETURN_FAIL_ON_RESTART_OR_FLAGS( flags, flagp, 0)do { if ((flags) & (0x20|0x40|(0))) { *(flagp) = (flags) & (0x20|0x40|(0)); return 0; } } while (0) |
486 | #define RETURN_FAIL_ON_RESTART_FLAGP(flagp)if (((*(flagp)) & (0x20))) return 0 \ |
487 | if (MUST_RESTART(*(flagp))((*(flagp)) & (0x20))) return 0 |
488 | |
489 | /* This converts the named class defined in regcomp.h to its equivalent class |
490 | * number defined in handy.h. */ |
491 | #define namedclass_to_classnum(class)((int) ((class) / 2)) ((int) ((class) / 2)) |
492 | #define classnum_to_namedclass(classnum)((classnum) * 2) ((classnum) * 2) |
493 | |
494 | #define _invlist_union_complement_2nd(a, b, output)Perl__invlist_union_maybe_complement_2nd( a,b,(1),output) \ |
495 | _invlist_union_maybe_complement_2nd(a, b, TRUE, output)Perl__invlist_union_maybe_complement_2nd( a,b,(1),output) |
496 | #define _invlist_intersection_complement_2nd(a, b, output)Perl__invlist_intersection_maybe_complement_2nd( a,b,(1),output ) \ |
497 | _invlist_intersection_maybe_complement_2nd(a, b, TRUE, output)Perl__invlist_intersection_maybe_complement_2nd( a,b,(1),output ) |
498 | |
499 | /* We add a marker if we are deferring expansion of a property that is both |
500 | * 1) potentiallly user-defined; and |
501 | * 2) could also be an official Unicode property. |
502 | * |
503 | * Without this marker, any deferred expansion can only be for a user-defined |
504 | * one. This marker shouldn't conflict with any that could be in a legal name, |
505 | * and is appended to its name to indicate this. There is a string and |
506 | * character form */ |
507 | #define DEFERRED_COULD_BE_OFFICIAL_MARKERs"~" "~" |
508 | #define DEFERRED_COULD_BE_OFFICIAL_MARKERc'~' '~' |
509 | |
510 | /* What is infinity for optimization purposes */ |
511 | #define OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1) SSize_t_MAX(ssize_t)(~(size_t)0 >> 1) |
512 | |
513 | /* About scan_data_t. |
514 | |
515 | During optimisation we recurse through the regexp program performing |
516 | various inplace (keyhole style) optimisations. In addition study_chunk |
517 | and scan_commit populate this data structure with information about |
518 | what strings MUST appear in the pattern. We look for the longest |
519 | string that must appear at a fixed location, and we look for the |
520 | longest string that may appear at a floating location. So for instance |
521 | in the pattern: |
522 | |
523 | /FOO[xX]A.*B[xX]BAR/ |
524 | |
525 | Both 'FOO' and 'A' are fixed strings. Both 'B' and 'BAR' are floating |
526 | strings (because they follow a .* construct). study_chunk will identify |
527 | both FOO and BAR as being the longest fixed and floating strings respectively. |
528 | |
529 | The strings can be composites, for instance |
530 | |
531 | /(f)(o)(o)/ |
532 | |
533 | will result in a composite fixed substring 'foo'. |
534 | |
535 | For each string some basic information is maintained: |
536 | |
537 | - min_offset |
538 | This is the position the string must appear at, or not before. |
539 | It also implicitly (when combined with minlenp) tells us how many |
540 | characters must match before the string we are searching for. |
541 | Likewise when combined with minlenp and the length of the string it |
542 | tells us how many characters must appear after the string we have |
543 | found. |
544 | |
545 | - max_offset |
546 | Only used for floating strings. This is the rightmost point that |
547 | the string can appear at. If set to OPTIMIZE_INFTY it indicates that the |
548 | string can occur infinitely far to the right. |
549 | For fixed strings, it is equal to min_offset. |
550 | |
551 | - minlenp |
552 | A pointer to the minimum number of characters of the pattern that the |
553 | string was found inside. This is important as in the case of positive |
554 | lookahead or positive lookbehind we can have multiple patterns |
555 | involved. Consider |
556 | |
557 | /(?=FOO).*F/ |
558 | |
559 | The minimum length of the pattern overall is 3, the minimum length |
560 | of the lookahead part is 3, but the minimum length of the part that |
561 | will actually match is 1. So 'FOO's minimum length is 3, but the |
562 | minimum length for the F is 1. This is important as the minimum length |
563 | is used to determine offsets in front of and behind the string being |
564 | looked for. Since strings can be composites this is the length of the |
565 | pattern at the time it was committed with a scan_commit. Note that |
566 | the length is calculated by study_chunk, so that the minimum lengths |
567 | are not known until the full pattern has been compiled, thus the |
568 | pointer to the value. |
569 | |
570 | - lookbehind |
571 | |
572 | In the case of lookbehind the string being searched for can be |
573 | offset past the start point of the final matching string. |
574 | If this value was just blithely removed from the min_offset it would |
575 | invalidate some of the calculations for how many chars must match |
576 | before or after (as they are derived from min_offset and minlen and |
577 | the length of the string being searched for). |
578 | When the final pattern is compiled and the data is moved from the |
579 | scan_data_t structure into the regexp structure the information |
580 | about lookbehind is factored in, with the information that would |
581 | have been lost precalculated in the end_shift field for the |
582 | associated string. |
583 | |
584 | The fields pos_min and pos_delta are used to store the minimum offset |
585 | and the delta to the maximum offset at the current point in the pattern. |
586 | |
587 | */ |
588 | |
589 | struct scan_data_substrs { |
590 | SV *str; /* longest substring found in pattern */ |
591 | SSize_tssize_t min_offset; /* earliest point in string it can appear */ |
592 | SSize_tssize_t max_offset; /* latest point in string it can appear */ |
593 | SSize_tssize_t *minlenp; /* pointer to the minlen relevant to the string */ |
594 | SSize_tssize_t lookbehind; /* is the pos of the string modified by LB */ |
595 | I32 flags; /* per substring SF_* and SCF_* flags */ |
596 | }; |
597 | |
598 | typedef struct scan_data_t { |
599 | /*I32 len_min; unused */ |
600 | /*I32 len_delta; unused */ |
601 | SSize_tssize_t pos_min; |
602 | SSize_tssize_t pos_delta; |
603 | SV *last_found; |
604 | SSize_tssize_t last_end; /* min value, <0 unless valid. */ |
605 | SSize_tssize_t last_start_min; |
606 | SSize_tssize_t last_start_max; |
607 | U8 cur_is_floating; /* whether the last_* values should be set as |
608 | * the next fixed (0) or floating (1) |
609 | * substring */ |
610 | |
611 | /* [0] is longest fixed substring so far, [1] is longest float so far */ |
612 | struct scan_data_substrs substrs[2]; |
613 | |
614 | I32 flags; /* common SF_* and SCF_* flags */ |
615 | I32 whilem_c; |
616 | SSize_tssize_t *last_closep; |
617 | regnode_ssc *start_class; |
618 | } scan_data_t; |
619 | |
620 | /* |
621 | * Forward declarations for pregcomp()'s friends. |
622 | */ |
623 | |
624 | static const scan_data_t zero_scan_data = { |
625 | 0, 0, NULL((void*)0), 0, 0, 0, 0, |
626 | { |
627 | { NULL((void*)0), 0, 0, 0, 0, 0 }, |
628 | { NULL((void*)0), 0, 0, 0, 0, 0 }, |
629 | }, |
630 | 0, 0, NULL((void*)0), NULL((void*)0) |
631 | }; |
632 | |
633 | /* study flags */ |
634 | |
635 | #define SF_BEFORE_SEOL0x0001 0x0001 |
636 | #define SF_BEFORE_MEOL0x0002 0x0002 |
637 | #define SF_BEFORE_EOL(0x0001|0x0002) (SF_BEFORE_SEOL0x0001|SF_BEFORE_MEOL0x0002) |
638 | |
639 | #define SF_IS_INF0x0040 0x0040 |
640 | #define SF_HAS_PAR0x0080 0x0080 |
641 | #define SF_IN_PAR0x0100 0x0100 |
642 | #define SF_HAS_EVAL0x0200 0x0200 |
643 | |
644 | |
645 | /* SCF_DO_SUBSTR is the flag that tells the regexp analyzer to track the |
646 | * longest substring in the pattern. When it is not set the optimiser keeps |
647 | * track of position, but does not keep track of the actual strings seen, |
648 | * |
649 | * So for instance /foo/ will be parsed with SCF_DO_SUBSTR being true, but |
650 | * /foo/i will not. |
651 | * |
652 | * Similarly, /foo.*(blah|erm|huh).*fnorble/ will have "foo" and "fnorble" |
653 | * parsed with SCF_DO_SUBSTR on, but while processing the (...) it will be |
654 | * turned off because of the alternation (BRANCH). */ |
655 | #define SCF_DO_SUBSTR0x0400 0x0400 |
656 | |
657 | #define SCF_DO_STCLASS_AND0x0800 0x0800 |
658 | #define SCF_DO_STCLASS_OR0x1000 0x1000 |
659 | #define SCF_DO_STCLASS(0x0800|0x1000) (SCF_DO_STCLASS_AND0x0800|SCF_DO_STCLASS_OR0x1000) |
660 | #define SCF_WHILEM_VISITED_POS0x2000 0x2000 |
661 | |
662 | #define SCF_TRIE_RESTUDY0x4000 0x4000 /* Do restudy? */ |
663 | #define SCF_SEEN_ACCEPT0x8000 0x8000 |
664 | #define SCF_TRIE_DOING_RESTUDY0x10000 0x10000 |
665 | #define SCF_IN_DEFINE0x20000 0x20000 |
666 | |
667 | |
668 | |
669 | |
670 | #define UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) cBOOL(RExC_utf8)(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) |
671 | |
672 | /* The enums for all these are ordered so things work out correctly */ |
673 | #define LOC(get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET ) (get_regex_charset(RExC_flags(pRExC_state->flags)) == REGEX_LOCALE_CHARSET) |
674 | #define DEPENDS_SEMANTICS(get_regex_charset((pRExC_state->flags)) == REGEX_DEPENDS_CHARSET ) (get_regex_charset(RExC_flags(pRExC_state->flags)) \ |
675 | == REGEX_DEPENDS_CHARSET) |
676 | #define UNI_SEMANTICS(get_regex_charset((pRExC_state->flags)) == REGEX_UNICODE_CHARSET ) (get_regex_charset(RExC_flags(pRExC_state->flags)) == REGEX_UNICODE_CHARSET) |
677 | #define AT_LEAST_UNI_SEMANTICS(get_regex_charset((pRExC_state->flags)) >= REGEX_UNICODE_CHARSET ) (get_regex_charset(RExC_flags(pRExC_state->flags)) \ |
678 | >= REGEX_UNICODE_CHARSET) |
679 | #define ASCII_RESTRICTED(get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_RESTRICTED_CHARSET ) (get_regex_charset(RExC_flags(pRExC_state->flags)) \ |
680 | == REGEX_ASCII_RESTRICTED_CHARSET) |
681 | #define AT_LEAST_ASCII_RESTRICTED(get_regex_charset((pRExC_state->flags)) >= REGEX_ASCII_RESTRICTED_CHARSET ) (get_regex_charset(RExC_flags(pRExC_state->flags)) \ |
682 | >= REGEX_ASCII_RESTRICTED_CHARSET) |
683 | #define ASCII_FOLD_RESTRICTED(get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET ) (get_regex_charset(RExC_flags(pRExC_state->flags)) \ |
684 | == REGEX_ASCII_MORE_RESTRICTED_CHARSET) |
685 | |
686 | #define FOLD(((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool )1 : (_Bool)0) cBOOL(RExC_flags & RXf_PMf_FOLD)(((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool )1 : (_Bool)0) |
687 | |
688 | /* For programs that want to be strictly Unicode compatible by dying if any |
689 | * attempt is made to match a non-Unicode code point against a Unicode |
690 | * property. */ |
691 | #define ALWAYS_WARN_SUPER(PL_curcop && !((PL_curcop->cop_warnings) == ((void *)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_NONE ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* ((((48 )) & 0xFF))+1) / 8)] & (1 << ((2*((((48 ) ) & 0xFF))+1) % 8)))) || (((((48 )) >>8) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((48 )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((((48 )) >>8) & 0xFF))+1) % 8)))) || (((((48 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((48 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((48 )) >>16) & 0xFF ))+1) % 8)))) || (((((48 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((48 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((48 )) >> 24) & 0xFF))+1) % 8))))))))))) ckDEAD(packWARN(WARN_NON_UNICODE))(PL_curcop && !((PL_curcop->cop_warnings) == ((void *)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_NONE ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* ((((48 )) & 0xFF))+1) / 8)] & (1 << ((2*((((48 ) ) & 0xFF))+1) % 8)))) || (((((48 )) >>8) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((48 )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((((48 )) >>8) & 0xFF))+1) % 8)))) || (((((48 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((48 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((48 )) >>16) & 0xFF ))+1) % 8)))) || (((((48 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((48 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((48 )) >> 24) & 0xFF))+1) % 8))))))))))) |
692 | |
693 | #define OOB_NAMEDCLASS-1 -1 |
694 | |
695 | /* There is no code point that is out-of-bounds, so this is problematic. But |
696 | * its only current use is to initialize a variable that is always set before |
697 | * looked at. */ |
698 | #define OOB_UNICODE0xDEADBEEF 0xDEADBEEF |
699 | |
700 | #define CHR_SVLEN(sv)((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ? Perl_sv_len_utf8 ( sv) : (*({ const SV *const _svcur = (const SV *)(sv); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 700, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 700, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 700, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))) (UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ? sv_len_utf8(sv)Perl_sv_len_utf8( sv) : SvCUR(sv)(*({ const SV *const _svcur = (const SV *)(sv); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 700, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 700, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 700, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))) |
701 | |
702 | |
703 | /* length of regex to show in messages that don't mark a position within */ |
704 | #define RegexLengthToShowInErrorMessages127 127 |
705 | |
706 | /* |
707 | * If MARKER[12] are adjusted, be sure to adjust the constants at the top |
708 | * of t/op/regmesg.t, the tests in t/op/re_tests, and those in |
709 | * op/pragma/warn/regcomp. |
710 | */ |
711 | #define MARKER1"<-- HERE" "<-- HERE" /* marker as it appears in the description */ |
712 | #define MARKER2" <-- HERE " " <-- HERE " /* marker as it appears within the regex */ |
713 | |
714 | #define REPORT_LOCATION" in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/" " in regex; marked by " MARKER1"<-- HERE" \ |
715 | " in m/%" UTF8f"d%" "lu" "%4p" MARKER2" <-- HERE " "%" UTF8f"d%" "lu" "%4p" "/" |
716 | |
717 | /* The code in this file in places uses one level of recursion with parsing |
718 | * rebased to an alternate string constructed by us in memory. This can take |
719 | * the form of something that is completely different from the input, or |
720 | * something that uses the input as part of the alternate. In the first case, |
721 | * there should be no possibility of an error, as we are in complete control of |
722 | * the alternate string. But in the second case we don't completely control |
723 | * the input portion, so there may be errors in that. Here's an example: |
724 | * /[abc\x{DF}def]/ui |
725 | * is handled specially because \x{df} folds to a sequence of more than one |
726 | * character: 'ss'. What is done is to create and parse an alternate string, |
727 | * which looks like this: |
728 | * /(?:\x{DF}|[abc\x{DF}def])/ui |
729 | * where it uses the input unchanged in the middle of something it constructs, |
730 | * which is a branch for the DF outside the character class, and clustering |
731 | * parens around the whole thing. (It knows enough to skip the DF inside the |
732 | * class while in this substitute parse.) 'abc' and 'def' may have errors that |
733 | * need to be reported. The general situation looks like this: |
734 | * |
735 | * |<------- identical ------>| |
736 | * sI tI xI eI |
737 | * Input: --------------------------------------------------------------- |
738 | * Constructed: --------------------------------------------------- |
739 | * sC tC xC eC EC |
740 | * |<------- identical ------>| |
741 | * |
742 | * sI..eI is the portion of the input pattern we are concerned with here. |
743 | * sC..EC is the constructed substitute parse string. |
744 | * sC..tC is constructed by us |
745 | * tC..eC is an exact duplicate of the portion of the input pattern tI..eI. |
746 | * In the diagram, these are vertically aligned. |
747 | * eC..EC is also constructed by us. |
748 | * xC is the position in the substitute parse string where we found a |
749 | * problem. |
750 | * xI is the position in the original pattern corresponding to xC. |
751 | * |
752 | * We want to display a message showing the real input string. Thus we need to |
753 | * translate from xC to xI. We know that xC >= tC, since the portion of the |
754 | * string sC..tC has been constructed by us, and so shouldn't have errors. We |
755 | * get: |
756 | * xI = tI + (xC - tC) |
757 | * |
758 | * When the substitute parse is constructed, the code needs to set: |
759 | * RExC_start (sC) |
760 | * RExC_end (eC) |
761 | * RExC_copy_start_in_input (tI) |
762 | * RExC_copy_start_in_constructed (tC) |
763 | * and restore them when done. |
764 | * |
765 | * During normal processing of the input pattern, both |
766 | * 'RExC_copy_start_in_input' and 'RExC_copy_start_in_constructed' are set to |
767 | * sI, so that xC equals xI. |
768 | */ |
769 | |
770 | #define sI(pRExC_state->precomp) RExC_precomp(pRExC_state->precomp) |
771 | #define eI(pRExC_state->precomp_end) RExC_precomp_end(pRExC_state->precomp_end) |
772 | #define sC(pRExC_state->start) RExC_start(pRExC_state->start) |
773 | #define eC(pRExC_state->end) RExC_end(pRExC_state->end) |
774 | #define tI(pRExC_state->copy_start_in_input) RExC_copy_start_in_input(pRExC_state->copy_start_in_input) |
775 | #define tC(pRExC_state->copy_start) RExC_copy_start_in_constructed(pRExC_state->copy_start) |
776 | #define xI(xC)((pRExC_state->copy_start_in_input) + (xC - (pRExC_state-> copy_start))) (tI(pRExC_state->copy_start_in_input) + (xC - tC(pRExC_state->copy_start))) |
777 | #define xI_offset(xC)(((pRExC_state->copy_start_in_input) + (xC - (pRExC_state-> copy_start))) - (pRExC_state->precomp)) (xI(xC)((pRExC_state->copy_start_in_input) + (xC - (pRExC_state-> copy_start))) - sI(pRExC_state->precomp)) |
778 | |
779 | #define REPORT_LOCATION_ARGS(xC)(int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + (xC - (pRExC_state-> copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 779, (IV) (((pRExC_state->copy_start_in_input) + (xC - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)), (int) (((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool) 1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (xC - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (xC - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (xC - (pRExC_state ->copy_start)))) \ |
780 | UTF8fARG(UTF, \(int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + (xC - (pRExC_state-> copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 788, (IV) (((pRExC_state->copy_start_in_input) + (xC - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)) |
781 | (xI(xC) > eI) /* Don't run off end */ \(int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + (xC - (pRExC_state-> copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 788, (IV) (((pRExC_state->copy_start_in_input) + (xC - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)) |
782 | ? eI - sI /* Length before the <--HERE */ \(int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + (xC - (pRExC_state-> copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 788, (IV) (((pRExC_state->copy_start_in_input) + (xC - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)) |
783 | : ((xI_offset(xC) >= 0) \(int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + (xC - (pRExC_state-> copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 788, (IV) (((pRExC_state->copy_start_in_input) + (xC - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)) |
784 | ? xI_offset(xC) \(int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + (xC - (pRExC_state-> copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 788, (IV) (((pRExC_state->copy_start_in_input) + (xC - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)) |
785 | : (Perl_croak(aTHX_ "panic: %s: %d: negative offset: %" \(int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + (xC - (pRExC_state-> copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 788, (IV) (((pRExC_state->copy_start_in_input) + (xC - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)) |
786 | IVdf " trying to output message for " \(int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + (xC - (pRExC_state-> copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 788, (IV) (((pRExC_state->copy_start_in_input) + (xC - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)) |
787 | " pattern %.*s", \(int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + (xC - (pRExC_state-> copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 788, (IV) (((pRExC_state->copy_start_in_input) + (xC - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)) |
788 | __FILE__, __LINE__, (IV) xI_offset(xC), \(int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + (xC - (pRExC_state-> copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 788, (IV) (((pRExC_state->copy_start_in_input) + (xC - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)) |
789 | ((int) (eC - sC)), sC), 0)), \(int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + (xC - (pRExC_state-> copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 788, (IV) (((pRExC_state->copy_start_in_input) + (xC - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)) |
790 | sI)(int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + (xC - (pRExC_state-> copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 788, (IV) (((pRExC_state->copy_start_in_input) + (xC - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)), /* The input pattern printed up to the <--HERE */ \ |
791 | UTF8fARG(UTF, \(int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (xC - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (xC - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (xC - (pRExC_state ->copy_start)))) |
792 | (xI(xC) > eI) ? 0 : eI - xI(xC), /* Length after <--HERE */ \(int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (xC - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (xC - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (xC - (pRExC_state ->copy_start)))) |
793 | (xI(xC) > eI) ? eI : xI(xC))(int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (xC - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (xC - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (xC - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (xC - (pRExC_state ->copy_start)))) /* pattern after <--HERE */ |
794 | |
795 | /* Used to point after bad bytes for an error message, but avoid skipping |
796 | * past a nul byte. */ |
797 | #define SKIP_IF_CHAR(s, e)(!*(s) ? 0 : (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ? ((((e) >= (s)) ? (void)0 : __assert2("re_comp.c", 797, __func__ , "(e) >= (s)")), ((e) - (s)) <= 0 ? 0 : (((((e) - (s)) )<(PL_utf8skip[*(const U8*)(s)]))?(((e) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1) (!*(s) ? 0 : UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ? UTF8_SAFE_SKIP(s, e)((((e) >= (s)) ? (void)0 : __assert2("re_comp.c", 797, __func__ , "(e) >= (s)")), ((e) - (s)) <= 0 ? 0 : (((((e) - (s)) )<(PL_utf8skip[*(const U8*)(s)]))?(((e) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1) |
798 | |
799 | /* Set up to clean up after our imminent demise */ |
800 | #define PREPARE_TO_DIEdo { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *) (((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))),11) ; if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0) \ |
801 | STMT_STARTdo { \ |
802 | if (RExC_rx_sv(pRExC_state->rx_sv)) \ |
803 | SAVEFREESV(RExC_rx_sv)Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); \ |
804 | if (RExC_open_parens(pRExC_state->open_parens)) \ |
805 | SAVEFREEPV(RExC_open_parens)Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); \ |
806 | if (RExC_close_parens(pRExC_state->close_parens)) \ |
807 | SAVEFREEPV(RExC_close_parens)Perl_save_pushptr( (void *)((char*)((pRExC_state->close_parens ))),10); \ |
808 | } STMT_ENDwhile (0) |
809 | |
810 | /* |
811 | * Calls SAVEDESTRUCTOR_X if needed, then calls Perl_croak with the given |
812 | * arg. Show regex, up to a maximum length. If it's too long, chop and add |
813 | * "...". |
814 | */ |
815 | #define _FAIL(code)do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } code; } while (0) STMT_STARTdo { \ |
816 | const char *ellipses = ""; \ |
817 | IV len = RExC_precomp_end(pRExC_state->precomp_end) - RExC_precomp(pRExC_state->precomp); \ |
818 | \ |
819 | PREPARE_TO_DIEdo { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *) (((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))),11) ; if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); \ |
820 | if (len > RegexLengthToShowInErrorMessages127) { \ |
821 | /* chop 10 shorter than the max, to ensure meaning of "..." */ \ |
822 | len = RegexLengthToShowInErrorMessages127 - 10; \ |
823 | ellipses = "..."; \ |
824 | } \ |
825 | code; \ |
826 | } STMT_ENDwhile (0) |
827 | |
828 | #define FAIL(msg)do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "%s in regex m/%" "d%" "lu" "%4p" "%s/", msg, (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp)) , ellipses); } while (0) _FAIL( \do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "%s in regex m/%" "d%" "lu" "%4p" "%s/", msg, (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp)) , ellipses); } while (0) |
829 | Perl_croak(aTHX_ "%s in regex m/%" UTF8f "%s/", \do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "%s in regex m/%" "d%" "lu" "%4p" "%s/", msg, (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp)) , ellipses); } while (0) |
830 | msg, UTF8fARG(UTF, len, RExC_precomp), ellipses))do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "%s in regex m/%" "d%" "lu" "%4p" "%s/", msg, (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp)) , ellipses); } while (0) |
831 | |
832 | #define FAIL2(msg,arg)do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( msg " in regex m/%" "d%" "lu" "%4p" "%s/", arg, ( int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp)) , ellipses); } while (0) _FAIL( \do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( msg " in regex m/%" "d%" "lu" "%4p" "%s/", arg, ( int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp)) , ellipses); } while (0) |
833 | Perl_croak(aTHX_ msg " in regex m/%" UTF8f "%s/", \do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( msg " in regex m/%" "d%" "lu" "%4p" "%s/", arg, ( int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp)) , ellipses); } while (0) |
834 | arg, UTF8fARG(UTF, len, RExC_precomp), ellipses))do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( msg " in regex m/%" "d%" "lu" "%4p" "%s/", arg, ( int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp)) , ellipses); } while (0) |
835 | |
836 | #define FAIL3(msg,arg1,arg2)do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( msg " in regex m/%" "d%" "lu" "%4p" "%s/", arg1, arg2, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0 )) ? (_Bool)1 : (_Bool)0), (UV)(len), (void*)((pRExC_state-> precomp)), ellipses); } while (0) _FAIL( \do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( msg " in regex m/%" "d%" "lu" "%4p" "%s/", arg1, arg2, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0 )) ? (_Bool)1 : (_Bool)0), (UV)(len), (void*)((pRExC_state-> precomp)), ellipses); } while (0) |
837 | Perl_croak(aTHX_ msg " in regex m/%" UTF8f "%s/", \do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( msg " in regex m/%" "d%" "lu" "%4p" "%s/", arg1, arg2, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0 )) ? (_Bool)1 : (_Bool)0), (UV)(len), (void*)((pRExC_state-> precomp)), ellipses); } while (0) |
838 | arg1, arg2, UTF8fARG(UTF, len, RExC_precomp), ellipses))do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( msg " in regex m/%" "d%" "lu" "%4p" "%s/", arg1, arg2, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0 )) ? (_Bool)1 : (_Bool)0), (UV)(len), (void*)((pRExC_state-> precomp)), ellipses); } while (0) |
839 | |
840 | /* |
841 | * Simple_vFAIL -- like FAIL, but marks the current location in the scan |
842 | */ |
843 | #define Simple_vFAIL(m)do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", m, ( int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 843, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0) STMT_STARTdo { \ |
844 | Perl_croak(aTHX_ "%s" REPORT_LOCATION" in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", \ |
845 | m, REPORT_LOCATION_ARGS(RExC_parse)(int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 845, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); \ |
846 | } STMT_ENDwhile (0) |
847 | |
848 | /* |
849 | * Calls SAVEDESTRUCTOR_X if needed, then Simple_vFAIL() |
850 | */ |
851 | #define vFAIL(m)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", m, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 851, (IV) (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state->start)), 0))), ( void*)((pRExC_state->precomp)), (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ), (void*)((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))))); } while (0); } while (0) STMT_STARTdo { \ |
852 | PREPARE_TO_DIEdo { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *) (((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))),11) ; if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); \ |
853 | Simple_vFAIL(m)do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", m, ( int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 853, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); \ |
854 | } STMT_ENDwhile (0) |
855 | |
856 | /* |
857 | * Like Simple_vFAIL(), but accepts two arguments. |
858 | */ |
859 | #define Simple_vFAIL2(m,a1)do { S_re_croak( (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, (int)(((( (pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : ( _Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state ->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 859, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0) STMT_STARTdo { \ |
860 | S_re_croak(aTHX_ UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0), m REPORT_LOCATION" in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, \ |
861 | REPORT_LOCATION_ARGS(RExC_parse)(int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 861, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); \ |
862 | } STMT_ENDwhile (0) |
863 | |
864 | /* |
865 | * Calls SAVEDESTRUCTOR_X if needed, then Simple_vFAIL2(). |
866 | */ |
867 | #define vFAIL2(m,a1)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 867, (IV) (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state->start)), 0))), ( void*)((pRExC_state->precomp)), (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ), (void*)((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))))); } while (0); } while (0) STMT_STARTdo { \ |
868 | PREPARE_TO_DIEdo { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *) (((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))),11) ; if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); \ |
869 | Simple_vFAIL2(m, a1)do { S_re_croak( (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, (int)(((( (pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : ( _Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state ->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 869, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); \ |
870 | } STMT_ENDwhile (0) |
871 | |
872 | |
873 | /* |
874 | * Like Simple_vFAIL(), but accepts three arguments. |
875 | */ |
876 | #define Simple_vFAIL3(m, a1, a2)do { S_re_croak( (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, (int) (((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool) 1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 876, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0) STMT_STARTdo { \ |
877 | S_re_croak(aTHX_ UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0), m REPORT_LOCATION" in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, \ |
878 | REPORT_LOCATION_ARGS(RExC_parse)(int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 878, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); \ |
879 | } STMT_ENDwhile (0) |
880 | |
881 | /* |
882 | * Calls SAVEDESTRUCTOR_X if needed, then Simple_vFAIL3(). |
883 | */ |
884 | #define vFAIL3(m,a1,a2)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, (int)(((((pRExC_state->utf8)) ? ( _Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 884, (IV) (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state->start)), 0))), ( void*)((pRExC_state->precomp)), (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ), (void*)((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))))); } while (0); } while (0) STMT_STARTdo { \ |
885 | PREPARE_TO_DIEdo { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *) (((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))),11) ; if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); \ |
886 | Simple_vFAIL3(m, a1, a2)do { S_re_croak( (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, (int) (((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool) 1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 886, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); \ |
887 | } STMT_ENDwhile (0) |
888 | |
889 | /* |
890 | * Like Simple_vFAIL(), but accepts four arguments. |
891 | */ |
892 | #define Simple_vFAIL4(m, a1, a2, a3)do { S_re_croak( (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, a3, ( int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 892, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0) STMT_STARTdo { \ |
893 | S_re_croak(aTHX_ UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0), m REPORT_LOCATION" in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, a3, \ |
894 | REPORT_LOCATION_ARGS(RExC_parse)(int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 894, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); \ |
895 | } STMT_ENDwhile (0) |
896 | |
897 | #define vFAIL4(m,a1,a2,a3)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, a3, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 897, (IV) (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state->start)), 0))), ( void*)((pRExC_state->precomp)), (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ), (void*)((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))))); } while (0); } while (0) STMT_STARTdo { \ |
898 | PREPARE_TO_DIEdo { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *) (((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))),11) ; if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); \ |
899 | Simple_vFAIL4(m, a1, a2, a3)do { S_re_croak( (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, a3, ( int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 899, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); \ |
900 | } STMT_ENDwhile (0) |
901 | |
902 | /* A specialized version of vFAIL2 that works with UTF8f */ |
903 | #define vFAIL2utf8f(m, a1)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 903, (IV) (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state->start)), 0))), ( void*)((pRExC_state->precomp)), (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ), (void*)((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))))); } while (0) STMT_STARTdo { \ |
904 | PREPARE_TO_DIEdo { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *) (((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))),11) ; if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); \ |
905 | S_re_croak(aTHX_ UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0), m REPORT_LOCATION" in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, \ |
906 | REPORT_LOCATION_ARGS(RExC_parse)(int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 906, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); \ |
907 | } STMT_ENDwhile (0) |
908 | |
909 | #define vFAIL3utf8f(m, a1, a2)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, (int)(((((pRExC_state->utf8)) ? ( _Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 909, (IV) (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state->start)), 0))), ( void*)((pRExC_state->precomp)), (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ), (void*)((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))))); } while (0) STMT_STARTdo { \ |
910 | PREPARE_TO_DIEdo { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *) (((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))),11) ; if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); \ |
911 | S_re_croak(aTHX_ UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0), m REPORT_LOCATION" in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, \ |
912 | REPORT_LOCATION_ARGS(RExC_parse)(int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 912, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); \ |
913 | } STMT_ENDwhile (0) |
914 | |
915 | /* Setting this to NULL is a signal to not output warnings */ |
916 | #define TURN_OFF_WARNINGS_IN_SUBSTITUTE_PARSEdo { (pRExC_state->save_copy_start) = (pRExC_state->copy_start ); (pRExC_state->copy_start) = ((void*)0); } while (0) \ |
917 | STMT_STARTdo { \ |
918 | RExC_save_copy_start_in_constructed(pRExC_state->save_copy_start) = RExC_copy_start_in_constructed(pRExC_state->copy_start);\ |
919 | RExC_copy_start_in_constructed(pRExC_state->copy_start) = NULL((void*)0); \ |
920 | } STMT_ENDwhile (0) |
921 | #define RESTORE_WARNINGS(pRExC_state->copy_start) = (pRExC_state->save_copy_start ) \ |
922 | RExC_copy_start_in_constructed(pRExC_state->copy_start) = RExC_save_copy_start_in_constructed(pRExC_state->save_copy_start) |
923 | |
924 | /* Since a warning can be generated multiple times as the input is reparsed, we |
925 | * output it the first time we come to that point in the parse, but suppress it |
926 | * otherwise. 'RExC_copy_start_in_constructed' being NULL is a flag to not |
927 | * generate any warnings */ |
928 | #define TO_OUTPUT_WARNINGS(loc)( (pRExC_state->copy_start) && ((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state-> latest_warn_offset )) \ |
929 | ( RExC_copy_start_in_constructed(pRExC_state->copy_start) \ |
930 | && ((xI(loc)((pRExC_state->copy_start_in_input) + (loc - (pRExC_state-> copy_start)))) - RExC_precomp(pRExC_state->precomp)) > (Ptrdiff_tptrdiff_t) RExC_latest_warn_offset(pRExC_state->latest_warn_offset )) |
931 | |
932 | /* After we've emitted a warning, we save the position in the input so we don't |
933 | * output it again */ |
934 | #define UPDATE_WARNINGS_LOC(loc)do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state ->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp))>(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))))))) - (pRExC_state->precomp); } } while (0) \ |
935 | STMT_STARTdo { \ |
936 | if (TO_OUTPUT_WARNINGS(loc)( (pRExC_state->copy_start) && ((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state-> latest_warn_offset ))) { \ |
937 | RExC_latest_warn_offset(pRExC_state->latest_warn_offset ) = MAX(sI, MIN(eI, xI(loc)))((((pRExC_state->precomp))>(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))))))) \ |
938 | - RExC_precomp(pRExC_state->precomp); \ |
939 | } \ |
940 | } STMT_ENDwhile (0) |
941 | |
942 | /* 'warns' is the output of the packWARNx macro used in 'code' */ |
943 | #define _WARN_HELPER(loc, warns, code)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 943, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((warns) & 0xFF))+1) / 8)] & (1 << ( (2*(((warns) & 0xFF))+1) % 8)))) || ((((warns) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((warns) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*((((warns) >>8) & 0xFF))+1) % 8)))) || ((((warns) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*((((warns) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*((((warns) >>16) & 0xFF))+1) % 8)))) || ((((warns) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((warns) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*((((warns) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); code; do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state->precomp )):(((((pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state->precomp ); } } while (0); } } while (0) \ |
944 | STMT_STARTdo { \ |
945 | if (! RExC_copy_start_in_constructed(pRExC_state->copy_start)) { \ |
946 | Perl_croak( aTHX_ "panic! %s: %d: Tried to warn when none" \ |
947 | " expected at '%s'", \ |
948 | __FILE__"re_comp.c", __LINE__948, loc); \ |
949 | } \ |
950 | if (TO_OUTPUT_WARNINGS(loc)( (pRExC_state->copy_start) && ((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state-> latest_warn_offset ))) { \ |
951 | if (ckDEAD(warns)(PL_curcop && !((PL_curcop->cop_warnings) == ((void *)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_NONE ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((warns) & 0xFF))+1) / 8)] & (1 << ((2*(((warns ) & 0xFF))+1) % 8)))) || ((((warns) >>8) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* ((((warns) >>8) & 0xFF))+1) / 8)] & (1 << ((2*((((warns) >>8) & 0xFF))+1) % 8)))) || ((((warns ) >>16) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*((((warns) >>16) & 0xFF))+1) / 8)] & (1 << ((2*((((warns) >>16) & 0xFF ))+1) % 8)))) || ((((warns) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((warns) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*((((warns) >> 24) & 0xFF))+1) % 8)))))))))))) \ |
952 | PREPARE_TO_DIEdo { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *) (((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))),11) ; if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); \ |
953 | code; \ |
954 | UPDATE_WARNINGS_LOC(loc)do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state ->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp))>(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))))))) - (pRExC_state->precomp); } } while (0); \ |
955 | } \ |
956 | } STMT_ENDwhile (0) |
957 | |
958 | /* m is not necessarily a "literal string", in this macro */ |
959 | #define warn_non_literal_string(loc, packed_warn, m)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 959, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((packed_warn) & 0xFF))+1) / 8)] & (1 << ((2*(((packed_warn) & 0xFF))+1) % 8)))) || ((((packed_warn ) >>8) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*((((packed_warn) >>8) & 0xFF ))+1) / 8)] & (1 << ((2*((((packed_warn) >>8) & 0xFF))+1) % 8)))) || ((((packed_warn) >>16) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1)) [((2*((((packed_warn) >>16) & 0xFF))+1) / 8)] & (1 << ((2*((((packed_warn) >>16) & 0xFF))+1) % 8)))) || ((((packed_warn) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packed_warn ) >>24) & 0xFF))+1) / 8)] & (1 << ((2*((( (packed_warn) >>24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))),11); if ( (pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->open_parens))),10); if ((pRExC_state-> close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); Perl_warner( packed_warn , "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", m, (int)((((( pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : ( _Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + (loc - (pRExC_state-> copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 959, (IV) (((pRExC_state->copy_start_in_input) + (loc - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)), (int) (((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool) 1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) \ |
960 | _WARN_HELPER(loc, packed_warn, \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 963, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((packed_warn) & 0xFF))+1) / 8)] & (1 << ((2*(((packed_warn) & 0xFF))+1) % 8)))) || ((((packed_warn ) >>8) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*((((packed_warn) >>8) & 0xFF ))+1) / 8)] & (1 << ((2*((((packed_warn) >>8) & 0xFF))+1) % 8)))) || ((((packed_warn) >>16) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1)) [((2*((((packed_warn) >>16) & 0xFF))+1) / 8)] & (1 << ((2*((((packed_warn) >>16) & 0xFF))+1) % 8)))) || ((((packed_warn) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packed_warn ) >>24) & 0xFF))+1) / 8)] & (1 << ((2*((( (packed_warn) >>24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))),11); if ( (pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->open_parens))),10); if ((pRExC_state-> close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); Perl_warner( packed_warn , "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", m, (int)((((( pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : ( _Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + (loc - (pRExC_state-> copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 963, (IV) (((pRExC_state->copy_start_in_input) + (loc - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)), (int) (((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool) 1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
961 | Perl_warner(aTHX_ packed_warn, \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 963, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((packed_warn) & 0xFF))+1) / 8)] & (1 << ((2*(((packed_warn) & 0xFF))+1) % 8)))) || ((((packed_warn ) >>8) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*((((packed_warn) >>8) & 0xFF ))+1) / 8)] & (1 << ((2*((((packed_warn) >>8) & 0xFF))+1) % 8)))) || ((((packed_warn) >>16) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1)) [((2*((((packed_warn) >>16) & 0xFF))+1) / 8)] & (1 << ((2*((((packed_warn) >>16) & 0xFF))+1) % 8)))) || ((((packed_warn) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packed_warn ) >>24) & 0xFF))+1) / 8)] & (1 << ((2*((( (packed_warn) >>24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))),11); if ( (pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->open_parens))),10); if ((pRExC_state-> close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); Perl_warner( packed_warn , "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", m, (int)((((( pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : ( _Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + (loc - (pRExC_state-> copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 963, (IV) (((pRExC_state->copy_start_in_input) + (loc - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)), (int) (((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool) 1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
962 | "%s" REPORT_LOCATION, \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 963, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((packed_warn) & 0xFF))+1) / 8)] & (1 << ((2*(((packed_warn) & 0xFF))+1) % 8)))) || ((((packed_warn ) >>8) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*((((packed_warn) >>8) & 0xFF ))+1) / 8)] & (1 << ((2*((((packed_warn) >>8) & 0xFF))+1) % 8)))) || ((((packed_warn) >>16) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1)) [((2*((((packed_warn) >>16) & 0xFF))+1) / 8)] & (1 << ((2*((((packed_warn) >>16) & 0xFF))+1) % 8)))) || ((((packed_warn) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packed_warn ) >>24) & 0xFF))+1) / 8)] & (1 << ((2*((( (packed_warn) >>24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))),11); if ( (pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->open_parens))),10); if ((pRExC_state-> close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); Perl_warner( packed_warn , "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", m, (int)((((( pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : ( _Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + (loc - (pRExC_state-> copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 963, (IV) (((pRExC_state->copy_start_in_input) + (loc - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)), (int) (((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool) 1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
963 | m, REPORT_LOCATION_ARGS(loc)))do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 963, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((packed_warn) & 0xFF))+1) / 8)] & (1 << ((2*(((packed_warn) & 0xFF))+1) % 8)))) || ((((packed_warn ) >>8) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*((((packed_warn) >>8) & 0xFF ))+1) / 8)] & (1 << ((2*((((packed_warn) >>8) & 0xFF))+1) % 8)))) || ((((packed_warn) >>16) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1)) [((2*((((packed_warn) >>16) & 0xFF))+1) / 8)] & (1 << ((2*((((packed_warn) >>16) & 0xFF))+1) % 8)))) || ((((packed_warn) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packed_warn ) >>24) & 0xFF))+1) / 8)] & (1 << ((2*((( (packed_warn) >>24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))),11); if ( (pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->open_parens))),10); if ((pRExC_state-> close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); Perl_warner( packed_warn , "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", m, (int)((((( pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : ( _Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + (loc - (pRExC_state-> copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 963, (IV) (((pRExC_state->copy_start_in_input) + (loc - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)), (int) (((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool) 1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
964 | #define reg_warn_non_literal_string(loc, m)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 964, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", m, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 964, (IV) (((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) \ |
965 | warn_non_literal_string(loc, packWARN(WARN_REGEXP), m)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 965, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", m, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 965, (IV) (((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
966 | |
967 | #define ckWARN2_non_literal_string(loc, packwarn, m, a1)do { char * format; size_t format_size = strlen(m) + strlen(" in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/")+ 1; (format = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(format_size) || sizeof(char) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(format_size)) )) ? (size_t)(format_size) : ((size_t)-1)/sizeof(char)) > ( (size_t)-1)/sizeof(char))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), (char*)(Perl_safesysmalloc((size_t )((format_size)*sizeof(char)))))); strlcpy(format, m, format_size ); strlcat(format, " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", format_size ); Perl_save_pushptr( (void *)((char*)(format)),10); do { if ( ! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 967, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((packwarn) & 0xFF))+1) / 8)] & (1 << ((2*(((packwarn) & 0xFF))+1) % 8)))) || ((((packwarn) >> 8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packwarn) >>8) & 0xFF))+1) / 8)] & (1 << ((2*((((packwarn) >>8) & 0xFF))+1) % 8 )))) || ((((packwarn) >>16) & 0xFF) && (((( (U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packwarn) >> 16) & 0xFF))+1) / 8)] & (1 << ((2*((((packwarn) >>16) & 0xFF))+1) % 8)))) || ((((packwarn) >> 24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packwarn) >>24) & 0xFF))+1) / 8)] & (1 << ((2*((((packwarn) >>24) & 0xFF))+1) % 8 )))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( packwarn, format, a1, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 967, (IV) (((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0); } while (0) \ |
968 | STMT_STARTdo { \ |
969 | char * format; \ |
970 | Size_tsize_t format_size = strlen(m) + strlen(REPORT_LOCATION" in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/")+ 1;\ |
971 | Newx(format, format_size, char)(format = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof (format_size) || sizeof(char) > ((size_t)1 << 8*(sizeof (size_t) - sizeof(format_size)))) ? (size_t)(format_size) : ( (size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof(char))) ? ( _Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap() ,0)), (char*)(Perl_safesysmalloc((size_t)((format_size)*sizeof (char)))))); \ |
972 | my_strlcpystrlcpy(format, m, format_size); \ |
973 | my_strlcatstrlcat(format, REPORT_LOCATION" in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", format_size); \ |
974 | SAVEFREEPV(format)Perl_save_pushptr( (void *)((char*)(format)),10); \ |
975 | _WARN_HELPER(loc, packwarn, \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 978, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((packwarn) & 0xFF))+1) / 8)] & (1 << ((2*(((packwarn) & 0xFF))+1) % 8)))) || ((((packwarn) >> 8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packwarn) >>8) & 0xFF))+1) / 8)] & (1 << ((2*((((packwarn) >>8) & 0xFF))+1) % 8 )))) || ((((packwarn) >>16) & 0xFF) && (((( (U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packwarn) >> 16) & 0xFF))+1) / 8)] & (1 << ((2*((((packwarn) >>16) & 0xFF))+1) % 8)))) || ((((packwarn) >> 24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packwarn) >>24) & 0xFF))+1) / 8)] & (1 << ((2*((((packwarn) >>24) & 0xFF))+1) % 8 )))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( packwarn, format, a1, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 978, (IV) (((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
976 | Perl_ck_warner(aTHX_ packwarn, \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 978, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((packwarn) & 0xFF))+1) / 8)] & (1 << ((2*(((packwarn) & 0xFF))+1) % 8)))) || ((((packwarn) >> 8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packwarn) >>8) & 0xFF))+1) / 8)] & (1 << ((2*((((packwarn) >>8) & 0xFF))+1) % 8 )))) || ((((packwarn) >>16) & 0xFF) && (((( (U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packwarn) >> 16) & 0xFF))+1) / 8)] & (1 << ((2*((((packwarn) >>16) & 0xFF))+1) % 8)))) || ((((packwarn) >> 24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packwarn) >>24) & 0xFF))+1) / 8)] & (1 << ((2*((((packwarn) >>24) & 0xFF))+1) % 8 )))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( packwarn, format, a1, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 978, (IV) (((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
977 | format, \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 978, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((packwarn) & 0xFF))+1) / 8)] & (1 << ((2*(((packwarn) & 0xFF))+1) % 8)))) || ((((packwarn) >> 8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packwarn) >>8) & 0xFF))+1) / 8)] & (1 << ((2*((((packwarn) >>8) & 0xFF))+1) % 8 )))) || ((((packwarn) >>16) & 0xFF) && (((( (U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packwarn) >> 16) & 0xFF))+1) / 8)] & (1 << ((2*((((packwarn) >>16) & 0xFF))+1) % 8)))) || ((((packwarn) >> 24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packwarn) >>24) & 0xFF))+1) / 8)] & (1 << ((2*((((packwarn) >>24) & 0xFF))+1) % 8 )))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( packwarn, format, a1, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 978, (IV) (((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
978 | a1, REPORT_LOCATION_ARGS(loc)))do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 978, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((packwarn) & 0xFF))+1) / 8)] & (1 << ((2*(((packwarn) & 0xFF))+1) % 8)))) || ((((packwarn) >> 8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packwarn) >>8) & 0xFF))+1) / 8)] & (1 << ((2*((((packwarn) >>8) & 0xFF))+1) % 8 )))) || ((((packwarn) >>16) & 0xFF) && (((( (U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packwarn) >> 16) & 0xFF))+1) / 8)] & (1 << ((2*((((packwarn) >>16) & 0xFF))+1) % 8)))) || ((((packwarn) >> 24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packwarn) >>24) & 0xFF))+1) / 8)] & (1 << ((2*((((packwarn) >>24) & 0xFF))+1) % 8 )))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( packwarn, format, a1, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 978, (IV) (((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0); \ |
979 | } STMT_ENDwhile (0) |
980 | |
981 | #define ckWARNreg(loc,m)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 981, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 981, (IV) (((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) \ |
982 | _WARN_HELPER(loc, packWARN(WARN_REGEXP), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 985, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 985, (IV) (((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
983 | Perl_ck_warner(aTHX_ packWARN(WARN_REGEXP), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 985, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 985, (IV) (((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
984 | m REPORT_LOCATION, \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 985, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 985, (IV) (((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
985 | REPORT_LOCATION_ARGS(loc)))do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 985, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 985, (IV) (((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
986 | |
987 | #define vWARN(loc, m)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 987, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 987, (IV) (((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) \ |
988 | _WARN_HELPER(loc, packWARN(WARN_REGEXP), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 991, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 991, (IV) (((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
989 | Perl_warner(aTHX_ packWARN(WARN_REGEXP), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 991, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 991, (IV) (((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
990 | m REPORT_LOCATION, \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 991, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 991, (IV) (((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
991 | REPORT_LOCATION_ARGS(loc)))do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 991, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 991, (IV) (((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) \ |
992 | |
993 | #define vWARN_dep(loc, m)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 993, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((2 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((2 )) & 0xFF))+1) % 8)))) || (((((2 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1)) [((2*(((((2 )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >>8) & 0xFF))+1) % 8)))) || (((((2 ) ) >>16) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((2 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >>16) & 0xFF)) +1) % 8)))) || (((((2 )) >>24) & 0xFF) && ( (((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((2 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (2 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 993, (IV) (((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) \ |
994 | _WARN_HELPER(loc, packWARN(WARN_DEPRECATED), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 997, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((2 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((2 )) & 0xFF))+1) % 8)))) || (((((2 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1)) [((2*(((((2 )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >>8) & 0xFF))+1) % 8)))) || (((((2 ) ) >>16) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((2 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >>16) & 0xFF)) +1) % 8)))) || (((((2 )) >>24) & 0xFF) && ( (((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((2 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (2 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 997, (IV) (((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
995 | Perl_warner(aTHX_ packWARN(WARN_DEPRECATED), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 997, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((2 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((2 )) & 0xFF))+1) % 8)))) || (((((2 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1)) [((2*(((((2 )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >>8) & 0xFF))+1) % 8)))) || (((((2 ) ) >>16) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((2 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >>16) & 0xFF)) +1) % 8)))) || (((((2 )) >>24) & 0xFF) && ( (((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((2 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (2 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 997, (IV) (((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
996 | m REPORT_LOCATION, \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 997, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((2 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((2 )) & 0xFF))+1) % 8)))) || (((((2 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1)) [((2*(((((2 )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >>8) & 0xFF))+1) % 8)))) || (((((2 ) ) >>16) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((2 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >>16) & 0xFF)) +1) % 8)))) || (((((2 )) >>24) & 0xFF) && ( (((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((2 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (2 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 997, (IV) (((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
997 | REPORT_LOCATION_ARGS(loc)))do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 997, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((2 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((2 )) & 0xFF))+1) % 8)))) || (((((2 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1)) [((2*(((((2 )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >>8) & 0xFF))+1) % 8)))) || (((((2 ) ) >>16) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((2 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >>16) & 0xFF)) +1) % 8)))) || (((((2 )) >>24) & 0xFF) && ( (((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((2 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (2 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 997, (IV) (((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
998 | |
999 | #define ckWARNdep(loc,m)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 999, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((2 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((2 )) & 0xFF))+1) % 8)))) || (((((2 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1)) [((2*(((((2 )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >>8) & 0xFF))+1) % 8)))) || (((((2 ) ) >>16) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((2 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >>16) & 0xFF)) +1) % 8)))) || (((((2 )) >>24) & 0xFF) && ( (((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((2 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner_d( (2 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 999, (IV) (((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) \ |
1000 | _WARN_HELPER(loc, packWARN(WARN_DEPRECATED), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1003, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((2 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((2 )) & 0xFF))+1) % 8)))) || (((((2 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1)) [((2*(((((2 )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >>8) & 0xFF))+1) % 8)))) || (((((2 ) ) >>16) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((2 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >>16) & 0xFF)) +1) % 8)))) || (((((2 )) >>24) & 0xFF) && ( (((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((2 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner_d( (2 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1003, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1001 | Perl_ck_warner_d(aTHX_ packWARN(WARN_DEPRECATED), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1003, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((2 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((2 )) & 0xFF))+1) % 8)))) || (((((2 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1)) [((2*(((((2 )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >>8) & 0xFF))+1) % 8)))) || (((((2 ) ) >>16) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((2 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >>16) & 0xFF)) +1) % 8)))) || (((((2 )) >>24) & 0xFF) && ( (((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((2 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner_d( (2 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1003, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1002 | m REPORT_LOCATION, \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1003, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((2 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((2 )) & 0xFF))+1) % 8)))) || (((((2 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1)) [((2*(((((2 )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >>8) & 0xFF))+1) % 8)))) || (((((2 ) ) >>16) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((2 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >>16) & 0xFF)) +1) % 8)))) || (((((2 )) >>24) & 0xFF) && ( (((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((2 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner_d( (2 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1003, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1003 | REPORT_LOCATION_ARGS(loc)))do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1003, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((2 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((2 )) & 0xFF))+1) % 8)))) || (((((2 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1)) [((2*(((((2 )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >>8) & 0xFF))+1) % 8)))) || (((((2 ) ) >>16) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((2 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >>16) & 0xFF)) +1) % 8)))) || (((((2 )) >>24) & 0xFF) && ( (((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((2 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((2 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner_d( (2 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1003, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1004 | |
1005 | #define ckWARNregdep(loc,m)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1005, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((2) | ((20)<<8) )) & 0xFF))+1) / 8)] & (1 << ((2*(((((2) | ((20)<<8) )) & 0xFF ))+1) % 8)))) || ((((((2) | ((20)<<8) )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1)) [((2*((((((2) | ((20)<<8) )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*((((((2) | ((20)<<8) )) >> 8) & 0xFF))+1) % 8)))) || ((((((2) | ((20)<<8) )) >> 16) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((((2) | ((20)<<8) )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*((((((2) | ((20)<<8) ) ) >>16) & 0xFF))+1) % 8)))) || ((((((2) | ((20)<< 8) )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*((((((2) | ((20)<<8) )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*((((((2) | (( 20)<<8) )) >>24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(( (SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)( (char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); Perl_ck_warner_d( ((2) | ((20)<<8) ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1005, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) \ |
1006 | _WARN_HELPER(loc, packWARN2(WARN_DEPRECATED, WARN_REGEXP), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1010, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((2) | ((20)<<8) )) & 0xFF))+1) / 8)] & (1 << ((2*(((((2) | ((20)<<8) )) & 0xFF ))+1) % 8)))) || ((((((2) | ((20)<<8) )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1)) [((2*((((((2) | ((20)<<8) )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*((((((2) | ((20)<<8) )) >> 8) & 0xFF))+1) % 8)))) || ((((((2) | ((20)<<8) )) >> 16) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((((2) | ((20)<<8) )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*((((((2) | ((20)<<8) ) ) >>16) & 0xFF))+1) % 8)))) || ((((((2) | ((20)<< 8) )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*((((((2) | ((20)<<8) )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*((((((2) | (( 20)<<8) )) >>24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(( (SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)( (char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); Perl_ck_warner_d( ((2) | ((20)<<8) ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1010, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1007 | Perl_ck_warner_d(aTHX_ packWARN2(WARN_DEPRECATED, \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1010, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((2) | ((20)<<8) )) & 0xFF))+1) / 8)] & (1 << ((2*(((((2) | ((20)<<8) )) & 0xFF ))+1) % 8)))) || ((((((2) | ((20)<<8) )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1)) [((2*((((((2) | ((20)<<8) )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*((((((2) | ((20)<<8) )) >> 8) & 0xFF))+1) % 8)))) || ((((((2) | ((20)<<8) )) >> 16) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((((2) | ((20)<<8) )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*((((((2) | ((20)<<8) ) ) >>16) & 0xFF))+1) % 8)))) || ((((((2) | ((20)<< 8) )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*((((((2) | ((20)<<8) )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*((((((2) | (( 20)<<8) )) >>24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(( (SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)( (char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); Perl_ck_warner_d( ((2) | ((20)<<8) ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1010, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1008 | WARN_REGEXP), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1010, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((2) | ((20)<<8) )) & 0xFF))+1) / 8)] & (1 << ((2*(((((2) | ((20)<<8) )) & 0xFF ))+1) % 8)))) || ((((((2) | ((20)<<8) )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1)) [((2*((((((2) | ((20)<<8) )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*((((((2) | ((20)<<8) )) >> 8) & 0xFF))+1) % 8)))) || ((((((2) | ((20)<<8) )) >> 16) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((((2) | ((20)<<8) )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*((((((2) | ((20)<<8) ) ) >>16) & 0xFF))+1) % 8)))) || ((((((2) | ((20)<< 8) )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*((((((2) | ((20)<<8) )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*((((((2) | (( 20)<<8) )) >>24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(( (SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)( (char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); Perl_ck_warner_d( ((2) | ((20)<<8) ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1010, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1009 | m REPORT_LOCATION, \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1010, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((2) | ((20)<<8) )) & 0xFF))+1) / 8)] & (1 << ((2*(((((2) | ((20)<<8) )) & 0xFF ))+1) % 8)))) || ((((((2) | ((20)<<8) )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1)) [((2*((((((2) | ((20)<<8) )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*((((((2) | ((20)<<8) )) >> 8) & 0xFF))+1) % 8)))) || ((((((2) | ((20)<<8) )) >> 16) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((((2) | ((20)<<8) )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*((((((2) | ((20)<<8) ) ) >>16) & 0xFF))+1) % 8)))) || ((((((2) | ((20)<< 8) )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*((((((2) | ((20)<<8) )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*((((((2) | (( 20)<<8) )) >>24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(( (SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)( (char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); Perl_ck_warner_d( ((2) | ((20)<<8) ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1010, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1010 | REPORT_LOCATION_ARGS(loc)))do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1010, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((2) | ((20)<<8) )) & 0xFF))+1) / 8)] & (1 << ((2*(((((2) | ((20)<<8) )) & 0xFF ))+1) % 8)))) || ((((((2) | ((20)<<8) )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1)) [((2*((((((2) | ((20)<<8) )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*((((((2) | ((20)<<8) )) >> 8) & 0xFF))+1) % 8)))) || ((((((2) | ((20)<<8) )) >> 16) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((((2) | ((20)<<8) )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*((((((2) | ((20)<<8) ) ) >>16) & 0xFF))+1) % 8)))) || ((((((2) | ((20)<< 8) )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*((((((2) | ((20)<<8) )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*((((((2) | (( 20)<<8) )) >>24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(( (SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)( (char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); Perl_ck_warner_d( ((2) | ((20)<<8) ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1010, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1011 | |
1012 | #define ckWARN2reg_d(loc,m, a1)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1012, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner_d( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1012, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) \ |
1013 | _WARN_HELPER(loc, packWARN(WARN_REGEXP), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1016, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner_d( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1016, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1014 | Perl_ck_warner_d(aTHX_ packWARN(WARN_REGEXP), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1016, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner_d( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1016, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1015 | m REPORT_LOCATION, \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1016, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner_d( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1016, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1016 | a1, REPORT_LOCATION_ARGS(loc)))do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1016, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner_d( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1016, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1017 | |
1018 | #define ckWARN2reg(loc, m, a1)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1018, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1018, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) \ |
1019 | _WARN_HELPER(loc, packWARN(WARN_REGEXP), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1022, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1022, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1020 | Perl_ck_warner(aTHX_ packWARN(WARN_REGEXP), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1022, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1022, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1021 | m REPORT_LOCATION, \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1022, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1022, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1022 | a1, REPORT_LOCATION_ARGS(loc)))do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1022, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1022, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1023 | |
1024 | #define vWARN3(loc, m, a1, a2)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1024, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : ( _Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1024, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) \ |
1025 | _WARN_HELPER(loc, packWARN(WARN_REGEXP), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1028, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : ( _Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1028, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1026 | Perl_warner(aTHX_ packWARN(WARN_REGEXP), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1028, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : ( _Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1028, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1027 | m REPORT_LOCATION, \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1028, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : ( _Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1028, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1028 | a1, a2, REPORT_LOCATION_ARGS(loc)))do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1028, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : ( _Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1028, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1029 | |
1030 | #define ckWARN3reg(loc, m, a1, a2)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1030, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : ( _Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1030, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) \ |
1031 | _WARN_HELPER(loc, packWARN(WARN_REGEXP), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1035, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : ( _Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1035, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1032 | Perl_ck_warner(aTHX_ packWARN(WARN_REGEXP), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1035, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : ( _Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1035, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1033 | m REPORT_LOCATION, \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1035, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : ( _Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1035, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1034 | a1, a2, \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1035, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : ( _Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1035, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1035 | REPORT_LOCATION_ARGS(loc)))do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1035, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : ( _Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1035, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1036 | |
1037 | #define vWARN4(loc, m, a1, a2, a3)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1037, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, a3, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1037, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) \ |
1038 | _WARN_HELPER(loc, packWARN(WARN_REGEXP), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1042, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, a3, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1042, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1039 | Perl_warner(aTHX_ packWARN(WARN_REGEXP), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1042, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, a3, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1042, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1040 | m REPORT_LOCATION, \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1042, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, a3, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1042, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1041 | a1, a2, a3, \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1042, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, a3, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1042, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1042 | REPORT_LOCATION_ARGS(loc)))do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1042, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, a3, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1042, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1043 | |
1044 | #define ckWARN4reg(loc, m, a1, a2, a3)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1044, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, a3, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1044, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) \ |
1045 | _WARN_HELPER(loc, packWARN(WARN_REGEXP), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1049, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, a3, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1049, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1046 | Perl_ck_warner(aTHX_ packWARN(WARN_REGEXP), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1049, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, a3, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1049, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1047 | m REPORT_LOCATION, \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1049, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, a3, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1049, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1048 | a1, a2, a3, \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1049, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, a3, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1049, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1049 | REPORT_LOCATION_ARGS(loc)))do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1049, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, a3, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1049, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1050 | |
1051 | #define vWARN5(loc, m, a1, a2, a3, a4)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1051, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, a3, a4, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1051, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) \ |
1052 | _WARN_HELPER(loc, packWARN(WARN_REGEXP), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1056, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, a3, a4, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1056, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1053 | Perl_warner(aTHX_ packWARN(WARN_REGEXP), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1056, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, a3, a4, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1056, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1054 | m REPORT_LOCATION, \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1056, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, a3, a4, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1056, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1055 | a1, a2, a3, a4, \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1056, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, a3, a4, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1056, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1056 | REPORT_LOCATION_ARGS(loc)))do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1056, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", a1, a2, a3, a4, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1056, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1057 | |
1058 | #define ckWARNexperimental(loc, class, m)do { if (! RExC_warned_class) { RExC_warned_class = 1; do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1058, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((class )) & 0xFF))+1) / 8)] & (1 << ((2*((((class )) & 0xFF))+1) % 8)))) || (((((class )) >> 8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((class )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((((class )) >>8) & 0xFF))+1) % 8 )))) || (((((class )) >>16) & 0xFF) && (((( (U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((class )) >> 16) & 0xFF))+1) / 8)] & (1 << ((2*(((((class )) >>16) & 0xFF))+1) % 8)))) || (((((class )) >> 24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((class )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((class )) >>24) & 0xFF))+1) % 8 )))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner_d ( (class ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1058, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0); } } while (0) \ |
1059 | STMT_STARTdo { \ |
1060 | if (! RExC_warned_ ## class) { /* warn once per compilation */ \ |
1061 | RExC_warned_ ## class = 1; \ |
1062 | _WARN_HELPER(loc, packWARN(class), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1065, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((class )) & 0xFF))+1) / 8)] & (1 << ((2*((((class )) & 0xFF))+1) % 8)))) || (((((class )) >> 8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((class )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((((class )) >>8) & 0xFF))+1) % 8 )))) || (((((class )) >>16) & 0xFF) && (((( (U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((class )) >> 16) & 0xFF))+1) / 8)] & (1 << ((2*(((((class )) >>16) & 0xFF))+1) % 8)))) || (((((class )) >> 24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((class )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((class )) >>24) & 0xFF))+1) % 8 )))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner_d ( (class ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1065, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1063 | Perl_ck_warner_d(aTHX_ packWARN(class), \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1065, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((class )) & 0xFF))+1) / 8)] & (1 << ((2*((((class )) & 0xFF))+1) % 8)))) || (((((class )) >> 8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((class )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((((class )) >>8) & 0xFF))+1) % 8 )))) || (((((class )) >>16) & 0xFF) && (((( (U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((class )) >> 16) & 0xFF))+1) / 8)] & (1 << ((2*(((((class )) >>16) & 0xFF))+1) % 8)))) || (((((class )) >> 24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((class )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((class )) >>24) & 0xFF))+1) % 8 )))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner_d ( (class ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1065, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1064 | m REPORT_LOCATION, \do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1065, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((class )) & 0xFF))+1) / 8)] & (1 << ((2*((((class )) & 0xFF))+1) % 8)))) || (((((class )) >> 8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((class )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((((class )) >>8) & 0xFF))+1) % 8 )))) || (((((class )) >>16) & 0xFF) && (((( (U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((class )) >> 16) & 0xFF))+1) / 8)] & (1 << ((2*(((((class )) >>16) & 0xFF))+1) % 8)))) || (((((class )) >> 24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((class )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((class )) >>24) & 0xFF))+1) % 8 )))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner_d ( (class ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1065, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0) |
1065 | REPORT_LOCATION_ARGS(loc)))do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 1065, loc); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((class )) & 0xFF))+1) / 8)] & (1 << ((2*((((class )) & 0xFF))+1) % 8)))) || (((((class )) >> 8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((class )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((((class )) >>8) & 0xFF))+1) % 8 )))) || (((((class )) >>16) & 0xFF) && (((( (U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((class )) >> 16) & 0xFF))+1) / 8)] & (1 << ((2*(((((class )) >>16) & 0xFF))+1) % 8)))) || (((((class )) >> 24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((class )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((class )) >>24) & 0xFF))+1) % 8 )))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner_d ( (class ), m " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 1065, (IV) (((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - ( pRExC_state->start))), (pRExC_state->start)), 0))), (void *)((pRExC_state->precomp)), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))), (void*)((((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (loc - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (loc - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { ( pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp ))>(((((pRExC_state->precomp_end))<(((pRExC_state-> copy_start_in_input) + (loc - (pRExC_state->copy_start)))) )?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start)))))))?((pRExC_state-> precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (loc - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (loc - (pRExC_state->copy_start))))))) - (pRExC_state-> precomp); } } while (0); } } while (0);\ |
1066 | } \ |
1067 | } STMT_ENDwhile (0) |
1068 | |
1069 | /* Convert between a pointer to a node and its offset from the beginning of the |
1070 | * program */ |
1071 | #define REGNODE_p(offset)((pRExC_state->emit_start) + (offset)) (RExC_emit_start(pRExC_state->emit_start) + (offset)) |
1072 | #define REGNODE_OFFSET(node)((node) - (pRExC_state->emit_start)) ((node) - RExC_emit_start(pRExC_state->emit_start)) |
1073 | |
1074 | /* Macros for recording node offsets. 20001227 mjd@plover.com |
1075 | * Nodes are numbered 1, 2, 3, 4. Node #n's position is recorded in |
1076 | * element 2*n-1 of the array. Element #2n holds the byte length node #n. |
1077 | * Element 0 holds the number n. |
1078 | * Position is 1 indexed. |
1079 | */ |
1080 | #ifndef RE_TRACK_PATTERN_OFFSETS |
1081 | #define Set_Node_Offset_To_R(offset,byte)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) offset of node %d is %d.\n", 1081, (int )(offset), (int)(byte));} while (0); if((offset) < 0) { Perl_croak ( "value of node is %d in Offset macro", (int)(offset)); } else { ((pRExC_state->rxi)->u.offsets)[2*(offset)-1] = (byte ); } } while (0) |
1082 | #define Set_Node_Offset(node,byte)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) offset of node %d is %d.\n", 1082, (int )(((node) - (pRExC_state->emit_start))), (int)((byte)-(pRExC_state ->start)));} while (0); if((((node) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((node) - (pRExC_state->emit_start)))); } else { ( (pRExC_state->rxi)->u.offsets)[2*(((node) - (pRExC_state ->emit_start)))-1] = ((byte)-(pRExC_state->start)); } } while (0) |
1083 | #define Set_Cur_Node_Offsetdo { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) offset of node %d is %d.\n", 1083, (int )((((pRExC_state->emit)) - (pRExC_state->emit_start))), (int)(((pRExC_state->parse))-(pRExC_state->start)));} while (0); if(((((pRExC_state->emit)) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)((((pRExC_state->emit)) - (pRExC_state->emit_start )))); } else { ((pRExC_state->rxi)->u.offsets)[2*((((pRExC_state ->emit)) - (pRExC_state->emit_start)))-1] = (((pRExC_state ->parse))-(pRExC_state->start)); } } while (0) |
1084 | #define Set_Node_Length_To_R(node,len)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 1084, (int) (node), (int)(len));} while (0); if((node) < 0) { Perl_croak ( "value of node is %d in Length macro", (int)(node)); } else { ((pRExC_state->rxi)->u.offsets)[2*(node)] = (len); } } while (0) |
1085 | #define Set_Node_Length(node,len)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 1085, (int) (((node) - (pRExC_state->emit_start))), (int)(len));} while (0); if((((node) - (pRExC_state->emit_start))) < 0) { Perl_croak ( "value of node is %d in Length macro", (int)(((node) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((node) - (pRExC_state->emit_start)))] = (len); } } while (0) |
1086 | #define Set_Node_Cur_Length(node,start)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 1086, (int) (((node) - (pRExC_state->emit_start))), (int)((pRExC_state ->parse) - start));} while (0); if((((node) - (pRExC_state ->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((node) - (pRExC_state->emit_start)))); } else { ( (pRExC_state->rxi)->u.offsets)[2*(((node) - (pRExC_state ->emit_start)))] = ((pRExC_state->parse) - start); } } while (0) |
1087 | #define Node_Offset(n)(((pRExC_state->rxi)->u.offsets)[2*(((n) - (pRExC_state ->emit_start)))-1]) |
1088 | #define Node_Length(n)(((pRExC_state->rxi)->u.offsets)[2*(((n) - (pRExC_state ->emit_start)))]) |
1089 | #define Set_Node_Offset_Length(node,offset,len)do { do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000 ))) Perl_warn ("** (%d) offset of node %d is %d.\n", 1089, (int )(((node) - (pRExC_state->emit_start))), (int)((offset))); } while (0); if((((node) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Offset macro", (int )(((node) - (pRExC_state->emit_start)))); } else { ((pRExC_state ->rxi)->u.offsets)[2*(((node) - (pRExC_state->emit_start )))-1] = ((offset)); } } while (0); do { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 1089, (int)(((node) - (pRExC_state->emit_start))), (int) ((len)));} while (0); if((((node) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((node) - (pRExC_state->emit_start)))); } else { ( (pRExC_state->rxi)->u.offsets)[2*(((node) - (pRExC_state ->emit_start)))] = ((len)); } } while (0); } while (0) |
1090 | #define ProgLen(ri)ri->u.offsets[0] ri->u.proglen |
1091 | #define SetProgLen(ri,x)ri->u.offsets[0] = x ri->u.proglen = x |
1092 | #define Track_Code(code)do { code } while (0) |
1093 | #else |
1094 | #define ProgLen(ri)ri->u.offsets[0] ri->u.offsets[0] |
1095 | #define SetProgLen(ri,x)ri->u.offsets[0] = x ri->u.offsets[0] = x |
1096 | #define Set_Node_Offset_To_R(offset,byte)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) offset of node %d is %d.\n", 1096, (int )(offset), (int)(byte));} while (0); if((offset) < 0) { Perl_croak ( "value of node is %d in Offset macro", (int)(offset)); } else { ((pRExC_state->rxi)->u.offsets)[2*(offset)-1] = (byte ); } } while (0) STMT_STARTdo { \ |
1097 | MJD_OFFSET_DEBUG(("** (%d) offset of node %d is %d.\n", \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n", 1098, (int)(offset), ( int)(byte));} while (0) |
1098 | __LINE__, (int)(offset), (int)(byte)))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n", 1098, (int)(offset), ( int)(byte));} while (0); \ |
1099 | if((offset) < 0) { \ |
1100 | Perl_croak(aTHX_ "value of node is %d in Offset macro", \ |
1101 | (int)(offset)); \ |
1102 | } else { \ |
1103 | RExC_offsets((pRExC_state->rxi)->u.offsets)[2*(offset)-1] = (byte); \ |
1104 | } \ |
1105 | } STMT_ENDwhile (0) |
1106 | |
1107 | #define Set_Node_Offset(node,byte)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) offset of node %d is %d.\n", 1107, (int )(((node) - (pRExC_state->emit_start))), (int)((byte)-(pRExC_state ->start)));} while (0); if((((node) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((node) - (pRExC_state->emit_start)))); } else { ( (pRExC_state->rxi)->u.offsets)[2*(((node) - (pRExC_state ->emit_start)))-1] = ((byte)-(pRExC_state->start)); } } while (0) \ |
1108 | Set_Node_Offset_To_R(REGNODE_OFFSET(node), (byte)-RExC_start)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) offset of node %d is %d.\n", 1108, (int )(((node) - (pRExC_state->emit_start))), (int)((byte)-(pRExC_state ->start)));} while (0); if((((node) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((node) - (pRExC_state->emit_start)))); } else { ( (pRExC_state->rxi)->u.offsets)[2*(((node) - (pRExC_state ->emit_start)))-1] = ((byte)-(pRExC_state->start)); } } while (0) |
1109 | #define Set_Cur_Node_Offsetdo { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) offset of node %d is %d.\n", 1109, (int )((((pRExC_state->emit)) - (pRExC_state->emit_start))), (int)(((pRExC_state->parse))-(pRExC_state->start)));} while (0); if(((((pRExC_state->emit)) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)((((pRExC_state->emit)) - (pRExC_state->emit_start )))); } else { ((pRExC_state->rxi)->u.offsets)[2*((((pRExC_state ->emit)) - (pRExC_state->emit_start)))-1] = (((pRExC_state ->parse))-(pRExC_state->start)); } } while (0) Set_Node_Offset(RExC_emit, RExC_parse)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) offset of node %d is %d.\n", 1109, (int )((((pRExC_state->emit)) - (pRExC_state->emit_start))), (int)(((pRExC_state->parse))-(pRExC_state->start)));} while (0); if(((((pRExC_state->emit)) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)((((pRExC_state->emit)) - (pRExC_state->emit_start )))); } else { ((pRExC_state->rxi)->u.offsets)[2*((((pRExC_state ->emit)) - (pRExC_state->emit_start)))-1] = (((pRExC_state ->parse))-(pRExC_state->start)); } } while (0) |
1110 | |
1111 | #define Set_Node_Length_To_R(node,len)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 1111, (int) (node), (int)(len));} while (0); if((node) < 0) { Perl_croak ( "value of node is %d in Length macro", (int)(node)); } else { ((pRExC_state->rxi)->u.offsets)[2*(node)] = (len); } } while (0) STMT_STARTdo { \ |
1112 | MJD_OFFSET_DEBUG(("** (%d) size of node %d is %d.\n", \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n", 1113, (int)(node), (int )(len));} while (0) |
1113 | __LINE__, (int)(node), (int)(len)))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n", 1113, (int)(node), (int )(len));} while (0); \ |
1114 | if((node) < 0) { \ |
1115 | Perl_croak(aTHX_ "value of node is %d in Length macro", \ |
1116 | (int)(node)); \ |
1117 | } else { \ |
1118 | RExC_offsets((pRExC_state->rxi)->u.offsets)[2*(node)] = (len); \ |
1119 | } \ |
1120 | } STMT_ENDwhile (0) |
1121 | |
1122 | #define Set_Node_Length(node,len)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 1122, (int) (((node) - (pRExC_state->emit_start))), (int)(len));} while (0); if((((node) - (pRExC_state->emit_start))) < 0) { Perl_croak ( "value of node is %d in Length macro", (int)(((node) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((node) - (pRExC_state->emit_start)))] = (len); } } while (0) \ |
1123 | Set_Node_Length_To_R(REGNODE_OFFSET(node), len)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 1123, (int) (((node) - (pRExC_state->emit_start))), (int)(len));} while (0); if((((node) - (pRExC_state->emit_start))) < 0) { Perl_croak ( "value of node is %d in Length macro", (int)(((node) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((node) - (pRExC_state->emit_start)))] = (len); } } while (0) |
1124 | #define Set_Node_Cur_Length(node, start)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 1124, (int) (((node) - (pRExC_state->emit_start))), (int)((pRExC_state ->parse) - start));} while (0); if((((node) - (pRExC_state ->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((node) - (pRExC_state->emit_start)))); } else { ( (pRExC_state->rxi)->u.offsets)[2*(((node) - (pRExC_state ->emit_start)))] = ((pRExC_state->parse) - start); } } while (0) \ |
1125 | Set_Node_Length(node, RExC_parse - start)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 1125, (int) (((node) - (pRExC_state->emit_start))), (int)((pRExC_state ->parse) - start));} while (0); if((((node) - (pRExC_state ->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((node) - (pRExC_state->emit_start)))); } else { ( (pRExC_state->rxi)->u.offsets)[2*(((node) - (pRExC_state ->emit_start)))] = ((pRExC_state->parse) - start); } } while (0) |
1126 | |
1127 | /* Get offsets and lengths */ |
1128 | #define Node_Offset(n)(((pRExC_state->rxi)->u.offsets)[2*(((n) - (pRExC_state ->emit_start)))-1]) (RExC_offsets((pRExC_state->rxi)->u.offsets)[2*(REGNODE_OFFSET(n)((n) - (pRExC_state->emit_start)))-1]) |
1129 | #define Node_Length(n)(((pRExC_state->rxi)->u.offsets)[2*(((n) - (pRExC_state ->emit_start)))]) (RExC_offsets((pRExC_state->rxi)->u.offsets)[2*(REGNODE_OFFSET(n)((n) - (pRExC_state->emit_start)))]) |
1130 | |
1131 | #define Set_Node_Offset_Length(node,offset,len)do { do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000 ))) Perl_warn ("** (%d) offset of node %d is %d.\n", 1131, (int )(((node) - (pRExC_state->emit_start))), (int)((offset))); } while (0); if((((node) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Offset macro", (int )(((node) - (pRExC_state->emit_start)))); } else { ((pRExC_state ->rxi)->u.offsets)[2*(((node) - (pRExC_state->emit_start )))-1] = ((offset)); } } while (0); do { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 1131, (int)(((node) - (pRExC_state->emit_start))), (int) ((len)));} while (0); if((((node) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((node) - (pRExC_state->emit_start)))); } else { ( (pRExC_state->rxi)->u.offsets)[2*(((node) - (pRExC_state ->emit_start)))] = ((len)); } } while (0); } while (0) STMT_STARTdo { \ |
1132 | Set_Node_Offset_To_R(REGNODE_OFFSET(node), (offset))do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) offset of node %d is %d.\n", 1132, (int )(((node) - (pRExC_state->emit_start))), (int)((offset))); } while (0); if((((node) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Offset macro", (int )(((node) - (pRExC_state->emit_start)))); } else { ((pRExC_state ->rxi)->u.offsets)[2*(((node) - (pRExC_state->emit_start )))-1] = ((offset)); } } while (0); \ |
1133 | Set_Node_Length_To_R(REGNODE_OFFSET(node), (len))do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 1133, (int) (((node) - (pRExC_state->emit_start))), (int)((len)));} while (0); if((((node) - (pRExC_state->emit_start))) < 0) { Perl_croak ( "value of node is %d in Length macro", (int)(((node) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((node) - (pRExC_state->emit_start)))] = ((len)); } } while (0); \ |
1134 | } STMT_ENDwhile (0) |
1135 | |
1136 | #define Track_Code(code)do { code } while (0) STMT_STARTdo { code } STMT_ENDwhile (0) |
1137 | #endif |
1138 | |
1139 | #if PERL_ENABLE_EXPERIMENTAL_REGEX_OPTIMISATIONS0 |
1140 | #define EXPERIMENTAL_INPLACESCAN |
1141 | #endif /*PERL_ENABLE_EXPERIMENTAL_REGEX_OPTIMISATIONS*/ |
1142 | |
1143 | #ifdef DEBUGGING |
1144 | int |
1145 | Perl_re_printf(pTHX_ const char *fmt, ...) |
1146 | { |
1147 | va_list ap; |
1148 | int result; |
1149 | PerlIOPerlIO *f= Perl_debug_logPerl_PerlIO_stderr(); |
1150 | PERL_ARGS_ASSERT_RE_PRINTF((fmt) ? (void)0 : __assert2("re_comp.c", 1150, __func__, "fmt" )); |
1151 | va_start(ap, fmt)__builtin_va_start(ap, fmt); |
1152 | result = PerlIO_vprintf(f, fmt, ap); |
1153 | va_end(ap)__builtin_va_end(ap); |
1154 | return result; |
1155 | } |
1156 | |
1157 | int |
1158 | Perl_re_indentf(pTHX_ const char *fmt, U32 depth, ...) |
1159 | { |
1160 | va_list ap; |
1161 | int result; |
1162 | PerlIOPerlIO *f= Perl_debug_logPerl_PerlIO_stderr(); |
1163 | PERL_ARGS_ASSERT_RE_INDENTF((fmt) ? (void)0 : __assert2("re_comp.c", 1163, __func__, "fmt" )); |
1164 | va_start(ap, depth)__builtin_va_start(ap, depth); |
1165 | PerlIO_printf(f, "%*s", ( (int)depth % 20 ) * 2, ""); |
1166 | result = PerlIO_vprintf(f, fmt, ap); |
1167 | va_end(ap)__builtin_va_end(ap); |
1168 | return result; |
1169 | } |
1170 | #endif /* DEBUGGING */ |
1171 | |
1172 | #define DEBUG_RExC_seen()do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0); \ |
1173 | DEBUG_OPTIMISE_MORE_r({ \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1174 | Perl_re_printf( aTHX_ "RExC_seen: "); \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1175 | \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1176 | if (RExC_seen & REG_ZERO_LEN_SEEN) \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1177 | Perl_re_printf( aTHX_ "REG_ZERO_LEN_SEEN "); \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1178 | \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1179 | if (RExC_seen & REG_LOOKBEHIND_SEEN) \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1180 | Perl_re_printf( aTHX_ "REG_LOOKBEHIND_SEEN "); \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1181 | \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1182 | if (RExC_seen & REG_GPOS_SEEN) \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1183 | Perl_re_printf( aTHX_ "REG_GPOS_SEEN "); \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1184 | \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1185 | if (RExC_seen & REG_RECURSE_SEEN) \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1186 | Perl_re_printf( aTHX_ "REG_RECURSE_SEEN "); \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1187 | \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1188 | if (RExC_seen & REG_TOP_LEVEL_BRANCHES_SEEN) \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1189 | Perl_re_printf( aTHX_ "REG_TOP_LEVEL_BRANCHES_SEEN "); \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1190 | \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1191 | if (RExC_seen & REG_VERBARG_SEEN) \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1192 | Perl_re_printf( aTHX_ "REG_VERBARG_SEEN "); \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1193 | \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1194 | if (RExC_seen & REG_CUTGROUP_SEEN) \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1195 | Perl_re_printf( aTHX_ "REG_CUTGROUP_SEEN "); \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1196 | \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1197 | if (RExC_seen & REG_RUN_ON_COMMENT_SEEN) \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1198 | Perl_re_printf( aTHX_ "REG_RUN_ON_COMMENT_SEEN "); \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1199 | \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1200 | if (RExC_seen & REG_UNFOLDED_MULTI_SEEN) \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1201 | Perl_re_printf( aTHX_ "REG_UNFOLDED_MULTI_SEEN "); \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1202 | \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1203 | if (RExC_seen & REG_UNBOUNDED_QUANTIFIER_SEEN) \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1204 | Perl_re_printf( aTHX_ "REG_UNBOUNDED_QUANTIFIER_SEEN "); \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1205 | \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1206 | Perl_re_printf( aTHX_ "\n"); \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0) |
1207 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0); |
1208 | |
1209 | #define DEBUG_SHOW_STUDY_FLAG(flags,flag)if ((flags) & flag) Perl_re_printf( "%s ", "flag") \ |
1210 | if ((flags) & flag) Perl_re_printf( aTHX_ "%s ", #flag) |
1211 | |
1212 | |
1213 | #ifdef DEBUGGING |
1214 | static void |
1215 | S_debug_show_study_flags(pTHX_ U32 flags, const char *open_str, |
1216 | const char *close_str) |
1217 | { |
1218 | if (!flags) |
1219 | return; |
1220 | |
1221 | Perl_re_printf( aTHX_ "%s", open_str); |
1222 | DEBUG_SHOW_STUDY_FLAG(flags, SF_BEFORE_SEOL)if ((flags) & 0x0001) Perl_re_printf( "%s ", "SF_BEFORE_SEOL" ); |
1223 | DEBUG_SHOW_STUDY_FLAG(flags, SF_BEFORE_MEOL)if ((flags) & 0x0002) Perl_re_printf( "%s ", "SF_BEFORE_MEOL" ); |
1224 | DEBUG_SHOW_STUDY_FLAG(flags, SF_IS_INF)if ((flags) & 0x0040) Perl_re_printf( "%s ", "SF_IS_INF"); |
1225 | DEBUG_SHOW_STUDY_FLAG(flags, SF_HAS_PAR)if ((flags) & 0x0080) Perl_re_printf( "%s ", "SF_HAS_PAR" ); |
1226 | DEBUG_SHOW_STUDY_FLAG(flags, SF_IN_PAR)if ((flags) & 0x0100) Perl_re_printf( "%s ", "SF_IN_PAR"); |
1227 | DEBUG_SHOW_STUDY_FLAG(flags, SF_HAS_EVAL)if ((flags) & 0x0200) Perl_re_printf( "%s ", "SF_HAS_EVAL" ); |
1228 | DEBUG_SHOW_STUDY_FLAG(flags, SCF_DO_SUBSTR)if ((flags) & 0x0400) Perl_re_printf( "%s ", "SCF_DO_SUBSTR" ); |
1229 | DEBUG_SHOW_STUDY_FLAG(flags, SCF_DO_STCLASS_AND)if ((flags) & 0x0800) Perl_re_printf( "%s ", "SCF_DO_STCLASS_AND" ); |
1230 | DEBUG_SHOW_STUDY_FLAG(flags, SCF_DO_STCLASS_OR)if ((flags) & 0x1000) Perl_re_printf( "%s ", "SCF_DO_STCLASS_OR" ); |
1231 | DEBUG_SHOW_STUDY_FLAG(flags, SCF_DO_STCLASS)if ((flags) & (0x0800|0x1000)) Perl_re_printf( "%s ", "SCF_DO_STCLASS" ); |
1232 | DEBUG_SHOW_STUDY_FLAG(flags, SCF_WHILEM_VISITED_POS)if ((flags) & 0x2000) Perl_re_printf( "%s ", "SCF_WHILEM_VISITED_POS" ); |
1233 | DEBUG_SHOW_STUDY_FLAG(flags, SCF_TRIE_RESTUDY)if ((flags) & 0x4000) Perl_re_printf( "%s ", "SCF_TRIE_RESTUDY" ); |
1234 | DEBUG_SHOW_STUDY_FLAG(flags, SCF_SEEN_ACCEPT)if ((flags) & 0x8000) Perl_re_printf( "%s ", "SCF_SEEN_ACCEPT" ); |
1235 | DEBUG_SHOW_STUDY_FLAG(flags, SCF_TRIE_DOING_RESTUDY)if ((flags) & 0x10000) Perl_re_printf( "%s ", "SCF_TRIE_DOING_RESTUDY" ); |
1236 | DEBUG_SHOW_STUDY_FLAG(flags, SCF_IN_DEFINE)if ((flags) & 0x20000) Perl_re_printf( "%s ", "SCF_IN_DEFINE" ); |
1237 | Perl_re_printf( aTHX_ "%s", close_str); |
1238 | } |
1239 | |
1240 | |
1241 | static void |
1242 | S_debug_studydata(pTHX_ const char *where, scan_data_t *data, |
1243 | U32 depth, int is_inf) |
1244 | { |
1245 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 1245, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 1245, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
1246 | |
1247 | DEBUG_OPTIMISE_MORE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1248 | if (!data)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1249 | return;do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1250 | Perl_re_indentf(aTHX_ "%s: Pos:%" IVdf "/%" IVdf " Flags: 0x%" UVXf,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1251 | depth,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1252 | where,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1253 | (IV)data->pos_min,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1254 | (IV)data->pos_delta,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1255 | (UV)data->flagsdo {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1256 | );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1257 | |
1258 | S_debug_show_study_flags(aTHX_ data->flags," [","]");do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1259 | |
1260 | Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1261 | " Whilem_c: %" IVdf " Lcp: %" IVdf " %s",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1262 | (IV)data->whilem_c,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1263 | (IV)(data->last_closep ? *((data)->last_closep) : -1),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1264 | is_inf ? "INF " : ""do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1265 | );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1266 | |
1267 | if (data->last_found) {do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1268 | int i;do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1269 | Perl_re_printf(aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1270 | "Last:'%s' %" IVdf ":%" IVdf "/%" IVdf,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1271 | SvPVX_const(data->last_found),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1272 | (IV)data->last_end,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1273 | (IV)data->last_start_min,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1274 | (IV)data->last_start_maxdo {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1275 | );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1276 | |
1277 | for (i = 0; i < 2; i++) {do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1278 | Perl_re_printf(aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1279 | " %s%s: '%s' @ %" IVdf "/%" IVdf,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1280 | data->cur_is_floating == i ? "*" : "",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1281 | i ? "Float" : "Fixed",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1282 | SvPVX_const(data->substrs[i].str),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1283 | (IV)data->substrs[i].min_offset,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1284 | (IV)data->substrs[i].max_offsetdo {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1285 | );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1286 | S_debug_show_study_flags(aTHX_ data->substrs[i].flags," [","]");do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1287 | }do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1288 | }do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1289 | |
1290 | Perl_re_printf( aTHX_ "\n");do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0) |
1291 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { if (!data) return; Perl_re_indentf ( "%s: Pos:%" "ld" "/%" "ld" " Flags: 0x%" "lX", depth, where , (IV)data->pos_min, (IV)data->pos_delta, (UV)data-> flags ); S_debug_show_study_flags( data->flags," [","]"); Perl_re_printf ( " Whilem_c: %" "ld" " Lcp: %" "ld" " %s", (IV)data->whilem_c , (IV)(data->last_closep ? *((data)->last_closep) : -1) , is_inf ? "INF " : "" ); if (data->last_found) { int i; Perl_re_printf ( "Last:'%s' %" "ld" ":%" "ld" "/%" "ld", ((const char*)(0 + ( data->last_found)->sv_u.svu_pv)), (IV)data->last_end , (IV)data->last_start_min, (IV)data->last_start_max ); for (i = 0; i < 2; i++) { Perl_re_printf( " %s%s: '%s' @ %" "ld" "/%" "ld", data->cur_is_floating == i ? "*" : "", i ? "Float" : "Fixed", ((const char*)(0 + (data->substrs[i].str )->sv_u.svu_pv)), (IV)data->substrs[i].min_offset, (IV) data->substrs[i].max_offset ); S_debug_show_study_flags( data ->substrs[i].flags," [","]"); } } Perl_re_printf( "\n"); } ;} while (0); |
1292 | } |
1293 | |
1294 | |
1295 | static void |
1296 | S_debug_peep(pTHX_ const char *str, const RExC_state_t *pRExC_state, |
1297 | regnode *scan, U32 depth, U32 flags) |
1298 | { |
1299 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 1299, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 1299, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
1300 | |
1301 | DEBUG_OPTIMISE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { regnode *Next; if (!scan) return; Next = Perl_regnext( scan); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),scan,((void*)0 ),pRExC_state); Perl_re_indentf( "%s>%3d: %s (%d)", depth, str, ((scan) ? (int)((scan)-(pRExC_state->emit_start)) : - 1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), Next ? (((Next) ? (int)((Next)-(pRExC_state ->emit_start)) : -1)) : 0 ); S_debug_show_study_flags( flags ," [ ","]"); Perl_re_printf( "\n"); };} while (0) |
1302 | regnode *Next;do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { regnode *Next; if (!scan) return; Next = Perl_regnext( scan); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),scan,((void*)0 ),pRExC_state); Perl_re_indentf( "%s>%3d: %s (%d)", depth, str, ((scan) ? (int)((scan)-(pRExC_state->emit_start)) : - 1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), Next ? (((Next) ? (int)((Next)-(pRExC_state ->emit_start)) : -1)) : 0 ); S_debug_show_study_flags( flags ," [ ","]"); Perl_re_printf( "\n"); };} while (0) |
1303 | |
1304 | if (!scan)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { regnode *Next; if (!scan) return; Next = Perl_regnext( scan); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),scan,((void*)0 ),pRExC_state); Perl_re_indentf( "%s>%3d: %s (%d)", depth, str, ((scan) ? (int)((scan)-(pRExC_state->emit_start)) : - 1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), Next ? (((Next) ? (int)((Next)-(pRExC_state ->emit_start)) : -1)) : 0 ); S_debug_show_study_flags( flags ," [ ","]"); Perl_re_printf( "\n"); };} while (0) |
1305 | return;do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { regnode *Next; if (!scan) return; Next = Perl_regnext( scan); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),scan,((void*)0 ),pRExC_state); Perl_re_indentf( "%s>%3d: %s (%d)", depth, str, ((scan) ? (int)((scan)-(pRExC_state->emit_start)) : - 1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), Next ? (((Next) ? (int)((Next)-(pRExC_state ->emit_start)) : -1)) : 0 ); S_debug_show_study_flags( flags ," [ ","]"); Perl_re_printf( "\n"); };} while (0) |
1306 | Next = regnext(scan);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { regnode *Next; if (!scan) return; Next = Perl_regnext( scan); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),scan,((void*)0 ),pRExC_state); Perl_re_indentf( "%s>%3d: %s (%d)", depth, str, ((scan) ? (int)((scan)-(pRExC_state->emit_start)) : - 1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), Next ? (((Next) ? (int)((Next)-(pRExC_state ->emit_start)) : -1)) : 0 ); S_debug_show_study_flags( flags ," [ ","]"); Perl_re_printf( "\n"); };} while (0) |
1307 | regprop(RExC_rx, RExC_mysv, scan, NULL, pRExC_state);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { regnode *Next; if (!scan) return; Next = Perl_regnext( scan); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),scan,((void*)0 ),pRExC_state); Perl_re_indentf( "%s>%3d: %s (%d)", depth, str, ((scan) ? (int)((scan)-(pRExC_state->emit_start)) : - 1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), Next ? (((Next) ? (int)((Next)-(pRExC_state ->emit_start)) : -1)) : 0 ); S_debug_show_study_flags( flags ," [ ","]"); Perl_re_printf( "\n"); };} while (0) |
1308 | Perl_re_indentf( aTHX_ "%s>%3d: %s (%d)",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { regnode *Next; if (!scan) return; Next = Perl_regnext( scan); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),scan,((void*)0 ),pRExC_state); Perl_re_indentf( "%s>%3d: %s (%d)", depth, str, ((scan) ? (int)((scan)-(pRExC_state->emit_start)) : - 1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), Next ? (((Next) ? (int)((Next)-(pRExC_state ->emit_start)) : -1)) : 0 ); S_debug_show_study_flags( flags ," [ ","]"); Perl_re_printf( "\n"); };} while (0) |
1309 | depth,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { regnode *Next; if (!scan) return; Next = Perl_regnext( scan); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),scan,((void*)0 ),pRExC_state); Perl_re_indentf( "%s>%3d: %s (%d)", depth, str, ((scan) ? (int)((scan)-(pRExC_state->emit_start)) : - 1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), Next ? (((Next) ? (int)((Next)-(pRExC_state ->emit_start)) : -1)) : 0 ); S_debug_show_study_flags( flags ," [ ","]"); Perl_re_printf( "\n"); };} while (0) |
1310 | str,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { regnode *Next; if (!scan) return; Next = Perl_regnext( scan); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),scan,((void*)0 ),pRExC_state); Perl_re_indentf( "%s>%3d: %s (%d)", depth, str, ((scan) ? (int)((scan)-(pRExC_state->emit_start)) : - 1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), Next ? (((Next) ? (int)((Next)-(pRExC_state ->emit_start)) : -1)) : 0 ); S_debug_show_study_flags( flags ," [ ","]"); Perl_re_printf( "\n"); };} while (0) |
1311 | REG_NODE_NUM(scan), SvPV_nolen_const(RExC_mysv),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { regnode *Next; if (!scan) return; Next = Perl_regnext( scan); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),scan,((void*)0 ),pRExC_state); Perl_re_indentf( "%s>%3d: %s (%d)", depth, str, ((scan) ? (int)((scan)-(pRExC_state->emit_start)) : - 1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), Next ? (((Next) ? (int)((Next)-(pRExC_state ->emit_start)) : -1)) : 0 ); S_debug_show_study_flags( flags ," [ ","]"); Perl_re_printf( "\n"); };} while (0) |
1312 | Next ? (REG_NODE_NUM(Next)) : 0 );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { regnode *Next; if (!scan) return; Next = Perl_regnext( scan); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),scan,((void*)0 ),pRExC_state); Perl_re_indentf( "%s>%3d: %s (%d)", depth, str, ((scan) ? (int)((scan)-(pRExC_state->emit_start)) : - 1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), Next ? (((Next) ? (int)((Next)-(pRExC_state ->emit_start)) : -1)) : 0 ); S_debug_show_study_flags( flags ," [ ","]"); Perl_re_printf( "\n"); };} while (0) |
1313 | S_debug_show_study_flags(aTHX_ flags," [ ","]");do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { regnode *Next; if (!scan) return; Next = Perl_regnext( scan); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),scan,((void*)0 ),pRExC_state); Perl_re_indentf( "%s>%3d: %s (%d)", depth, str, ((scan) ? (int)((scan)-(pRExC_state->emit_start)) : - 1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), Next ? (((Next) ? (int)((Next)-(pRExC_state ->emit_start)) : -1)) : 0 ); S_debug_show_study_flags( flags ," [ ","]"); Perl_re_printf( "\n"); };} while (0) |
1314 | Perl_re_printf( aTHX_ "\n");do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { regnode *Next; if (!scan) return; Next = Perl_regnext( scan); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),scan,((void*)0 ),pRExC_state); Perl_re_indentf( "%s>%3d: %s (%d)", depth, str, ((scan) ? (int)((scan)-(pRExC_state->emit_start)) : - 1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), Next ? (((Next) ? (int)((Next)-(pRExC_state ->emit_start)) : -1)) : 0 ); S_debug_show_study_flags( flags ," [ ","]"); Perl_re_printf( "\n"); };} while (0) |
1315 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { regnode *Next; if (!scan) return; Next = Perl_regnext( scan); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),scan,((void*)0 ),pRExC_state); Perl_re_indentf( "%s>%3d: %s (%d)", depth, str, ((scan) ? (int)((scan)-(pRExC_state->emit_start)) : - 1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), Next ? (((Next) ? (int)((Next)-(pRExC_state ->emit_start)) : -1)) : 0 ); S_debug_show_study_flags( flags ," [ ","]"); Perl_re_printf( "\n"); };} while (0); |
1316 | } |
1317 | |
1318 | |
1319 | # define DEBUG_STUDYDATA(where, data, depth, is_inf)S_debug_studydata( where, data, depth, is_inf) \ |
1320 | S_debug_studydata(aTHX_ where, data, depth, is_inf) |
1321 | |
1322 | # define DEBUG_PEEP(str, scan, depth, flags)S_debug_peep( str, pRExC_state, scan, depth, flags) \ |
1323 | S_debug_peep(aTHX_ str, pRExC_state, scan, depth, flags) |
1324 | |
1325 | #else |
1326 | # define DEBUG_STUDYDATA(where, data, depth, is_inf)S_debug_studydata( where, data, depth, is_inf) NOOP(void)0 |
1327 | # define DEBUG_PEEP(str, scan, depth, flags)S_debug_peep( str, pRExC_state, scan, depth, flags) NOOP(void)0 |
1328 | #endif |
1329 | |
1330 | |
1331 | /* ========================================================= |
1332 | * BEGIN edit_distance stuff. |
1333 | * |
1334 | * This calculates how many single character changes of any type are needed to |
1335 | * transform a string into another one. It is taken from version 3.1 of |
1336 | * |
1337 | * https://metacpan.org/pod/Text::Levenshtein::Damerau::XS |
1338 | */ |
1339 | |
1340 | /* Our unsorted dictionary linked list. */ |
1341 | /* Note we use UVs, not chars. */ |
1342 | |
1343 | struct dictionary{ |
1344 | UV key; |
1345 | UV value; |
1346 | struct dictionary* next; |
1347 | }; |
1348 | typedef struct dictionary item; |
1349 | |
1350 | |
1351 | PERL_STATIC_INLINEstatic __inline__ item* |
1352 | push(UV key, item* curr) |
1353 | { |
1354 | item* head; |
1355 | Newx(head, 1, item)(head = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof (1) || sizeof(item) > ((size_t)1 << 8*(sizeof(size_t ) - sizeof(1)))) ? (size_t)(1) : ((size_t)-1)/sizeof(item)) > ((size_t)-1)/sizeof(item))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), (item*)(Perl_safesysmalloc((size_t )((1)*sizeof(item)))))); |
1356 | head->key = key; |
1357 | head->value = 0; |
1358 | head->next = curr; |
1359 | return head; |
1360 | } |
1361 | |
1362 | |
1363 | PERL_STATIC_INLINEstatic __inline__ item* |
1364 | find(item* head, UV key) |
1365 | { |
1366 | item* iterator = head; |
1367 | while (iterator){ |
1368 | if (iterator->key == key){ |
1369 | return iterator; |
1370 | } |
1371 | iterator = iterator->next; |
1372 | } |
1373 | |
1374 | return NULL((void*)0); |
1375 | } |
1376 | |
1377 | PERL_STATIC_INLINEstatic __inline__ item* |
1378 | uniquePush(item* head, UV key) |
1379 | { |
1380 | item* iterator = head; |
1381 | |
1382 | while (iterator){ |
1383 | if (iterator->key == key) { |
1384 | return head; |
1385 | } |
1386 | iterator = iterator->next; |
1387 | } |
1388 | |
1389 | return push(key, head); |
1390 | } |
1391 | |
1392 | PERL_STATIC_INLINEstatic __inline__ void |
1393 | dict_free(item* head) |
1394 | { |
1395 | item* iterator = head; |
1396 | |
1397 | while (iterator) { |
1398 | item* temp = iterator; |
1399 | iterator = iterator->next; |
1400 | Safefree(temp)Perl_safesysfree(((void *)(temp))); |
1401 | } |
1402 | |
1403 | head = NULL((void*)0); |
1404 | } |
1405 | |
1406 | /* End of Dictionary Stuff */ |
1407 | |
1408 | /* All calculations/work are done here */ |
1409 | STATICstatic int |
1410 | S_edit_distance(const UV* src, |
1411 | const UV* tgt, |
1412 | const STRLEN x, /* length of src[] */ |
1413 | const STRLEN y, /* length of tgt[] */ |
1414 | const SSize_tssize_t maxDistance |
1415 | ) |
1416 | { |
1417 | item *head = NULL((void*)0); |
1418 | UV swapCount, swapScore, targetCharCount, i, j; |
1419 | UV *scores; |
1420 | UV score_ceil = x + y; |
1421 | |
1422 | PERL_ARGS_ASSERT_EDIT_DISTANCE((src) ? (void)0 : __assert2("re_comp.c", 1422, __func__, "src" )); ((tgt) ? (void)0 : __assert2("re_comp.c", 1422, __func__, "tgt")); |
1423 | |
1424 | /* intialize matrix start values */ |
1425 | Newx(scores, ( (x + 2) * (y + 2)), UV)(scores = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof (( (x + 2) * (y + 2))) || sizeof(UV) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(( (x + 2) * (y + 2)))))) ? (size_t )(( (x + 2) * (y + 2))) : ((size_t)-1)/sizeof(UV)) > ((size_t )-1)/sizeof(UV))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (UV*)(Perl_safesysmalloc((size_t)((( (x + 2) * (y + 2 )))*sizeof(UV)))))); |
1426 | scores[0] = score_ceil; |
1427 | scores[1 * (y + 2) + 0] = score_ceil; |
1428 | scores[0 * (y + 2) + 1] = score_ceil; |
1429 | scores[1 * (y + 2) + 1] = 0; |
1430 | head = uniquePush(uniquePush(head, src[0]), tgt[0]); |
1431 | |
1432 | /* work loops */ |
1433 | /* i = src index */ |
1434 | /* j = tgt index */ |
1435 | for (i=1;i<=x;i++) { |
1436 | if (i < x) |
1437 | head = uniquePush(head, src[i]); |
1438 | scores[(i+1) * (y + 2) + 1] = i; |
1439 | scores[(i+1) * (y + 2) + 0] = score_ceil; |
1440 | swapCount = 0; |
1441 | |
1442 | for (j=1;j<=y;j++) { |
1443 | if (i == 1) { |
1444 | if(j < y) |
1445 | head = uniquePush(head, tgt[j]); |
1446 | scores[1 * (y + 2) + (j + 1)] = j; |
1447 | scores[0 * (y + 2) + (j + 1)] = score_ceil; |
1448 | } |
1449 | |
1450 | targetCharCount = find(head, tgt[j-1])->value; |
1451 | swapScore = scores[targetCharCount * (y + 2) + swapCount] + i - targetCharCount - 1 + j - swapCount; |
1452 | |
1453 | if (src[i-1] != tgt[j-1]){ |
1454 | scores[(i+1) * (y + 2) + (j + 1)] = MIN(swapScore,(MIN(scores[i * (y + 2) + j], MIN(scores[(i+1) * (y + 2) + j], scores[i * (y + 2) + (j + 1)])) + 1))(((swapScore)<(((((scores[i * (y + 2) + j])<((((scores[ (i+1) * (y + 2) + j])<(scores[i * (y + 2) + (j + 1)]))?(scores [(i+1) * (y + 2) + j]):(scores[i * (y + 2) + (j + 1)]))))?(scores [i * (y + 2) + j]):((((scores[(i+1) * (y + 2) + j])<(scores [i * (y + 2) + (j + 1)]))?(scores[(i+1) * (y + 2) + j]):(scores [i * (y + 2) + (j + 1)])))) + 1)))?(swapScore):(((((scores[i * (y + 2) + j])<((((scores[(i+1) * (y + 2) + j])<(scores [i * (y + 2) + (j + 1)]))?(scores[(i+1) * (y + 2) + j]):(scores [i * (y + 2) + (j + 1)]))))?(scores[i * (y + 2) + j]):((((scores [(i+1) * (y + 2) + j])<(scores[i * (y + 2) + (j + 1)]))?(scores [(i+1) * (y + 2) + j]):(scores[i * (y + 2) + (j + 1)])))) + 1 ))); |
1455 | } |
1456 | else { |
1457 | swapCount = j; |
1458 | scores[(i+1) * (y + 2) + (j + 1)] = MIN(scores[i * (y + 2) + j], swapScore)(((scores[i * (y + 2) + j])<(swapScore))?(scores[i * (y + 2 ) + j]):(swapScore)); |
1459 | } |
1460 | } |
1461 | |
1462 | find(head, src[i-1])->value = i; |
1463 | } |
1464 | |
1465 | { |
1466 | IV score = scores[(x+1) * (y + 2) + (y + 1)]; |
1467 | dict_free(head); |
1468 | Safefree(scores)Perl_safesysfree(((void *)(scores))); |
1469 | return (maxDistance != 0 && maxDistance < score)?(-1):score; |
1470 | } |
1471 | } |
1472 | |
1473 | /* END of edit_distance() stuff |
1474 | * ========================================================= */ |
1475 | |
1476 | /* Mark that we cannot extend a found fixed substring at this point. |
1477 | Update the longest found anchored substring or the longest found |
1478 | floating substrings if needed. */ |
1479 | |
1480 | STATICstatic void |
1481 | S_scan_commit(pTHX_ const RExC_state_t *pRExC_state, scan_data_t *data, |
1482 | SSize_tssize_t *minlenp, int is_inf) |
1483 | { |
1484 | const STRLEN l = CHR_SVLEN(data->last_found)((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ? Perl_sv_len_utf8 ( data->last_found) : (*({ const SV *const _svcur = (const SV *)(data->last_found); ((PL_valid_types_PVX[((svtype)(( _svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 1484, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 1484, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 1484, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))); |
1485 | SV * const longest_sv = data->substrs[data->cur_is_floating].str; |
1486 | const STRLEN old_l = CHR_SVLEN(longest_sv)((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ? Perl_sv_len_utf8 ( longest_sv) : (*({ const SV *const _svcur = (const SV *)(longest_sv ); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 1486, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 1486, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 1486, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))); |
1487 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 1487, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 1487, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
1488 | |
1489 | PERL_ARGS_ASSERT_SCAN_COMMIT((pRExC_state) ? (void)0 : __assert2("re_comp.c", 1489, __func__ , "pRExC_state")); ((data) ? (void)0 : __assert2("re_comp.c", 1489, __func__, "data")); ((minlenp) ? (void)0 : __assert2("re_comp.c" , 1489, __func__, "minlenp")); |
1490 | |
1491 | if ((l >= old_l) && ((l > old_l) || (data->flags & SF_BEFORE_EOL(0x0001|0x0002)))) { |
1492 | const U8 i = data->cur_is_floating; |
1493 | SvSetMagicSV(longest_sv, data->last_found)do { if (__builtin_expect((((longest_sv) != (data->last_found )) ? (_Bool)1 : (_Bool)0),(1))) { Perl_sv_setsv_flags( longest_sv ,data->last_found,2|0); do { if (__builtin_expect(((((longest_sv )->sv_flags & 0x00400000)) ? (_Bool)1 : (_Bool)0),(0)) ) Perl_mg_set( longest_sv); } while (0); } } while (0); |
1494 | data->substrs[i].min_offset = l ? data->last_start_min : data->pos_min; |
1495 | |
1496 | if (!i) /* fixed */ |
1497 | data->substrs[0].max_offset = data->substrs[0].min_offset; |
1498 | else { /* float */ |
1499 | data->substrs[1].max_offset = |
1500 | (is_inf) |
1501 | ? OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1) |
1502 | : (l |
1503 | ? data->last_start_max |
1504 | /* temporary underflow guard for 5.32 */ |
1505 | : data->pos_delta < 0 ? OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1) |
1506 | : (data->pos_delta > OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1) - data->pos_min |
1507 | ? OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1) |
1508 | : data->pos_min + data->pos_delta)); |
1509 | } |
1510 | |
1511 | data->substrs[i].flags &= ~SF_BEFORE_EOL(0x0001|0x0002); |
1512 | data->substrs[i].flags |= data->flags & SF_BEFORE_EOL(0x0001|0x0002); |
1513 | data->substrs[i].minlenp = minlenp; |
1514 | data->substrs[i].lookbehind = 0; |
1515 | } |
1516 | |
1517 | SvCUR_set(data->last_found, 0)do { ((PL_valid_types_PVX[((svtype)((data->last_found)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c" , 1517, __func__, "PL_valid_types_PVX[SvTYPE(data->last_found) & SVt_MASK]" )); ((!((((data->last_found)->sv_flags & (0x00004000 |0x00008000)) == 0x00008000) && (((svtype)((data-> last_found)->sv_flags & 0xff)) == SVt_PVGV || ((svtype )((data->last_found)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 1517, __func__, "!isGV_with_GP(data->last_found)" )); ((!(((svtype)((data->last_found)->sv_flags & 0xff )) == SVt_PVIO && !(((XPVIO*) (data->last_found)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 1517, __func__, "!(SvTYPE(data->last_found) == SVt_PVIO && !(IoFLAGS(data->last_found) & IOf_FAKE_DIRP))" )); (((XPV*) (data->last_found)->sv_any)->xpv_cur = ( 0)); } while (0); |
1518 | { |
1519 | SV * const sv = data->last_found; |
1520 | if (SvUTF8(sv)((sv)->sv_flags & 0x20000000) && SvMAGICAL(sv)((sv)->sv_flags & (0x00200000|0x00400000|0x00800000))) { |
1521 | MAGIC * const mg = mg_findPerl_mg_find(sv, PERL_MAGIC_utf8'w'); |
1522 | if (mg) |
1523 | mg->mg_len = 0; |
1524 | } |
1525 | } |
1526 | data->last_end = -1; |
1527 | data->flags &= ~SF_BEFORE_EOL(0x0001|0x0002); |
1528 | DEBUG_STUDYDATA("commit", data, 0, is_inf)S_debug_studydata( "commit", data, 0, is_inf); |
1529 | } |
1530 | |
1531 | /* An SSC is just a regnode_charclass_posix with an extra field: the inversion |
1532 | * list that describes which code points it matches */ |
1533 | |
1534 | STATICstatic void |
1535 | S_ssc_anything(pTHX_ regnode_ssc *ssc) |
1536 | { |
1537 | /* Set the SSC 'ssc' to match an empty string or any code point */ |
1538 | |
1539 | PERL_ARGS_ASSERT_SSC_ANYTHING((ssc) ? (void)0 : __assert2("re_comp.c", 1539, __func__, "ssc" )); |
1540 | |
1541 | assert(is_ANYOF_SYNTHETIC(ssc))(((PL_regkind[((ssc)->type)] == 18 && ((ssc)->next_off ) == 1)) ? (void)0 : __assert2("re_comp.c", 1541, __func__, "is_ANYOF_SYNTHETIC(ssc)" )); |
1542 | |
1543 | /* mortalize so won't leak */ |
1544 | ssc->invlist = sv_2mortal(_add_range_to_invlist(NULL, 0, UV_MAX))Perl_sv_2mortal( Perl__add_range_to_invlist( ((void*)0),0,(~( UV)0))); |
1545 | ANYOF_FLAGS(ssc)((ssc)->flags) |= SSC_MATCHES_EMPTY_STRING0x01; /* Plus matches empty */ |
1546 | } |
1547 | |
1548 | STATICstatic int |
1549 | S_ssc_is_anything(const regnode_ssc *ssc) |
1550 | { |
1551 | /* Returns TRUE if the SSC 'ssc' can match the empty string and any code |
1552 | * point; FALSE otherwise. Thus, this is used to see if using 'ssc' buys |
1553 | * us anything: if the function returns TRUE, 'ssc' hasn't been restricted |
1554 | * in any way, so there's no point in using it */ |
1555 | |
1556 | UV start, end; |
1557 | bool_Bool ret; |
1558 | |
1559 | PERL_ARGS_ASSERT_SSC_IS_ANYTHING((ssc) ? (void)0 : __assert2("re_comp.c", 1559, __func__, "ssc" )); |
1560 | |
1561 | assert(is_ANYOF_SYNTHETIC(ssc))(((PL_regkind[((ssc)->type)] == 18 && ((ssc)->next_off ) == 1)) ? (void)0 : __assert2("re_comp.c", 1561, __func__, "is_ANYOF_SYNTHETIC(ssc)" )); |
1562 | |
1563 | if (! (ANYOF_FLAGS(ssc)((ssc)->flags) & SSC_MATCHES_EMPTY_STRING0x01)) { |
1564 | return FALSE(0); |
1565 | } |
1566 | |
1567 | /* See if the list consists solely of the range 0 - Infinity */ |
1568 | invlist_iterinitS_invlist_iterinit(ssc->invlist); |
1569 | ret = invlist_iternextS_invlist_iternext(ssc->invlist, &start, &end) |
1570 | && start == 0 |
1571 | && end == UV_MAX(~(UV)0); |
1572 | |
1573 | invlist_iterfinishS_invlist_iterfinish(ssc->invlist); |
1574 | |
1575 | if (ret) { |
1576 | return TRUE(1); |
1577 | } |
1578 | |
1579 | /* If e.g., both \w and \W are set, matches everything */ |
1580 | if (ANYOF_POSIXL_SSC_TEST_ANY_SET(ssc)((((regnode_ssc*)(ssc))->classflags) ? (_Bool)1 : (_Bool)0 )) { |
1581 | int i; |
1582 | for (i = 0; i < ANYOF_POSIXL_MAX(((15) * 2)); i += 2) { |
1583 | if (ANYOF_POSIXL_TEST(ssc, i)((((regnode_charclass_posixl*) (ssc))->classflags) & ( 1U << ((i)))) && ANYOF_POSIXL_TEST(ssc, i+1)((((regnode_charclass_posixl*) (ssc))->classflags) & ( 1U << ((i+1))))) { |
1584 | return TRUE(1); |
1585 | } |
1586 | } |
1587 | } |
1588 | |
1589 | return FALSE(0); |
1590 | } |
1591 | |
1592 | STATICstatic void |
1593 | S_ssc_init(pTHX_ const RExC_state_t *pRExC_state, regnode_ssc *ssc) |
1594 | { |
1595 | /* Initializes the SSC 'ssc'. This includes setting it to match an empty |
1596 | * string, any code point, or any posix class under locale */ |
1597 | |
1598 | PERL_ARGS_ASSERT_SSC_INIT((pRExC_state) ? (void)0 : __assert2("re_comp.c", 1598, __func__ , "pRExC_state")); ((ssc) ? (void)0 : __assert2("re_comp.c", 1598 , __func__, "ssc")); |
1599 | |
1600 | Zero(ssc, 1, regnode_ssc)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(1) || sizeof(regnode_ssc) > ((size_t)1 << 8*(sizeof(size_t ) - sizeof(1)))) ? (size_t)(1) : ((size_t)-1)/sizeof(regnode_ssc )) > ((size_t)-1)/sizeof(regnode_ssc))) ? (_Bool)1 : (_Bool )0),(0)) && (Perl_croak_memory_wrap(),0)), ((((void*) (ssc)) != 0) ? (void)0 : __assert2("re_comp.c", 1600, __func__ , "((void*)(ssc)) != 0")), (void)memset((char*)(ssc),0,(1) * sizeof (regnode_ssc))); |
1601 | set_ANYOF_SYNTHETIC(ssc)do{ ((ssc)->type) = 18; ((ssc)->next_off) = 1; } while ( 0); |
1602 | ARG_SET(ssc, ANYOF_ONLY_HAS_BITMAP)(((((struct regnode_1 *)ssc)->arg1)) = ((((U32) -1)))); |
1603 | ssc_anything(ssc)S_ssc_anything( ssc); |
1604 | |
1605 | /* If any portion of the regex is to operate under locale rules that aren't |
1606 | * fully known at compile time, initialization includes it. The reason |
1607 | * this isn't done for all regexes is that the optimizer was written under |
1608 | * the assumption that locale was all-or-nothing. Given the complexity and |
1609 | * lack of documentation in the optimizer, and that there are inadequate |
1610 | * test cases for locale, many parts of it may not work properly, it is |
1611 | * safest to avoid locale unless necessary. */ |
1612 | if (RExC_contains_locale(pRExC_state->contains_locale)) { |
1613 | ANYOF_POSIXL_SETALL(ssc)do { ((regnode_charclass_posixl*) (ssc))->classflags = ((1U << (((((15) * 2))) - 1))) - 1; } while (0); |
1614 | } |
1615 | else { |
1616 | ANYOF_POSIXL_ZERO(ssc)do { (((regnode_charclass_posixl*) (ssc))->classflags) = 0 ; } while (0); |
1617 | } |
1618 | } |
1619 | |
1620 | STATICstatic int |
1621 | S_ssc_is_cp_posixl_init(const RExC_state_t *pRExC_state, |
1622 | const regnode_ssc *ssc) |
1623 | { |
1624 | /* Returns TRUE if the SSC 'ssc' is in its initial state with regard only |
1625 | * to the list of code points matched, and locale posix classes; hence does |
1626 | * not check its flags) */ |
1627 | |
1628 | UV start, end; |
1629 | bool_Bool ret; |
1630 | |
1631 | PERL_ARGS_ASSERT_SSC_IS_CP_POSIXL_INIT((pRExC_state) ? (void)0 : __assert2("re_comp.c", 1631, __func__ , "pRExC_state")); ((ssc) ? (void)0 : __assert2("re_comp.c", 1631 , __func__, "ssc")); |
1632 | |
1633 | assert(is_ANYOF_SYNTHETIC(ssc))(((PL_regkind[((ssc)->type)] == 18 && ((ssc)->next_off ) == 1)) ? (void)0 : __assert2("re_comp.c", 1633, __func__, "is_ANYOF_SYNTHETIC(ssc)" )); |
1634 | |
1635 | invlist_iterinitS_invlist_iterinit(ssc->invlist); |
1636 | ret = invlist_iternextS_invlist_iternext(ssc->invlist, &start, &end) |
1637 | && start == 0 |
1638 | && end == UV_MAX(~(UV)0); |
1639 | |
1640 | invlist_iterfinishS_invlist_iterfinish(ssc->invlist); |
1641 | |
1642 | if (! ret) { |
1643 | return FALSE(0); |
1644 | } |
1645 | |
1646 | if (RExC_contains_locale(pRExC_state->contains_locale) && ! ANYOF_POSIXL_SSC_TEST_ALL_SET(ssc)(((regnode_ssc*) (ssc))->classflags == ((1U << ((((( 15) * 2))) - 1))) - 1)) { |
1647 | return FALSE(0); |
1648 | } |
1649 | |
1650 | return TRUE(1); |
1651 | } |
1652 | |
1653 | #define INVLIST_INDEX0 0 |
1654 | #define ONLY_LOCALE_MATCHES_INDEX1 1 |
1655 | #define DEFERRED_USER_DEFINED_INDEX2 2 |
1656 | |
1657 | STATICstatic SV* |
1658 | S_get_ANYOF_cp_list_for_ssc(pTHX_ const RExC_state_t *pRExC_state, |
1659 | const regnode_charclass* const node) |
1660 | { |
1661 | /* Returns a mortal inversion list defining which code points are matched |
1662 | * by 'node', which is of type ANYOF. Handles complementing the result if |
1663 | * appropriate. If some code points aren't knowable at this time, the |
1664 | * returned list must, and will, contain every code point that is a |
1665 | * possibility. */ |
1666 | |
1667 | dVARstruct Perl___notused_struct; |
1668 | SV* invlist = NULL((void*)0); |
1669 | SV* only_utf8_locale_invlist = NULL((void*)0); |
1670 | unsigned int i; |
1671 | const U32 n = ARG(node)((((struct regnode_1 *)node)->arg1)); |
1672 | bool_Bool new_node_has_latin1 = FALSE(0); |
1673 | const U8 flags = (inRANGE(OP(node), ANYOFH, ANYOFRb)((((27) >= (22)) ? (void)0 : __assert2("re_comp.c", 1673, __func__ , "(27) >= (22)")), ( (sizeof(((node)->type)) == sizeof (U8)) ? ((((NV) ((22)) >= 0) ? (void)0 : __assert2("re_comp.c" , 1673, __func__, "(NV) ((22)) >= 0")), (((NV) (((27) - (22 ))) >= 0) ? (void)0 : __assert2("re_comp.c", 1673, __func__ , "(NV) (((27) - (22))) >= 0")), (((U64) (((((U8) (((node) ->type))))) - (((22)) | 0))) <= (((U64) ((((27) - (22)) ) | 0))))) : (sizeof(((node)->type)) == sizeof(U32)) ? ((( (NV) ((22)) >= 0) ? (void)0 : __assert2("re_comp.c", 1673, __func__, "(NV) ((22)) >= 0")), (((NV) (((27) - (22))) >= 0) ? (void)0 : __assert2("re_comp.c", 1673, __func__, "(NV) (((27) - (22))) >= 0" )), (((U64) (((((U32) (((node)->type))))) - (((22)) | 0))) <= (((U64) ((((27) - (22))) | 0))))) : (((sizeof(((node)-> type)) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 1673 , __func__, "sizeof(((node)->type)) == sizeof(U64)")), ((( (NV) ((22)) >= 0) ? (void)0 : __assert2("re_comp.c", 1673, __func__, "(NV) ((22)) >= 0")), (((NV) (((27) - (22))) >= 0) ? (void)0 : __assert2("re_comp.c", 1673, __func__, "(NV) (((27) - (22))) >= 0" )), (((U64) (((((U64) (((node)->type))))) - (((22)) | 0))) <= (((U64) ((((27) - (22))) | 0))))))))) |
1674 | ? 0 |
1675 | : ANYOF_FLAGS(node)((node)->flags); |
1676 | |
1677 | PERL_ARGS_ASSERT_GET_ANYOF_CP_LIST_FOR_SSC((pRExC_state) ? (void)0 : __assert2("re_comp.c", 1677, __func__ , "pRExC_state")); ((node) ? (void)0 : __assert2("re_comp.c", 1677, __func__, "node")); |
1678 | |
1679 | /* Look at the data structure created by S_set_ANYOF_arg() */ |
1680 | if (n != ANYOF_ONLY_HAS_BITMAP((U32) -1)) { |
1681 | SV * const rv = MUTABLE_SV(RExC_rxi->data->data[n])((SV *)({ void *_p = ((pRExC_state->rxi)->data->data [n]); _p; })); |
1682 | AV * const av = MUTABLE_AV(SvRV(rv))((AV *)({ void *_p = ((*({ SV *const _svrv = ((SV *)({ void * _p = (rv); _p; })); ((PL_valid_types_RV[((svtype)((_svrv)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c" , 1682, __func__, "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]" )); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 1682, __func__ , "!isGV_with_GP(_svrv)")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 1682, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); }))); _p; })); |
1683 | SV **const ary = AvARRAY(av)((av)->sv_u.svu_array); |
1684 | assert(RExC_rxi->data->what[n] == 's')(((pRExC_state->rxi)->data->what[n] == 's') ? (void) 0 : __assert2("re_comp.c", 1684, __func__, "RExC_rxi->data->what[n] == 's'" )); |
1685 | |
1686 | if (av_tindex_skip_len_mg(av)(((((svtype)((av)->sv_flags & 0xff)) == SVt_PVAV) ? (void )0 : __assert2("re_comp.c", 1686, __func__, "((svtype)((av)->sv_flags & 0xff)) == SVt_PVAV" )), ((XPVAV*) (av)->sv_any)->xav_fill) >= DEFERRED_USER_DEFINED_INDEX2) { |
1687 | |
1688 | /* Here there are things that won't be known until runtime -- we |
1689 | * have to assume it could be anything */ |
1690 | invlist = sv_2mortal(_new_invlist(1))Perl_sv_2mortal( Perl__new_invlist( 1)); |
1691 | return _add_range_to_invlist(invlist, 0, UV_MAX)Perl__add_range_to_invlist( invlist,0,(~(UV)0)); |
1692 | } |
1693 | else if (ary[INVLIST_INDEX0]) { |
1694 | |
1695 | /* Use the node's inversion list */ |
1696 | invlist = sv_2mortal(invlist_clone(ary[INVLIST_INDEX], NULL))Perl_sv_2mortal( Perl_invlist_clone( ary[0],((void*)0))); |
1697 | } |
1698 | |
1699 | /* Get the code points valid only under UTF-8 locales */ |
1700 | if ( (flags & ANYOFL_FOLD0x04) |
1701 | && av_tindex_skip_len_mg(av)(((((svtype)((av)->sv_flags & 0xff)) == SVt_PVAV) ? (void )0 : __assert2("re_comp.c", 1701, __func__, "((svtype)((av)->sv_flags & 0xff)) == SVt_PVAV" )), ((XPVAV*) (av)->sv_any)->xav_fill) >= ONLY_LOCALE_MATCHES_INDEX1) |
1702 | { |
1703 | only_utf8_locale_invlist = ary[ONLY_LOCALE_MATCHES_INDEX1]; |
1704 | } |
1705 | } |
1706 | |
1707 | if (! invlist) { |
1708 | invlist = sv_2mortal(_new_invlist(0))Perl_sv_2mortal( Perl__new_invlist( 0)); |
1709 | } |
1710 | |
1711 | /* An ANYOF node contains a bitmap for the first NUM_ANYOF_CODE_POINTS |
1712 | * code points, and an inversion list for the others, but if there are code |
1713 | * points that should match only conditionally on the target string being |
1714 | * UTF-8, those are placed in the inversion list, and not the bitmap. |
1715 | * Since there are circumstances under which they could match, they are |
1716 | * included in the SSC. But if the ANYOF node is to be inverted, we have |
1717 | * to exclude them here, so that when we invert below, the end result |
1718 | * actually does include them. (Think about "\xe0" =~ /[^\xc0]/di;). We |
1719 | * have to do this here before we add the unconditionally matched code |
1720 | * points */ |
1721 | if (flags & ANYOF_INVERT0x01) { |
1722 | _invlist_intersection_complement_2nd(invlist,Perl__invlist_intersection_maybe_complement_2nd( invlist,PL_UpperLatin1 ,(1),&invlist) |
1723 | PL_UpperLatin1,Perl__invlist_intersection_maybe_complement_2nd( invlist,PL_UpperLatin1 ,(1),&invlist) |
1724 | &invlist)Perl__invlist_intersection_maybe_complement_2nd( invlist,PL_UpperLatin1 ,(1),&invlist); |
1725 | } |
1726 | |
1727 | /* Add in the points from the bit map */ |
1728 | if (! inRANGE(OP(node), ANYOFH, ANYOFRb)((((27) >= (22)) ? (void)0 : __assert2("re_comp.c", 1728, __func__ , "(27) >= (22)")), ( (sizeof(((node)->type)) == sizeof (U8)) ? ((((NV) ((22)) >= 0) ? (void)0 : __assert2("re_comp.c" , 1728, __func__, "(NV) ((22)) >= 0")), (((NV) (((27) - (22 ))) >= 0) ? (void)0 : __assert2("re_comp.c", 1728, __func__ , "(NV) (((27) - (22))) >= 0")), (((U64) (((((U8) (((node) ->type))))) - (((22)) | 0))) <= (((U64) ((((27) - (22)) ) | 0))))) : (sizeof(((node)->type)) == sizeof(U32)) ? ((( (NV) ((22)) >= 0) ? (void)0 : __assert2("re_comp.c", 1728, __func__, "(NV) ((22)) >= 0")), (((NV) (((27) - (22))) >= 0) ? (void)0 : __assert2("re_comp.c", 1728, __func__, "(NV) (((27) - (22))) >= 0" )), (((U64) (((((U32) (((node)->type))))) - (((22)) | 0))) <= (((U64) ((((27) - (22))) | 0))))) : (((sizeof(((node)-> type)) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 1728 , __func__, "sizeof(((node)->type)) == sizeof(U64)")), ((( (NV) ((22)) >= 0) ? (void)0 : __assert2("re_comp.c", 1728, __func__, "(NV) ((22)) >= 0")), (((NV) (((27) - (22))) >= 0) ? (void)0 : __assert2("re_comp.c", 1728, __func__, "(NV) (((27) - (22))) >= 0" )), (((U64) (((((U64) (((node)->type))))) - (((22)) | 0))) <= (((U64) ((((27) - (22))) | 0))))))))) { |
1729 | for (i = 0; i < NUM_ANYOF_CODE_POINTS(1 << 8); i++) { |
1730 | if (ANYOF_BITMAP_TEST(node, i)(((( (U8*) ((regnode_charclass*)(node))->bitmap) [ ( ( (UV ) (i)) >> 3) ] ) & (1U << ((i) & 7))) ? ( _Bool)1 : (_Bool)0)) { |
1731 | unsigned int start = i++; |
1732 | |
1733 | for (; i < NUM_ANYOF_CODE_POINTS(1 << 8) |
1734 | && ANYOF_BITMAP_TEST(node, i)(((( (U8*) ((regnode_charclass*)(node))->bitmap) [ ( ( (UV ) (i)) >> 3) ] ) & (1U << ((i) & 7))) ? ( _Bool)1 : (_Bool)0); ++i) |
1735 | { |
1736 | /* empty */ |
1737 | } |
1738 | invlist = _add_range_to_invlist(invlist, start, i-1)Perl__add_range_to_invlist( invlist,start,i-1); |
1739 | new_node_has_latin1 = TRUE(1); |
1740 | } |
1741 | } |
1742 | } |
1743 | |
1744 | /* If this can match all upper Latin1 code points, have to add them |
1745 | * as well. But don't add them if inverting, as when that gets done below, |
1746 | * it would exclude all these characters, including the ones it shouldn't |
1747 | * that were added just above */ |
1748 | if (! (flags & ANYOF_INVERT0x01) && OP(node)((node)->type) == ANYOFD19 |
1749 | && (flags & ANYOF_SHARED_d_MATCHES_ALL_NON_UTF8_NON_ASCII_non_d_WARN_SUPER0x80)) |
1750 | { |
1751 | _invlist_union(invlist, PL_UpperLatin1, &invlist)Perl__invlist_union_maybe_complement_2nd( invlist,PL_UpperLatin1 ,(0),&invlist); |
1752 | } |
1753 | |
1754 | /* Similarly for these */ |
1755 | if (flags & ANYOF_MATCHES_ALL_ABOVE_BITMAP0x20) { |
1756 | _invlist_union_complement_2nd(invlist, PL_InBitmap, &invlist)Perl__invlist_union_maybe_complement_2nd( invlist,PL_InBitmap ,(1),&invlist); |
1757 | } |
1758 | |
1759 | if (flags & ANYOF_INVERT0x01) { |
1760 | _invlist_invert(invlist)Perl__invlist_invert( invlist); |
1761 | } |
1762 | else if (flags & ANYOFL_FOLD0x04) { |
1763 | if (new_node_has_latin1) { |
1764 | |
1765 | /* Under /li, any 0-255 could fold to any other 0-255, depending on |
1766 | * the locale. We can skip this if there are no 0-255 at all. */ |
1767 | _invlist_union(invlist, PL_Latin1, &invlist)Perl__invlist_union_maybe_complement_2nd( invlist,PL_Latin1,( 0),&invlist); |
1768 | |
1769 | invlist = add_cp_to_invlist(invlist, LATIN_SMALL_LETTER_DOTLESS_I)S_add_cp_to_invlist( invlist,0x131); |
1770 | invlist = add_cp_to_invlist(invlist, LATIN_CAPITAL_LETTER_I_WITH_DOT_ABOVE)S_add_cp_to_invlist( invlist,0x130); |
1771 | } |
1772 | else { |
1773 | if (_invlist_contains_cpS__invlist_contains_cp(invlist, LATIN_SMALL_LETTER_DOTLESS_I0x131)) { |
1774 | invlist = add_cp_to_invlist(invlist, 'I')S_add_cp_to_invlist( invlist,'I'); |
1775 | } |
1776 | if (_invlist_contains_cpS__invlist_contains_cp(invlist, |
1777 | LATIN_CAPITAL_LETTER_I_WITH_DOT_ABOVE0x130)) |
1778 | { |
1779 | invlist = add_cp_to_invlist(invlist, 'i')S_add_cp_to_invlist( invlist,'i'); |
1780 | } |
1781 | } |
1782 | } |
1783 | |
1784 | /* Similarly add the UTF-8 locale possible matches. These have to be |
1785 | * deferred until after the non-UTF-8 locale ones are taken care of just |
1786 | * above, or it leads to wrong results under ANYOF_INVERT */ |
1787 | if (only_utf8_locale_invlist) { |
1788 | _invlist_union_maybe_complement_2nd(invlist,Perl__invlist_union_maybe_complement_2nd( invlist,only_utf8_locale_invlist ,flags & 0x01,&invlist) |
1789 | only_utf8_locale_invlist,Perl__invlist_union_maybe_complement_2nd( invlist,only_utf8_locale_invlist ,flags & 0x01,&invlist) |
1790 | flags & ANYOF_INVERT,Perl__invlist_union_maybe_complement_2nd( invlist,only_utf8_locale_invlist ,flags & 0x01,&invlist) |
1791 | &invlist)Perl__invlist_union_maybe_complement_2nd( invlist,only_utf8_locale_invlist ,flags & 0x01,&invlist); |
1792 | } |
1793 | |
1794 | return invlist; |
1795 | } |
1796 | |
1797 | /* These two functions currently do the exact same thing */ |
1798 | #define ssc_init_zerossc_init ssc_init |
1799 | |
1800 | #define ssc_add_cp(ssc, cp)S_ssc_add_range( (ssc),(cp),(cp)) ssc_add_range((ssc), (cp), (cp))S_ssc_add_range( (ssc),(cp),(cp)) |
1801 | #define ssc_match_all_cp(ssc)S_ssc_add_range( ssc,0,(~(UV)0)) ssc_add_range(ssc, 0, UV_MAX)S_ssc_add_range( ssc,0,(~(UV)0)) |
1802 | |
1803 | /* 'AND' a given class with another one. Can create false positives. 'ssc' |
1804 | * should not be inverted. 'and_with->flags & ANYOF_MATCHES_POSIXL' should be |
1805 | * 0 if 'and_with' is a regnode_charclass instead of a regnode_ssc. */ |
1806 | |
1807 | STATICstatic void |
1808 | S_ssc_and(pTHX_ const RExC_state_t *pRExC_state, regnode_ssc *ssc, |
1809 | const regnode_charclass *and_with) |
1810 | { |
1811 | /* Accumulate into SSC 'ssc' its 'AND' with 'and_with', which is either |
1812 | * another SSC or a regular ANYOF class. Can create false positives. */ |
1813 | |
1814 | SV* anded_cp_list; |
1815 | U8 and_with_flags = inRANGE(OP(and_with), ANYOFH, ANYOFRb)((((27) >= (22)) ? (void)0 : __assert2("re_comp.c", 1815, __func__ , "(27) >= (22)")), ( (sizeof(((and_with)->type)) == sizeof (U8)) ? ((((NV) ((22)) >= 0) ? (void)0 : __assert2("re_comp.c" , 1815, __func__, "(NV) ((22)) >= 0")), (((NV) (((27) - (22 ))) >= 0) ? (void)0 : __assert2("re_comp.c", 1815, __func__ , "(NV) (((27) - (22))) >= 0")), (((U64) (((((U8) (((and_with )->type))))) - (((22)) | 0))) <= (((U64) ((((27) - (22) )) | 0))))) : (sizeof(((and_with)->type)) == sizeof(U32)) ? ((((NV) ((22)) >= 0) ? (void)0 : __assert2("re_comp.c", 1815 , __func__, "(NV) ((22)) >= 0")), (((NV) (((27) - (22))) >= 0) ? (void)0 : __assert2("re_comp.c", 1815, __func__, "(NV) (((27) - (22))) >= 0" )), (((U64) (((((U32) (((and_with)->type))))) - (((22)) | 0 ))) <= (((U64) ((((27) - (22))) | 0))))) : (((sizeof(((and_with )->type)) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 1815, __func__, "sizeof(((and_with)->type)) == sizeof(U64)" )), ((((NV) ((22)) >= 0) ? (void)0 : __assert2("re_comp.c" , 1815, __func__, "(NV) ((22)) >= 0")), (((NV) (((27) - (22 ))) >= 0) ? (void)0 : __assert2("re_comp.c", 1815, __func__ , "(NV) (((27) - (22))) >= 0")), (((U64) (((((U64) (((and_with )->type))))) - (((22)) | 0))) <= (((U64) ((((27) - (22) )) | 0)))))))) |
1816 | ? 0 |
1817 | : ANYOF_FLAGS(and_with)((and_with)->flags); |
1818 | U8 anded_flags; |
1819 | |
1820 | PERL_ARGS_ASSERT_SSC_AND((pRExC_state) ? (void)0 : __assert2("re_comp.c", 1820, __func__ , "pRExC_state")); ((ssc) ? (void)0 : __assert2("re_comp.c", 1820 , __func__, "ssc")); ((and_with) ? (void)0 : __assert2("re_comp.c" , 1820, __func__, "and_with")); |
1821 | |
1822 | assert(is_ANYOF_SYNTHETIC(ssc))(((PL_regkind[((ssc)->type)] == 18 && ((ssc)->next_off ) == 1)) ? (void)0 : __assert2("re_comp.c", 1822, __func__, "is_ANYOF_SYNTHETIC(ssc)" )); |
1823 | |
1824 | /* 'and_with' is used as-is if it too is an SSC; otherwise have to extract |
1825 | * the code point inversion list and just the relevant flags */ |
1826 | if (is_ANYOF_SYNTHETIC(and_with)(PL_regkind[((and_with)->type)] == 18 && ((and_with )->next_off) == 1)) { |
1827 | anded_cp_list = ((regnode_ssc *)and_with)->invlist; |
1828 | anded_flags = and_with_flags; |
1829 | |
1830 | /* XXX This is a kludge around what appears to be deficiencies in the |
1831 | * optimizer. If we make S_ssc_anything() add in the WARN_SUPER flag, |
1832 | * there are paths through the optimizer where it doesn't get weeded |
1833 | * out when it should. And if we don't make some extra provision for |
1834 | * it like the code just below, it doesn't get added when it should. |
1835 | * This solution is to add it only when AND'ing, which is here, and |
1836 | * only when what is being AND'ed is the pristine, original node |
1837 | * matching anything. Thus it is like adding it to ssc_anything() but |
1838 | * only when the result is to be AND'ed. Probably the same solution |
1839 | * could be adopted for the same problem we have with /l matching, |
1840 | * which is solved differently in S_ssc_init(), and that would lead to |
1841 | * fewer false positives than that solution has. But if this solution |
1842 | * creates bugs, the consequences are only that a warning isn't raised |
1843 | * that should be; while the consequences for having /l bugs is |
1844 | * incorrect matches */ |
1845 | if (ssc_is_anythingS_ssc_is_anything((regnode_ssc *)and_with)) { |
1846 | anded_flags |= ANYOF_SHARED_d_MATCHES_ALL_NON_UTF8_NON_ASCII_non_d_WARN_SUPER0x80; |
1847 | } |
1848 | } |
1849 | else { |
1850 | anded_cp_list = get_ANYOF_cp_list_for_ssc(pRExC_state, and_with)S_get_ANYOF_cp_list_for_ssc( pRExC_state,and_with); |
1851 | if (OP(and_with)((and_with)->type) == ANYOFD19) { |
1852 | anded_flags = and_with_flags & ANYOF_COMMON_FLAGS0; |
1853 | } |
1854 | else { |
1855 | anded_flags = and_with_flags |
1856 | &( ANYOF_COMMON_FLAGS0 |
1857 | |ANYOF_SHARED_d_MATCHES_ALL_NON_UTF8_NON_ASCII_non_d_WARN_SUPER0x80 |
1858 | |ANYOF_SHARED_d_UPPER_LATIN1_UTF8_STRING_MATCHES_non_d_RUNTIME_USER_PROP0x40); |
1859 | if (ANYOFL_UTF8_LOCALE_REQD(and_with_flags)((and_with_flags & ( 0x04 |0x08)) == 0x08)) { |
1860 | anded_flags &= |
1861 | ANYOFL_SHARED_UTF8_LOCALE_fold_HAS_MATCHES_nonfold_REQD0x08; |
1862 | } |
1863 | } |
1864 | } |
1865 | |
1866 | ANYOF_FLAGS(ssc)((ssc)->flags) &= anded_flags; |
1867 | |
1868 | /* Below, C1 is the list of code points in 'ssc'; P1, its posix classes. |
1869 | * C2 is the list of code points in 'and-with'; P2, its posix classes. |
1870 | * 'and_with' may be inverted. When not inverted, we have the situation of |
1871 | * computing: |
1872 | * (C1 | P1) & (C2 | P2) |
1873 | * = (C1 & (C2 | P2)) | (P1 & (C2 | P2)) |
1874 | * = ((C1 & C2) | (C1 & P2)) | ((P1 & C2) | (P1 & P2)) |
1875 | * <= ((C1 & C2) | P2)) | ( P1 | (P1 & P2)) |
1876 | * <= ((C1 & C2) | P1 | P2) |
1877 | * Alternatively, the last few steps could be: |
1878 | * = ((C1 & C2) | (C1 & P2)) | ((P1 & C2) | (P1 & P2)) |
1879 | * <= ((C1 & C2) | C1 ) | ( C2 | (P1 & P2)) |
1880 | * <= (C1 | C2 | (P1 & P2)) |
1881 | * We favor the second approach if either P1 or P2 is non-empty. This is |
1882 | * because these components are a barrier to doing optimizations, as what |
1883 | * they match cannot be known until the moment of matching as they are |
1884 | * dependent on the current locale, 'AND"ing them likely will reduce or |
1885 | * eliminate them. |
1886 | * But we can do better if we know that C1,P1 are in their initial state (a |
1887 | * frequent occurrence), each matching everything: |
1888 | * (<everything>) & (C2 | P2) = C2 | P2 |
1889 | * Similarly, if C2,P2 are in their initial state (again a frequent |
1890 | * occurrence), the result is a no-op |
1891 | * (C1 | P1) & (<everything>) = C1 | P1 |
1892 | * |
1893 | * Inverted, we have |
1894 | * (C1 | P1) & ~(C2 | P2) = (C1 | P1) & (~C2 & ~P2) |
1895 | * = (C1 & (~C2 & ~P2)) | (P1 & (~C2 & ~P2)) |
1896 | * <= (C1 & ~C2) | (P1 & ~P2) |
1897 | * */ |
1898 | |
1899 | if ((and_with_flags & ANYOF_INVERT0x01) |
1900 | && ! is_ANYOF_SYNTHETIC(and_with)(PL_regkind[((and_with)->type)] == 18 && ((and_with )->next_off) == 1)) |
1901 | { |
1902 | unsigned int i; |
1903 | |
1904 | ssc_intersection(ssc,S_ssc_intersection( ssc,anded_cp_list,(0)) |
1905 | anded_cp_list,S_ssc_intersection( ssc,anded_cp_list,(0)) |
1906 | FALSE /* Has already been inverted */S_ssc_intersection( ssc,anded_cp_list,(0)) |
1907 | )S_ssc_intersection( ssc,anded_cp_list,(0)); |
1908 | |
1909 | /* If either P1 or P2 is empty, the intersection will be also; can skip |
1910 | * the loop */ |
1911 | if (! (and_with_flags & ANYOF_MATCHES_POSIXL0x02)) { |
1912 | ANYOF_POSIXL_ZERO(ssc)do { (((regnode_charclass_posixl*) (ssc))->classflags) = 0 ; } while (0); |
1913 | } |
1914 | else if (ANYOF_POSIXL_SSC_TEST_ANY_SET(ssc)((((regnode_ssc*)(ssc))->classflags) ? (_Bool)1 : (_Bool)0 )) { |
1915 | |
1916 | /* Note that the Posix class component P from 'and_with' actually |
1917 | * looks like: |
1918 | * P = Pa | Pb | ... | Pn |
1919 | * where each component is one posix class, such as in [\w\s]. |
1920 | * Thus |
1921 | * ~P = ~(Pa | Pb | ... | Pn) |
1922 | * = ~Pa & ~Pb & ... & ~Pn |
1923 | * <= ~Pa | ~Pb | ... | ~Pn |
1924 | * The last is something we can easily calculate, but unfortunately |
1925 | * is likely to have many false positives. We could do better |
1926 | * in some (but certainly not all) instances if two classes in |
1927 | * P have known relationships. For example |
1928 | * :lower: <= :alpha: <= :alnum: <= \w <= :graph: <= :print: |
1929 | * So |
1930 | * :lower: & :print: = :lower: |
1931 | * And similarly for classes that must be disjoint. For example, |
1932 | * since \s and \w can have no elements in common based on rules in |
1933 | * the POSIX standard, |
1934 | * \w & ^\S = nothing |
1935 | * Unfortunately, some vendor locales do not meet the Posix |
1936 | * standard, in particular almost everything by Microsoft. |
1937 | * The loop below just changes e.g., \w into \W and vice versa */ |
1938 | |
1939 | regnode_charclass_posixl temp; |
1940 | int add = 1; /* To calculate the index of the complement */ |
1941 | |
1942 | Zero(&temp, 1, regnode_charclass_posixl)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(1) || sizeof(regnode_charclass_posixl) > ((size_t)1 << 8* (sizeof(size_t) - sizeof(1)))) ? (size_t)(1) : ((size_t)-1)/sizeof (regnode_charclass_posixl)) > ((size_t)-1)/sizeof(regnode_charclass_posixl ))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)(&temp)) != 0) ? (void)0 : __assert2("re_comp.c" , 1942, __func__, "((void*)(&temp)) != 0")), (void)memset ((char*)(&temp),0,(1) * sizeof(regnode_charclass_posixl)) ); |
1943 | ANYOF_POSIXL_ZERO(&temp)do { (((regnode_charclass_posixl*) (&temp))->classflags ) = 0; } while (0); |
1944 | for (i = 0; i < ANYOF_MAX(((15) * 2)); i++) { |
1945 | assert(i % 2 != 0((i % 2 != 0 || ! ((((regnode_charclass_posixl*) ((regnode_charclass_posixl *) and_with))->classflags) & (1U << ((i)))) || ! ((((regnode_charclass_posixl*) ((regnode_charclass_posixl*) and_with ))->classflags) & (1U << ((i + 1))))) ? (void)0 : __assert2("re_comp.c", 1947, __func__, "i % 2 != 0 || ! ANYOF_POSIXL_TEST((regnode_charclass_posixl*) and_with, i) || ! ANYOF_POSIXL_TEST((regnode_charclass_posixl*) and_with, i + 1)" )) |
1946 | || ! ANYOF_POSIXL_TEST((regnode_charclass_posixl*) and_with, i)((i % 2 != 0 || ! ((((regnode_charclass_posixl*) ((regnode_charclass_posixl *) and_with))->classflags) & (1U << ((i)))) || ! ((((regnode_charclass_posixl*) ((regnode_charclass_posixl*) and_with ))->classflags) & (1U << ((i + 1))))) ? (void)0 : __assert2("re_comp.c", 1947, __func__, "i % 2 != 0 || ! ANYOF_POSIXL_TEST((regnode_charclass_posixl*) and_with, i) || ! ANYOF_POSIXL_TEST((regnode_charclass_posixl*) and_with, i + 1)" )) |
1947 | || ! ANYOF_POSIXL_TEST((regnode_charclass_posixl*) and_with, i + 1))((i % 2 != 0 || ! ((((regnode_charclass_posixl*) ((regnode_charclass_posixl *) and_with))->classflags) & (1U << ((i)))) || ! ((((regnode_charclass_posixl*) ((regnode_charclass_posixl*) and_with ))->classflags) & (1U << ((i + 1))))) ? (void)0 : __assert2("re_comp.c", 1947, __func__, "i % 2 != 0 || ! ANYOF_POSIXL_TEST((regnode_charclass_posixl*) and_with, i) || ! ANYOF_POSIXL_TEST((regnode_charclass_posixl*) and_with, i + 1)" )); |
1948 | |
1949 | if (ANYOF_POSIXL_TEST((regnode_charclass_posixl*) and_with, i)((((regnode_charclass_posixl*) ((regnode_charclass_posixl*) and_with ))->classflags) & (1U << ((i))))) { |
1950 | ANYOF_POSIXL_SET(&temp, i + add)((((regnode_charclass_posixl*) (&temp))->classflags) |= (1U << ((i + add)))); |
1951 | } |
1952 | add = 0 - add; /* 1 goes to -1; -1 goes to 1 */ |
1953 | } |
1954 | ANYOF_POSIXL_AND(&temp, ssc)do { (ssc)->classflags &= (&temp)->classflags ; } while (0); |
1955 | |
1956 | } /* else ssc already has no posixes */ |
1957 | } /* else: Not inverted. This routine is a no-op if 'and_with' is an SSC |
1958 | in its initial state */ |
1959 | else if (! is_ANYOF_SYNTHETIC(and_with)(PL_regkind[((and_with)->type)] == 18 && ((and_with )->next_off) == 1) |
1960 | || ! ssc_is_cp_posixl_initS_ssc_is_cp_posixl_init(pRExC_state, (regnode_ssc *)and_with)) |
1961 | { |
1962 | /* But if 'ssc' is in its initial state, the result is just 'and_with'; |
1963 | * copy it over 'ssc' */ |
1964 | if (ssc_is_cp_posixl_initS_ssc_is_cp_posixl_init(pRExC_state, ssc)) { |
1965 | if (is_ANYOF_SYNTHETIC(and_with)(PL_regkind[((and_with)->type)] == 18 && ((and_with )->next_off) == 1)) { |
1966 | StructCopy(and_with, ssc, regnode_ssc)(*((regnode_ssc*)(ssc)) = *((regnode_ssc*)(and_with))); |
1967 | } |
1968 | else { |
1969 | ssc->invlist = anded_cp_list; |
1970 | ANYOF_POSIXL_ZERO(ssc)do { (((regnode_charclass_posixl*) (ssc))->classflags) = 0 ; } while (0); |
1971 | if (and_with_flags & ANYOF_MATCHES_POSIXL0x02) { |
1972 | ANYOF_POSIXL_OR((regnode_charclass_posixl*) and_with, ssc)do { (ssc)->classflags |= ((regnode_charclass_posixl*) and_with )->classflags ; } while (0); |
1973 | } |
1974 | } |
1975 | } |
1976 | else if (ANYOF_POSIXL_SSC_TEST_ANY_SET(ssc)((((regnode_ssc*)(ssc))->classflags) ? (_Bool)1 : (_Bool)0 ) |
1977 | || (and_with_flags & ANYOF_MATCHES_POSIXL0x02)) |
1978 | { |
1979 | /* One or the other of P1, P2 is non-empty. */ |
1980 | if (and_with_flags & ANYOF_MATCHES_POSIXL0x02) { |
1981 | ANYOF_POSIXL_AND((regnode_charclass_posixl*) and_with, ssc)do { (ssc)->classflags &= ((regnode_charclass_posixl*) and_with)->classflags ; } while (0); |
1982 | } |
1983 | ssc_union(ssc, anded_cp_list, FALSE)S_ssc_union( ssc,anded_cp_list,(0)); |
1984 | } |
1985 | else { /* P1 = P2 = empty */ |
1986 | ssc_intersection(ssc, anded_cp_list, FALSE)S_ssc_intersection( ssc,anded_cp_list,(0)); |
1987 | } |
1988 | } |
1989 | } |
1990 | |
1991 | STATICstatic void |
1992 | S_ssc_or(pTHX_ const RExC_state_t *pRExC_state, regnode_ssc *ssc, |
1993 | const regnode_charclass *or_with) |
1994 | { |
1995 | /* Accumulate into SSC 'ssc' its 'OR' with 'or_with', which is either |
1996 | * another SSC or a regular ANYOF class. Can create false positives if |
1997 | * 'or_with' is to be inverted. */ |
1998 | |
1999 | SV* ored_cp_list; |
2000 | U8 ored_flags; |
2001 | U8 or_with_flags = inRANGE(OP(or_with), ANYOFH, ANYOFRb)((((27) >= (22)) ? (void)0 : __assert2("re_comp.c", 2001, __func__ , "(27) >= (22)")), ( (sizeof(((or_with)->type)) == sizeof (U8)) ? ((((NV) ((22)) >= 0) ? (void)0 : __assert2("re_comp.c" , 2001, __func__, "(NV) ((22)) >= 0")), (((NV) (((27) - (22 ))) >= 0) ? (void)0 : __assert2("re_comp.c", 2001, __func__ , "(NV) (((27) - (22))) >= 0")), (((U64) (((((U8) (((or_with )->type))))) - (((22)) | 0))) <= (((U64) ((((27) - (22) )) | 0))))) : (sizeof(((or_with)->type)) == sizeof(U32)) ? ((((NV) ((22)) >= 0) ? (void)0 : __assert2("re_comp.c", 2001 , __func__, "(NV) ((22)) >= 0")), (((NV) (((27) - (22))) >= 0) ? (void)0 : __assert2("re_comp.c", 2001, __func__, "(NV) (((27) - (22))) >= 0" )), (((U64) (((((U32) (((or_with)->type))))) - (((22)) | 0 ))) <= (((U64) ((((27) - (22))) | 0))))) : (((sizeof(((or_with )->type)) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 2001, __func__, "sizeof(((or_with)->type)) == sizeof(U64)" )), ((((NV) ((22)) >= 0) ? (void)0 : __assert2("re_comp.c" , 2001, __func__, "(NV) ((22)) >= 0")), (((NV) (((27) - (22 ))) >= 0) ? (void)0 : __assert2("re_comp.c", 2001, __func__ , "(NV) (((27) - (22))) >= 0")), (((U64) (((((U64) (((or_with )->type))))) - (((22)) | 0))) <= (((U64) ((((27) - (22) )) | 0)))))))) |
2002 | ? 0 |
2003 | : ANYOF_FLAGS(or_with)((or_with)->flags); |
2004 | |
2005 | PERL_ARGS_ASSERT_SSC_OR((pRExC_state) ? (void)0 : __assert2("re_comp.c", 2005, __func__ , "pRExC_state")); ((ssc) ? (void)0 : __assert2("re_comp.c", 2005 , __func__, "ssc")); ((or_with) ? (void)0 : __assert2("re_comp.c" , 2005, __func__, "or_with")); |
2006 | |
2007 | assert(is_ANYOF_SYNTHETIC(ssc))(((PL_regkind[((ssc)->type)] == 18 && ((ssc)->next_off ) == 1)) ? (void)0 : __assert2("re_comp.c", 2007, __func__, "is_ANYOF_SYNTHETIC(ssc)" )); |
2008 | |
2009 | /* 'or_with' is used as-is if it too is an SSC; otherwise have to extract |
2010 | * the code point inversion list and just the relevant flags */ |
2011 | if (is_ANYOF_SYNTHETIC(or_with)(PL_regkind[((or_with)->type)] == 18 && ((or_with) ->next_off) == 1)) { |
2012 | ored_cp_list = ((regnode_ssc*) or_with)->invlist; |
2013 | ored_flags = or_with_flags; |
2014 | } |
2015 | else { |
2016 | ored_cp_list = get_ANYOF_cp_list_for_ssc(pRExC_state, or_with)S_get_ANYOF_cp_list_for_ssc( pRExC_state,or_with); |
2017 | ored_flags = or_with_flags & ANYOF_COMMON_FLAGS0; |
2018 | if (OP(or_with)((or_with)->type) != ANYOFD19) { |
2019 | ored_flags |
2020 | |= or_with_flags |
2021 | & ( ANYOF_SHARED_d_MATCHES_ALL_NON_UTF8_NON_ASCII_non_d_WARN_SUPER0x80 |
2022 | |ANYOF_SHARED_d_UPPER_LATIN1_UTF8_STRING_MATCHES_non_d_RUNTIME_USER_PROP0x40); |
2023 | if (ANYOFL_UTF8_LOCALE_REQD(or_with_flags)((or_with_flags & ( 0x04 |0x08)) == 0x08)) { |
2024 | ored_flags |= |
2025 | ANYOFL_SHARED_UTF8_LOCALE_fold_HAS_MATCHES_nonfold_REQD0x08; |
2026 | } |
2027 | } |
2028 | } |
2029 | |
2030 | ANYOF_FLAGS(ssc)((ssc)->flags) |= ored_flags; |
2031 | |
2032 | /* Below, C1 is the list of code points in 'ssc'; P1, its posix classes. |
2033 | * C2 is the list of code points in 'or-with'; P2, its posix classes. |
2034 | * 'or_with' may be inverted. When not inverted, we have the simple |
2035 | * situation of computing: |
2036 | * (C1 | P1) | (C2 | P2) = (C1 | C2) | (P1 | P2) |
2037 | * If P1|P2 yields a situation with both a class and its complement are |
2038 | * set, like having both \w and \W, this matches all code points, and we |
2039 | * can delete these from the P component of the ssc going forward. XXX We |
2040 | * might be able to delete all the P components, but I (khw) am not certain |
2041 | * about this, and it is better to be safe. |
2042 | * |
2043 | * Inverted, we have |
2044 | * (C1 | P1) | ~(C2 | P2) = (C1 | P1) | (~C2 & ~P2) |
2045 | * <= (C1 | P1) | ~C2 |
2046 | * <= (C1 | ~C2) | P1 |
2047 | * (which results in actually simpler code than the non-inverted case) |
2048 | * */ |
2049 | |
2050 | if ((or_with_flags & ANYOF_INVERT0x01) |
2051 | && ! is_ANYOF_SYNTHETIC(or_with)(PL_regkind[((or_with)->type)] == 18 && ((or_with) ->next_off) == 1)) |
2052 | { |
2053 | /* We ignore P2, leaving P1 going forward */ |
2054 | } /* else Not inverted */ |
2055 | else if (or_with_flags & ANYOF_MATCHES_POSIXL0x02) { |
2056 | ANYOF_POSIXL_OR((regnode_charclass_posixl*)or_with, ssc)do { (ssc)->classflags |= ((regnode_charclass_posixl*)or_with )->classflags ; } while (0); |
2057 | if (ANYOF_POSIXL_SSC_TEST_ANY_SET(ssc)((((regnode_ssc*)(ssc))->classflags) ? (_Bool)1 : (_Bool)0 )) { |
2058 | unsigned int i; |
2059 | for (i = 0; i < ANYOF_MAX(((15) * 2)); i += 2) { |
2060 | if (ANYOF_POSIXL_TEST(ssc, i)((((regnode_charclass_posixl*) (ssc))->classflags) & ( 1U << ((i)))) && ANYOF_POSIXL_TEST(ssc, i + 1)((((regnode_charclass_posixl*) (ssc))->classflags) & ( 1U << ((i + 1))))) |
2061 | { |
2062 | ssc_match_all_cp(ssc)S_ssc_add_range( ssc,0,(~(UV)0)); |
2063 | ANYOF_POSIXL_CLEAR(ssc, i)((((regnode_charclass_posixl*) (ssc))->classflags) &= ~ (1U <<((i)))); |
2064 | ANYOF_POSIXL_CLEAR(ssc, i+1)((((regnode_charclass_posixl*) (ssc))->classflags) &= ~ (1U <<((i+1)))); |
2065 | } |
2066 | } |
2067 | } |
2068 | } |
2069 | |
2070 | ssc_union(ssc,S_ssc_union( ssc,ored_cp_list,(0)) |
2071 | ored_cp_list,S_ssc_union( ssc,ored_cp_list,(0)) |
2072 | FALSE /* Already has been inverted */S_ssc_union( ssc,ored_cp_list,(0)) |
2073 | )S_ssc_union( ssc,ored_cp_list,(0)); |
2074 | } |
2075 | |
2076 | STATICstatic void |
2077 | S_ssc_union(pTHX_ regnode_ssc *ssc, SV* const invlist, const bool_Bool invert2nd) |
2078 | { |
2079 | PERL_ARGS_ASSERT_SSC_UNION((ssc) ? (void)0 : __assert2("re_comp.c", 2079, __func__, "ssc" )); ((invlist) ? (void)0 : __assert2("re_comp.c", 2079, __func__ , "invlist")); |
2080 | |
2081 | assert(is_ANYOF_SYNTHETIC(ssc))(((PL_regkind[((ssc)->type)] == 18 && ((ssc)->next_off ) == 1)) ? (void)0 : __assert2("re_comp.c", 2081, __func__, "is_ANYOF_SYNTHETIC(ssc)" )); |
2082 | |
2083 | _invlist_union_maybe_complement_2nd(ssc->invlist,Perl__invlist_union_maybe_complement_2nd( ssc->invlist,invlist ,invert2nd,&ssc->invlist) |
2084 | invlist,Perl__invlist_union_maybe_complement_2nd( ssc->invlist,invlist ,invert2nd,&ssc->invlist) |
2085 | invert2nd,Perl__invlist_union_maybe_complement_2nd( ssc->invlist,invlist ,invert2nd,&ssc->invlist) |
2086 | &ssc->invlist)Perl__invlist_union_maybe_complement_2nd( ssc->invlist,invlist ,invert2nd,&ssc->invlist); |
2087 | } |
2088 | |
2089 | STATICstatic void |
2090 | S_ssc_intersection(pTHX_ regnode_ssc *ssc, |
2091 | SV* const invlist, |
2092 | const bool_Bool invert2nd) |
2093 | { |
2094 | PERL_ARGS_ASSERT_SSC_INTERSECTION((ssc) ? (void)0 : __assert2("re_comp.c", 2094, __func__, "ssc" )); ((invlist) ? (void)0 : __assert2("re_comp.c", 2094, __func__ , "invlist")); |
2095 | |
2096 | assert(is_ANYOF_SYNTHETIC(ssc))(((PL_regkind[((ssc)->type)] == 18 && ((ssc)->next_off ) == 1)) ? (void)0 : __assert2("re_comp.c", 2096, __func__, "is_ANYOF_SYNTHETIC(ssc)" )); |
2097 | |
2098 | _invlist_intersection_maybe_complement_2nd(ssc->invlist,Perl__invlist_intersection_maybe_complement_2nd( ssc->invlist ,invlist,invert2nd,&ssc->invlist) |
2099 | invlist,Perl__invlist_intersection_maybe_complement_2nd( ssc->invlist ,invlist,invert2nd,&ssc->invlist) |
2100 | invert2nd,Perl__invlist_intersection_maybe_complement_2nd( ssc->invlist ,invlist,invert2nd,&ssc->invlist) |
2101 | &ssc->invlist)Perl__invlist_intersection_maybe_complement_2nd( ssc->invlist ,invlist,invert2nd,&ssc->invlist); |
2102 | } |
2103 | |
2104 | STATICstatic void |
2105 | S_ssc_add_range(pTHX_ regnode_ssc *ssc, const UV start, const UV end) |
2106 | { |
2107 | PERL_ARGS_ASSERT_SSC_ADD_RANGE((ssc) ? (void)0 : __assert2("re_comp.c", 2107, __func__, "ssc" )); |
2108 | |
2109 | assert(is_ANYOF_SYNTHETIC(ssc))(((PL_regkind[((ssc)->type)] == 18 && ((ssc)->next_off ) == 1)) ? (void)0 : __assert2("re_comp.c", 2109, __func__, "is_ANYOF_SYNTHETIC(ssc)" )); |
2110 | |
2111 | ssc->invlist = _add_range_to_invlist(ssc->invlist, start, end)Perl__add_range_to_invlist( ssc->invlist,start,end); |
2112 | } |
2113 | |
2114 | STATICstatic void |
2115 | S_ssc_cp_and(pTHX_ regnode_ssc *ssc, const UV cp) |
2116 | { |
2117 | /* AND just the single code point 'cp' into the SSC 'ssc' */ |
2118 | |
2119 | SV* cp_list = _new_invlist(2)Perl__new_invlist( 2); |
2120 | |
2121 | PERL_ARGS_ASSERT_SSC_CP_AND((ssc) ? (void)0 : __assert2("re_comp.c", 2121, __func__, "ssc" )); |
2122 | |
2123 | assert(is_ANYOF_SYNTHETIC(ssc))(((PL_regkind[((ssc)->type)] == 18 && ((ssc)->next_off ) == 1)) ? (void)0 : __assert2("re_comp.c", 2123, __func__, "is_ANYOF_SYNTHETIC(ssc)" )); |
2124 | |
2125 | cp_list = add_cp_to_invlist(cp_list, cp)S_add_cp_to_invlist( cp_list,cp); |
2126 | ssc_intersection(ssc, cp_list,S_ssc_intersection( ssc,cp_list,(0)) |
2127 | FALSE /* Not inverted */S_ssc_intersection( ssc,cp_list,(0)) |
2128 | )S_ssc_intersection( ssc,cp_list,(0)); |
2129 | SvREFCNT_dec_NN(cp_list)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (cp_list); _p; })) ); |
2130 | } |
2131 | |
2132 | STATICstatic void |
2133 | S_ssc_clear_locale(regnode_ssc *ssc) |
2134 | { |
2135 | /* Set the SSC 'ssc' to not match any locale things */ |
2136 | PERL_ARGS_ASSERT_SSC_CLEAR_LOCALE((ssc) ? (void)0 : __assert2("re_comp.c", 2136, __func__, "ssc" )); |
2137 | |
2138 | assert(is_ANYOF_SYNTHETIC(ssc))(((PL_regkind[((ssc)->type)] == 18 && ((ssc)->next_off ) == 1)) ? (void)0 : __assert2("re_comp.c", 2138, __func__, "is_ANYOF_SYNTHETIC(ssc)" )); |
2139 | |
2140 | ANYOF_POSIXL_ZERO(ssc)do { (((regnode_charclass_posixl*) (ssc))->classflags) = 0 ; } while (0); |
2141 | ANYOF_FLAGS(ssc)((ssc)->flags) &= ~ANYOF_LOCALE_FLAGS(0x04 | 0x02); |
2142 | } |
2143 | |
2144 | #define NON_OTHER_COUNT143698 NON_OTHER_COUNT_FOR_USE_ONLY_BY_REGCOMP_DOT_C143698 |
2145 | |
2146 | STATICstatic bool_Bool |
2147 | S_is_ssc_worth_it(const RExC_state_t * pRExC_state, const regnode_ssc * ssc) |
2148 | { |
2149 | /* The synthetic start class is used to hopefully quickly winnow down |
2150 | * places where a pattern could start a match in the target string. If it |
2151 | * doesn't really narrow things down that much, there isn't much point to |
2152 | * having the overhead of using it. This function uses some very crude |
2153 | * heuristics to decide if to use the ssc or not. |
2154 | * |
2155 | * It returns TRUE if 'ssc' rules out more than half what it considers to |
2156 | * be the "likely" possible matches, but of course it doesn't know what the |
2157 | * actual things being matched are going to be; these are only guesses |
2158 | * |
2159 | * For /l matches, it assumes that the only likely matches are going to be |
2160 | * in the 0-255 range, uniformly distributed, so half of that is 127 |
2161 | * For /a and /d matches, it assumes that the likely matches will be just |
2162 | * the ASCII range, so half of that is 63 |
2163 | * For /u and there isn't anything matching above the Latin1 range, it |
2164 | * assumes that that is the only range likely to be matched, and uses |
2165 | * half that as the cut-off: 127. If anything matches above Latin1, |
2166 | * it assumes that all of Unicode could match (uniformly), except for |
2167 | * non-Unicode code points and things in the General Category "Other" |
2168 | * (unassigned, private use, surrogates, controls and formats). This |
2169 | * is a much large number. */ |
2170 | |
2171 | U32 count = 0; /* Running total of number of code points matched by |
2172 | 'ssc' */ |
2173 | UV start, end; /* Start and end points of current range in inversion |
2174 | XXX outdated. UTF-8 locales are common, what about invert? list */ |
2175 | const U32 max_code_points = (LOC(get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) |
2176 | ? 256 |
2177 | : (( ! UNI_SEMANTICS(get_regex_charset((pRExC_state->flags)) == REGEX_UNICODE_CHARSET ) |
2178 | || invlist_highestS_invlist_highest(ssc->invlist) < 256) |
2179 | ? 128 |
2180 | : NON_OTHER_COUNT143698); |
2181 | const U32 max_match = max_code_points / 2; |
2182 | |
2183 | PERL_ARGS_ASSERT_IS_SSC_WORTH_IT((pRExC_state) ? (void)0 : __assert2("re_comp.c", 2183, __func__ , "pRExC_state")); ((ssc) ? (void)0 : __assert2("re_comp.c", 2183 , __func__, "ssc")); |
2184 | |
2185 | invlist_iterinitS_invlist_iterinit(ssc->invlist); |
2186 | while (invlist_iternextS_invlist_iternext(ssc->invlist, &start, &end)) { |
2187 | if (start >= max_code_points) { |
2188 | break; |
2189 | } |
2190 | end = MIN(end, max_code_points - 1)(((end)<(max_code_points - 1))?(end):(max_code_points - 1) ); |
2191 | count += end - start + 1; |
2192 | if (count >= max_match) { |
2193 | invlist_iterfinishS_invlist_iterfinish(ssc->invlist); |
2194 | return FALSE(0); |
2195 | } |
2196 | } |
2197 | |
2198 | return TRUE(1); |
2199 | } |
2200 | |
2201 | |
2202 | STATICstatic void |
2203 | S_ssc_finalize(pTHX_ RExC_state_t *pRExC_state, regnode_ssc *ssc) |
2204 | { |
2205 | /* The inversion list in the SSC is marked mortal; now we need a more |
2206 | * permanent copy, which is stored the same way that is done in a regular |
2207 | * ANYOF node, with the first NUM_ANYOF_CODE_POINTS code points in a bit |
2208 | * map */ |
2209 | |
2210 | SV* invlist = invlist_clone(ssc->invlist, NULL)Perl_invlist_clone( ssc->invlist,((void*)0)); |
2211 | |
2212 | PERL_ARGS_ASSERT_SSC_FINALIZE((pRExC_state) ? (void)0 : __assert2("re_comp.c", 2212, __func__ , "pRExC_state")); ((ssc) ? (void)0 : __assert2("re_comp.c", 2212 , __func__, "ssc")); |
2213 | |
2214 | assert(is_ANYOF_SYNTHETIC(ssc))(((PL_regkind[((ssc)->type)] == 18 && ((ssc)->next_off ) == 1)) ? (void)0 : __assert2("re_comp.c", 2214, __func__, "is_ANYOF_SYNTHETIC(ssc)" )); |
2215 | |
2216 | /* The code in this file assumes that all but these flags aren't relevant |
2217 | * to the SSC, except SSC_MATCHES_EMPTY_STRING, which should be cleared |
2218 | * by the time we reach here */ |
2219 | assert(! (ANYOF_FLAGS(ssc)((! (((ssc)->flags) & ~( 0 |0x80 |0x40))) ? (void)0 : __assert2 ("re_comp.c", 2222, __func__, "! (ANYOF_FLAGS(ssc) & ~( ANYOF_COMMON_FLAGS |ANYOF_SHARED_d_MATCHES_ALL_NON_UTF8_NON_ASCII_non_d_WARN_SUPER |ANYOF_SHARED_d_UPPER_LATIN1_UTF8_STRING_MATCHES_non_d_RUNTIME_USER_PROP))" )) |
2220 | & ~( ANYOF_COMMON_FLAGS((! (((ssc)->flags) & ~( 0 |0x80 |0x40))) ? (void)0 : __assert2 ("re_comp.c", 2222, __func__, "! (ANYOF_FLAGS(ssc) & ~( ANYOF_COMMON_FLAGS |ANYOF_SHARED_d_MATCHES_ALL_NON_UTF8_NON_ASCII_non_d_WARN_SUPER |ANYOF_SHARED_d_UPPER_LATIN1_UTF8_STRING_MATCHES_non_d_RUNTIME_USER_PROP))" )) |
2221 | |ANYOF_SHARED_d_MATCHES_ALL_NON_UTF8_NON_ASCII_non_d_WARN_SUPER((! (((ssc)->flags) & ~( 0 |0x80 |0x40))) ? (void)0 : __assert2 ("re_comp.c", 2222, __func__, "! (ANYOF_FLAGS(ssc) & ~( ANYOF_COMMON_FLAGS |ANYOF_SHARED_d_MATCHES_ALL_NON_UTF8_NON_ASCII_non_d_WARN_SUPER |ANYOF_SHARED_d_UPPER_LATIN1_UTF8_STRING_MATCHES_non_d_RUNTIME_USER_PROP))" )) |
2222 | |ANYOF_SHARED_d_UPPER_LATIN1_UTF8_STRING_MATCHES_non_d_RUNTIME_USER_PROP)))((! (((ssc)->flags) & ~( 0 |0x80 |0x40))) ? (void)0 : __assert2 ("re_comp.c", 2222, __func__, "! (ANYOF_FLAGS(ssc) & ~( ANYOF_COMMON_FLAGS |ANYOF_SHARED_d_MATCHES_ALL_NON_UTF8_NON_ASCII_non_d_WARN_SUPER |ANYOF_SHARED_d_UPPER_LATIN1_UTF8_STRING_MATCHES_non_d_RUNTIME_USER_PROP))" )); |
2223 | |
2224 | populate_ANYOF_from_invlist( (regnode *) ssc, &invlist)S_populate_ANYOF_from_invlist( (regnode *) ssc,&invlist); |
2225 | |
2226 | set_ANYOF_arg(pRExC_state, (regnode *) ssc, invlist, NULL, NULL)S_set_ANYOF_arg( pRExC_state,(regnode *) ssc,invlist,((void*) 0),((void*)0)); |
2227 | SvREFCNT_dec(invlist)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (invlist); _p; }))); |
2228 | |
2229 | /* Make sure is clone-safe */ |
2230 | ssc->invlist = NULL((void*)0); |
2231 | |
2232 | if (ANYOF_POSIXL_SSC_TEST_ANY_SET(ssc)((((regnode_ssc*)(ssc))->classflags) ? (_Bool)1 : (_Bool)0 )) { |
2233 | ANYOF_FLAGS(ssc)((ssc)->flags) |= ANYOF_MATCHES_POSIXL0x02; |
2234 | OP(ssc)((ssc)->type) = ANYOFPOSIXL21; |
2235 | } |
2236 | else if (RExC_contains_locale(pRExC_state->contains_locale)) { |
2237 | OP(ssc)((ssc)->type) = ANYOFL20; |
2238 | } |
2239 | |
2240 | assert(! (ANYOF_FLAGS(ssc) & ANYOF_LOCALE_FLAGS) || RExC_contains_locale)((! (((ssc)->flags) & (0x04 | 0x02)) || (pRExC_state-> contains_locale)) ? (void)0 : __assert2("re_comp.c", 2240, __func__ , "! (ANYOF_FLAGS(ssc) & ANYOF_LOCALE_FLAGS) || RExC_contains_locale" )); |
2241 | } |
2242 | |
2243 | #define TRIE_LIST_ITEM(state,idx)(trie->states[state].trans.list)[ idx ] (trie->states[state].trans.list)[ idx ] |
2244 | #define TRIE_LIST_CUR(state)( (trie->states[state].trans.list)[ 0 ].forid ) ( TRIE_LIST_ITEM( state, 0 )(trie->states[state].trans.list)[ 0 ].forid ) |
2245 | #define TRIE_LIST_LEN(state)( (trie->states[state].trans.list)[ 0 ].newstate ) ( TRIE_LIST_ITEM( state, 0 )(trie->states[state].trans.list)[ 0 ].newstate ) |
2246 | #define TRIE_LIST_USED(idx)( trie->states[state].trans.list ? (( (trie->states[idx ].trans.list)[ 0 ].forid ) - 1) : 0 ) ( trie->states[state].trans.list \ |
2247 | ? (TRIE_LIST_CUR( idx )( (trie->states[idx].trans.list)[ 0 ].forid ) - 1) \ |
2248 | : 0 ) |
2249 | |
2250 | |
2251 | #ifdef DEBUGGING |
2252 | /* |
2253 | dump_trie(trie,widecharmap,revcharmap) |
2254 | dump_trie_interim_list(trie,widecharmap,revcharmap,next_alloc) |
2255 | dump_trie_interim_table(trie,widecharmap,revcharmap,next_alloc) |
2256 | |
2257 | These routines dump out a trie in a somewhat readable format. |
2258 | The _interim_ variants are used for debugging the interim |
2259 | tables that are used to generate the final compressed |
2260 | representation which is what dump_trie expects. |
2261 | |
2262 | Part of the reason for their existence is to provide a form |
2263 | of documentation as to how the different representations function. |
2264 | |
2265 | */ |
2266 | |
2267 | /* |
2268 | Dumps the final compressed table form of the trie to Perl_debug_log. |
2269 | Used for debugging make_trie(). |
2270 | */ |
2271 | |
2272 | STATICstatic void |
2273 | S_dump_trie(pTHX_ const struct _reg_trie_data *trie, HV *widecharmap, |
2274 | AV *revcharmap, U32 depth) |
2275 | { |
2276 | U32 state; |
2277 | SV *sv=sv_newmortal()Perl_sv_newmortal(); |
2278 | int colwidth= widecharmap ? 6 : 4; |
2279 | U16 word; |
2280 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 2280, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 2280, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
2281 | |
2282 | PERL_ARGS_ASSERT_DUMP_TRIE((trie) ? (void)0 : __assert2("re_comp.c", 2282, __func__, "trie" )); ((revcharmap) ? (void)0 : __assert2("re_comp.c", 2282, __func__ , "revcharmap")); |
2283 | |
2284 | Perl_re_indentf( aTHX_ "Char : %-6s%-6s%-4s ", |
2285 | depth+1, "Match","Base","Ofs" ); |
2286 | |
2287 | for( state = 0 ; state < trie->uniquecharcount ; state++ ) { |
2288 | SV ** const tmp = av_fetch( revcharmap, state, 0)Perl_av_fetch( revcharmap,state,0); |
2289 | if ( tmp ) { |
2290 | Perl_re_printf( aTHX_ "%*s", |
2291 | colwidth, |
2292 | pv_pretty(sv, SvPV_nolen_const(*tmp), SvCUR(*tmp), colwidth,Perl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + (*tmp)->sv_u.svu_pv )) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype)((_svcur )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 2292, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2292, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 2292, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),colwidth,PL_colors[0],PL_colors[1],(((*tmp )->sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) |
2293 | PL_colors[0], PL_colors[1],Perl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + (*tmp)->sv_u.svu_pv )) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype)((_svcur )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 2292, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2292, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 2292, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),colwidth,PL_colors[0],PL_colors[1],(((*tmp )->sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) |
2294 | (SvUTF8(*tmp) ? PERL_PV_ESCAPE_UNI : 0) |Perl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + (*tmp)->sv_u.svu_pv )) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype)((_svcur )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 2292, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2292, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 2292, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),colwidth,PL_colors[0],PL_colors[1],(((*tmp )->sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) |
2295 | PERL_PV_ESCAPE_FIRSTCHARPerl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + (*tmp)->sv_u.svu_pv )) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype)((_svcur )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 2292, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2292, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 2292, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),colwidth,PL_colors[0],PL_colors[1],(((*tmp )->sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) |
2296 | )Perl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + (*tmp)->sv_u.svu_pv )) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype)((_svcur )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 2292, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2292, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 2292, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),colwidth,PL_colors[0],PL_colors[1],(((*tmp )->sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) |
2297 | ); |
2298 | } |
2299 | } |
2300 | Perl_re_printf( aTHX_ "\n"); |
2301 | Perl_re_indentf( aTHX_ "State|-----------------------", depth+1); |
2302 | |
2303 | for( state = 0 ; state < trie->uniquecharcount ; state++ ) |
2304 | Perl_re_printf( aTHX_ "%.*s", colwidth, "--------"); |
2305 | Perl_re_printf( aTHX_ "\n"); |
2306 | |
2307 | for( state = 1 ; state < trie->statecount ; state++ ) { |
2308 | const U32 base = trie->states[ state ].trans.base; |
2309 | |
2310 | Perl_re_indentf( aTHX_ "#%4" UVXf"lX" "|", depth+1, (UV)state); |
2311 | |
2312 | if ( trie->states[ state ].wordnum ) { |
2313 | Perl_re_printf( aTHX_ " W%4X", trie->states[ state ].wordnum ); |
2314 | } else { |
2315 | Perl_re_printf( aTHX_ "%6s", "" ); |
2316 | } |
2317 | |
2318 | Perl_re_printf( aTHX_ " @%4" UVXf"lX" " ", (UV)base ); |
2319 | |
2320 | if ( base ) { |
2321 | U32 ofs = 0; |
2322 | |
2323 | while( ( base + ofs < trie->uniquecharcount ) || |
2324 | ( base + ofs - trie->uniquecharcount < trie->lasttrans |
2325 | && trie->trans[ base + ofs - trie->uniquecharcount ].check |
2326 | != state)) |
2327 | ofs++; |
2328 | |
2329 | Perl_re_printf( aTHX_ "+%2" UVXf"lX" "[ ", (UV)ofs); |
2330 | |
2331 | for ( ofs = 0 ; ofs < trie->uniquecharcount ; ofs++ ) { |
2332 | if ( ( base + ofs >= trie->uniquecharcount ) |
2333 | && ( base + ofs - trie->uniquecharcount |
2334 | < trie->lasttrans ) |
2335 | && trie->trans[ base + ofs |
2336 | - trie->uniquecharcount ].check == state ) |
2337 | { |
2338 | Perl_re_printf( aTHX_ "%*" UVXf"lX", colwidth, |
2339 | (UV)trie->trans[ base + ofs - trie->uniquecharcount ].next |
2340 | ); |
2341 | } else { |
2342 | Perl_re_printf( aTHX_ "%*s", colwidth," ." ); |
2343 | } |
2344 | } |
2345 | |
2346 | Perl_re_printf( aTHX_ "]"); |
2347 | |
2348 | } |
2349 | Perl_re_printf( aTHX_ "\n" ); |
2350 | } |
2351 | Perl_re_indentf( aTHX_ "word_info N:(prev,len)=", |
2352 | depth); |
2353 | for (word=1; word <= trie->wordcount; word++) { |
2354 | Perl_re_printf( aTHX_ " %d:(%d,%d)", |
2355 | (int)word, (int)(trie->wordinfo[word].prev), |
2356 | (int)(trie->wordinfo[word].len)); |
2357 | } |
2358 | Perl_re_printf( aTHX_ "\n" ); |
2359 | } |
2360 | /* |
2361 | Dumps a fully constructed but uncompressed trie in list form. |
2362 | List tries normally only are used for construction when the number of |
2363 | possible chars (trie->uniquecharcount) is very high. |
2364 | Used for debugging make_trie(). |
2365 | */ |
2366 | STATICstatic void |
2367 | S_dump_trie_interim_list(pTHX_ const struct _reg_trie_data *trie, |
2368 | HV *widecharmap, AV *revcharmap, U32 next_alloc, |
2369 | U32 depth) |
2370 | { |
2371 | U32 state; |
2372 | SV *sv=sv_newmortal()Perl_sv_newmortal(); |
2373 | int colwidth= widecharmap ? 6 : 4; |
2374 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 2374, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 2374, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
2375 | |
2376 | PERL_ARGS_ASSERT_DUMP_TRIE_INTERIM_LIST((trie) ? (void)0 : __assert2("re_comp.c", 2376, __func__, "trie" )); ((revcharmap) ? (void)0 : __assert2("re_comp.c", 2376, __func__ , "revcharmap")); |
2377 | |
2378 | /* print out the table precompression. */ |
2379 | Perl_re_indentf( aTHX_ "State :Word | Transition Data\n", |
2380 | depth+1 ); |
2381 | Perl_re_indentf( aTHX_ "%s", |
2382 | depth+1, "------:-----+-----------------\n" ); |
2383 | |
2384 | for( state=1 ; state < next_alloc ; state ++ ) { |
2385 | U16 charid; |
2386 | |
2387 | Perl_re_indentf( aTHX_ " %4" UVXf"lX" " :", |
2388 | depth+1, (UV)state ); |
2389 | if ( ! trie->states[ state ].wordnum ) { |
2390 | Perl_re_printf( aTHX_ "%5s| ",""); |
2391 | } else { |
2392 | Perl_re_printf( aTHX_ "W%4x| ", |
2393 | trie->states[ state ].wordnum |
2394 | ); |
2395 | } |
2396 | for( charid = 1 ; charid <= TRIE_LIST_USED( state )( trie->states[state].trans.list ? (( (trie->states[state ].trans.list)[ 0 ].forid ) - 1) : 0 ) ; charid++ ) { |
2397 | SV ** const tmp = av_fetch( revcharmap,Perl_av_fetch( revcharmap,(trie->states[state].trans.list) [ charid ].forid,0) |
2398 | TRIE_LIST_ITEM(state, charid).forid, 0)Perl_av_fetch( revcharmap,(trie->states[state].trans.list) [ charid ].forid,0); |
2399 | if ( tmp ) { |
2400 | Perl_re_printf( aTHX_ "%*s:%3X=%4" UVXf"lX" " | ", |
2401 | colwidth, |
2402 | pv_pretty(sv, SvPV_nolen_const(*tmp), SvCUR(*tmp),Perl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + (*tmp)->sv_u.svu_pv )) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype)((_svcur )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 2402, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2402, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 2402, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),colwidth,PL_colors[0],PL_colors[1],(((*tmp )->sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) |
2403 | colwidth,Perl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + (*tmp)->sv_u.svu_pv )) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype)((_svcur )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 2402, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2402, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 2402, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),colwidth,PL_colors[0],PL_colors[1],(((*tmp )->sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) |
2404 | PL_colors[0], PL_colors[1],Perl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + (*tmp)->sv_u.svu_pv )) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype)((_svcur )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 2402, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2402, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 2402, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),colwidth,PL_colors[0],PL_colors[1],(((*tmp )->sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) |
2405 | (SvUTF8(*tmp) ? PERL_PV_ESCAPE_UNI : 0)Perl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + (*tmp)->sv_u.svu_pv )) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype)((_svcur )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 2402, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2402, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 2402, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),colwidth,PL_colors[0],PL_colors[1],(((*tmp )->sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) |
2406 | | PERL_PV_ESCAPE_FIRSTCHARPerl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + (*tmp)->sv_u.svu_pv )) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype)((_svcur )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 2402, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2402, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 2402, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),colwidth,PL_colors[0],PL_colors[1],(((*tmp )->sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) |
2407 | )Perl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + (*tmp)->sv_u.svu_pv )) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype)((_svcur )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 2402, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2402, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 2402, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),colwidth,PL_colors[0],PL_colors[1],(((*tmp )->sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) , |
2408 | TRIE_LIST_ITEM(state, charid)(trie->states[state].trans.list)[ charid ].forid, |
2409 | (UV)TRIE_LIST_ITEM(state, charid)(trie->states[state].trans.list)[ charid ].newstate |
2410 | ); |
2411 | if (!(charid % 10)) |
2412 | Perl_re_printf( aTHX_ "\n%*s| ", |
2413 | (int)((depth * 2) + 14), ""); |
2414 | } |
2415 | } |
2416 | Perl_re_printf( aTHX_ "\n"); |
2417 | } |
2418 | } |
2419 | |
2420 | /* |
2421 | Dumps a fully constructed but uncompressed trie in table form. |
2422 | This is the normal DFA style state transition table, with a few |
2423 | twists to facilitate compression later. |
2424 | Used for debugging make_trie(). |
2425 | */ |
2426 | STATICstatic void |
2427 | S_dump_trie_interim_table(pTHX_ const struct _reg_trie_data *trie, |
2428 | HV *widecharmap, AV *revcharmap, U32 next_alloc, |
2429 | U32 depth) |
2430 | { |
2431 | U32 state; |
2432 | U16 charid; |
2433 | SV *sv=sv_newmortal()Perl_sv_newmortal(); |
2434 | int colwidth= widecharmap ? 6 : 4; |
2435 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 2435, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 2435, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
2436 | |
2437 | PERL_ARGS_ASSERT_DUMP_TRIE_INTERIM_TABLE((trie) ? (void)0 : __assert2("re_comp.c", 2437, __func__, "trie" )); ((revcharmap) ? (void)0 : __assert2("re_comp.c", 2437, __func__ , "revcharmap")); |
2438 | |
2439 | /* |
2440 | print out the table precompression so that we can do a visual check |
2441 | that they are identical. |
2442 | */ |
2443 | |
2444 | Perl_re_indentf( aTHX_ "Char : ", depth+1 ); |
2445 | |
2446 | for( charid = 0 ; charid < trie->uniquecharcount ; charid++ ) { |
2447 | SV ** const tmp = av_fetch( revcharmap, charid, 0)Perl_av_fetch( revcharmap,charid,0); |
2448 | if ( tmp ) { |
2449 | Perl_re_printf( aTHX_ "%*s", |
2450 | colwidth, |
2451 | pv_pretty(sv, SvPV_nolen_const(*tmp), SvCUR(*tmp), colwidth,Perl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + (*tmp)->sv_u.svu_pv )) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype)((_svcur )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 2451, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2451, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 2451, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),colwidth,PL_colors[0],PL_colors[1],(((*tmp )->sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) |
2452 | PL_colors[0], PL_colors[1],Perl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + (*tmp)->sv_u.svu_pv )) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype)((_svcur )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 2451, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2451, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 2451, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),colwidth,PL_colors[0],PL_colors[1],(((*tmp )->sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) |
2453 | (SvUTF8(*tmp) ? PERL_PV_ESCAPE_UNI : 0) |Perl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + (*tmp)->sv_u.svu_pv )) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype)((_svcur )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 2451, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2451, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 2451, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),colwidth,PL_colors[0],PL_colors[1],(((*tmp )->sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) |
2454 | PERL_PV_ESCAPE_FIRSTCHARPerl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + (*tmp)->sv_u.svu_pv )) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype)((_svcur )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 2451, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2451, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 2451, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),colwidth,PL_colors[0],PL_colors[1],(((*tmp )->sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) |
2455 | )Perl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + (*tmp)->sv_u.svu_pv )) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype)((_svcur )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 2451, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2451, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 2451, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),colwidth,PL_colors[0],PL_colors[1],(((*tmp )->sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) |
2456 | ); |
2457 | } |
2458 | } |
2459 | |
2460 | Perl_re_printf( aTHX_ "\n"); |
2461 | Perl_re_indentf( aTHX_ "State+-", depth+1 ); |
2462 | |
2463 | for( charid=0 ; charid < trie->uniquecharcount ; charid++ ) { |
2464 | Perl_re_printf( aTHX_ "%.*s", colwidth,"--------"); |
2465 | } |
2466 | |
2467 | Perl_re_printf( aTHX_ "\n" ); |
2468 | |
2469 | for( state=1 ; state < next_alloc ; state += trie->uniquecharcount ) { |
2470 | |
2471 | Perl_re_indentf( aTHX_ "%4" UVXf"lX" " : ", |
2472 | depth+1, |
2473 | (UV)TRIE_NODENUM( state )(((state)-1)/(trie->uniquecharcount)+1) ); |
2474 | |
2475 | for( charid = 0 ; charid < trie->uniquecharcount ; charid++ ) { |
2476 | UV v=(UV)SAFE_TRIE_NODENUM( trie->trans[ state + charid ].next )((trie->trans[ state + charid ].next) ? (((trie->trans[ state + charid ].next)-1)/(trie->uniquecharcount)+1) : (trie ->trans[ state + charid ].next)); |
2477 | if (v) |
2478 | Perl_re_printf( aTHX_ "%*" UVXf"lX", colwidth, v ); |
2479 | else |
2480 | Perl_re_printf( aTHX_ "%*s", colwidth, "." ); |
2481 | } |
2482 | if ( ! trie->states[ TRIE_NODENUM( state )(((state)-1)/(trie->uniquecharcount)+1) ].wordnum ) { |
2483 | Perl_re_printf( aTHX_ " (%4" UVXf"lX" ")\n", |
2484 | (UV)trie->trans[ state ].check ); |
2485 | } else { |
2486 | Perl_re_printf( aTHX_ " (%4" UVXf"lX" ") W%4X\n", |
2487 | (UV)trie->trans[ state ].check, |
2488 | trie->states[ TRIE_NODENUM( state )(((state)-1)/(trie->uniquecharcount)+1) ].wordnum ); |
2489 | } |
2490 | } |
2491 | } |
2492 | |
2493 | #endif |
2494 | |
2495 | |
2496 | /* make_trie(startbranch,first,last,tail,word_count,flags,depth) |
2497 | startbranch: the first branch in the whole branch sequence |
2498 | first : start branch of sequence of branch-exact nodes. |
2499 | May be the same as startbranch |
2500 | last : Thing following the last branch. |
2501 | May be the same as tail. |
2502 | tail : item following the branch sequence |
2503 | count : words in the sequence |
2504 | flags : currently the OP() type we will be building one of /EXACT(|F|FA|FU|FU_SS|L|FLU8)/ |
2505 | depth : indent depth |
2506 | |
2507 | Inplace optimizes a sequence of 2 or more Branch-Exact nodes into a TRIE node. |
2508 | |
2509 | A trie is an N'ary tree where the branches are determined by digital |
2510 | decomposition of the key. IE, at the root node you look up the 1st character and |
2511 | follow that branch repeat until you find the end of the branches. Nodes can be |
2512 | marked as "accepting" meaning they represent a complete word. Eg: |
2513 | |
2514 | /he|she|his|hers/ |
2515 | |
2516 | would convert into the following structure. Numbers represent states, letters |
2517 | following numbers represent valid transitions on the letter from that state, if |
2518 | the number is in square brackets it represents an accepting state, otherwise it |
2519 | will be in parenthesis. |
2520 | |
2521 | +-h->+-e->[3]-+-r->(8)-+-s->[9] |
2522 | | | |
2523 | | (2) |
2524 | | | |
2525 | (1) +-i->(6)-+-s->[7] |
2526 | | |
2527 | +-s->(3)-+-h->(4)-+-e->[5] |
2528 | |
2529 | Accept Word Mapping: 3=>1 (he),5=>2 (she), 7=>3 (his), 9=>4 (hers) |
2530 | |
2531 | This shows that when matching against the string 'hers' we will begin at state 1 |
2532 | read 'h' and move to state 2, read 'e' and move to state 3 which is accepting, |
2533 | then read 'r' and go to state 8 followed by 's' which takes us to state 9 which |
2534 | is also accepting. Thus we know that we can match both 'he' and 'hers' with a |
2535 | single traverse. We store a mapping from accepting to state to which word was |
2536 | matched, and then when we have multiple possibilities we try to complete the |
2537 | rest of the regex in the order in which they occurred in the alternation. |
2538 | |
2539 | The only prior NFA like behaviour that would be changed by the TRIE support is |
2540 | the silent ignoring of duplicate alternations which are of the form: |
2541 | |
2542 | / (DUPE|DUPE) X? (?{ ... }) Y /x |
2543 | |
2544 | Thus EVAL blocks following a trie may be called a different number of times with |
2545 | and without the optimisation. With the optimisations dupes will be silently |
2546 | ignored. This inconsistent behaviour of EVAL type nodes is well established as |
2547 | the following demonstrates: |
2548 | |
2549 | 'words'=~/(word|word|word)(?{ print $1 })[xyz]/ |
2550 | |
2551 | which prints out 'word' three times, but |
2552 | |
2553 | 'words'=~/(word|word|word)(?{ print $1 })S/ |
2554 | |
2555 | which doesnt print it out at all. This is due to other optimisations kicking in. |
2556 | |
2557 | Example of what happens on a structural level: |
2558 | |
2559 | The regexp /(ac|ad|ab)+/ will produce the following debug output: |
2560 | |
2561 | 1: CURLYM[1] {1,32767}(18) |
2562 | 5: BRANCH(8) |
2563 | 6: EXACT <ac>(16) |
2564 | 8: BRANCH(11) |
2565 | 9: EXACT <ad>(16) |
2566 | 11: BRANCH(14) |
2567 | 12: EXACT <ab>(16) |
2568 | 16: SUCCEED(0) |
2569 | 17: NOTHING(18) |
2570 | 18: END(0) |
2571 | |
2572 | This would be optimizable with startbranch=5, first=5, last=16, tail=16 |
2573 | and should turn into: |
2574 | |
2575 | 1: CURLYM[1] {1,32767}(18) |
2576 | 5: TRIE(16) |
2577 | [Words:3 Chars Stored:6 Unique Chars:4 States:5 NCP:1] |
2578 | <ac> |
2579 | <ad> |
2580 | <ab> |
2581 | 16: SUCCEED(0) |
2582 | 17: NOTHING(18) |
2583 | 18: END(0) |
2584 | |
2585 | Cases where tail != last would be like /(?foo|bar)baz/: |
2586 | |
2587 | 1: BRANCH(4) |
2588 | 2: EXACT <foo>(8) |
2589 | 4: BRANCH(7) |
2590 | 5: EXACT <bar>(8) |
2591 | 7: TAIL(8) |
2592 | 8: EXACT <baz>(10) |
2593 | 10: END(0) |
2594 | |
2595 | which would be optimizable with startbranch=1, first=1, last=7, tail=8 |
2596 | and would end up looking like: |
2597 | |
2598 | 1: TRIE(8) |
2599 | [Words:2 Chars Stored:6 Unique Chars:5 States:7 NCP:1] |
2600 | <foo> |
2601 | <bar> |
2602 | 7: TAIL(8) |
2603 | 8: EXACT <baz>(10) |
2604 | 10: END(0) |
2605 | |
2606 | d = uvchr_to_utf8_flags(d, uv, 0); |
2607 | |
2608 | is the recommended Unicode-aware way of saying |
2609 | |
2610 | *(d++) = uv; |
2611 | */ |
2612 | |
2613 | #define TRIE_STORE_REVCHAR(val)do { if ((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) { SV *zlopp = Perl_newSV( 13); unsigned char *flrbbbbb = (unsigned char *) (*({ SV *const _svpvx = ((SV *)({ void *_p = (zlopp) ; _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 2613, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2613, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 2613, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })); unsigned char *const kapow = Perl_uvoffuni_to_utf8_flags_msgs( flrbbbbb,((UV) ((val ) | 0)),0,0); *kapow = '\0'; do { ((PL_valid_types_PVX[((svtype )((zlopp)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 2613, __func__, "PL_valid_types_PVX[SvTYPE(zlopp) & SVt_MASK]" )); ((!((((zlopp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((zlopp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((zlopp)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2613, __func__ , "!isGV_with_GP(zlopp)")); ((!(((svtype)((zlopp)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (zlopp)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 2613, __func__, "!(SvTYPE(zlopp) == SVt_PVIO && !(IoFLAGS(zlopp) & IOf_FAKE_DIRP))" )); (((XPV*) (zlopp)->sv_any)->xpv_cur = (kapow - flrbbbbb )); } while (0); (((!((zlopp)->sv_flags & 0x00000800) || !(*({ SV *const _svrv = ((SV *)({ void *_p = (zlopp); _p; }) ); ((PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 2613, __func__ , "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]")); ((!((( (_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV)) ) ? (void)0 : __assert2("re_comp.c", 2613, __func__, "!isGV_with_GP(_svrv)" )); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 2613, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); }))) ? (void)0 : __assert2 ("re_comp.c", 2613, __func__, "!((zlopp)->sv_flags & 0x00000800) || !(*({ SV *const _svrv = ((SV *)({ void *_p = (zlopp); _p; })); ((PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2(\"re_comp.c\", 2613, __func__, \"PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]\")); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2(\"re_comp.c\", 2613, __func__, \"!isGV_with_GP(_svrv)\")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2(\"re_comp.c\", 2613, __func__, \"!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))\")); &((_svrv)->sv_u.svu_rv); }))" )), ((!((((zlopp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((zlopp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((zlopp)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2613, __func__ , "!((((zlopp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((zlopp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((zlopp)->sv_flags & 0xff)) == SVt_PVLV))" )), (zlopp)->sv_flags |= (0x00000400|0x00004000)); ((zlopp )->sv_flags |= (0x20000000)); Perl_av_push( revcharmap,zlopp ); } else { char ooooff = (char)val; Perl_av_push( revcharmap ,Perl_newSVpvn( &ooooff,1)); } } while (0) \ |
2614 | STMT_STARTdo { \ |
2615 | if (UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) { \ |
2616 | SV *zlopp = newSV(UTF8_MAXBYTES)Perl_newSV( 13); \ |
2617 | unsigned char *flrbbbbb = (unsigned char *) SvPVX(zlopp)(*({ SV *const _svpvx = ((SV *)({ void *_p = (zlopp); _p; })) ; ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 2617, __func__ , "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]")); ((!( (((_svpvx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 2617, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 2617, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })); \ |
2618 | unsigned char *const kapow = uvchr_to_utf8(flrbbbbb, val)Perl_uvoffuni_to_utf8_flags_msgs( flrbbbbb,((UV) ((val) | 0)) ,0,0); \ |
2619 | *kapow = '\0'; \ |
2620 | SvCUR_set(zlopp, kapow - flrbbbbb)do { ((PL_valid_types_PVX[((svtype)((zlopp)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 2620, __func__, "PL_valid_types_PVX[SvTYPE(zlopp) & SVt_MASK]" )); ((!((((zlopp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((zlopp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((zlopp)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2620, __func__ , "!isGV_with_GP(zlopp)")); ((!(((svtype)((zlopp)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (zlopp)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 2620, __func__, "!(SvTYPE(zlopp) == SVt_PVIO && !(IoFLAGS(zlopp) & IOf_FAKE_DIRP))" )); (((XPV*) (zlopp)->sv_any)->xpv_cur = (kapow - flrbbbbb )); } while (0); \ |
2621 | SvPOK_on(zlopp)(((!((zlopp)->sv_flags & 0x00000800) || !(*({ SV *const _svrv = ((SV *)({ void *_p = (zlopp); _p; })); ((PL_valid_types_RV [((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 2621, __func__, "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]" )); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2621, __func__ , "!isGV_with_GP(_svrv)")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 2621, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); }))) ? (void)0 : __assert2 ("re_comp.c", 2621, __func__, "!((zlopp)->sv_flags & 0x00000800) || !(*({ SV *const _svrv = ((SV *)({ void *_p = (zlopp); _p; })); ((PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2(\"re_comp.c\", 2621, __func__, \"PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]\")); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2(\"re_comp.c\", 2621, __func__, \"!isGV_with_GP(_svrv)\")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2(\"re_comp.c\", 2621, __func__, \"!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))\")); &((_svrv)->sv_u.svu_rv); }))" )), ((!((((zlopp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((zlopp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((zlopp)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2621, __func__ , "!((((zlopp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((zlopp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((zlopp)->sv_flags & 0xff)) == SVt_PVLV))" )), (zlopp)->sv_flags |= (0x00000400|0x00004000)); \ |
2622 | SvUTF8_on(zlopp)((zlopp)->sv_flags |= (0x20000000)); \ |
2623 | av_push(revcharmap, zlopp)Perl_av_push( revcharmap,zlopp); \ |
2624 | } else { \ |
2625 | char ooooff = (char)val; \ |
2626 | av_push(revcharmap, newSVpvn(&ooooff, 1))Perl_av_push( revcharmap,Perl_newSVpvn( &ooooff,1)); \ |
2627 | } \ |
2628 | } STMT_ENDwhile (0) |
2629 | |
2630 | /* This gets the next character from the input, folding it if not already |
2631 | * folded. */ |
2632 | #define TRIE_READ_CHARdo { wordlen++; if ( (((pRExC_state->utf8)) ? (_Bool)1 : ( _Bool)0) ) { uvc = Perl_valid_utf8_to_uvchr( (const U8*) uc, & len); } else if (folder == PL_fold_latin1) { ((*uc != 0xDF) ? (void)0 : __assert2("re_comp.c", 2632, __func__, "*uc != LATIN_SMALL_LETTER_SHARP_S" )); uvc = ((! ( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))) ? (*uc) : PL_latin1_lc[ (U8) (*uc) ]); if (__builtin_expect (((uvc == 0xB5) ? (_Bool)1 : (_Bool)0),(0))) uvc = 0x03BC; len = 1; } else { uvc = (U32)*uc; len = 1; } } while (0) STMT_STARTdo { \ |
2633 | wordlen++; \ |
2634 | if ( UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) { \ |
2635 | /* if it is UTF then it is either already folded, or does not need \ |
2636 | * folding */ \ |
2637 | uvc = valid_utf8_to_uvchrPerl_valid_utf8_to_uvchr( (const U8*) uc, &len); \ |
2638 | } \ |
2639 | else if (folder == PL_fold_latin1) { \ |
2640 | /* This folder implies Unicode rules, which in the range expressible \ |
2641 | * by not UTF is the lower case, with the two exceptions, one of \ |
2642 | * which should have been taken care of before calling this */ \ |
2643 | assert(*uc != LATIN_SMALL_LETTER_SHARP_S)((*uc != 0xDF) ? (void)0 : __assert2("re_comp.c", 2643, __func__ , "*uc != LATIN_SMALL_LETTER_SHARP_S")); \ |
2644 | uvc = toLOWER_L1(*uc)((! ( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF) )) ? (*uc) : PL_latin1_lc[ (U8) (*uc) ]); \ |
2645 | if (UNLIKELY(uvc == MICRO_SIGN)__builtin_expect(((uvc == 0xB5) ? (_Bool)1 : (_Bool)0),(0))) uvc = GREEK_SMALL_LETTER_MU0x03BC; \ |
2646 | len = 1; \ |
2647 | } else { \ |
2648 | /* raw data, will be folded later if needed */ \ |
2649 | uvc = (U32)*uc; \ |
2650 | len = 1; \ |
2651 | } \ |
2652 | } STMT_ENDwhile (0) |
2653 | |
2654 | |
2655 | |
2656 | #define TRIE_LIST_PUSH(state,fid,ns)do { if ( ( (trie->states[state].trans.list)[ 0 ].forid ) >= ( (trie->states[state].trans.list)[ 0 ].newstate ) ) { U32 ging = ( (trie->states[state].trans.list)[ 0 ].newstate ) * 2; (trie->states[ state ].trans.list = ((void)(__builtin_expect (((((( sizeof(size_t) < sizeof(ging) || sizeof(reg_trie_trans_le ) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(ging))) ) ? (size_t)(ging) : ((size_t)-1)/sizeof(reg_trie_trans_le)) > ((size_t)-1)/sizeof(reg_trie_trans_le))) ? (_Bool)1 : (_Bool )0),(0)) && (Perl_croak_memory_wrap(),0)), (reg_trie_trans_le *)(Perl_safesysrealloc((void *)(trie->states[ state ].trans .list),(size_t)((ging)*sizeof(reg_trie_trans_le)))))); ( (trie ->states[state].trans.list)[ 0 ].newstate ) = ging; } (trie ->states[state].trans.list)[ ( (trie->states[state].trans .list)[ 0 ].forid ) ].forid = fid; (trie->states[state].trans .list)[ ( (trie->states[state].trans.list)[ 0 ].forid ) ]. newstate = ns; ( (trie->states[state].trans.list)[ 0 ].forid )++; } while (0) STMT_STARTdo { \ |
2657 | if ( TRIE_LIST_CUR( state )( (trie->states[state].trans.list)[ 0 ].forid ) >=TRIE_LIST_LEN( state )( (trie->states[state].trans.list)[ 0 ].newstate ) ) { \ |
2658 | U32 ging = TRIE_LIST_LEN( state )( (trie->states[state].trans.list)[ 0 ].newstate ) * 2; \ |
2659 | Renew( trie->states[ state ].trans.list, ging, reg_trie_trans_le )(trie->states[ state ].trans.list = ((void)(__builtin_expect (((((( sizeof(size_t) < sizeof(ging) || sizeof(reg_trie_trans_le ) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(ging))) ) ? (size_t)(ging) : ((size_t)-1)/sizeof(reg_trie_trans_le)) > ((size_t)-1)/sizeof(reg_trie_trans_le))) ? (_Bool)1 : (_Bool )0),(0)) && (Perl_croak_memory_wrap(),0)), (reg_trie_trans_le *)(Perl_safesysrealloc((void *)(trie->states[ state ].trans .list),(size_t)((ging)*sizeof(reg_trie_trans_le)))))); \ |
2660 | TRIE_LIST_LEN( state )( (trie->states[state].trans.list)[ 0 ].newstate ) = ging; \ |
2661 | } \ |
2662 | TRIE_LIST_ITEM( state, TRIE_LIST_CUR( state ) )(trie->states[state].trans.list)[ ( (trie->states[state ].trans.list)[ 0 ].forid ) ].forid = fid; \ |
2663 | TRIE_LIST_ITEM( state, TRIE_LIST_CUR( state ) )(trie->states[state].trans.list)[ ( (trie->states[state ].trans.list)[ 0 ].forid ) ].newstate = ns; \ |
2664 | TRIE_LIST_CUR( state )( (trie->states[state].trans.list)[ 0 ].forid )++; \ |
2665 | } STMT_ENDwhile (0) |
2666 | |
2667 | #define TRIE_LIST_NEW(state)do { (trie->states[ state ].trans.list = ((void)(__builtin_expect (((((( sizeof(size_t) < sizeof(4) || sizeof(reg_trie_trans_le ) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(4)))) ? (size_t)(4) : ((size_t)-1)/sizeof(reg_trie_trans_le)) > ( (size_t)-1)/sizeof(reg_trie_trans_le))) ? (_Bool)1 : (_Bool)0 ),(0)) && (Perl_croak_memory_wrap(),0)), (reg_trie_trans_le *)(Perl_safesysmalloc((size_t)((4)*sizeof(reg_trie_trans_le)) )))); ( (trie->states[state].trans.list)[ 0 ].forid ) = 1; ( (trie->states[state].trans.list)[ 0 ].newstate ) = 4; } while (0) STMT_STARTdo { \ |
2668 | Newx( trie->states[ state ].trans.list, \(trie->states[ state ].trans.list = ((void)(__builtin_expect (((((( sizeof(size_t) < sizeof(4) || sizeof(reg_trie_trans_le ) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(4)))) ? (size_t)(4) : ((size_t)-1)/sizeof(reg_trie_trans_le)) > ( (size_t)-1)/sizeof(reg_trie_trans_le))) ? (_Bool)1 : (_Bool)0 ),(0)) && (Perl_croak_memory_wrap(),0)), (reg_trie_trans_le *)(Perl_safesysmalloc((size_t)((4)*sizeof(reg_trie_trans_le)) )))) |
2669 | 4, reg_trie_trans_le )(trie->states[ state ].trans.list = ((void)(__builtin_expect (((((( sizeof(size_t) < sizeof(4) || sizeof(reg_trie_trans_le ) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(4)))) ? (size_t)(4) : ((size_t)-1)/sizeof(reg_trie_trans_le)) > ( (size_t)-1)/sizeof(reg_trie_trans_le))) ? (_Bool)1 : (_Bool)0 ),(0)) && (Perl_croak_memory_wrap(),0)), (reg_trie_trans_le *)(Perl_safesysmalloc((size_t)((4)*sizeof(reg_trie_trans_le)) )))); \ |
2670 | TRIE_LIST_CUR( state )( (trie->states[state].trans.list)[ 0 ].forid ) = 1; \ |
2671 | TRIE_LIST_LEN( state )( (trie->states[state].trans.list)[ 0 ].newstate ) = 4; \ |
2672 | } STMT_ENDwhile (0) |
2673 | |
2674 | #define TRIE_HANDLE_WORD(state)do { U16 dupe= trie->states[ state ].wordnum; regnode * const noper_next = Perl_regnext( noper); do {{ SV* tmp; if (((noper )->type) != 54) tmp = Perl_newSVpvn_flags( (((((noper)-> type) == 41 || ((noper)->type) == 51) ? (((((noper)->type ) == 41 || ((noper)->type) == 51) ? (void)0 : __assert2("re_comp.c" , 2674, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->string)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 2674, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->string))),(((((noper )->type) == 41 || ((noper)->type) == 51) ? (((((noper)-> type) == 41 || ((noper)->type) == 51) ? (void)0 : __assert2 ("re_comp.c", 2674, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->str_len)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 2674, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->str_len))),((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? 0x20000000 : 0); else tmp = Perl_newSVpvn_flags( (""),(0),((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? 0x20000000 : 0); Perl_av_push( trie_words ,tmp); };} while (0); curword++; trie->wordinfo[curword].prev = 0; trie->wordinfo[curword].len = wordlen; trie->wordinfo [curword].accept = state; if ( noper_next < tail ) { if (! trie->jump) trie->jump = (U16 *) calloc((word_count + 1 ), (sizeof(U16))); trie->jump[curword] = (U16)(noper_next - convert); if (!jumper) jumper = noper_next; if (!nextbranch) nextbranch= Perl_regnext( cur); } if ( dupe ) { trie->wordinfo [curword].prev = trie->wordinfo[dupe].prev; trie->wordinfo [dupe].prev = curword; } else { trie->states[ state ].wordnum = curword; } } while (0) STMT_STARTdo { \ |
2675 | U16 dupe= trie->states[ state ].wordnum; \ |
2676 | regnode * const noper_next = regnext( noper )Perl_regnext( noper); \ |
2677 | \ |
2678 | DEBUG_r({ \do {{ SV* tmp; if (((noper)->type) != 54) tmp = Perl_newSVpvn_flags ( (((((noper)->type) == 41 || ((noper)->type) == 51) ? ( ((((noper)->type) == 41 || ((noper)->type) == 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->string)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->string))),(((((noper )->type) == 41 || ((noper)->type) == 51) ? (((((noper)-> type) == 41 || ((noper)->type) == 51) ? (void)0 : __assert2 ("re_comp.c", 2682, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->str_len)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->str_len))),((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? 0x20000000 : 0); else tmp = Perl_newSVpvn_flags( (""),(0),((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? 0x20000000 : 0); Perl_av_push( trie_words ,tmp); };} while (0) |
2679 | /* store the word for dumping */ \do {{ SV* tmp; if (((noper)->type) != 54) tmp = Perl_newSVpvn_flags ( (((((noper)->type) == 41 || ((noper)->type) == 51) ? ( ((((noper)->type) == 41 || ((noper)->type) == 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->string)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->string))),(((((noper )->type) == 41 || ((noper)->type) == 51) ? (((((noper)-> type) == 41 || ((noper)->type) == 51) ? (void)0 : __assert2 ("re_comp.c", 2682, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->str_len)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->str_len))),((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? 0x20000000 : 0); else tmp = Perl_newSVpvn_flags( (""),(0),((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? 0x20000000 : 0); Perl_av_push( trie_words ,tmp); };} while (0) |
2680 | SV* tmp; \do {{ SV* tmp; if (((noper)->type) != 54) tmp = Perl_newSVpvn_flags ( (((((noper)->type) == 41 || ((noper)->type) == 51) ? ( ((((noper)->type) == 41 || ((noper)->type) == 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->string)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->string))),(((((noper )->type) == 41 || ((noper)->type) == 51) ? (((((noper)-> type) == 41 || ((noper)->type) == 51) ? (void)0 : __assert2 ("re_comp.c", 2682, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->str_len)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->str_len))),((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? 0x20000000 : 0); else tmp = Perl_newSVpvn_flags( (""),(0),((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? 0x20000000 : 0); Perl_av_push( trie_words ,tmp); };} while (0) |
2681 | if (OP(noper) != NOTHING) \do {{ SV* tmp; if (((noper)->type) != 54) tmp = Perl_newSVpvn_flags ( (((((noper)->type) == 41 || ((noper)->type) == 51) ? ( ((((noper)->type) == 41 || ((noper)->type) == 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->string)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->string))),(((((noper )->type) == 41 || ((noper)->type) == 51) ? (((((noper)-> type) == 41 || ((noper)->type) == 51) ? (void)0 : __assert2 ("re_comp.c", 2682, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->str_len)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->str_len))),((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? 0x20000000 : 0); else tmp = Perl_newSVpvn_flags( (""),(0),((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? 0x20000000 : 0); Perl_av_push( trie_words ,tmp); };} while (0) |
2682 | tmp = newSVpvn_utf8(STRING(noper), STR_LEN(noper), UTF); \do {{ SV* tmp; if (((noper)->type) != 54) tmp = Perl_newSVpvn_flags ( (((((noper)->type) == 41 || ((noper)->type) == 51) ? ( ((((noper)->type) == 41 || ((noper)->type) == 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->string)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->string))),(((((noper )->type) == 41 || ((noper)->type) == 51) ? (((((noper)-> type) == 41 || ((noper)->type) == 51) ? (void)0 : __assert2 ("re_comp.c", 2682, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->str_len)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->str_len))),((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? 0x20000000 : 0); else tmp = Perl_newSVpvn_flags( (""),(0),((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? 0x20000000 : 0); Perl_av_push( trie_words ,tmp); };} while (0) |
2683 | else \do {{ SV* tmp; if (((noper)->type) != 54) tmp = Perl_newSVpvn_flags ( (((((noper)->type) == 41 || ((noper)->type) == 51) ? ( ((((noper)->type) == 41 || ((noper)->type) == 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->string)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->string))),(((((noper )->type) == 41 || ((noper)->type) == 51) ? (((((noper)-> type) == 41 || ((noper)->type) == 51) ? (void)0 : __assert2 ("re_comp.c", 2682, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->str_len)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->str_len))),((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? 0x20000000 : 0); else tmp = Perl_newSVpvn_flags( (""),(0),((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? 0x20000000 : 0); Perl_av_push( trie_words ,tmp); };} while (0) |
2684 | tmp = newSVpvn_utf8( "", 0, UTF ); \do {{ SV* tmp; if (((noper)->type) != 54) tmp = Perl_newSVpvn_flags ( (((((noper)->type) == 41 || ((noper)->type) == 51) ? ( ((((noper)->type) == 41 || ((noper)->type) == 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->string)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->string))),(((((noper )->type) == 41 || ((noper)->type) == 51) ? (((((noper)-> type) == 41 || ((noper)->type) == 51) ? (void)0 : __assert2 ("re_comp.c", 2682, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->str_len)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->str_len))),((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? 0x20000000 : 0); else tmp = Perl_newSVpvn_flags( (""),(0),((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? 0x20000000 : 0); Perl_av_push( trie_words ,tmp); };} while (0) |
2685 | av_push( trie_words, tmp ); \do {{ SV* tmp; if (((noper)->type) != 54) tmp = Perl_newSVpvn_flags ( (((((noper)->type) == 41 || ((noper)->type) == 51) ? ( ((((noper)->type) == 41 || ((noper)->type) == 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->string)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->string))),(((((noper )->type) == 41 || ((noper)->type) == 51) ? (((((noper)-> type) == 41 || ((noper)->type) == 51) ? (void)0 : __assert2 ("re_comp.c", 2682, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->str_len)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->str_len))),((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? 0x20000000 : 0); else tmp = Perl_newSVpvn_flags( (""),(0),((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? 0x20000000 : 0); Perl_av_push( trie_words ,tmp); };} while (0) |
2686 | })do {{ SV* tmp; if (((noper)->type) != 54) tmp = Perl_newSVpvn_flags ( (((((noper)->type) == 41 || ((noper)->type) == 51) ? ( ((((noper)->type) == 41 || ((noper)->type) == 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->string)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->string))),(((((noper )->type) == 41 || ((noper)->type) == 51) ? (((((noper)-> type) == 41 || ((noper)->type) == 51) ? (void)0 : __assert2 ("re_comp.c", 2682, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->str_len)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 2682, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->str_len))),((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? 0x20000000 : 0); else tmp = Perl_newSVpvn_flags( (""),(0),((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? 0x20000000 : 0); Perl_av_push( trie_words ,tmp); };} while (0); \ |
2687 | \ |
2688 | curword++; \ |
2689 | trie->wordinfo[curword].prev = 0; \ |
2690 | trie->wordinfo[curword].len = wordlen; \ |
2691 | trie->wordinfo[curword].accept = state; \ |
2692 | \ |
2693 | if ( noper_next < tail ) { \ |
2694 | if (!trie->jump) \ |
2695 | trie->jump = (U16 *) PerlMemShared_calloc( word_count + 1, \calloc((word_count + 1), (sizeof(U16))) |
2696 | sizeof(U16) )calloc((word_count + 1), (sizeof(U16))); \ |
2697 | trie->jump[curword] = (U16)(noper_next - convert); \ |
2698 | if (!jumper) \ |
2699 | jumper = noper_next; \ |
2700 | if (!nextbranch) \ |
2701 | nextbranch= regnext(cur)Perl_regnext( cur); \ |
2702 | } \ |
2703 | \ |
2704 | if ( dupe ) { \ |
2705 | /* It's a dupe. Pre-insert into the wordinfo[].prev */\ |
2706 | /* chain, so that when the bits of chain are later */\ |
2707 | /* linked together, the dups appear in the chain */\ |
2708 | trie->wordinfo[curword].prev = trie->wordinfo[dupe].prev; \ |
2709 | trie->wordinfo[dupe].prev = curword; \ |
2710 | } else { \ |
2711 | /* we haven't inserted this word yet. */ \ |
2712 | trie->states[ state ].wordnum = curword; \ |
2713 | } \ |
2714 | } STMT_ENDwhile (0) |
2715 | |
2716 | |
2717 | #define TRIE_TRANS_STATE(state,base,ucharcount,charid,special)( ( base + charid >= ucharcount && base + charid < ubound && state == trie->trans[ base - ucharcount + charid ].check && trie->trans[ base - ucharcount + charid ].next ) ? trie->trans[ base - ucharcount + charid ].next : ( state==1 ? special : 0 ) ) \ |
2718 | ( ( base + charid >= ucharcount \ |
2719 | && base + charid < ubound \ |
2720 | && state == trie->trans[ base - ucharcount + charid ].check \ |
2721 | && trie->trans[ base - ucharcount + charid ].next ) \ |
2722 | ? trie->trans[ base - ucharcount + charid ].next \ |
2723 | : ( state==1 ? special : 0 ) \ |
2724 | ) |
2725 | |
2726 | #define TRIE_BITMAP_SET_FOLDED(trie, uvc, folder)do { ((( (U8*) (((reg_trie_data *)(trie))->bitmap)) [ ( ( ( UV) (uvc)) >> 3) ] ) |= (1U << (((U8)uvc) & 7 ))); if ( folder ) ((( (U8*) (((reg_trie_data *)(trie))->bitmap )) [ ( ( (UV) (folder[(U8) uvc ])) >> 3) ] ) |= (1U << (((U8)folder[(U8) uvc ]) & 7))); if ( !(((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0) ) { if (! ((((U64)(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) { ((( ( U8*) (((reg_trie_data *)(trie))->bitmap)) [ ( ( (UV) ((((( sizeof(uvc) == 1) || !(((U64)(uvc)) & ~(32 * (1U << 6) - 1))) ? (void)0 : __assert2("re_comp.c", 2726, __func__, "(sizeof(uvc) == 1) || !(((U64)(uvc)) & ~(32 * (1U << 6) - 1))" )), ((((! ((((U64)(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? (void)0 : __assert2("re_comp.c", 2726, __func__ , "! ((((U64)(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))" )), (((( (sizeof((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) == 1) || !(((U64 )(((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ( (U8) (0xFE << (7-(2)))))) | 0)) & ~0xFF))) ? (void) 0 : __assert2("re_comp.c", 2726, __func__, "( (sizeof((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) == 1) || !(((U64)(((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) | 0)) & ~0xFF))" )), ((U8) (((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) | 0)))))))) >> 3) ] ) |= (1U << (((U8)((((sizeof(uvc) == 1) || !(((U64 )(uvc)) & ~(32 * (1U << 6) - 1))) ? (void)0 : __assert2 ("re_comp.c", 2726, __func__, "(sizeof(uvc) == 1) || !(((U64)(uvc)) & ~(32 * (1U << 6) - 1))" )), ((((! ((((U64)(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? (void)0 : __assert2("re_comp.c", 2726, __func__ , "! ((((U64)(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))" )), (((( (sizeof((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) == 1) || !(((U64 )(((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ( (U8) (0xFE << (7-(2)))))) | 0)) & ~0xFF))) ? (void) 0 : __assert2("re_comp.c", 2726, __func__, "( (sizeof((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) == 1) || !(((U64)(((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) | 0)) & ~0xFF))" )), ((U8) (((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) | 0))))))) & 7)) ); } } } while (0) \do |
2727 | STMT_STARTdo { \ |
2728 | TRIE_BITMAP_SET(trie, uvc)((( (U8*) (((reg_trie_data *)(trie))->bitmap)) [ ( ( (UV) ( uvc)) >> 3) ] ) |= (1U << (((U8)uvc) & 7))); \ |
2729 | /* store the folded codepoint */ \ |
2730 | if ( folder ) \ |
2731 | TRIE_BITMAP_SET(trie, folder[(U8) uvc ])((( (U8*) (((reg_trie_data *)(trie))->bitmap)) [ ( ( (UV) ( folder[(U8) uvc ])) >> 3) ] ) |= (1U << (((U8)folder [(U8) uvc ]) & 7))); \ |
2732 | \ |
2733 | if ( !UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) { \ |
2734 | /* store first byte of utf8 representation of */ \ |
2735 | /* variant codepoints */ \ |
2736 | if (! UVCHR_IS_INVARIANT(uvc)((((U64)(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) { \ |
2737 | TRIE_BITMAP_SET(trie, UTF8_TWO_BYTE_HI(uvc))((( (U8*) (((reg_trie_data *)(trie))->bitmap)) [ ( ( (UV) ( ((((sizeof(uvc) == 1) || !(((U64)(uvc)) & ~(32 * (1U << 6) - 1))) ? (void)0 : __assert2("re_comp.c", 2737, __func__, "(sizeof(uvc) == 1) || !(((U64)(uvc)) & ~(32 * (1U << 6) - 1))" )), ((((! ((((U64)(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? (void)0 : __assert2("re_comp.c", 2737, __func__ , "! ((((U64)(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))" )), (((( (sizeof((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) == 1) || !(((U64 )(((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ( (U8) (0xFE << (7-(2)))))) | 0)) & ~0xFF))) ? (void) 0 : __assert2("re_comp.c", 2737, __func__, "( (sizeof((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) == 1) || !(((U64)(((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) | 0)) & ~0xFF))" )), ((U8) (((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) | 0)))))))) >> 3) ] ) |= (1U << (((U8)((((sizeof(uvc) == 1) || !(((U64 )(uvc)) & ~(32 * (1U << 6) - 1))) ? (void)0 : __assert2 ("re_comp.c", 2737, __func__, "(sizeof(uvc) == 1) || !(((U64)(uvc)) & ~(32 * (1U << 6) - 1))" )), ((((! ((((U64)(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? (void)0 : __assert2("re_comp.c", 2737, __func__ , "! ((((U64)(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))" )), (((( (sizeof((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) == 1) || !(((U64 )(((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ( (U8) (0xFE << (7-(2)))))) | 0)) & ~0xFF))) ? (void) 0 : __assert2("re_comp.c", 2737, __func__, "( (sizeof((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) == 1) || !(((U64)(((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) | 0)) & ~0xFF))" )), ((U8) (((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) | 0))))))) & 7)) ); \ |
2738 | } \ |
2739 | } \ |
2740 | } STMT_ENDwhile (0) |
2741 | #define MADE_TRIE1 1 |
2742 | #define MADE_JUMP_TRIE2 2 |
2743 | #define MADE_EXACT_TRIE4 4 |
2744 | |
2745 | STATICstatic I32 |
2746 | S_make_trie(pTHX_ RExC_state_t *pRExC_state, regnode *startbranch, |
2747 | regnode *first, regnode *last, regnode *tail, |
2748 | U32 word_count, U32 flags, U32 depth) |
2749 | { |
2750 | /* first pass, loop through and scan words */ |
2751 | reg_trie_data *trie; |
2752 | HV *widecharmap = NULL((void*)0); |
2753 | AV *revcharmap = newAV()((AV *)({ void *_p = (Perl_newSV_type( SVt_PVAV)); _p; })); |
2754 | regnode *cur; |
2755 | STRLEN len = 0; |
2756 | UV uvc = 0; |
2757 | U16 curword = 0; |
2758 | U32 next_alloc = 0; |
2759 | regnode *jumper = NULL((void*)0); |
2760 | regnode *nextbranch = NULL((void*)0); |
2761 | regnode *convert = NULL((void*)0); |
2762 | U32 *prev_states; /* temp array mapping each state to previous one */ |
2763 | /* we just use folder as a flag in utf8 */ |
2764 | const U8 * folder = NULL((void*)0); |
2765 | |
2766 | /* in the below add_data call we are storing either 'tu' or 'tuaa' |
2767 | * which stands for one trie structure, one hash, optionally followed |
2768 | * by two arrays */ |
2769 | #ifdef DEBUGGING |
2770 | const U32 data_slot = add_dataS_add_data( pRExC_state, STR_WITH_LEN("tuaa")("" "tuaa" ""), (sizeof("tuaa")-1)); |
2771 | AV *trie_words = NULL((void*)0); |
2772 | /* along with revcharmap, this only used during construction but both are |
2773 | * useful during debugging so we store them in the struct when debugging. |
2774 | */ |
2775 | #else |
2776 | const U32 data_slot = add_dataS_add_data( pRExC_state, STR_WITH_LEN("tu")("" "tu" ""), (sizeof("tu")-1)); |
2777 | STRLEN trie_charcount=0; |
2778 | #endif |
2779 | SV *re_trie_maxbuff; |
2780 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 2780, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 2780, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
2781 | |
2782 | PERL_ARGS_ASSERT_MAKE_TRIE((pRExC_state) ? (void)0 : __assert2("re_comp.c", 2782, __func__ , "pRExC_state")); ((startbranch) ? (void)0 : __assert2("re_comp.c" , 2782, __func__, "startbranch")); ((first) ? (void)0 : __assert2 ("re_comp.c", 2782, __func__, "first")); ((last) ? (void)0 : __assert2 ("re_comp.c", 2782, __func__, "last")); ((tail) ? (void)0 : __assert2 ("re_comp.c", 2782, __func__, "tail")); |
2783 | #ifndef DEBUGGING |
2784 | PERL_UNUSED_ARG(depth)((void)sizeof(depth)); |
2785 | #endif |
2786 | |
2787 | switch (flags) { |
2788 | case EXACT40: case EXACT_REQ850: case EXACTL42: break; |
2789 | case EXACTFAA46: |
2790 | case EXACTFUP47: |
2791 | case EXACTFU45: |
2792 | case EXACTFLU848: folder = PL_fold_latin1; break; |
2793 | case EXACTF43: folder = PL_fold; break; |
2794 | default: Perl_croak( aTHX_ "panic! In trie construction, unknown node type %u %s", (unsigned) flags, PL_reg_name[flags] ); |
2795 | } |
2796 | |
2797 | trie = (reg_trie_data *) PerlMemShared_calloc( 1, sizeof(reg_trie_data) )calloc((1), (sizeof(reg_trie_data))); |
2798 | trie->refcount = 1; |
2799 | trie->startstate = 1; |
2800 | trie->wordcount = word_count; |
2801 | RExC_rxi(pRExC_state->rxi)->data->data[ data_slot ] = (void*)trie; |
2802 | trie->charmap = (U16 *) PerlMemShared_calloc( 256, sizeof(U16) )calloc((256), (sizeof(U16))); |
2803 | if (flags == EXACT40 || flags == EXACT_REQ850 || flags == EXACTL42) |
2804 | trie->bitmap = (char *) PerlMemShared_calloc( ANYOF_BITMAP_SIZE, 1 )calloc((((1 << 8) / 8)), (1)); |
2805 | trie->wordinfo = (reg_trie_wordinfo *) PerlMemShared_calloc(calloc((trie->wordcount+1), (sizeof(reg_trie_wordinfo))) |
2806 | trie->wordcount+1, sizeof(reg_trie_wordinfo))calloc((trie->wordcount+1), (sizeof(reg_trie_wordinfo))); |
2807 | |
2808 | DEBUG_r({do {{ trie_words = ((AV *)({ void *_p = (Perl_newSV_type( SVt_PVAV )); _p; })); };} while (0) |
2809 | trie_words = newAV();do {{ trie_words = ((AV *)({ void *_p = (Perl_newSV_type( SVt_PVAV )); _p; })); };} while (0) |
2810 | })do {{ trie_words = ((AV *)({ void *_p = (Perl_newSV_type( SVt_PVAV )); _p; })); };} while (0); |
2811 | |
2812 | re_trie_maxbuff = get_sv(RE_TRIE_MAXBUF_NAME, GV_ADD)Perl_get_sv( "\022E_TRIE_MAXBUF",0x01); |
2813 | assert(re_trie_maxbuff)((re_trie_maxbuff) ? (void)0 : __assert2("re_comp.c", 2813, __func__ , "re_trie_maxbuff")); |
2814 | if (!SvIOK(re_trie_maxbuff)((re_trie_maxbuff)->sv_flags & 0x00000100)) { |
2815 | sv_setiv(re_trie_maxbuff, RE_TRIE_MAXBUF_INIT)Perl_sv_setiv( re_trie_maxbuff,65536); |
2816 | } |
2817 | DEBUG_TRIE_COMPILE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { Perl_re_indentf ( "make_trie start==%d, first==%d, last==%d, tail==%d depth=%d\n" , depth+1, ((startbranch) ? (int)((startbranch)-(pRExC_state-> emit_start)) : -1), ((first) ? (int)((first)-(pRExC_state-> emit_start)) : -1), ((last) ? (int)((last)-(pRExC_state->emit_start )) : -1), ((tail) ? (int)((tail)-(pRExC_state->emit_start) ) : -1), (int)depth); };} while (0) |
2818 | Perl_re_indentf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { Perl_re_indentf ( "make_trie start==%d, first==%d, last==%d, tail==%d depth=%d\n" , depth+1, ((startbranch) ? (int)((startbranch)-(pRExC_state-> emit_start)) : -1), ((first) ? (int)((first)-(pRExC_state-> emit_start)) : -1), ((last) ? (int)((last)-(pRExC_state->emit_start )) : -1), ((tail) ? (int)((tail)-(pRExC_state->emit_start) ) : -1), (int)depth); };} while (0) |
2819 | "make_trie start==%d, first==%d, last==%d, tail==%d depth=%d\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { Perl_re_indentf ( "make_trie start==%d, first==%d, last==%d, tail==%d depth=%d\n" , depth+1, ((startbranch) ? (int)((startbranch)-(pRExC_state-> emit_start)) : -1), ((first) ? (int)((first)-(pRExC_state-> emit_start)) : -1), ((last) ? (int)((last)-(pRExC_state->emit_start )) : -1), ((tail) ? (int)((tail)-(pRExC_state->emit_start) ) : -1), (int)depth); };} while (0) |
2820 | depth+1,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { Perl_re_indentf ( "make_trie start==%d, first==%d, last==%d, tail==%d depth=%d\n" , depth+1, ((startbranch) ? (int)((startbranch)-(pRExC_state-> emit_start)) : -1), ((first) ? (int)((first)-(pRExC_state-> emit_start)) : -1), ((last) ? (int)((last)-(pRExC_state->emit_start )) : -1), ((tail) ? (int)((tail)-(pRExC_state->emit_start) ) : -1), (int)depth); };} while (0) |
2821 | REG_NODE_NUM(startbranch), REG_NODE_NUM(first),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { Perl_re_indentf ( "make_trie start==%d, first==%d, last==%d, tail==%d depth=%d\n" , depth+1, ((startbranch) ? (int)((startbranch)-(pRExC_state-> emit_start)) : -1), ((first) ? (int)((first)-(pRExC_state-> emit_start)) : -1), ((last) ? (int)((last)-(pRExC_state->emit_start )) : -1), ((tail) ? (int)((tail)-(pRExC_state->emit_start) ) : -1), (int)depth); };} while (0) |
2822 | REG_NODE_NUM(last), REG_NODE_NUM(tail), (int)depth);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { Perl_re_indentf ( "make_trie start==%d, first==%d, last==%d, tail==%d depth=%d\n" , depth+1, ((startbranch) ? (int)((startbranch)-(pRExC_state-> emit_start)) : -1), ((first) ? (int)((first)-(pRExC_state-> emit_start)) : -1), ((last) ? (int)((last)-(pRExC_state->emit_start )) : -1), ((tail) ? (int)((tail)-(pRExC_state->emit_start) ) : -1), (int)depth); };} while (0) |
2823 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { Perl_re_indentf ( "make_trie start==%d, first==%d, last==%d, tail==%d depth=%d\n" , depth+1, ((startbranch) ? (int)((startbranch)-(pRExC_state-> emit_start)) : -1), ((first) ? (int)((first)-(pRExC_state-> emit_start)) : -1), ((last) ? (int)((last)-(pRExC_state->emit_start )) : -1), ((tail) ? (int)((tail)-(pRExC_state->emit_start) ) : -1), (int)depth); };} while (0); |
2824 | |
2825 | /* Find the node we are going to overwrite */ |
2826 | if ( first == startbranch && OP( last )((last)->type) != BRANCH39 ) { |
2827 | /* whole branch chain */ |
2828 | convert = first; |
2829 | } else { |
2830 | /* branch sub-chain */ |
2831 | convert = NEXTOPER( first )((first) + 1); |
2832 | } |
2833 | |
2834 | /* -- First loop and Setup -- |
2835 | |
2836 | We first traverse the branches and scan each word to determine if it |
2837 | contains widechars, and how many unique chars there are, this is |
2838 | important as we have to build a table with at least as many columns as we |
2839 | have unique chars. |
2840 | |
2841 | We use an array of integers to represent the character codes 0..255 |
2842 | (trie->charmap) and we use a an HV* to store Unicode characters. We use |
2843 | the native representation of the character value as the key and IV's for |
2844 | the coded index. |
2845 | |
2846 | *TODO* If we keep track of how many times each character is used we can |
2847 | remap the columns so that the table compression later on is more |
2848 | efficient in terms of memory by ensuring the most common value is in the |
2849 | middle and the least common are on the outside. IMO this would be better |
2850 | than a most to least common mapping as theres a decent chance the most |
2851 | common letter will share a node with the least common, meaning the node |
2852 | will not be compressible. With a middle is most common approach the worst |
2853 | case is when we have the least common nodes twice. |
2854 | |
2855 | */ |
2856 | |
2857 | for ( cur = first ; cur < last ; cur = regnext( cur )Perl_regnext( cur) ) { |
2858 | regnode *noper = NEXTOPER( cur )((cur) + 1); |
2859 | const U8 *uc; |
2860 | const U8 *e; |
2861 | int foldlen = 0; |
2862 | U32 wordlen = 0; /* required init */ |
2863 | STRLEN minchars = 0; |
2864 | STRLEN maxchars = 0; |
2865 | bool_Bool set_bit = trie->bitmap ? 1 : 0; /*store the first char in the |
2866 | bitmap?*/ |
2867 | |
2868 | if (OP(noper)((noper)->type) == NOTHING54) { |
2869 | /* skip past a NOTHING at the start of an alternation |
2870 | * eg, /(?:)a|(?:b)/ should be the same as /a|b/ |
2871 | * |
2872 | * If the next node is not something we are supposed to process |
2873 | * we will just ignore it due to the condition guarding the |
2874 | * next block. |
2875 | */ |
2876 | |
2877 | regnode *noper_next= regnext(noper)Perl_regnext( noper); |
2878 | if (noper_next < tail) |
2879 | noper= noper_next; |
2880 | } |
2881 | |
2882 | if ( noper < tail |
2883 | && ( OP(noper)((noper)->type) == flags |
2884 | || (flags == EXACT40 && OP(noper)((noper)->type) == EXACT_REQ850) |
2885 | || (flags == EXACTFU45 && ( OP(noper)((noper)->type) == EXACTFU_REQ852 |
2886 | || OP(noper)((noper)->type) == EXACTFUP47)))) |
2887 | { |
2888 | uc= (U8*)STRING(noper)((((noper)->type) == 41 || ((noper)->type) == 51) ? ((( ((noper)->type) == 41 || ((noper)->type) == 51) ? (void )0 : __assert2("re_comp.c", 2888, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->string)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 2888, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->string)); |
2889 | e= uc + STR_LEN(noper)((((noper)->type) == 41 || ((noper)->type) == 51) ? ((( ((noper)->type) == 41 || ((noper)->type) == 51) ? (void )0 : __assert2("re_comp.c", 2889, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->str_len)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 2889, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->str_len)); |
2890 | } else { |
2891 | trie->minlen= 0; |
2892 | continue; |
2893 | } |
2894 | |
2895 | |
2896 | if ( set_bit ) { /* bitmap only alloced when !(UTF&&Folding) */ |
2897 | TRIE_BITMAP_SET(trie,*uc)((( (U8*) (((reg_trie_data *)(trie))->bitmap)) [ ( ( (UV) ( *uc)) >> 3) ] ) |= (1U << (((U8)*uc) & 7))); /* store the raw first byte |
2898 | regardless of encoding */ |
2899 | if (OP( noper )((noper)->type) == EXACTFUP47) { |
2900 | /* false positives are ok, so just set this */ |
2901 | TRIE_BITMAP_SET(trie, LATIN_SMALL_LETTER_SHARP_S)((( (U8*) (((reg_trie_data *)(trie))->bitmap)) [ ( ( (UV) ( 0xDF)) >> 3) ] ) |= (1U << (((U8)0xDF) & 7))); |
2902 | } |
2903 | } |
2904 | |
2905 | for ( ; uc < e ; uc += len ) { /* Look at each char in the current |
2906 | branch */ |
2907 | TRIE_CHARCOUNT(trie)((trie)->charcount)++; |
2908 | TRIE_READ_CHARdo { wordlen++; if ( (((pRExC_state->utf8)) ? (_Bool)1 : ( _Bool)0) ) { uvc = Perl_valid_utf8_to_uvchr( (const U8*) uc, & len); } else if (folder == PL_fold_latin1) { ((*uc != 0xDF) ? (void)0 : __assert2("re_comp.c", 2908, __func__, "*uc != LATIN_SMALL_LETTER_SHARP_S" )); uvc = ((! ( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))) ? (*uc) : PL_latin1_lc[ (U8) (*uc) ]); if (__builtin_expect (((uvc == 0xB5) ? (_Bool)1 : (_Bool)0),(0))) uvc = 0x03BC; len = 1; } else { uvc = (U32)*uc; len = 1; } } while (0); |
2909 | |
2910 | /* TRIE_READ_CHAR returns the current character, or its fold if /i |
2911 | * is in effect. Under /i, this character can match itself, or |
2912 | * anything that folds to it. If not under /i, it can match just |
2913 | * itself. Most folds are 1-1, for example k, K, and KELVIN SIGN |
2914 | * all fold to k, and all are single characters. But some folds |
2915 | * expand to more than one character, so for example LATIN SMALL |
2916 | * LIGATURE FFI folds to the three character sequence 'ffi'. If |
2917 | * the string beginning at 'uc' is 'ffi', it could be matched by |
2918 | * three characters, or just by the one ligature character. (It |
2919 | * could also be matched by two characters: LATIN SMALL LIGATURE FF |
2920 | * followed by 'i', or by 'f' followed by LATIN SMALL LIGATURE FI). |
2921 | * (Of course 'I' and/or 'F' instead of 'i' and 'f' can also |
2922 | * match.) The trie needs to know the minimum and maximum number |
2923 | * of characters that could match so that it can use size alone to |
2924 | * quickly reject many match attempts. The max is simple: it is |
2925 | * the number of folded characters in this branch (since a fold is |
2926 | * never shorter than what folds to it. */ |
2927 | |
2928 | maxchars++; |
2929 | |
2930 | /* And the min is equal to the max if not under /i (indicated by |
2931 | * 'folder' being NULL), or there are no multi-character folds. If |
2932 | * there is a multi-character fold, the min is incremented just |
2933 | * once, for the character that folds to the sequence. Each |
2934 | * character in the sequence needs to be added to the list below of |
2935 | * characters in the trie, but we count only the first towards the |
2936 | * min number of characters needed. This is done through the |
2937 | * variable 'foldlen', which is returned by the macros that look |
2938 | * for these sequences as the number of bytes the sequence |
2939 | * occupies. Each time through the loop, we decrement 'foldlen' by |
2940 | * how many bytes the current char occupies. Only when it reaches |
2941 | * 0 do we increment 'minchars' or look for another multi-character |
2942 | * sequence. */ |
2943 | if (folder == NULL((void*)0)) { |
2944 | minchars++; |
2945 | } |
2946 | else if (foldlen > 0) { |
2947 | foldlen -= (UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? UTF8SKIP(uc)PL_utf8skip[*(const U8*)(uc)] : 1; |
2948 | } |
2949 | else { |
2950 | minchars++; |
2951 | |
2952 | /* See if *uc is the beginning of a multi-character fold. If |
2953 | * so, we decrement the length remaining to look at, to account |
2954 | * for the current character this iteration. (We can use 'uc' |
2955 | * instead of the fold returned by TRIE_READ_CHAR because for |
2956 | * non-UTF, the latin1_safe macro is smart enough to account |
2957 | * for all the unfolded characters, and because for UTF, the |
2958 | * string will already have been folded earlier in the |
2959 | * compilation process */ |
2960 | if (UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) { |
2961 | if ((foldlen = is_MULTI_CHAR_FOLD_utf8_safe(uc, e)( ((e)-(uc) > 5) ? ( ( 0x61 == ((const U8*)uc)[0] ) ? ( ( ( 0xCA == ((const U8*)uc)[1] ) && ( 0xBE == ((const U8 *)uc)[2] ) ) ? 3 : 0 ) : ( 0x66 == ((const U8*)uc)[0] ) ? ( ( 0x66 == ((const U8*)uc)[1] ) ? ( ( 0x69 == ((const U8*)uc)[2 ] || 0x6C == ((const U8*)uc)[2] ) ? 3 : 2 ) : ( 0x69 == ((const U8*)uc)[1] || 0x6C == ((const U8*)uc)[1] ) ? 2 : 0 ) : ( 0x68 == ((const U8*)uc)[0] ) ? ( ( ( 0xCC == ((const U8*)uc)[1] ) && ( 0xB1 == ((const U8*)uc)[2] ) ) ? 3 : 0 ) : ( 0x69 == ((const U8*)uc)[0] ) ? ( ( ( 0xCC == ((const U8*)uc)[1] ) && ( 0x87 == ((const U8*)uc)[2] ) ) ? 3 : 0 ) : ( 0x6A == ((const U8*)uc)[0] ) ? ( ( ( 0xCC == ((const U8*)uc)[1] ) && ( 0x8C == ((const U8*)uc)[2] ) ) ? 3 : 0 ) : ( 0x73 == ((const U8*)uc)[0] ) ? ( ( ((((0x74) >= (0x73)) ? (void )0 : __assert2("re_comp.c", 2961, __func__, "(0x74) >= (0x73)" )), ( (sizeof(((const U8*)uc)[1]) == sizeof(U8)) ? ((((NV) (( 0x73)) >= 0) ? (void)0 : __assert2("re_comp.c", 2961, __func__ , "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 2961, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)uc)[1])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)uc)[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 2961, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 2961, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)uc)[1])))) - (((0x73)) | 0 ))) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof(( (const U8*)uc)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 2961, __func__, "sizeof(((const U8*)uc)[1]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 2961, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 2961, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U64) ((( const U8*)uc)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0)))))))) ) ? 2 : 0 ) : ( 0x74 == ((const U8*) uc)[0] ) ? ( ( ( 0xCC == ((const U8*)uc)[1] ) && ( 0x88 == ((const U8*)uc)[2] ) ) ? 3 : 0 ) : ( 0x77 == ((const U8*) uc)[0] || 0x79 == ((const U8*)uc)[0] ) ? ( ( ( 0xCC == ((const U8*)uc)[1] ) && ( 0x8A == ((const U8*)uc)[2] ) ) ? 3 : 0 ) : ( 0xC5 == ((const U8*)uc)[0] ) ? ( ( ( ( 0xBF == ((const U8*)uc)[1] ) && ( 0xC5 == ((const U8*)uc)[2] ) ) && ( 0xBF == ((const U8*)uc)[3] ) ) ? 4 : 0 ) : ( 0xCA == ((const U8*)uc)[0] ) ? ( ( ( 0xBC == ((const U8*)uc)[1] ) && ( 0x6E == ((const U8*)uc)[2] ) ) ? 3 : 0 ) : ( 0xCE == ((const U8*)uc)[0] ) ? ( ( ( ((const U8*)uc)[1] & 0xFD ) == 0xAC ) ? ( ( ( 0xCE == ((const U8*)uc)[2] ) && ( 0xB9 == ( (const U8*)uc)[3] ) ) ? 4 : 0 ) : ( 0xB1 == ((const U8*)uc)[1 ] || 0xB7 == ((const U8*)uc)[1] ) ? ( ( 0xCD == ((const U8*)uc )[2] ) ? ( ( 0x82 == ((const U8*)uc)[3] ) ? ( ( ( 0xCE == ((const U8*)uc)[4] ) && ( 0xB9 == ((const U8*)uc)[5] ) ) ? 6 : 4 ) : 0 ) : ( ( 0xCE == ((const U8*)uc)[2] ) && ( 0xB9 == ((const U8*)uc)[3] ) ) ? 4 : 0 ) : ( 0xB9 == ((const U8*) uc)[1] ) ? ( ( 0xCC == ((const U8*)uc)[2] ) ? ( ( 0x88 == ((const U8*)uc)[3] ) ? ( ( 0xCC == ((const U8*)uc)[4] ) ? ( ( ((((0x81 ) >= (0x80)) ? (void)0 : __assert2("re_comp.c", 2961, __func__ , "(0x81) >= (0x80)")), ( (sizeof(((const U8*)uc)[5]) == sizeof (U8)) ? ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c" , 2961, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_comp.c", 2961, __func__ , "(NV) (((0x81) - (0x80))) >= 0")), (((U64) (((((U8) (((const U8*)uc)[5])))) - (((0x80)) | 0))) <= (((U64) ((((0x81) - ( 0x80))) | 0))))) : (sizeof(((const U8*)uc)[5]) == sizeof(U32) ) ? ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c" , 2961, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_comp.c", 2961, __func__ , "(NV) (((0x81) - (0x80))) >= 0")), (((U64) (((((U32) ((( const U8*)uc)[5])))) - (((0x80)) | 0))) <= (((U64) ((((0x81 ) - (0x80))) | 0))))) : (((sizeof(((const U8*)uc)[5]) == sizeof (U64)) ? (void)0 : __assert2("re_comp.c", 2961, __func__, "sizeof(((const U8*)uc)[5]) == sizeof(U64)" )), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c" , 2961, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_comp.c", 2961, __func__ , "(NV) (((0x81) - (0x80))) >= 0")), (((U64) (((((U64) ((( const U8*)uc)[5])))) - (((0x80)) | 0))) <= (((U64) ((((0x81 ) - (0x80))) | 0)))))))) ) ? 6 : 0 ) : ( ( 0xCD == ((const U8 *)uc)[4] ) && ( 0x82 == ((const U8*)uc)[5] ) ) ? 6 : 0 ) : 0 ) : ( ( 0xCD == ((const U8*)uc)[2] ) && ( 0x82 == ((const U8*)uc)[3] ) ) ? 4 : 0 ) : 0 ) : ( 0xCF == ((const U8*)uc)[0] ) ? ( ( 0x81 == ((const U8*)uc)[1] ) ? ( ( ( 0xCC == ((const U8*)uc)[2] ) && ( 0x93 == ((const U8*)uc) [3] ) ) ? 4 : 0 ) : ( 0x85 == ((const U8*)uc)[1] ) ? ( ( 0xCC == ((const U8*)uc)[2] ) ? ( ( 0x88 == ((const U8*)uc)[3] ) ? ( ( 0xCC == ((const U8*)uc)[4] ) ? ( ( ((((0x81) >= (0x80 )) ? (void)0 : __assert2("re_comp.c", 2961, __func__, "(0x81) >= (0x80)" )), ( (sizeof(((const U8*)uc)[5]) == sizeof(U8)) ? ((((NV) (( 0x80)) >= 0) ? (void)0 : __assert2("re_comp.c", 2961, __func__ , "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_comp.c", 2961, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U8) (((const U8*)uc)[5])))) - (((0x80)) | 0) )) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (sizeof(((const U8*)uc)[5]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? (void )0 : __assert2("re_comp.c", 2961, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 2961, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)uc)[5])))) - (((0x80)) | 0 ))) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (((sizeof(( (const U8*)uc)[5]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 2961, __func__, "sizeof(((const U8*)uc)[5]) == sizeof(U64)" )), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c" , 2961, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_comp.c", 2961, __func__ , "(NV) (((0x81) - (0x80))) >= 0")), (((U64) (((((U64) ((( const U8*)uc)[5])))) - (((0x80)) | 0))) <= (((U64) ((((0x81 ) - (0x80))) | 0)))))))) ) ? 6 : 0 ) : ( ( 0xCD == ((const U8 *)uc)[4] ) && ( 0x82 == ((const U8*)uc)[5] ) ) ? 6 : 0 ) : ( 0x93 == ((const U8*)uc)[3] ) ? ( ( 0xCC == ((const U8* )uc)[4] ) ? ( ( ((((0x81) >= (0x80)) ? (void)0 : __assert2 ("re_comp.c", 2961, __func__, "(0x81) >= (0x80)")), ( (sizeof (((const U8*)uc)[5]) == sizeof(U8)) ? ((((NV) ((0x80)) >= 0 ) ? (void)0 : __assert2("re_comp.c", 2961, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 2961, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U8) (((const U8*)uc)[5])))) - (((0x80)) | 0) )) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (sizeof(((const U8*)uc)[5]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? (void )0 : __assert2("re_comp.c", 2961, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 2961, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)uc)[5])))) - (((0x80)) | 0 ))) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (((sizeof(( (const U8*)uc)[5]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 2961, __func__, "sizeof(((const U8*)uc)[5]) == sizeof(U64)" )), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c" , 2961, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_comp.c", 2961, __func__ , "(NV) (((0x81) - (0x80))) >= 0")), (((U64) (((((U64) ((( const U8*)uc)[5])))) - (((0x80)) | 0))) <= (((U64) ((((0x81 ) - (0x80))) | 0)))))))) ) ? 6 : 4 ) : ( ( 0xCD == ((const U8 *)uc)[4] ) && ( 0x82 == ((const U8*)uc)[5] ) ) ? 6 : 4 ) : 0 ) : ( ( 0xCD == ((const U8*)uc)[2] ) && ( 0x82 == ((const U8*)uc)[3] ) ) ? 4 : 0 ) : ( 0x89 == ((const U8*) uc)[1] ) ? ( ( 0xCD == ((const U8*)uc)[2] ) ? ( ( 0x82 == ((const U8*)uc)[3] ) ? ( ( ( 0xCE == ((const U8*)uc)[4] ) && ( 0xB9 == ((const U8*)uc)[5] ) ) ? 6 : 4 ) : 0 ) : ( ( 0xCE == ((const U8*)uc)[2] ) && ( 0xB9 == ((const U8*)uc)[3] ) ) ? 4 : 0 ) : ( ( ( 0x8E == ((const U8*)uc)[1] ) && ( 0xCE == ((const U8*)uc)[2] ) ) && ( 0xB9 == ((const U8*)uc)[3] ) ) ? 4 : 0 ) : ( 0xD5 == ((const U8*)uc)[0] ) ? ( ( 0xA5 == ((const U8*)uc)[1] ) ? ( ( ( 0xD6 == ((const U8*)uc )[2] ) && ( 0x82 == ((const U8*)uc)[3] ) ) ? 4 : 0 ) : ( 0xB4 == ((const U8*)uc)[1] ) ? ( ( ( 0xD5 == ((const U8*)uc )[2] ) && ( ( ( ((const U8*)uc)[3] & 0xF7 ) == 0xA5 ) || ((const U8*)uc)[3] == 0xAB || ((const U8*)uc)[3] == 0xB6 ) ) ? 4 : 0 ) : ( ( ( 0xBE == ((const U8*)uc)[1] ) && ( 0xD5 == ((const U8*)uc)[2] ) ) && ( 0xB6 == ((const U8*)uc)[3] ) ) ? 4 : 0 ) : ( 0xE1 == ((const U8*)uc)[0] ) ? ( ( 0xBC == ((const U8*)uc)[1] ) ? ( ( ( ( ( ((const U8*)uc)[2 ] & 0xD8 ) == 0x80 ) && ( 0xCE == ((const U8*)uc) [3] ) ) && ( 0xB9 == ((const U8*)uc)[4] ) ) ? 5 : 0 ) : ( ( ( ( 0xBD == ((const U8*)uc)[1] ) && ( ( ( ((const U8*)uc)[2] & 0xF8 ) == 0xA0 ) || ( ( ((const U8*)uc)[2] & 0xFB ) == 0xB0 ) || ((const U8*)uc)[2] == 0xBC ) ) && ( 0xCE == ((const U8*)uc)[3] ) ) && ( 0xB9 == ((const U8*)uc)[4] ) ) ? 5 : 0 ) : 0 ) : ((e)-(uc) > 4) ? ( ( 0x61 == ((const U8*)uc)[0] ) ? ( ( ( 0xCA == ((const U8*)uc)[1] ) && ( 0xBE == ((const U8*)uc)[2] ) ) ? 3 : 0 ) : ( 0x66 == ((const U8*)uc)[0] ) ? ( ( 0x66 == ((const U8*)uc)[1] ) ? ( ( 0x69 == ((const U8*)uc)[2] || 0x6C == ((const U8*)uc)[2] ) ? 3 : 2 ) : ( 0x69 == ((const U8*)uc)[1] || 0x6C == ((const U8*)uc)[1] ) ? 2 : 0 ) : ( 0x68 == ((const U8*)uc)[0] ) ? ( ( ( 0xCC == ((const U8*)uc)[1] ) && ( 0xB1 == ((const U8 *)uc)[2] ) ) ? 3 : 0 ) : ( 0x69 == ((const U8*)uc)[0] ) ? ( ( ( 0xCC == ((const U8*)uc)[1] ) && ( 0x87 == ((const U8 *)uc)[2] ) ) ? 3 : 0 ) : ( 0x6A == ((const U8*)uc)[0] ) ? ( ( ( 0xCC == ((const U8*)uc)[1] ) && ( 0x8C == ((const U8 *)uc)[2] ) ) ? 3 : 0 ) : ( 0x73 == ((const U8*)uc)[0] ) ? ( ( ((((0x74) >= (0x73)) ? (void)0 : __assert2("re_comp.c", 2961 , __func__, "(0x74) >= (0x73)")), ( (sizeof(((const U8*)uc )[1]) == sizeof(U8)) ? ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 2961, __func__, "(NV) ((0x73)) >= 0")), (((NV ) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c" , 2961, __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64 ) (((((U8) (((const U8*)uc)[1])))) - (((0x73)) | 0))) <= ( ((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)uc )[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c", 2961, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 2961, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)uc)[1])))) - (((0x73)) | 0 ))) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof(( (const U8*)uc)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 2961, __func__, "sizeof(((const U8*)uc)[1]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 2961, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 2961, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U64) ((( const U8*)uc)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0)))))))) ) ? 2 : 0 ) : ( 0x74 == ((const U8*) uc)[0] ) ? ( ( ( 0xCC == ((const U8*)uc)[1] ) && ( 0x88 == ((const U8*)uc)[2] ) ) ? 3 : 0 ) : ( 0x77 == ((const U8*) uc)[0] || 0x79 == ((const U8*)uc)[0] ) ? ( ( ( 0xCC == ((const U8*)uc)[1] ) && ( 0x8A == ((const U8*)uc)[2] ) ) ? 3 : 0 ) : ( 0xC5 == ((const U8*)uc)[0] ) ? ( ( ( ( 0xBF == ((const U8*)uc)[1] ) && ( 0xC5 == ((const U8*)uc)[2] ) ) && ( 0xBF == ((const U8*)uc)[3] ) ) ? 4 : 0 ) : ( 0xCA == ((const U8*)uc)[0] ) ? ( ( ( 0xBC == ((const U8*)uc)[1] ) && ( 0x6E == ((const U8*)uc)[2] ) ) ? 3 : 0 ) : ( 0xCE == ((const U8*)uc)[0] ) ? ( ( ( ((const U8*)uc)[1] & 0xFD ) == 0xAC ) ? ( ( ( 0xCE == ((const U8*)uc)[2] ) && ( 0xB9 == ( (const U8*)uc)[3] ) ) ? 4 : 0 ) : ( 0xB1 == ((const U8*)uc)[1 ] || 0xB7 == ((const U8*)uc)[1] ) ? ( ( 0xCD == ((const U8*)uc )[2] ) ? ( ( 0x82 == ((const U8*)uc)[3] ) ? 4 : 0 ) : ( ( 0xCE == ((const U8*)uc)[2] ) && ( 0xB9 == ((const U8*)uc) [3] ) ) ? 4 : 0 ) : ( ( ( 0xB9 == ((const U8*)uc)[1] ) && ( 0xCD == ((const U8*)uc)[2] ) ) && ( 0x82 == ((const U8*)uc)[3] ) ) ? 4 : 0 ) : ( 0xCF == ((const U8*)uc)[0] ) ? ( ( 0x81 == ((const U8*)uc)[1] ) ? ( ( ( 0xCC == ((const U8*)uc )[2] ) && ( 0x93 == ((const U8*)uc)[3] ) ) ? 4 : 0 ) : ( 0x85 == ((const U8*)uc)[1] ) ? ( ( 0xCC == ((const U8*)uc) [2] ) ? ( ( 0x93 == ((const U8*)uc)[3] ) ? 4 : 0 ) : ( ( 0xCD == ((const U8*)uc)[2] ) && ( 0x82 == ((const U8*)uc) [3] ) ) ? 4 : 0 ) : ( 0x89 == ((const U8*)uc)[1] ) ? ( ( 0xCD == ((const U8*)uc)[2] ) ? ( ( 0x82 == ((const U8*)uc)[3] ) ? 4 : 0 ) : ( ( 0xCE == ((const U8*)uc)[2] ) && ( 0xB9 == ((const U8*)uc)[3] ) ) ? 4 : 0 ) : ( ( ( 0x8E == ((const U8 *)uc)[1] ) && ( 0xCE == ((const U8*)uc)[2] ) ) && ( 0xB9 == ((const U8*)uc)[3] ) ) ? 4 : 0 ) : ( 0xD5 == ((const U8*)uc)[0] ) ? ( ( 0xA5 == ((const U8*)uc)[1] ) ? ( ( ( 0xD6 == ((const U8*)uc)[2] ) && ( 0x82 == ((const U8*)uc) [3] ) ) ? 4 : 0 ) : ( 0xB4 == ((const U8*)uc)[1] ) ? ( ( ( 0xD5 == ((const U8*)uc)[2] ) && ( ( ( ((const U8*)uc)[3] & 0xF7 ) == 0xA5 ) || ((const U8*)uc)[3] == 0xAB || ((const U8 *)uc)[3] == 0xB6 ) ) ? 4 : 0 ) : ( ( ( 0xBE == ((const U8*)uc )[1] ) && ( 0xD5 == ((const U8*)uc)[2] ) ) && ( 0xB6 == ((const U8*)uc)[3] ) ) ? 4 : 0 ) : ( 0xE1 == ((const U8*)uc)[0] ) ? ( ( 0xBC == ((const U8*)uc)[1] ) ? ( ( ( ( ( ( (const U8*)uc)[2] & 0xD8 ) == 0x80 ) && ( 0xCE == ((const U8*)uc)[3] ) ) && ( 0xB9 == ((const U8*)uc)[ 4] ) ) ? 5 : 0 ) : ( ( ( ( 0xBD == ((const U8*)uc)[1] ) && ( ( ( ((const U8*)uc)[2] & 0xF8 ) == 0xA0 ) || ( ( ((const U8*)uc)[2] & 0xFB ) == 0xB0 ) || ((const U8*)uc)[2] == 0xBC ) ) && ( 0xCE == ((const U8*)uc)[3] ) ) && ( 0xB9 == ((const U8*)uc)[4] ) ) ? 5 : 0 ) : 0 ) : ( ((e)-(uc) > 3) ? ( ( 0x61 == ((const U8*)uc)[0] ) ? ( ( ( 0xCA == ( (const U8*)uc)[1] ) && ( 0xBE == ((const U8*)uc)[2] ) ) ? 3 : 0 ) : ( 0x66 == ((const U8*)uc)[0] ) ? ( ( 0x66 == ( (const U8*)uc)[1] ) ? ( ( 0x69 == ((const U8*)uc)[2] || 0x6C == ((const U8*)uc)[2] ) ? 3 : 2 ) : ( 0x69 == ((const U8*)uc)[1 ] || 0x6C == ((const U8*)uc)[1] ) ? 2 : 0 ) : ( 0x68 == ((const U8*)uc)[0] ) ? ( ( ( 0xCC == ((const U8*)uc)[1] ) && ( 0xB1 == ((const U8*)uc)[2] ) ) ? 3 : 0 ) : ( 0x69 == ((const U8*)uc)[0] ) ? ( ( ( 0xCC == ((const U8*)uc)[1] ) && ( 0x87 == ((const U8*)uc)[2] ) ) ? 3 : 0 ) : ( 0x6A == ((const U8*)uc)[0] ) ? ( ( ( 0xCC == ((const U8*)uc)[1] ) && ( 0x8C == ((const U8*)uc)[2] ) ) ? 3 : 0 ) : ( 0x73 == ((const U8*)uc)[0] ) ? ( ( ((((0x74) >= (0x73)) ? (void)0 : __assert2 ("re_comp.c", 2961, __func__, "(0x74) >= (0x73)")), ( (sizeof (((const U8*)uc)[1]) == sizeof(U8)) ? ((((NV) ((0x73)) >= 0 ) ? (void)0 : __assert2("re_comp.c", 2961, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 2961, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)uc)[1])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)uc)[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 2961, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 2961, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)uc)[1])))) - (((0x73)) | 0 ))) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof(( (const U8*)uc)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 2961, __func__, "sizeof(((const U8*)uc)[1]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 2961, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 2961, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U64) ((( const U8*)uc)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0)))))))) ) ? 2 : 0 ) : ( 0x74 == ((const U8*) uc)[0] ) ? ( ( ( 0xCC == ((const U8*)uc)[1] ) && ( 0x88 == ((const U8*)uc)[2] ) ) ? 3 : 0 ) : ( 0x77 == ((const U8*) uc)[0] || 0x79 == ((const U8*)uc)[0] ) ? ( ( ( 0xCC == ((const U8*)uc)[1] ) && ( 0x8A == ((const U8*)uc)[2] ) ) ? 3 : 0 ) : ( 0xC5 == ((const U8*)uc)[0] ) ? ( ( ( ( 0xBF == ((const U8*)uc)[1] ) && ( 0xC5 == ((const U8*)uc)[2] ) ) && ( 0xBF == ((const U8*)uc)[3] ) ) ? 4 : 0 ) : ( 0xCA == ((const U8*)uc)[0] ) ? ( ( ( 0xBC == ((const U8*)uc)[1] ) && ( 0x6E == ((const U8*)uc)[2] ) ) ? 3 : 0 ) : ( 0xCE == ((const U8*)uc)[0] ) ? ( ( ( ((const U8*)uc)[1] & 0xFD ) == 0xAC ) ? ( ( ( 0xCE == ((const U8*)uc)[2] ) && ( 0xB9 == ( (const U8*)uc)[3] ) ) ? 4 : 0 ) : ( 0xB1 == ((const U8*)uc)[1 ] || 0xB7 == ((const U8*)uc)[1] ) ? ( ( 0xCD == ((const U8*)uc )[2] ) ? ( ( 0x82 == ((const U8*)uc)[3] ) ? 4 : 0 ) : ( ( 0xCE == ((const U8*)uc)[2] ) && ( 0xB9 == ((const U8*)uc) [3] ) ) ? 4 : 0 ) : ( ( ( 0xB9 == ((const U8*)uc)[1] ) && ( 0xCD == ((const U8*)uc)[2] ) ) && ( 0x82 == ((const U8*)uc)[3] ) ) ? 4 : 0 ) : ( 0xCF == ((const U8*)uc)[0] ) ? ( ( 0x81 == ((const U8*)uc)[1] ) ? ( ( ( 0xCC == ((const U8*)uc )[2] ) && ( 0x93 == ((const U8*)uc)[3] ) ) ? 4 : 0 ) : ( 0x85 == ((const U8*)uc)[1] ) ? ( ( 0xCC == ((const U8*)uc) [2] ) ? ( ( 0x93 == ((const U8*)uc)[3] ) ? 4 : 0 ) : ( ( 0xCD == ((const U8*)uc)[2] ) && ( 0x82 == ((const U8*)uc) [3] ) ) ? 4 : 0 ) : ( 0x89 == ((const U8*)uc)[1] ) ? ( ( 0xCD == ((const U8*)uc)[2] ) ? ( ( 0x82 == ((const U8*)uc)[3] ) ? 4 : 0 ) : ( ( 0xCE == ((const U8*)uc)[2] ) && ( 0xB9 == ((const U8*)uc)[3] ) ) ? 4 : 0 ) : ( ( ( 0x8E == ((const U8 *)uc)[1] ) && ( 0xCE == ((const U8*)uc)[2] ) ) && ( 0xB9 == ((const U8*)uc)[3] ) ) ? 4 : 0 ) : ( 0xD5 == ((const U8*)uc)[0] ) ? ( ( 0xA5 == ((const U8*)uc)[1] ) ? ( ( ( 0xD6 == ((const U8*)uc)[2] ) && ( 0x82 == ((const U8*)uc) [3] ) ) ? 4 : 0 ) : ( 0xB4 == ((const U8*)uc)[1] ) ? ( ( ( 0xD5 == ((const U8*)uc)[2] ) && ( ( ( ((const U8*)uc)[3] & 0xF7 ) == 0xA5 ) || ((const U8*)uc)[3] == 0xAB || ((const U8 *)uc)[3] == 0xB6 ) ) ? 4 : 0 ) : ( ( ( 0xBE == ((const U8*)uc )[1] ) && ( 0xD5 == ((const U8*)uc)[2] ) ) && ( 0xB6 == ((const U8*)uc)[3] ) ) ? 4 : 0 ) : 0 ) : ((e)-(uc) > 2) ? ( ( 0x61 == ((const U8*)uc)[0] ) ? ( ( ( 0xCA == ( (const U8*)uc)[1] ) && ( 0xBE == ((const U8*)uc)[2] ) ) ? 3 : 0 ) : ( 0x66 == ((const U8*)uc)[0] ) ? ( ( 0x66 == ( (const U8*)uc)[1] ) ? ( ( 0x69 == ((const U8*)uc)[2] || 0x6C == ((const U8*)uc)[2] ) ? 3 : 2 ) : ( 0x69 == ((const U8*)uc)[1 ] || 0x6C == ((const U8*)uc)[1] ) ? 2 : 0 ) : ( 0x68 == ((const U8*)uc)[0] ) ? ( ( ( 0xCC == ((const U8*)uc)[1] ) && ( 0xB1 == ((const U8*)uc)[2] ) ) ? 3 : 0 ) : ( 0x69 == ((const U8*)uc)[0] ) ? ( ( ( 0xCC == ((const U8*)uc)[1] ) && ( 0x87 == ((const U8*)uc)[2] ) ) ? 3 : 0 ) : ( 0x6A == ((const U8*)uc)[0] ) ? ( ( ( 0xCC == ((const U8*)uc)[1] ) && ( 0x8C == ((const U8*)uc)[2] ) ) ? 3 : 0 ) : ( 0x73 == ((const U8*)uc)[0] ) ? ( ( ((((0x74) >= (0x73)) ? (void)0 : __assert2 ("re_comp.c", 2961, __func__, "(0x74) >= (0x73)")), ( (sizeof (((const U8*)uc)[1]) == sizeof(U8)) ? ((((NV) ((0x73)) >= 0 ) ? (void)0 : __assert2("re_comp.c", 2961, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 2961, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)uc)[1])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)uc)[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 2961, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 2961, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)uc)[1])))) - (((0x73)) | 0 ))) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof(( (const U8*)uc)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 2961, __func__, "sizeof(((const U8*)uc)[1]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 2961, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 2961, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U64) ((( const U8*)uc)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0)))))))) ) ? 2 : 0 ) : ( 0x74 == ((const U8*) uc)[0] ) ? ( ( ( 0xCC == ((const U8*)uc)[1] ) && ( 0x88 == ((const U8*)uc)[2] ) ) ? 3 : 0 ) : ( 0x77 == ((const U8*) uc)[0] || 0x79 == ((const U8*)uc)[0] ) ? ( ( ( 0xCC == ((const U8*)uc)[1] ) && ( 0x8A == ((const U8*)uc)[2] ) ) ? 3 : 0 ) : ( ( ( 0xCA == ((const U8*)uc)[0] ) && ( 0xBC == ((const U8*)uc)[1] ) ) && ( 0x6E == ((const U8*)uc )[2] ) ) ? 3 : 0 ): ((e)-(uc) > 1) ? ( ( 0x66 == ((const U8 *)uc)[0] ) ? ( ( 0x66 == ((const U8*)uc)[1] || 0x69 == ((const U8*)uc)[1] || 0x6C == ((const U8*)uc)[1] ) ? 2 : 0 ) : ( ( 0x73 == ((const U8*)uc)[0] ) && ( ((((0x74) >= (0x73)) ? (void)0 : __assert2("re_comp.c", 2961, __func__, "(0x74) >= (0x73)" )), ( (sizeof(((const U8*)uc)[1]) == sizeof(U8)) ? ((((NV) (( 0x73)) >= 0) ? (void)0 : __assert2("re_comp.c", 2961, __func__ , "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 2961, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)uc)[1])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)uc)[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 2961, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 2961, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)uc)[1])))) - (((0x73)) | 0 ))) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof(( (const U8*)uc)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 2961, __func__, "sizeof(((const U8*)uc)[1]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 2961, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 2961, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U64) ((( const U8*)uc)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0)))))))) ) ) ? 2 : 0 ): 0 ) ))) { |
2962 | foldlen -= UTF8SKIP(uc)PL_utf8skip[*(const U8*)(uc)]; |
2963 | } |
2964 | } |
2965 | else if ((foldlen = is_MULTI_CHAR_FOLD_latin1_safe(uc, e)( ((e)-(uc) > 2) ? ( ( ( ((const U8*)uc)[0] & 0xDF ) == 0x46 ) ? ( ( ( ((const U8*)uc)[1] & 0xDF ) == 0x46 ) ? ( ( ( ( ((const U8*)uc)[2] & 0xDF ) == 0x49 ) || ( ( ((const U8*)uc)[2] & 0xDF ) == 0x4C ) ) ? 3 : 2 ) : ( ( ( ((const U8*)uc)[1] & 0xDF ) == 0x49 ) || ( ( ((const U8*)uc)[1] & 0xDF ) == 0x4C ) ) ? 2 : 0 ) : ( ( ( ((const U8*)uc)[0] & 0xDF ) == 0x53 ) && ( ((((0x54) >= (0x53)) ? (void )0 : __assert2("re_comp.c", 2965, __func__, "(0x54) >= (0x53)" )), ( (sizeof(((const U8*)uc)[1]) == sizeof(U8)) ? ((((NV) (( 0x53)) >= 0) ? (void)0 : __assert2("re_comp.c", 2965, __func__ , "(NV) ((0x53)) >= 0")), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2("re_comp.c", 2965, __func__, "(NV) (((0x54) - (0x53))) >= 0" )), (((U64) (((((U8) (((const U8*)uc)[1])))) - (((0x53)) | 0) )) <= (((U64) ((((0x54) - (0x53))) | 0))))) : (sizeof(((const U8*)uc)[1]) == sizeof(U32)) ? ((((NV) ((0x53)) >= 0) ? (void )0 : __assert2("re_comp.c", 2965, __func__, "(NV) ((0x53)) >= 0" )), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 2965, __func__, "(NV) (((0x54) - (0x53))) >= 0" )), (((U64) (((((U32) (((const U8*)uc)[1])))) - (((0x53)) | 0 ))) <= (((U64) ((((0x54) - (0x53))) | 0))))) : (((sizeof(( (const U8*)uc)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 2965, __func__, "sizeof(((const U8*)uc)[1]) == sizeof(U64)" )), ((((NV) ((0x53)) >= 0) ? (void)0 : __assert2("re_comp.c" , 2965, __func__, "(NV) ((0x53)) >= 0")), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2("re_comp.c", 2965, __func__ , "(NV) (((0x54) - (0x53))) >= 0")), (((U64) (((((U64) ((( const U8*)uc)[1])))) - (((0x53)) | 0))) <= (((U64) ((((0x54 ) - (0x53))) | 0)))))))) || ((((0x74) >= (0x73)) ? (void)0 : __assert2("re_comp.c", 2965, __func__, "(0x74) >= (0x73)" )), ( (sizeof(((const U8*)uc)[1]) == sizeof(U8)) ? ((((NV) (( 0x73)) >= 0) ? (void)0 : __assert2("re_comp.c", 2965, __func__ , "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 2965, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)uc)[1])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)uc)[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 2965, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 2965, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)uc)[1])))) - (((0x73)) | 0 ))) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof(( (const U8*)uc)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 2965, __func__, "sizeof(((const U8*)uc)[1]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 2965, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 2965, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U64) ((( const U8*)uc)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0)))))))) ) ) ? 2 : 0 ): ((e)-(uc) > 1) ? ( ( ( ((const U8*)uc)[0] & 0xDF ) == 0x46 ) ? ( ( ( ( ((const U8*)uc)[1] & 0xDF ) == 0x46 ) || ( ( ((const U8*)uc)[1] & 0xDF ) == 0x49 ) || ( ( ((const U8*)uc)[1] & 0xDF ) == 0x4C ) ) ? 2 : 0 ) : ( ( ( ((const U8*)uc)[0] & 0xDF ) == 0x53 ) && ( ((((0x54) >= (0x53)) ? (void)0 : __assert2 ("re_comp.c", 2965, __func__, "(0x54) >= (0x53)")), ( (sizeof (((const U8*)uc)[1]) == sizeof(U8)) ? ((((NV) ((0x53)) >= 0 ) ? (void)0 : __assert2("re_comp.c", 2965, __func__, "(NV) ((0x53)) >= 0" )), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 2965, __func__, "(NV) (((0x54) - (0x53))) >= 0" )), (((U64) (((((U8) (((const U8*)uc)[1])))) - (((0x53)) | 0) )) <= (((U64) ((((0x54) - (0x53))) | 0))))) : (sizeof(((const U8*)uc)[1]) == sizeof(U32)) ? ((((NV) ((0x53)) >= 0) ? (void )0 : __assert2("re_comp.c", 2965, __func__, "(NV) ((0x53)) >= 0" )), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 2965, __func__, "(NV) (((0x54) - (0x53))) >= 0" )), (((U64) (((((U32) (((const U8*)uc)[1])))) - (((0x53)) | 0 ))) <= (((U64) ((((0x54) - (0x53))) | 0))))) : (((sizeof(( (const U8*)uc)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 2965, __func__, "sizeof(((const U8*)uc)[1]) == sizeof(U64)" )), ((((NV) ((0x53)) >= 0) ? (void)0 : __assert2("re_comp.c" , 2965, __func__, "(NV) ((0x53)) >= 0")), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2("re_comp.c", 2965, __func__ , "(NV) (((0x54) - (0x53))) >= 0")), (((U64) (((((U64) ((( const U8*)uc)[1])))) - (((0x53)) | 0))) <= (((U64) ((((0x54 ) - (0x53))) | 0)))))))) || ((((0x74) >= (0x73)) ? (void)0 : __assert2("re_comp.c", 2965, __func__, "(0x74) >= (0x73)" )), ( (sizeof(((const U8*)uc)[1]) == sizeof(U8)) ? ((((NV) (( 0x73)) >= 0) ? (void)0 : __assert2("re_comp.c", 2965, __func__ , "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 2965, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)uc)[1])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)uc)[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 2965, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 2965, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)uc)[1])))) - (((0x73)) | 0 ))) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof(( (const U8*)uc)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 2965, __func__, "sizeof(((const U8*)uc)[1]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 2965, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 2965, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U64) ((( const U8*)uc)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0)))))))) ) ) ? 2 : 0 ): 0 ))) { |
2966 | foldlen--; |
2967 | } |
2968 | } |
2969 | |
2970 | /* The current character (and any potential folds) should be added |
2971 | * to the possible matching characters for this position in this |
2972 | * branch */ |
2973 | if ( uvc < 256 ) { |
2974 | if ( folder ) { |
2975 | U8 folded= folder[ (U8) uvc ]; |
2976 | if ( !trie->charmap[ folded ] ) { |
2977 | trie->charmap[ folded ]=( ++trie->uniquecharcount ); |
2978 | TRIE_STORE_REVCHAR( folded )do { if ((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) { SV *zlopp = Perl_newSV( 13); unsigned char *flrbbbbb = (unsigned char *) (*({ SV *const _svpvx = ((SV *)({ void *_p = (zlopp) ; _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 2978, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2978, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 2978, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })); unsigned char *const kapow = Perl_uvoffuni_to_utf8_flags_msgs( flrbbbbb,((UV) ((folded ) | 0)),0,0); *kapow = '\0'; do { ((PL_valid_types_PVX[((svtype )((zlopp)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 2978, __func__, "PL_valid_types_PVX[SvTYPE(zlopp) & SVt_MASK]" )); ((!((((zlopp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((zlopp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((zlopp)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2978, __func__ , "!isGV_with_GP(zlopp)")); ((!(((svtype)((zlopp)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (zlopp)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 2978, __func__, "!(SvTYPE(zlopp) == SVt_PVIO && !(IoFLAGS(zlopp) & IOf_FAKE_DIRP))" )); (((XPV*) (zlopp)->sv_any)->xpv_cur = (kapow - flrbbbbb )); } while (0); (((!((zlopp)->sv_flags & 0x00000800) || !(*({ SV *const _svrv = ((SV *)({ void *_p = (zlopp); _p; }) ); ((PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 2978, __func__ , "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]")); ((!((( (_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV)) ) ? (void)0 : __assert2("re_comp.c", 2978, __func__, "!isGV_with_GP(_svrv)" )); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 2978, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); }))) ? (void)0 : __assert2 ("re_comp.c", 2978, __func__, "!((zlopp)->sv_flags & 0x00000800) || !(*({ SV *const _svrv = ((SV *)({ void *_p = (zlopp); _p; })); ((PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2(\"re_comp.c\", 2978, __func__, \"PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]\")); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2(\"re_comp.c\", 2978, __func__, \"!isGV_with_GP(_svrv)\")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2(\"re_comp.c\", 2978, __func__, \"!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))\")); &((_svrv)->sv_u.svu_rv); }))" )), ((!((((zlopp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((zlopp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((zlopp)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2978, __func__ , "!((((zlopp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((zlopp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((zlopp)->sv_flags & 0xff)) == SVt_PVLV))" )), (zlopp)->sv_flags |= (0x00000400|0x00004000)); ((zlopp )->sv_flags |= (0x20000000)); Perl_av_push( revcharmap,zlopp ); } else { char ooooff = (char)folded; Perl_av_push( revcharmap ,Perl_newSVpvn( &ooooff,1)); } } while (0); |
2979 | } |
2980 | } |
2981 | if ( !trie->charmap[ uvc ] ) { |
2982 | trie->charmap[ uvc ]=( ++trie->uniquecharcount ); |
2983 | TRIE_STORE_REVCHAR( uvc )do { if ((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) { SV *zlopp = Perl_newSV( 13); unsigned char *flrbbbbb = (unsigned char *) (*({ SV *const _svpvx = ((SV *)({ void *_p = (zlopp) ; _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 2983, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2983, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 2983, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })); unsigned char *const kapow = Perl_uvoffuni_to_utf8_flags_msgs( flrbbbbb,((UV) ((uvc ) | 0)),0,0); *kapow = '\0'; do { ((PL_valid_types_PVX[((svtype )((zlopp)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 2983, __func__, "PL_valid_types_PVX[SvTYPE(zlopp) & SVt_MASK]" )); ((!((((zlopp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((zlopp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((zlopp)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2983, __func__ , "!isGV_with_GP(zlopp)")); ((!(((svtype)((zlopp)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (zlopp)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 2983, __func__, "!(SvTYPE(zlopp) == SVt_PVIO && !(IoFLAGS(zlopp) & IOf_FAKE_DIRP))" )); (((XPV*) (zlopp)->sv_any)->xpv_cur = (kapow - flrbbbbb )); } while (0); (((!((zlopp)->sv_flags & 0x00000800) || !(*({ SV *const _svrv = ((SV *)({ void *_p = (zlopp); _p; }) ); ((PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 2983, __func__ , "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]")); ((!((( (_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV)) ) ? (void)0 : __assert2("re_comp.c", 2983, __func__, "!isGV_with_GP(_svrv)" )); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 2983, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); }))) ? (void)0 : __assert2 ("re_comp.c", 2983, __func__, "!((zlopp)->sv_flags & 0x00000800) || !(*({ SV *const _svrv = ((SV *)({ void *_p = (zlopp); _p; })); ((PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2(\"re_comp.c\", 2983, __func__, \"PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]\")); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2(\"re_comp.c\", 2983, __func__, \"!isGV_with_GP(_svrv)\")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2(\"re_comp.c\", 2983, __func__, \"!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))\")); &((_svrv)->sv_u.svu_rv); }))" )), ((!((((zlopp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((zlopp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((zlopp)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 2983, __func__ , "!((((zlopp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((zlopp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((zlopp)->sv_flags & 0xff)) == SVt_PVLV))" )), (zlopp)->sv_flags |= (0x00000400|0x00004000)); ((zlopp )->sv_flags |= (0x20000000)); Perl_av_push( revcharmap,zlopp ); } else { char ooooff = (char)uvc; Perl_av_push( revcharmap ,Perl_newSVpvn( &ooooff,1)); } } while (0); |
2984 | } |
2985 | if ( set_bit ) { |
2986 | /* store the codepoint in the bitmap, and its folded |
2987 | * equivalent. */ |
2988 | TRIE_BITMAP_SET_FOLDED(trie, uvc, folder)do { ((( (U8*) (((reg_trie_data *)(trie))->bitmap)) [ ( ( ( UV) (uvc)) >> 3) ] ) |= (1U << (((U8)uvc) & 7 ))); if ( folder ) ((( (U8*) (((reg_trie_data *)(trie))->bitmap )) [ ( ( (UV) (folder[(U8) uvc ])) >> 3) ] ) |= (1U << (((U8)folder[(U8) uvc ]) & 7))); if ( !(((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0) ) { if (! ((((U64)(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) { ((( ( U8*) (((reg_trie_data *)(trie))->bitmap)) [ ( ( (UV) ((((( sizeof(uvc) == 1) || !(((U64)(uvc)) & ~(32 * (1U << 6) - 1))) ? (void)0 : __assert2("re_comp.c", 2988, __func__, "(sizeof(uvc) == 1) || !(((U64)(uvc)) & ~(32 * (1U << 6) - 1))" )), ((((! ((((U64)(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? (void)0 : __assert2("re_comp.c", 2988, __func__ , "! ((((U64)(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))" )), (((( (sizeof((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) == 1) || !(((U64 )(((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ( (U8) (0xFE << (7-(2)))))) | 0)) & ~0xFF))) ? (void) 0 : __assert2("re_comp.c", 2988, __func__, "( (sizeof((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) == 1) || !(((U64)(((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) | 0)) & ~0xFF))" )), ((U8) (((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) | 0)))))))) >> 3) ] ) |= (1U << (((U8)((((sizeof(uvc) == 1) || !(((U64 )(uvc)) & ~(32 * (1U << 6) - 1))) ? (void)0 : __assert2 ("re_comp.c", 2988, __func__, "(sizeof(uvc) == 1) || !(((U64)(uvc)) & ~(32 * (1U << 6) - 1))" )), ((((! ((((U64)(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? (void)0 : __assert2("re_comp.c", 2988, __func__ , "! ((((U64)(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))" )), (((( (sizeof((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) == 1) || !(((U64 )(((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ( (U8) (0xFE << (7-(2)))))) | 0)) & ~0xFF))) ? (void) 0 : __assert2("re_comp.c", 2988, __func__, "( (sizeof((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) == 1) || !(((U64)(((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) | 0)) & ~0xFF))" )), ((U8) (((((UV) ((uvc) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) | 0))))))) & 7)) ); } } } while (0); |
2989 | set_bit = 0; /* We've done our bit :-) */ |
2990 | } |
2991 | } else { |
2992 | |
2993 | /* XXX We could come up with the list of code points that fold |
2994 | * to this using PL_utf8_foldclosures, except not for |
2995 | * multi-char folds, as there may be multiple combinations |
2996 | * there that could work, which needs to wait until runtime to |
2997 | * resolve (The comment about LIGATURE FFI above is such an |
2998 | * example */ |
2999 | |
3000 | SV** svpp; |
3001 | if ( !widecharmap ) |
3002 | widecharmap = newHV()((HV *)({ void *_p = (Perl_newSV_type( SVt_PVHV)); _p; })); |
3003 | |
3004 | svpp = hv_fetch( widecharmap, (char*)&uvc, sizeof( UV ), 1 )((SV**) Perl_hv_common_key_len( (widecharmap),((char*)&uvc ),(sizeof( UV )),(1) ? (0x20 | 0x10) : 0x20,((void*)0),0)); |
3005 | |
3006 | if ( !svpp ) |
3007 | Perl_croak( aTHX_ "error creating/fetching widecharmap entry for 0x%" UVXf"lX", uvc ); |
3008 | |
3009 | if ( !SvTRUE( *svpp )Perl_SvTRUE( *svpp) ) { |
3010 | sv_setiv( *svpp, ++trie->uniquecharcount )Perl_sv_setiv( *svpp,++trie->uniquecharcount); |
3011 | TRIE_STORE_REVCHAR(uvc)do { if ((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) { SV *zlopp = Perl_newSV( 13); unsigned char *flrbbbbb = (unsigned char *) (*({ SV *const _svpvx = ((SV *)({ void *_p = (zlopp) ; _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 3011, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 3011, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 3011, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })); unsigned char *const kapow = Perl_uvoffuni_to_utf8_flags_msgs( flrbbbbb,((UV) ((uvc ) | 0)),0,0); *kapow = '\0'; do { ((PL_valid_types_PVX[((svtype )((zlopp)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 3011, __func__, "PL_valid_types_PVX[SvTYPE(zlopp) & SVt_MASK]" )); ((!((((zlopp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((zlopp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((zlopp)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 3011, __func__ , "!isGV_with_GP(zlopp)")); ((!(((svtype)((zlopp)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (zlopp)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 3011, __func__, "!(SvTYPE(zlopp) == SVt_PVIO && !(IoFLAGS(zlopp) & IOf_FAKE_DIRP))" )); (((XPV*) (zlopp)->sv_any)->xpv_cur = (kapow - flrbbbbb )); } while (0); (((!((zlopp)->sv_flags & 0x00000800) || !(*({ SV *const _svrv = ((SV *)({ void *_p = (zlopp); _p; }) ); ((PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 3011, __func__ , "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]")); ((!((( (_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV)) ) ? (void)0 : __assert2("re_comp.c", 3011, __func__, "!isGV_with_GP(_svrv)" )); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 3011, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); }))) ? (void)0 : __assert2 ("re_comp.c", 3011, __func__, "!((zlopp)->sv_flags & 0x00000800) || !(*({ SV *const _svrv = ((SV *)({ void *_p = (zlopp); _p; })); ((PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2(\"re_comp.c\", 3011, __func__, \"PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]\")); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2(\"re_comp.c\", 3011, __func__, \"!isGV_with_GP(_svrv)\")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2(\"re_comp.c\", 3011, __func__, \"!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))\")); &((_svrv)->sv_u.svu_rv); }))" )), ((!((((zlopp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((zlopp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((zlopp)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 3011, __func__ , "!((((zlopp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((zlopp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((zlopp)->sv_flags & 0xff)) == SVt_PVLV))" )), (zlopp)->sv_flags |= (0x00000400|0x00004000)); ((zlopp )->sv_flags |= (0x20000000)); Perl_av_push( revcharmap,zlopp ); } else { char ooooff = (char)uvc; Perl_av_push( revcharmap ,Perl_newSVpvn( &ooooff,1)); } } while (0); |
3012 | } |
3013 | } |
3014 | } /* end loop through characters in this branch of the trie */ |
3015 | |
3016 | /* We take the min and max for this branch and combine to find the min |
3017 | * and max for all branches processed so far */ |
3018 | if( cur == first ) { |
3019 | trie->minlen = minchars; |
3020 | trie->maxlen = maxchars; |
3021 | } else if (minchars < trie->minlen) { |
3022 | trie->minlen = minchars; |
3023 | } else if (maxchars > trie->maxlen) { |
3024 | trie->maxlen = maxchars; |
3025 | } |
3026 | } /* end first pass */ |
3027 | DEBUG_TRIE_COMPILE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) Perl_re_indentf ( "TRIE(%s): W:%d C:%d Uq:%d Min:%d Max:%d\n", depth+1, ( widecharmap ? "UTF8" : "NATIVE" ), (int)word_count, (int)((trie)->charcount ), trie->uniquecharcount, (int)trie->minlen, (int)trie-> maxlen );} while (0) |
3028 | Perl_re_indentf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) Perl_re_indentf ( "TRIE(%s): W:%d C:%d Uq:%d Min:%d Max:%d\n", depth+1, ( widecharmap ? "UTF8" : "NATIVE" ), (int)word_count, (int)((trie)->charcount ), trie->uniquecharcount, (int)trie->minlen, (int)trie-> maxlen );} while (0) |
3029 | "TRIE(%s): W:%d C:%d Uq:%d Min:%d Max:%d\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) Perl_re_indentf ( "TRIE(%s): W:%d C:%d Uq:%d Min:%d Max:%d\n", depth+1, ( widecharmap ? "UTF8" : "NATIVE" ), (int)word_count, (int)((trie)->charcount ), trie->uniquecharcount, (int)trie->minlen, (int)trie-> maxlen );} while (0) |
3030 | depth+1,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) Perl_re_indentf ( "TRIE(%s): W:%d C:%d Uq:%d Min:%d Max:%d\n", depth+1, ( widecharmap ? "UTF8" : "NATIVE" ), (int)word_count, (int)((trie)->charcount ), trie->uniquecharcount, (int)trie->minlen, (int)trie-> maxlen );} while (0) |
3031 | ( widecharmap ? "UTF8" : "NATIVE" ), (int)word_count,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) Perl_re_indentf ( "TRIE(%s): W:%d C:%d Uq:%d Min:%d Max:%d\n", depth+1, ( widecharmap ? "UTF8" : "NATIVE" ), (int)word_count, (int)((trie)->charcount ), trie->uniquecharcount, (int)trie->minlen, (int)trie-> maxlen );} while (0) |
3032 | (int)TRIE_CHARCOUNT(trie), trie->uniquecharcount,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) Perl_re_indentf ( "TRIE(%s): W:%d C:%d Uq:%d Min:%d Max:%d\n", depth+1, ( widecharmap ? "UTF8" : "NATIVE" ), (int)word_count, (int)((trie)->charcount ), trie->uniquecharcount, (int)trie->minlen, (int)trie-> maxlen );} while (0) |
3033 | (int)trie->minlen, (int)trie->maxlen )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) Perl_re_indentf ( "TRIE(%s): W:%d C:%d Uq:%d Min:%d Max:%d\n", depth+1, ( widecharmap ? "UTF8" : "NATIVE" ), (int)word_count, (int)((trie)->charcount ), trie->uniquecharcount, (int)trie->minlen, (int)trie-> maxlen );} while (0) |
3034 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) Perl_re_indentf ( "TRIE(%s): W:%d C:%d Uq:%d Min:%d Max:%d\n", depth+1, ( widecharmap ? "UTF8" : "NATIVE" ), (int)word_count, (int)((trie)->charcount ), trie->uniquecharcount, (int)trie->minlen, (int)trie-> maxlen );} while (0); |
3035 | |
3036 | /* |
3037 | We now know what we are dealing with in terms of unique chars and |
3038 | string sizes so we can calculate how much memory a naive |
3039 | representation using a flat table will take. If it's over a reasonable |
3040 | limit (as specified by ${^RE_TRIE_MAXBUF}) we use a more memory |
3041 | conservative but potentially much slower representation using an array |
3042 | of lists. |
3043 | |
3044 | At the end we convert both representations into the same compressed |
3045 | form that will be used in regexec.c for matching with. The latter |
3046 | is a form that cannot be used to construct with but has memory |
3047 | properties similar to the list form and access properties similar |
3048 | to the table form making it both suitable for fast searches and |
3049 | small enough that its feasable to store for the duration of a program. |
3050 | |
3051 | See the comment in the code where the compressed table is produced |
3052 | inplace from the flat tabe representation for an explanation of how |
3053 | the compression works. |
3054 | |
3055 | */ |
3056 | |
3057 | |
3058 | Newx(prev_states, TRIE_CHARCOUNT(trie) + 2, U32)(prev_states = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(((trie)->charcount) + 2) || sizeof(U32) > ((size_t )1 << 8*(sizeof(size_t) - sizeof(((trie)->charcount) + 2)))) ? (size_t)(((trie)->charcount) + 2) : ((size_t)-1 )/sizeof(U32)) > ((size_t)-1)/sizeof(U32))) ? (_Bool)1 : ( _Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), (U32* )(Perl_safesysmalloc((size_t)((((trie)->charcount) + 2)*sizeof (U32)))))); |
3059 | prev_states[1] = 0; |
3060 | |
3061 | if ( (IV)( ( TRIE_CHARCOUNT(trie)((trie)->charcount) + 1 ) * trie->uniquecharcount + 1) |
3062 | > SvIV(re_trie_maxbuff)((((re_trie_maxbuff)->sv_flags & (0x00000100|0x00200000 )) == 0x00000100) ? (*({ const SV *const _svivx = (const SV * )(re_trie_maxbuff); ((PL_valid_types_IVX[((svtype)((_svivx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c" , 3062, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 3062, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( re_trie_maxbuff,2)) ) |
3063 | { |
3064 | /* |
3065 | Second Pass -- Array Of Lists Representation |
3066 | |
3067 | Each state will be represented by a list of charid:state records |
3068 | (reg_trie_trans_le) the first such element holds the CUR and LEN |
3069 | points of the allocated array. (See defines above). |
3070 | |
3071 | We build the initial structure using the lists, and then convert |
3072 | it into the compressed table form which allows faster lookups |
3073 | (but cant be modified once converted). |
3074 | */ |
3075 | |
3076 | STRLEN transcount = 1; |
3077 | |
3078 | DEBUG_TRIE_COMPILE_MORE_r( Perl_re_indentf( aTHX_ "Compiling trie using list compiler\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) Perl_re_indentf ( "Compiling trie using list compiler\n", depth+1);} while (0 ) |
3079 | depth+1))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) Perl_re_indentf ( "Compiling trie using list compiler\n", depth+1);} while (0 ); |
3080 | |
3081 | trie->states = (reg_trie_state *) |
3082 | PerlMemShared_calloc( TRIE_CHARCOUNT(trie) + 2,calloc((((trie)->charcount) + 2), (sizeof(reg_trie_state)) ) |
3083 | sizeof(reg_trie_state) )calloc((((trie)->charcount) + 2), (sizeof(reg_trie_state)) ); |
3084 | TRIE_LIST_NEW(1)do { (trie->states[ 1 ].trans.list = ((void)(__builtin_expect (((((( sizeof(size_t) < sizeof(4) || sizeof(reg_trie_trans_le ) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(4)))) ? (size_t)(4) : ((size_t)-1)/sizeof(reg_trie_trans_le)) > ( (size_t)-1)/sizeof(reg_trie_trans_le))) ? (_Bool)1 : (_Bool)0 ),(0)) && (Perl_croak_memory_wrap(),0)), (reg_trie_trans_le *)(Perl_safesysmalloc((size_t)((4)*sizeof(reg_trie_trans_le)) )))); ( (trie->states[1].trans.list)[ 0 ].forid ) = 1; ( ( trie->states[1].trans.list)[ 0 ].newstate ) = 4; } while ( 0); |
3085 | next_alloc = 2; |
3086 | |
3087 | for ( cur = first ; cur < last ; cur = regnext( cur )Perl_regnext( cur) ) { |
3088 | |
3089 | regnode *noper = NEXTOPER( cur )((cur) + 1); |
3090 | U32 state = 1; /* required init */ |
3091 | U16 charid = 0; /* sanity init */ |
3092 | U32 wordlen = 0; /* required init */ |
3093 | |
3094 | if (OP(noper)((noper)->type) == NOTHING54) { |
3095 | regnode *noper_next= regnext(noper)Perl_regnext( noper); |
3096 | if (noper_next < tail) |
3097 | noper= noper_next; |
3098 | /* we will undo this assignment if noper does not |
3099 | * point at a trieable type in the else clause of |
3100 | * the following statement. */ |
3101 | } |
3102 | |
3103 | if ( noper < tail |
3104 | && ( OP(noper)((noper)->type) == flags |
3105 | || (flags == EXACT40 && OP(noper)((noper)->type) == EXACT_REQ850) |
3106 | || (flags == EXACTFU45 && ( OP(noper)((noper)->type) == EXACTFU_REQ852 |
3107 | || OP(noper)((noper)->type) == EXACTFUP47)))) |
3108 | { |
3109 | const U8 *uc= (U8*)STRING(noper)((((noper)->type) == 41 || ((noper)->type) == 51) ? ((( ((noper)->type) == 41 || ((noper)->type) == 51) ? (void )0 : __assert2("re_comp.c", 3109, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->string)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 3109, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->string)); |
3110 | const U8 *e= uc + STR_LEN(noper)((((noper)->type) == 41 || ((noper)->type) == 51) ? ((( ((noper)->type) == 41 || ((noper)->type) == 51) ? (void )0 : __assert2("re_comp.c", 3110, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->str_len)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 3110, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->str_len)); |
3111 | |
3112 | for ( ; uc < e ; uc += len ) { |
3113 | |
3114 | TRIE_READ_CHARdo { wordlen++; if ( (((pRExC_state->utf8)) ? (_Bool)1 : ( _Bool)0) ) { uvc = Perl_valid_utf8_to_uvchr( (const U8*) uc, & len); } else if (folder == PL_fold_latin1) { ((*uc != 0xDF) ? (void)0 : __assert2("re_comp.c", 3114, __func__, "*uc != LATIN_SMALL_LETTER_SHARP_S" )); uvc = ((! ( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))) ? (*uc) : PL_latin1_lc[ (U8) (*uc) ]); if (__builtin_expect (((uvc == 0xB5) ? (_Bool)1 : (_Bool)0),(0))) uvc = 0x03BC; len = 1; } else { uvc = (U32)*uc; len = 1; } } while (0); |
3115 | |
3116 | if ( uvc < 256 ) { |
3117 | charid = trie->charmap[ uvc ]; |
3118 | } else { |
3119 | SV** const svpp = hv_fetch( widecharmap,((SV**) Perl_hv_common_key_len( (widecharmap),((char*)&uvc ),(sizeof( UV )),(0) ? (0x20 | 0x10) : 0x20,((void*)0),0)) |
3120 | (char*)&uvc,((SV**) Perl_hv_common_key_len( (widecharmap),((char*)&uvc ),(sizeof( UV )),(0) ? (0x20 | 0x10) : 0x20,((void*)0),0)) |
3121 | sizeof( UV ),((SV**) Perl_hv_common_key_len( (widecharmap),((char*)&uvc ),(sizeof( UV )),(0) ? (0x20 | 0x10) : 0x20,((void*)0),0)) |
3122 | 0)((SV**) Perl_hv_common_key_len( (widecharmap),((char*)&uvc ),(sizeof( UV )),(0) ? (0x20 | 0x10) : 0x20,((void*)0),0)); |
3123 | if ( !svpp ) { |
3124 | charid = 0; |
3125 | } else { |
3126 | charid=(U16)SvIV( *svpp )((((*svpp)->sv_flags & (0x00000100|0x00200000)) == 0x00000100 ) ? (*({ const SV *const _svivx = (const SV *)(*svpp); ((PL_valid_types_IVX [((svtype)((_svivx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 3126, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 3126, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( *svpp,2)); |
3127 | } |
3128 | } |
3129 | /* charid is now 0 if we dont know the char read, or |
3130 | * nonzero if we do */ |
3131 | if ( charid ) { |
3132 | |
3133 | U16 check; |
3134 | U32 newstate = 0; |
3135 | |
3136 | charid--; |
3137 | if ( !trie->states[ state ].trans.list ) { |
3138 | TRIE_LIST_NEW( state )do { (trie->states[ state ].trans.list = ((void)(__builtin_expect (((((( sizeof(size_t) < sizeof(4) || sizeof(reg_trie_trans_le ) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(4)))) ? (size_t)(4) : ((size_t)-1)/sizeof(reg_trie_trans_le)) > ( (size_t)-1)/sizeof(reg_trie_trans_le))) ? (_Bool)1 : (_Bool)0 ),(0)) && (Perl_croak_memory_wrap(),0)), (reg_trie_trans_le *)(Perl_safesysmalloc((size_t)((4)*sizeof(reg_trie_trans_le)) )))); ( (trie->states[state].trans.list)[ 0 ].forid ) = 1; ( (trie->states[state].trans.list)[ 0 ].newstate ) = 4; } while (0); |
3139 | } |
3140 | for ( check = 1; |
3141 | check <= TRIE_LIST_USED( state )( trie->states[state].trans.list ? (( (trie->states[state ].trans.list)[ 0 ].forid ) - 1) : 0 ); |
3142 | check++ ) |
3143 | { |
3144 | if ( TRIE_LIST_ITEM( state, check )(trie->states[state].trans.list)[ check ].forid |
3145 | == charid ) |
3146 | { |
3147 | newstate = TRIE_LIST_ITEM( state, check )(trie->states[state].trans.list)[ check ].newstate; |
3148 | break; |
3149 | } |
3150 | } |
3151 | if ( ! newstate ) { |
3152 | newstate = next_alloc++; |
3153 | prev_states[newstate] = state; |
3154 | TRIE_LIST_PUSH( state, charid, newstate )do { if ( ( (trie->states[state].trans.list)[ 0 ].forid ) >= ( (trie->states[state].trans.list)[ 0 ].newstate ) ) { U32 ging = ( (trie->states[state].trans.list)[ 0 ].newstate ) * 2; (trie->states[ state ].trans.list = ((void)(__builtin_expect (((((( sizeof(size_t) < sizeof(ging) || sizeof(reg_trie_trans_le ) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(ging))) ) ? (size_t)(ging) : ((size_t)-1)/sizeof(reg_trie_trans_le)) > ((size_t)-1)/sizeof(reg_trie_trans_le))) ? (_Bool)1 : (_Bool )0),(0)) && (Perl_croak_memory_wrap(),0)), (reg_trie_trans_le *)(Perl_safesysrealloc((void *)(trie->states[ state ].trans .list),(size_t)((ging)*sizeof(reg_trie_trans_le)))))); ( (trie ->states[state].trans.list)[ 0 ].newstate ) = ging; } (trie ->states[state].trans.list)[ ( (trie->states[state].trans .list)[ 0 ].forid ) ].forid = charid; (trie->states[state] .trans.list)[ ( (trie->states[state].trans.list)[ 0 ].forid ) ].newstate = newstate; ( (trie->states[state].trans.list )[ 0 ].forid )++; } while (0); |
3155 | transcount++; |
3156 | } |
3157 | state = newstate; |
3158 | } else { |
3159 | Perl_croak( aTHX_ "panic! In trie construction, no char mapping for %" IVdf"ld", uvc ); |
3160 | } |
3161 | } |
3162 | } else { |
3163 | /* If we end up here it is because we skipped past a NOTHING, but did not end up |
3164 | * on a trieable type. So we need to reset noper back to point at the first regop |
3165 | * in the branch before we call TRIE_HANDLE_WORD() |
3166 | */ |
3167 | noper= NEXTOPER(cur)((cur) + 1); |
3168 | } |
3169 | TRIE_HANDLE_WORD(state)do { U16 dupe= trie->states[ state ].wordnum; regnode * const noper_next = Perl_regnext( noper); do {{ SV* tmp; if (((noper )->type) != 54) tmp = Perl_newSVpvn_flags( (((((noper)-> type) == 41 || ((noper)->type) == 51) ? (((((noper)->type ) == 41 || ((noper)->type) == 51) ? (void)0 : __assert2("re_comp.c" , 3169, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->string)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 3169, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->string))),(((((noper )->type) == 41 || ((noper)->type) == 51) ? (((((noper)-> type) == 41 || ((noper)->type) == 51) ? (void)0 : __assert2 ("re_comp.c", 3169, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->str_len)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 3169, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->str_len))),((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? 0x20000000 : 0); else tmp = Perl_newSVpvn_flags( (""),(0),((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? 0x20000000 : 0); Perl_av_push( trie_words ,tmp); };} while (0); curword++; trie->wordinfo[curword].prev = 0; trie->wordinfo[curword].len = wordlen; trie->wordinfo [curword].accept = state; if ( noper_next < tail ) { if (! trie->jump) trie->jump = (U16 *) calloc((word_count + 1 ), (sizeof(U16))); trie->jump[curword] = (U16)(noper_next - convert); if (!jumper) jumper = noper_next; if (!nextbranch) nextbranch= Perl_regnext( cur); } if ( dupe ) { trie->wordinfo [curword].prev = trie->wordinfo[dupe].prev; trie->wordinfo [dupe].prev = curword; } else { trie->states[ state ].wordnum = curword; } } while (0); |
3170 | |
3171 | } /* end second pass */ |
3172 | |
3173 | /* next alloc is the NEXT state to be allocated */ |
3174 | trie->statecount = next_alloc; |
3175 | trie->states = (reg_trie_state *) |
3176 | PerlMemShared_realloc( trie->states,realloc((trie->states), (next_alloc * sizeof(reg_trie_state ))) |
3177 | next_allocrealloc((trie->states), (next_alloc * sizeof(reg_trie_state ))) |
3178 | * sizeof(reg_trie_state) )realloc((trie->states), (next_alloc * sizeof(reg_trie_state ))); |
3179 | |
3180 | /* and now dump it out before we compress it */ |
3181 | DEBUG_TRIE_COMPILE_MORE_r(dump_trie_interim_list(trie, widecharmap,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) S_dump_trie_interim_list ( trie,widecharmap,revcharmap,next_alloc,depth+1);} while (0) |
3182 | revcharmap, next_alloc,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) S_dump_trie_interim_list ( trie,widecharmap,revcharmap,next_alloc,depth+1);} while (0) |
3183 | depth+1)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) S_dump_trie_interim_list ( trie,widecharmap,revcharmap,next_alloc,depth+1);} while (0) |
3184 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) S_dump_trie_interim_list ( trie,widecharmap,revcharmap,next_alloc,depth+1);} while (0); |
3185 | |
3186 | trie->trans = (reg_trie_trans *) |
3187 | PerlMemShared_calloc( transcount, sizeof(reg_trie_trans) )calloc((transcount), (sizeof(reg_trie_trans))); |
3188 | { |
3189 | U32 state; |
3190 | U32 tp = 0; |
3191 | U32 zp = 0; |
3192 | |
3193 | |
3194 | for( state=1 ; state < next_alloc ; state ++ ) { |
3195 | U32 base=0; |
3196 | |
3197 | /* |
3198 | DEBUG_TRIE_COMPILE_MORE_r( |
3199 | Perl_re_printf( aTHX_ "tp: %d zp: %d ",tp,zp) |
3200 | ); |
3201 | */ |
3202 | |
3203 | if (trie->states[state].trans.list) { |
3204 | U16 minid=TRIE_LIST_ITEM( state, 1)(trie->states[state].trans.list)[ 1 ].forid; |
3205 | U16 maxid=minid; |
3206 | U16 idx; |
3207 | |
3208 | for( idx = 2 ; idx <= TRIE_LIST_USED( state )( trie->states[state].trans.list ? (( (trie->states[state ].trans.list)[ 0 ].forid ) - 1) : 0 ) ; idx++ ) { |
3209 | const U16 forid = TRIE_LIST_ITEM( state, idx)(trie->states[state].trans.list)[ idx ].forid; |
3210 | if ( forid < minid ) { |
3211 | minid=forid; |
3212 | } else if ( forid > maxid ) { |
3213 | maxid=forid; |
3214 | } |
3215 | } |
3216 | if ( transcount < tp + maxid - minid + 1) { |
3217 | transcount *= 2; |
3218 | trie->trans = (reg_trie_trans *) |
3219 | PerlMemShared_realloc( trie->trans,realloc((trie->trans), (transcount * sizeof(reg_trie_trans ))) |
3220 | transcountrealloc((trie->trans), (transcount * sizeof(reg_trie_trans ))) |
3221 | * sizeof(reg_trie_trans) )realloc((trie->trans), (transcount * sizeof(reg_trie_trans ))); |
3222 | Zero( trie->trans + (transcount / 2),((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(transcount / 2) || sizeof(reg_trie_trans) > ((size_t)1 << 8*(sizeof (size_t) - sizeof(transcount / 2)))) ? (size_t)(transcount / 2 ) : ((size_t)-1)/sizeof(reg_trie_trans)) > ((size_t)-1)/sizeof (reg_trie_trans))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)(trie->trans + (transcount / 2))) != 0) ? (void)0 : __assert2("re_comp.c", 3224, __func__, "((void*)(trie->trans + (transcount / 2))) != 0" )), (void)memset((char*)(trie->trans + (transcount / 2)),0 ,(transcount / 2) * sizeof(reg_trie_trans))) |
3223 | transcount / 2,((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(transcount / 2) || sizeof(reg_trie_trans) > ((size_t)1 << 8*(sizeof (size_t) - sizeof(transcount / 2)))) ? (size_t)(transcount / 2 ) : ((size_t)-1)/sizeof(reg_trie_trans)) > ((size_t)-1)/sizeof (reg_trie_trans))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)(trie->trans + (transcount / 2))) != 0) ? (void)0 : __assert2("re_comp.c", 3224, __func__, "((void*)(trie->trans + (transcount / 2))) != 0" )), (void)memset((char*)(trie->trans + (transcount / 2)),0 ,(transcount / 2) * sizeof(reg_trie_trans))) |
3224 | reg_trie_trans )((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(transcount / 2) || sizeof(reg_trie_trans) > ((size_t)1 << 8*(sizeof (size_t) - sizeof(transcount / 2)))) ? (size_t)(transcount / 2 ) : ((size_t)-1)/sizeof(reg_trie_trans)) > ((size_t)-1)/sizeof (reg_trie_trans))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)(trie->trans + (transcount / 2))) != 0) ? (void)0 : __assert2("re_comp.c", 3224, __func__, "((void*)(trie->trans + (transcount / 2))) != 0" )), (void)memset((char*)(trie->trans + (transcount / 2)),0 ,(transcount / 2) * sizeof(reg_trie_trans))); |
3225 | } |
3226 | base = trie->uniquecharcount + tp - minid; |
3227 | if ( maxid == minid ) { |
3228 | U32 set = 0; |
3229 | for ( ; zp < tp ; zp++ ) { |
3230 | if ( ! trie->trans[ zp ].next ) { |
3231 | base = trie->uniquecharcount + zp - minid; |
3232 | trie->trans[ zp ].next = TRIE_LIST_ITEM( state,(trie->states[state].trans.list)[ 1 ] |
3233 | 1)(trie->states[state].trans.list)[ 1 ].newstate; |
3234 | trie->trans[ zp ].check = state; |
3235 | set = 1; |
3236 | break; |
3237 | } |
3238 | } |
3239 | if ( !set ) { |
3240 | trie->trans[ tp ].next = TRIE_LIST_ITEM( state,(trie->states[state].trans.list)[ 1 ] |
3241 | 1)(trie->states[state].trans.list)[ 1 ].newstate; |
3242 | trie->trans[ tp ].check = state; |
3243 | tp++; |
3244 | zp = tp; |
3245 | } |
3246 | } else { |
3247 | for ( idx=1; idx <= TRIE_LIST_USED( state )( trie->states[state].trans.list ? (( (trie->states[state ].trans.list)[ 0 ].forid ) - 1) : 0 ) ; idx++ ) { |
3248 | const U32 tid = base |
3249 | - trie->uniquecharcount |
3250 | + TRIE_LIST_ITEM( state, idx )(trie->states[state].trans.list)[ idx ].forid; |
3251 | trie->trans[ tid ].next = TRIE_LIST_ITEM( state,(trie->states[state].trans.list)[ idx ] |
3252 | idx )(trie->states[state].trans.list)[ idx ].newstate; |
3253 | trie->trans[ tid ].check = state; |
3254 | } |
3255 | tp += ( maxid - minid + 1 ); |
3256 | } |
3257 | Safefree(trie->states[ state ].trans.list)Perl_safesysfree(((void *)(trie->states[ state ].trans.list ))); |
3258 | } |
3259 | /* |
3260 | DEBUG_TRIE_COMPILE_MORE_r( |
3261 | Perl_re_printf( aTHX_ " base: %d\n",base); |
3262 | ); |
3263 | */ |
3264 | trie->states[ state ].trans.base=base; |
3265 | } |
3266 | trie->lasttrans = tp + 1; |
3267 | } |
3268 | } else { |
3269 | /* |
3270 | Second Pass -- Flat Table Representation. |
3271 | |
3272 | we dont use the 0 slot of either trans[] or states[] so we add 1 to |
3273 | each. We know that we will need Charcount+1 trans at most to store |
3274 | the data (one row per char at worst case) So we preallocate both |
3275 | structures assuming worst case. |
3276 | |
3277 | We then construct the trie using only the .next slots of the entry |
3278 | structs. |
3279 | |
3280 | We use the .check field of the first entry of the node temporarily |
3281 | to make compression both faster and easier by keeping track of how |
3282 | many non zero fields are in the node. |
3283 | |
3284 | Since trans are numbered from 1 any 0 pointer in the table is a FAIL |
3285 | transition. |
3286 | |
3287 | There are two terms at use here: state as a TRIE_NODEIDX() which is |
3288 | a number representing the first entry of the node, and state as a |
3289 | TRIE_NODENUM() which is the trans number. state 1 is TRIE_NODEIDX(1) |
3290 | and TRIE_NODENUM(1), state 2 is TRIE_NODEIDX(2) and TRIE_NODENUM(3) |
3291 | if there are 2 entrys per node. eg: |
3292 | |
3293 | A B A B |
3294 | 1. 2 4 1. 3 7 |
3295 | 2. 0 3 3. 0 5 |
3296 | 3. 0 0 5. 0 0 |
3297 | 4. 0 0 7. 0 0 |
3298 | |
3299 | The table is internally in the right hand, idx form. However as we |
3300 | also have to deal with the states array which is indexed by nodenum |
3301 | we have to use TRIE_NODENUM() to convert. |
3302 | |
3303 | */ |
3304 | DEBUG_TRIE_COMPILE_MORE_r( Perl_re_indentf( aTHX_ "Compiling trie using table compiler\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) Perl_re_indentf ( "Compiling trie using table compiler\n", depth+1);} while ( 0) |
3305 | depth+1))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) Perl_re_indentf ( "Compiling trie using table compiler\n", depth+1);} while ( 0); |
3306 | |
3307 | trie->trans = (reg_trie_trans *) |
3308 | PerlMemShared_calloc( ( TRIE_CHARCOUNT(trie) + 1 )calloc((( ((trie)->charcount) + 1 ) * trie->uniquecharcount + 1), (sizeof(reg_trie_trans))) |
3309 | * trie->uniquecharcount + 1,calloc((( ((trie)->charcount) + 1 ) * trie->uniquecharcount + 1), (sizeof(reg_trie_trans))) |
3310 | sizeof(reg_trie_trans) )calloc((( ((trie)->charcount) + 1 ) * trie->uniquecharcount + 1), (sizeof(reg_trie_trans))); |
3311 | trie->states = (reg_trie_state *) |
3312 | PerlMemShared_calloc( TRIE_CHARCOUNT(trie) + 2,calloc((((trie)->charcount) + 2), (sizeof(reg_trie_state)) ) |
3313 | sizeof(reg_trie_state) )calloc((((trie)->charcount) + 2), (sizeof(reg_trie_state)) ); |
3314 | next_alloc = trie->uniquecharcount + 1; |
3315 | |
3316 | |
3317 | for ( cur = first ; cur < last ; cur = regnext( cur )Perl_regnext( cur) ) { |
3318 | |
3319 | regnode *noper = NEXTOPER( cur )((cur) + 1); |
3320 | |
3321 | U32 state = 1; /* required init */ |
3322 | |
3323 | U16 charid = 0; /* sanity init */ |
3324 | U32 accept_state = 0; /* sanity init */ |
3325 | |
3326 | U32 wordlen = 0; /* required init */ |
3327 | |
3328 | if (OP(noper)((noper)->type) == NOTHING54) { |
3329 | regnode *noper_next= regnext(noper)Perl_regnext( noper); |
3330 | if (noper_next < tail) |
3331 | noper= noper_next; |
3332 | /* we will undo this assignment if noper does not |
3333 | * point at a trieable type in the else clause of |
3334 | * the following statement. */ |
3335 | } |
3336 | |
3337 | if ( noper < tail |
3338 | && ( OP(noper)((noper)->type) == flags |
3339 | || (flags == EXACT40 && OP(noper)((noper)->type) == EXACT_REQ850) |
3340 | || (flags == EXACTFU45 && ( OP(noper)((noper)->type) == EXACTFU_REQ852 |
3341 | || OP(noper)((noper)->type) == EXACTFUP47)))) |
3342 | { |
3343 | const U8 *uc= (U8*)STRING(noper)((((noper)->type) == 41 || ((noper)->type) == 51) ? ((( ((noper)->type) == 41 || ((noper)->type) == 51) ? (void )0 : __assert2("re_comp.c", 3343, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->string)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 3343, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->string)); |
3344 | const U8 *e= uc + STR_LEN(noper)((((noper)->type) == 41 || ((noper)->type) == 51) ? ((( ((noper)->type) == 41 || ((noper)->type) == 51) ? (void )0 : __assert2("re_comp.c", 3344, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->str_len)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 3344, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->str_len)); |
3345 | |
3346 | for ( ; uc < e ; uc += len ) { |
3347 | |
3348 | TRIE_READ_CHARdo { wordlen++; if ( (((pRExC_state->utf8)) ? (_Bool)1 : ( _Bool)0) ) { uvc = Perl_valid_utf8_to_uvchr( (const U8*) uc, & len); } else if (folder == PL_fold_latin1) { ((*uc != 0xDF) ? (void)0 : __assert2("re_comp.c", 3348, __func__, "*uc != LATIN_SMALL_LETTER_SHARP_S" )); uvc = ((! ( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))) ? (*uc) : PL_latin1_lc[ (U8) (*uc) ]); if (__builtin_expect (((uvc == 0xB5) ? (_Bool)1 : (_Bool)0),(0))) uvc = 0x03BC; len = 1; } else { uvc = (U32)*uc; len = 1; } } while (0); |
3349 | |
3350 | if ( uvc < 256 ) { |
3351 | charid = trie->charmap[ uvc ]; |
3352 | } else { |
3353 | SV* const * const svpp = hv_fetch( widecharmap,((SV**) Perl_hv_common_key_len( (widecharmap),((char*)&uvc ),(sizeof( UV )),(0) ? (0x20 | 0x10) : 0x20,((void*)0),0)) |
3354 | (char*)&uvc,((SV**) Perl_hv_common_key_len( (widecharmap),((char*)&uvc ),(sizeof( UV )),(0) ? (0x20 | 0x10) : 0x20,((void*)0),0)) |
3355 | sizeof( UV ),((SV**) Perl_hv_common_key_len( (widecharmap),((char*)&uvc ),(sizeof( UV )),(0) ? (0x20 | 0x10) : 0x20,((void*)0),0)) |
3356 | 0)((SV**) Perl_hv_common_key_len( (widecharmap),((char*)&uvc ),(sizeof( UV )),(0) ? (0x20 | 0x10) : 0x20,((void*)0),0)); |
3357 | charid = svpp ? (U16)SvIV(*svpp)((((*svpp)->sv_flags & (0x00000100|0x00200000)) == 0x00000100 ) ? (*({ const SV *const _svivx = (const SV *)(*svpp); ((PL_valid_types_IVX [((svtype)((_svivx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 3357, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 3357, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( *svpp,2)) : 0; |
3358 | } |
3359 | if ( charid ) { |
3360 | charid--; |
3361 | if ( !trie->trans[ state + charid ].next ) { |
3362 | trie->trans[ state + charid ].next = next_alloc; |
3363 | trie->trans[ state ].check++; |
3364 | prev_states[TRIE_NODENUM(next_alloc)(((next_alloc)-1)/(trie->uniquecharcount)+1)] |
3365 | = TRIE_NODENUM(state)(((state)-1)/(trie->uniquecharcount)+1); |
3366 | next_alloc += trie->uniquecharcount; |
3367 | } |
3368 | state = trie->trans[ state + charid ].next; |
3369 | } else { |
3370 | Perl_croak( aTHX_ "panic! In trie construction, no char mapping for %" IVdf"ld", uvc ); |
3371 | } |
3372 | /* charid is now 0 if we dont know the char read, or |
3373 | * nonzero if we do */ |
3374 | } |
3375 | } else { |
3376 | /* If we end up here it is because we skipped past a NOTHING, but did not end up |
3377 | * on a trieable type. So we need to reset noper back to point at the first regop |
3378 | * in the branch before we call TRIE_HANDLE_WORD(). |
3379 | */ |
3380 | noper= NEXTOPER(cur)((cur) + 1); |
3381 | } |
3382 | accept_state = TRIE_NODENUM( state )(((state)-1)/(trie->uniquecharcount)+1); |
3383 | TRIE_HANDLE_WORD(accept_state)do { U16 dupe= trie->states[ accept_state ].wordnum; regnode * const noper_next = Perl_regnext( noper); do {{ SV* tmp; if (((noper)->type) != 54) tmp = Perl_newSVpvn_flags( (((((noper )->type) == 41 || ((noper)->type) == 51) ? (((((noper)-> type) == 41 || ((noper)->type) == 51) ? (void)0 : __assert2 ("re_comp.c", 3383, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->string)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 3383, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->string))),(((((noper )->type) == 41 || ((noper)->type) == 51) ? (((((noper)-> type) == 41 || ((noper)->type) == 51) ? (void)0 : __assert2 ("re_comp.c", 3383, __func__, "((noper)->type) == 41 || ((noper)->type) == 51" )), (((struct regnode_lstring *)noper)->str_len)) : (((((noper )->type) != 41 && ((noper)->type) != 51) ? (void )0 : __assert2("re_comp.c", 3383, __func__, "((noper)->type) != 41 && ((noper)->type) != 51" )), ((struct regnode_string *)noper)->str_len))),((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? 0x20000000 : 0); else tmp = Perl_newSVpvn_flags( (""),(0),((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? 0x20000000 : 0); Perl_av_push( trie_words ,tmp); };} while (0); curword++; trie->wordinfo[curword].prev = 0; trie->wordinfo[curword].len = wordlen; trie->wordinfo [curword].accept = accept_state; if ( noper_next < tail ) { if (!trie->jump) trie->jump = (U16 *) calloc((word_count + 1), (sizeof(U16))); trie->jump[curword] = (U16)(noper_next - convert); if (!jumper) jumper = noper_next; if (!nextbranch ) nextbranch= Perl_regnext( cur); } if ( dupe ) { trie->wordinfo [curword].prev = trie->wordinfo[dupe].prev; trie->wordinfo [dupe].prev = curword; } else { trie->states[ accept_state ].wordnum = curword; } } while (0); |
3384 | |
3385 | } /* end second pass */ |
3386 | |
3387 | /* and now dump it out before we compress it */ |
3388 | DEBUG_TRIE_COMPILE_MORE_r(dump_trie_interim_table(trie, widecharmap,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) S_dump_trie_interim_table ( trie,widecharmap,revcharmap,next_alloc,depth+1);} while (0) |
3389 | revcharmap,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) S_dump_trie_interim_table ( trie,widecharmap,revcharmap,next_alloc,depth+1);} while (0) |
3390 | next_alloc, depth+1))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) S_dump_trie_interim_table ( trie,widecharmap,revcharmap,next_alloc,depth+1);} while (0); |
3391 | |
3392 | { |
3393 | /* |
3394 | * Inplace compress the table.* |
3395 | |
3396 | For sparse data sets the table constructed by the trie algorithm will |
3397 | be mostly 0/FAIL transitions or to put it another way mostly empty. |
3398 | (Note that leaf nodes will not contain any transitions.) |
3399 | |
3400 | This algorithm compresses the tables by eliminating most such |
3401 | transitions, at the cost of a modest bit of extra work during lookup: |
3402 | |
3403 | - Each states[] entry contains a .base field which indicates the |
3404 | index in the state[] array wheres its transition data is stored. |
3405 | |
3406 | - If .base is 0 there are no valid transitions from that node. |
3407 | |
3408 | - If .base is nonzero then charid is added to it to find an entry in |
3409 | the trans array. |
3410 | |
3411 | -If trans[states[state].base+charid].check!=state then the |
3412 | transition is taken to be a 0/Fail transition. Thus if there are fail |
3413 | transitions at the front of the node then the .base offset will point |
3414 | somewhere inside the previous nodes data (or maybe even into a node |
3415 | even earlier), but the .check field determines if the transition is |
3416 | valid. |
3417 | |
3418 | XXX - wrong maybe? |
3419 | The following process inplace converts the table to the compressed |
3420 | table: We first do not compress the root node 1,and mark all its |
3421 | .check pointers as 1 and set its .base pointer as 1 as well. This |
3422 | allows us to do a DFA construction from the compressed table later, |
3423 | and ensures that any .base pointers we calculate later are greater |
3424 | than 0. |
3425 | |
3426 | - We set 'pos' to indicate the first entry of the second node. |
3427 | |
3428 | - We then iterate over the columns of the node, finding the first and |
3429 | last used entry at l and m. We then copy l..m into pos..(pos+m-l), |
3430 | and set the .check pointers accordingly, and advance pos |
3431 | appropriately and repreat for the next node. Note that when we copy |
3432 | the next pointers we have to convert them from the original |
3433 | NODEIDX form to NODENUM form as the former is not valid post |
3434 | compression. |
3435 | |
3436 | - If a node has no transitions used we mark its base as 0 and do not |
3437 | advance the pos pointer. |
3438 | |
3439 | - If a node only has one transition we use a second pointer into the |
3440 | structure to fill in allocated fail transitions from other states. |
3441 | This pointer is independent of the main pointer and scans forward |
3442 | looking for null transitions that are allocated to a state. When it |
3443 | finds one it writes the single transition into the "hole". If the |
3444 | pointer doesnt find one the single transition is appended as normal. |
3445 | |
3446 | - Once compressed we can Renew/realloc the structures to release the |
3447 | excess space. |
3448 | |
3449 | See "Table-Compression Methods" in sec 3.9 of the Red Dragon, |
3450 | specifically Fig 3.47 and the associated pseudocode. |
3451 | |
3452 | demq |
3453 | */ |
3454 | const U32 laststate = TRIE_NODENUM( next_alloc )(((next_alloc)-1)/(trie->uniquecharcount)+1); |
3455 | U32 state, charid; |
3456 | U32 pos = 0, zp=0; |
3457 | trie->statecount = laststate; |
3458 | |
3459 | for ( state = 1 ; state < laststate ; state++ ) { |
3460 | U8 flag = 0; |
3461 | const U32 stateidx = TRIE_NODEIDX( state )((state) ? (((state)-1)*(trie->uniquecharcount)+1) : (state )); |
3462 | const U32 o_used = trie->trans[ stateidx ].check; |
3463 | U32 used = trie->trans[ stateidx ].check; |
3464 | trie->trans[ stateidx ].check = 0; |
3465 | |
3466 | for ( charid = 0; |
3467 | used && charid < trie->uniquecharcount; |
3468 | charid++ ) |
3469 | { |
3470 | if ( flag || trie->trans[ stateidx + charid ].next ) { |
3471 | if ( trie->trans[ stateidx + charid ].next ) { |
3472 | if (o_used == 1) { |
3473 | for ( ; zp < pos ; zp++ ) { |
3474 | if ( ! trie->trans[ zp ].next ) { |
3475 | break; |
3476 | } |
3477 | } |
3478 | trie->states[ state ].trans.base |
3479 | = zp |
3480 | + trie->uniquecharcount |
3481 | - charid ; |
3482 | trie->trans[ zp ].next |
3483 | = SAFE_TRIE_NODENUM( trie->trans[ stateidx((trie->trans[ stateidx + charid ].next) ? (((trie->trans [ stateidx + charid ].next)-1)/(trie->uniquecharcount)+1) : (trie->trans[ stateidx + charid ].next)) |
3484 | + charid ].next )((trie->trans[ stateidx + charid ].next) ? (((trie->trans [ stateidx + charid ].next)-1)/(trie->uniquecharcount)+1) : (trie->trans[ stateidx + charid ].next)); |
3485 | trie->trans[ zp ].check = state; |
3486 | if ( ++zp > pos ) pos = zp; |
3487 | break; |
3488 | } |
3489 | used--; |
3490 | } |
3491 | if ( !flag ) { |
3492 | flag = 1; |
3493 | trie->states[ state ].trans.base |
3494 | = pos + trie->uniquecharcount - charid ; |
3495 | } |
3496 | trie->trans[ pos ].next |
3497 | = SAFE_TRIE_NODENUM(((trie->trans[ stateidx + charid ].next) ? (((trie->trans [ stateidx + charid ].next)-1)/(trie->uniquecharcount)+1) : (trie->trans[ stateidx + charid ].next)) |
3498 | trie->trans[ stateidx + charid ].next )((trie->trans[ stateidx + charid ].next) ? (((trie->trans [ stateidx + charid ].next)-1)/(trie->uniquecharcount)+1) : (trie->trans[ stateidx + charid ].next)); |
3499 | trie->trans[ pos ].check = state; |
3500 | pos++; |
3501 | } |
3502 | } |
3503 | } |
3504 | trie->lasttrans = pos + 1; |
3505 | trie->states = (reg_trie_state *) |
3506 | PerlMemShared_realloc( trie->states, laststaterealloc((trie->states), (laststate * sizeof(reg_trie_state ))) |
3507 | * sizeof(reg_trie_state) )realloc((trie->states), (laststate * sizeof(reg_trie_state ))); |
3508 | DEBUG_TRIE_COMPILE_MORE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) Perl_re_indentf ( "Alloc: %d Orig: %" "ld" " elements, Final:%" "ld" ". Savings of %%%5.2f\n" , depth+1, (int)( ( ((trie)->charcount) + 1 ) * trie->uniquecharcount + 1 ), (IV)next_alloc, (IV)pos, ( ( next_alloc - pos ) * 100 ) / (double)next_alloc );;} while (0) |
3509 | Perl_re_indentf( aTHX_ "Alloc: %d Orig: %" IVdf " elements, Final:%" IVdf ". Savings of %%%5.2f\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) Perl_re_indentf ( "Alloc: %d Orig: %" "ld" " elements, Final:%" "ld" ". Savings of %%%5.2f\n" , depth+1, (int)( ( ((trie)->charcount) + 1 ) * trie->uniquecharcount + 1 ), (IV)next_alloc, (IV)pos, ( ( next_alloc - pos ) * 100 ) / (double)next_alloc );;} while (0) |
3510 | depth+1,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) Perl_re_indentf ( "Alloc: %d Orig: %" "ld" " elements, Final:%" "ld" ". Savings of %%%5.2f\n" , depth+1, (int)( ( ((trie)->charcount) + 1 ) * trie->uniquecharcount + 1 ), (IV)next_alloc, (IV)pos, ( ( next_alloc - pos ) * 100 ) / (double)next_alloc );;} while (0) |
3511 | (int)( ( TRIE_CHARCOUNT(trie) + 1 ) * trie->uniquecharcountdo {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) Perl_re_indentf ( "Alloc: %d Orig: %" "ld" " elements, Final:%" "ld" ". Savings of %%%5.2f\n" , depth+1, (int)( ( ((trie)->charcount) + 1 ) * trie->uniquecharcount + 1 ), (IV)next_alloc, (IV)pos, ( ( next_alloc - pos ) * 100 ) / (double)next_alloc );;} while (0) |
3512 | + 1 ),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) Perl_re_indentf ( "Alloc: %d Orig: %" "ld" " elements, Final:%" "ld" ". Savings of %%%5.2f\n" , depth+1, (int)( ( ((trie)->charcount) + 1 ) * trie->uniquecharcount + 1 ), (IV)next_alloc, (IV)pos, ( ( next_alloc - pos ) * 100 ) / (double)next_alloc );;} while (0) |
3513 | (IV)next_alloc,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) Perl_re_indentf ( "Alloc: %d Orig: %" "ld" " elements, Final:%" "ld" ". Savings of %%%5.2f\n" , depth+1, (int)( ( ((trie)->charcount) + 1 ) * trie->uniquecharcount + 1 ), (IV)next_alloc, (IV)pos, ( ( next_alloc - pos ) * 100 ) / (double)next_alloc );;} while (0) |
3514 | (IV)pos,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) Perl_re_indentf ( "Alloc: %d Orig: %" "ld" " elements, Final:%" "ld" ". Savings of %%%5.2f\n" , depth+1, (int)( ( ((trie)->charcount) + 1 ) * trie->uniquecharcount + 1 ), (IV)next_alloc, (IV)pos, ( ( next_alloc - pos ) * 100 ) / (double)next_alloc );;} while (0) |
3515 | ( ( next_alloc - pos ) * 100 ) / (double)next_alloc );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) Perl_re_indentf ( "Alloc: %d Orig: %" "ld" " elements, Final:%" "ld" ". Savings of %%%5.2f\n" , depth+1, (int)( ( ((trie)->charcount) + 1 ) * trie->uniquecharcount + 1 ), (IV)next_alloc, (IV)pos, ( ( next_alloc - pos ) * 100 ) / (double)next_alloc );;} while (0) |
3516 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) Perl_re_indentf ( "Alloc: %d Orig: %" "ld" " elements, Final:%" "ld" ". Savings of %%%5.2f\n" , depth+1, (int)( ( ((trie)->charcount) + 1 ) * trie->uniquecharcount + 1 ), (IV)next_alloc, (IV)pos, ( ( next_alloc - pos ) * 100 ) / (double)next_alloc );;} while (0); |
3517 | |
3518 | } /* end table compress */ |
3519 | } |
3520 | DEBUG_TRIE_COMPILE_MORE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) Perl_re_indentf ( "Statecount:%" "lx" " Lasttrans:%" "lx" "\n", depth+1, (UV) trie->statecount, (UV)trie->lasttrans);} while (0) |
3521 | Perl_re_indentf( aTHX_ "Statecount:%" UVxf " Lasttrans:%" UVxf "\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) Perl_re_indentf ( "Statecount:%" "lx" " Lasttrans:%" "lx" "\n", depth+1, (UV) trie->statecount, (UV)trie->lasttrans);} while (0) |
3522 | depth+1,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) Perl_re_indentf ( "Statecount:%" "lx" " Lasttrans:%" "lx" "\n", depth+1, (UV) trie->statecount, (UV)trie->lasttrans);} while (0) |
3523 | (UV)trie->statecount,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) Perl_re_indentf ( "Statecount:%" "lx" " Lasttrans:%" "lx" "\n", depth+1, (UV) trie->statecount, (UV)trie->lasttrans);} while (0) |
3524 | (UV)trie->lasttrans)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) Perl_re_indentf ( "Statecount:%" "lx" " Lasttrans:%" "lx" "\n", depth+1, (UV) trie->statecount, (UV)trie->lasttrans);} while (0) |
3525 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0010000))) Perl_re_indentf ( "Statecount:%" "lx" " Lasttrans:%" "lx" "\n", depth+1, (UV) trie->statecount, (UV)trie->lasttrans);} while (0); |
3526 | /* resize the trans array to remove unused space */ |
3527 | trie->trans = (reg_trie_trans *) |
3528 | PerlMemShared_realloc( trie->trans, trie->lasttransrealloc((trie->trans), (trie->lasttrans * sizeof(reg_trie_trans ))) |
3529 | * sizeof(reg_trie_trans) )realloc((trie->trans), (trie->lasttrans * sizeof(reg_trie_trans ))); |
3530 | |
3531 | { /* Modify the program and insert the new TRIE node */ |
3532 | U8 nodetype =(U8)(flags & 0xFF); |
3533 | char *str=NULL((void*)0); |
3534 | |
3535 | #ifdef DEBUGGING |
3536 | regnode *optimize = NULL((void*)0); |
3537 | #ifdef RE_TRACK_PATTERN_OFFSETS |
3538 | |
3539 | U32 mjd_offset = 0; |
3540 | U32 mjd_nodelen = 0; |
3541 | #endif /* RE_TRACK_PATTERN_OFFSETS */ |
3542 | #endif /* DEBUGGING */ |
3543 | /* |
3544 | This means we convert either the first branch or the first Exact, |
3545 | depending on whether the thing following (in 'last') is a branch |
3546 | or not and whther first is the startbranch (ie is it a sub part of |
3547 | the alternation or is it the whole thing.) |
3548 | Assuming its a sub part we convert the EXACT otherwise we convert |
3549 | the whole branch sequence, including the first. |
3550 | */ |
3551 | /* Find the node we are going to overwrite */ |
3552 | if ( first != startbranch || OP( last )((last)->type) == BRANCH39 ) { |
3553 | /* branch sub-chain */ |
3554 | NEXT_OFF( first )((first)->next_off) = (U16)(last - first); |
3555 | #ifdef RE_TRACK_PATTERN_OFFSETS |
3556 | DEBUG_r({do {{ mjd_offset= (((pRExC_state->rxi)->u.offsets)[2*(( ((convert)) - (pRExC_state->emit_start)))-1]); mjd_nodelen = (((pRExC_state->rxi)->u.offsets)[2*((((convert)) - (pRExC_state ->emit_start)))]); };} while (0) |
3557 | mjd_offset= Node_Offset((convert));do {{ mjd_offset= (((pRExC_state->rxi)->u.offsets)[2*(( ((convert)) - (pRExC_state->emit_start)))-1]); mjd_nodelen = (((pRExC_state->rxi)->u.offsets)[2*((((convert)) - (pRExC_state ->emit_start)))]); };} while (0) |
3558 | mjd_nodelen= Node_Length((convert));do {{ mjd_offset= (((pRExC_state->rxi)->u.offsets)[2*(( ((convert)) - (pRExC_state->emit_start)))-1]); mjd_nodelen = (((pRExC_state->rxi)->u.offsets)[2*((((convert)) - (pRExC_state ->emit_start)))]); };} while (0) |
3559 | })do {{ mjd_offset= (((pRExC_state->rxi)->u.offsets)[2*(( ((convert)) - (pRExC_state->emit_start)))-1]); mjd_nodelen = (((pRExC_state->rxi)->u.offsets)[2*((((convert)) - (pRExC_state ->emit_start)))]); };} while (0); |
3560 | #endif |
3561 | /* whole branch chain */ |
3562 | } |
3563 | #ifdef RE_TRACK_PATTERN_OFFSETS |
3564 | else { |
3565 | DEBUG_r({do {{ const regnode *nop = ((convert) + 1); mjd_offset= (((pRExC_state ->rxi)->u.offsets)[2*((((nop)) - (pRExC_state->emit_start )))-1]); mjd_nodelen= (((pRExC_state->rxi)->u.offsets)[ 2*((((nop)) - (pRExC_state->emit_start)))]); };} while (0) |
3566 | const regnode *nop = NEXTOPER( convert );do {{ const regnode *nop = ((convert) + 1); mjd_offset= (((pRExC_state ->rxi)->u.offsets)[2*((((nop)) - (pRExC_state->emit_start )))-1]); mjd_nodelen= (((pRExC_state->rxi)->u.offsets)[ 2*((((nop)) - (pRExC_state->emit_start)))]); };} while (0) |
3567 | mjd_offset= Node_Offset((nop));do {{ const regnode *nop = ((convert) + 1); mjd_offset= (((pRExC_state ->rxi)->u.offsets)[2*((((nop)) - (pRExC_state->emit_start )))-1]); mjd_nodelen= (((pRExC_state->rxi)->u.offsets)[ 2*((((nop)) - (pRExC_state->emit_start)))]); };} while (0) |
3568 | mjd_nodelen= Node_Length((nop));do {{ const regnode *nop = ((convert) + 1); mjd_offset= (((pRExC_state ->rxi)->u.offsets)[2*((((nop)) - (pRExC_state->emit_start )))-1]); mjd_nodelen= (((pRExC_state->rxi)->u.offsets)[ 2*((((nop)) - (pRExC_state->emit_start)))]); };} while (0) |
3569 | })do {{ const regnode *nop = ((convert) + 1); mjd_offset= (((pRExC_state ->rxi)->u.offsets)[2*((((nop)) - (pRExC_state->emit_start )))-1]); mjd_nodelen= (((pRExC_state->rxi)->u.offsets)[ 2*((((nop)) - (pRExC_state->emit_start)))]); };} while (0); |
3570 | } |
3571 | DEBUG_OPTIMISE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_indentf ( "MJD offset:%" "lu" " MJD length:%" "lu" "\n", depth+1, (UV )mjd_offset, (UV)mjd_nodelen);} while (0) |
3572 | Perl_re_indentf( aTHX_ "MJD offset:%" UVuf " MJD length:%" UVuf "\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_indentf ( "MJD offset:%" "lu" " MJD length:%" "lu" "\n", depth+1, (UV )mjd_offset, (UV)mjd_nodelen);} while (0) |
3573 | depth+1,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_indentf ( "MJD offset:%" "lu" " MJD length:%" "lu" "\n", depth+1, (UV )mjd_offset, (UV)mjd_nodelen);} while (0) |
3574 | (UV)mjd_offset, (UV)mjd_nodelen)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_indentf ( "MJD offset:%" "lu" " MJD length:%" "lu" "\n", depth+1, (UV )mjd_offset, (UV)mjd_nodelen);} while (0) |
3575 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_indentf ( "MJD offset:%" "lu" " MJD length:%" "lu" "\n", depth+1, (UV )mjd_offset, (UV)mjd_nodelen);} while (0); |
3576 | #endif |
3577 | /* But first we check to see if there is a common prefix we can |
3578 | split out as an EXACT and put in front of the TRIE node. */ |
3579 | trie->startstate= 1; |
3580 | if ( trie->bitmap && !widecharmap && !trie->jump ) { |
3581 | /* we want to find the first state that has more than |
3582 | * one transition, if that state is not the first state |
3583 | * then we have a common prefix which we can remove. |
3584 | */ |
3585 | U32 state; |
3586 | for ( state = 1 ; state < trie->statecount-1 ; state++ ) { |
3587 | U32 ofs = 0; |
3588 | I32 first_ofs = -1; /* keeps track of the ofs of the first |
3589 | transition, -1 means none */ |
3590 | U32 count = 0; |
3591 | const U32 base = trie->states[ state ].trans.base; |
3592 | |
3593 | /* does this state terminate an alternation? */ |
3594 | if ( trie->states[state].wordnum ) |
3595 | count = 1; |
3596 | |
3597 | for ( ofs = 0 ; ofs < trie->uniquecharcount ; ofs++ ) { |
3598 | if ( ( base + ofs >= trie->uniquecharcount ) && |
3599 | ( base + ofs - trie->uniquecharcount < trie->lasttrans ) && |
3600 | trie->trans[ base + ofs - trie->uniquecharcount ].check == state ) |
3601 | { |
3602 | if ( ++count > 1 ) { |
3603 | /* we have more than one transition */ |
3604 | SV **tmp; |
3605 | U8 *ch; |
3606 | /* if this is the first state there is no common prefix |
3607 | * to extract, so we can exit */ |
3608 | if ( state == 1 ) break; |
3609 | tmp = av_fetch( revcharmap, ofs, 0)Perl_av_fetch( revcharmap,ofs,0); |
3610 | ch = (U8*)SvPV_nolen_const( *tmp )((((*tmp)->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + (*tmp)->sv_u.svu_pv)) : Perl_sv_2pv_flags ( *tmp,0,2|32)); |
3611 | |
3612 | /* if we are on count 2 then we need to initialize the |
3613 | * bitmap, and store the previous char if there was one |
3614 | * in it*/ |
3615 | if ( count == 2 ) { |
3616 | /* clear the bitmap */ |
3617 | Zero(trie->bitmap, ANYOF_BITMAP_SIZE, char)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(((1 << 8) / 8)) || sizeof(char) > ((size_t)1 << 8 *(sizeof(size_t) - sizeof(((1 << 8) / 8))))) ? (size_t) (((1 << 8) / 8)) : ((size_t)-1)/sizeof(char)) > ((size_t )-1)/sizeof(char))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)(trie->bitmap)) != 0) ? (void)0 : __assert2 ("re_comp.c", 3617, __func__, "((void*)(trie->bitmap)) != 0" )), (void)memset((char*)(trie->bitmap),0,(((1 << 8) / 8)) * sizeof(char))); |
3618 | DEBUG_OPTIMISE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_indentf ( "New Start State=%" "lu" " Class: [", depth+1, (UV)state);} while (0) |
3619 | Perl_re_indentf( aTHX_ "New Start State=%" UVuf " Class: [",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_indentf ( "New Start State=%" "lu" " Class: [", depth+1, (UV)state);} while (0) |
3620 | depth+1,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_indentf ( "New Start State=%" "lu" " Class: [", depth+1, (UV)state);} while (0) |
3621 | (UV)state))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_indentf ( "New Start State=%" "lu" " Class: [", depth+1, (UV)state);} while (0); |
3622 | if (first_ofs >= 0) { |
3623 | SV ** const tmp = av_fetch( revcharmap, first_ofs, 0)Perl_av_fetch( revcharmap,first_ofs,0); |
3624 | const U8 * const ch = (U8*)SvPV_nolen_const( *tmp )((((*tmp)->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + (*tmp)->sv_u.svu_pv)) : Perl_sv_2pv_flags ( *tmp,0,2|32)); |
3625 | |
3626 | TRIE_BITMAP_SET_FOLDED(trie,*ch, folder)do { ((( (U8*) (((reg_trie_data *)(trie))->bitmap)) [ ( ( ( UV) (*ch)) >> 3) ] ) |= (1U << (((U8)*ch) & 7 ))); if ( folder ) ((( (U8*) (((reg_trie_data *)(trie))->bitmap )) [ ( ( (UV) (folder[(U8) *ch ])) >> 3) ] ) |= (1U << (((U8)folder[(U8) *ch ]) & 7))); if ( !(((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0) ) { if (! ((((U64)(((UV) ((*ch) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) { ((( ( U8*) (((reg_trie_data *)(trie))->bitmap)) [ ( ( (UV) ((((( sizeof(*ch) == 1) || !(((U64)(*ch)) & ~(32 * (1U << 6) - 1))) ? (void)0 : __assert2("re_comp.c", 3626, __func__, "(sizeof(*ch) == 1) || !(((U64)(*ch)) & ~(32 * (1U << 6) - 1))" )), ((((! ((((U64)(((UV) ((*ch) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? (void)0 : __assert2("re_comp.c", 3626, __func__ , "! ((((U64)(((UV) ((*ch) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))" )), (((( (sizeof((((UV) ((*ch) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) == 1) || !(((U64 )(((((UV) ((*ch) | 0)) >> 6) | (((2) > 7) ? 0xFF : ( (U8) (0xFE << (7-(2)))))) | 0)) & ~0xFF))) ? (void) 0 : __assert2("re_comp.c", 3626, __func__, "( (sizeof((((UV) ((*ch) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) == 1) || !(((U64)(((((UV) ((*ch) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) | 0)) & ~0xFF))" )), ((U8) (((((UV) ((*ch) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) | 0)))))))) >> 3) ] ) |= (1U << (((U8)((((sizeof(*ch) == 1) || !(((U64 )(*ch)) & ~(32 * (1U << 6) - 1))) ? (void)0 : __assert2 ("re_comp.c", 3626, __func__, "(sizeof(*ch) == 1) || !(((U64)(*ch)) & ~(32 * (1U << 6) - 1))" )), ((((! ((((U64)(((UV) ((*ch) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? (void)0 : __assert2("re_comp.c", 3626, __func__ , "! ((((U64)(((UV) ((*ch) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))" )), (((( (sizeof((((UV) ((*ch) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) == 1) || !(((U64 )(((((UV) ((*ch) | 0)) >> 6) | (((2) > 7) ? 0xFF : ( (U8) (0xFE << (7-(2)))))) | 0)) & ~0xFF))) ? (void) 0 : __assert2("re_comp.c", 3626, __func__, "( (sizeof((((UV) ((*ch) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) == 1) || !(((U64)(((((UV) ((*ch) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) | 0)) & ~0xFF))" )), ((U8) (((((UV) ((*ch) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) | 0))))))) & 7)) ); } } } while (0); |
3627 | DEBUG_OPTIMISE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_printf ( "%s", (char*)ch);} while (0) |
3628 | Perl_re_printf( aTHX_ "%s", (char*)ch)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_printf ( "%s", (char*)ch);} while (0) |
3629 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_printf ( "%s", (char*)ch);} while (0); |
3630 | } |
3631 | } |
3632 | /* store the current firstchar in the bitmap */ |
3633 | TRIE_BITMAP_SET_FOLDED(trie,*ch, folder)do { ((( (U8*) (((reg_trie_data *)(trie))->bitmap)) [ ( ( ( UV) (*ch)) >> 3) ] ) |= (1U << (((U8)*ch) & 7 ))); if ( folder ) ((( (U8*) (((reg_trie_data *)(trie))->bitmap )) [ ( ( (UV) (folder[(U8) *ch ])) >> 3) ] ) |= (1U << (((U8)folder[(U8) *ch ]) & 7))); if ( !(((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0) ) { if (! ((((U64)(((UV) ((*ch) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) { ((( ( U8*) (((reg_trie_data *)(trie))->bitmap)) [ ( ( (UV) ((((( sizeof(*ch) == 1) || !(((U64)(*ch)) & ~(32 * (1U << 6) - 1))) ? (void)0 : __assert2("re_comp.c", 3633, __func__, "(sizeof(*ch) == 1) || !(((U64)(*ch)) & ~(32 * (1U << 6) - 1))" )), ((((! ((((U64)(((UV) ((*ch) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? (void)0 : __assert2("re_comp.c", 3633, __func__ , "! ((((U64)(((UV) ((*ch) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))" )), (((( (sizeof((((UV) ((*ch) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) == 1) || !(((U64 )(((((UV) ((*ch) | 0)) >> 6) | (((2) > 7) ? 0xFF : ( (U8) (0xFE << (7-(2)))))) | 0)) & ~0xFF))) ? (void) 0 : __assert2("re_comp.c", 3633, __func__, "( (sizeof((((UV) ((*ch) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) == 1) || !(((U64)(((((UV) ((*ch) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) | 0)) & ~0xFF))" )), ((U8) (((((UV) ((*ch) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) | 0)))))))) >> 3) ] ) |= (1U << (((U8)((((sizeof(*ch) == 1) || !(((U64 )(*ch)) & ~(32 * (1U << 6) - 1))) ? (void)0 : __assert2 ("re_comp.c", 3633, __func__, "(sizeof(*ch) == 1) || !(((U64)(*ch)) & ~(32 * (1U << 6) - 1))" )), ((((! ((((U64)(((UV) ((*ch) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? (void)0 : __assert2("re_comp.c", 3633, __func__ , "! ((((U64)(((UV) ((*ch) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))" )), (((( (sizeof((((UV) ((*ch) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) == 1) || !(((U64 )(((((UV) ((*ch) | 0)) >> 6) | (((2) > 7) ? 0xFF : ( (U8) (0xFE << (7-(2)))))) | 0)) & ~0xFF))) ? (void) 0 : __assert2("re_comp.c", 3633, __func__, "( (sizeof((((UV) ((*ch) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) == 1) || !(((U64)(((((UV) ((*ch) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) | 0)) & ~0xFF))" )), ((U8) (((((UV) ((*ch) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) | 0))))))) & 7)) ); } } } while (0); |
3634 | DEBUG_OPTIMISE_r(Perl_re_printf( aTHX_ "%s", ch))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_printf ( "%s", ch);} while (0); |
3635 | } |
3636 | first_ofs = ofs; |
3637 | } |
3638 | } |
3639 | if ( count == 1 ) { |
3640 | /* This state has only one transition, its transition is part |
3641 | * of a common prefix - we need to concatenate the char it |
3642 | * represents to what we have so far. */ |
3643 | SV **tmp = av_fetch( revcharmap, first_ofs, 0)Perl_av_fetch( revcharmap,first_ofs,0); |
3644 | STRLEN len; |
3645 | char *ch = SvPV( *tmp, len )((((*tmp)->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((len = (*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 3645, __func__ , "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]")); ((!( (((_svcur)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 3645, __func__, "!isGV_with_GP(_svcur)" )); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 3645, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))), (*({ SV *const _svpvx = ((SV *)({ void * _p = (*tmp); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx) ->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 3645, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 3645, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 3645, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))) : Perl_sv_2pv_flags ( *tmp,&len,2)); |
3646 | DEBUG_OPTIMISE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { SV *sv=Perl_sv_newmortal(); Perl_re_indentf( "Prefix State: %" "lu" " Ofs:%" "lu" " Char='%s'\n", depth+1, (UV)state, (UV)first_ofs , Perl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (*tmp)-> sv_u.svu_pv)) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype )((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 3651, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 3651, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 3651, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),6,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) ); };} while (0) |
3647 | SV *sv=sv_newmortal();do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { SV *sv=Perl_sv_newmortal(); Perl_re_indentf( "Prefix State: %" "lu" " Ofs:%" "lu" " Char='%s'\n", depth+1, (UV)state, (UV)first_ofs , Perl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (*tmp)-> sv_u.svu_pv)) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype )((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 3651, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 3651, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 3651, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),6,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) ); };} while (0) |
3648 | Perl_re_indentf( aTHX_ "Prefix State: %" UVuf " Ofs:%" UVuf " Char='%s'\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { SV *sv=Perl_sv_newmortal(); Perl_re_indentf( "Prefix State: %" "lu" " Ofs:%" "lu" " Char='%s'\n", depth+1, (UV)state, (UV)first_ofs , Perl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (*tmp)-> sv_u.svu_pv)) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype )((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 3651, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 3651, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 3651, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),6,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) ); };} while (0) |
3649 | depth+1,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { SV *sv=Perl_sv_newmortal(); Perl_re_indentf( "Prefix State: %" "lu" " Ofs:%" "lu" " Char='%s'\n", depth+1, (UV)state, (UV)first_ofs , Perl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (*tmp)-> sv_u.svu_pv)) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype )((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 3651, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 3651, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 3651, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),6,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) ); };} while (0) |
3650 | (UV)state, (UV)first_ofs,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { SV *sv=Perl_sv_newmortal(); Perl_re_indentf( "Prefix State: %" "lu" " Ofs:%" "lu" " Char='%s'\n", depth+1, (UV)state, (UV)first_ofs , Perl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (*tmp)-> sv_u.svu_pv)) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype )((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 3651, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 3651, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 3651, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),6,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) ); };} while (0) |
3651 | pv_pretty(sv, SvPV_nolen_const(*tmp), SvCUR(*tmp), 6,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { SV *sv=Perl_sv_newmortal(); Perl_re_indentf( "Prefix State: %" "lu" " Ofs:%" "lu" " Char='%s'\n", depth+1, (UV)state, (UV)first_ofs , Perl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (*tmp)-> sv_u.svu_pv)) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype )((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 3651, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 3651, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 3651, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),6,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) ); };} while (0) |
3652 | PL_colors[0], PL_colors[1],do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { SV *sv=Perl_sv_newmortal(); Perl_re_indentf( "Prefix State: %" "lu" " Ofs:%" "lu" " Char='%s'\n", depth+1, (UV)state, (UV)first_ofs , Perl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (*tmp)-> sv_u.svu_pv)) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype )((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 3651, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 3651, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 3651, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),6,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) ); };} while (0) |
3653 | (SvUTF8(*tmp) ? PERL_PV_ESCAPE_UNI : 0) |do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { SV *sv=Perl_sv_newmortal(); Perl_re_indentf( "Prefix State: %" "lu" " Ofs:%" "lu" " Char='%s'\n", depth+1, (UV)state, (UV)first_ofs , Perl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (*tmp)-> sv_u.svu_pv)) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype )((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 3651, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 3651, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 3651, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),6,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) ); };} while (0) |
3654 | PERL_PV_ESCAPE_FIRSTCHARdo {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { SV *sv=Perl_sv_newmortal(); Perl_re_indentf( "Prefix State: %" "lu" " Ofs:%" "lu" " Char='%s'\n", depth+1, (UV)state, (UV)first_ofs , Perl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (*tmp)-> sv_u.svu_pv)) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype )((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 3651, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 3651, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 3651, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),6,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) ); };} while (0) |
3655 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { SV *sv=Perl_sv_newmortal(); Perl_re_indentf( "Prefix State: %" "lu" " Ofs:%" "lu" " Char='%s'\n", depth+1, (UV)state, (UV)first_ofs , Perl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (*tmp)-> sv_u.svu_pv)) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype )((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 3651, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 3651, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 3651, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),6,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) ); };} while (0) |
3656 | );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { SV *sv=Perl_sv_newmortal(); Perl_re_indentf( "Prefix State: %" "lu" " Ofs:%" "lu" " Char='%s'\n", depth+1, (UV)state, (UV)first_ofs , Perl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (*tmp)-> sv_u.svu_pv)) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype )((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 3651, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 3651, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 3651, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),6,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) ); };} while (0) |
3657 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { SV *sv=Perl_sv_newmortal(); Perl_re_indentf( "Prefix State: %" "lu" " Ofs:%" "lu" " Char='%s'\n", depth+1, (UV)state, (UV)first_ofs , Perl_pv_pretty( sv,((((*tmp)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (*tmp)-> sv_u.svu_pv)) : Perl_sv_2pv_flags( *tmp,0,2|32)),(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX[((svtype )((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 3651, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 3651, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 3651, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),6,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000800) ); };} while (0); |
3658 | if ( state==1 ) { |
3659 | OP( convert )((convert)->type) = nodetype; |
3660 | str=STRING(convert)((((convert)->type) == 41 || ((convert)->type) == 51) ? (((((convert)->type) == 41 || ((convert)->type) == 51) ? (void)0 : __assert2("re_comp.c", 3660, __func__, "((convert)->type) == 41 || ((convert)->type) == 51" )), (((struct regnode_lstring *)convert)->string)) : ((((( convert)->type) != 41 && ((convert)->type) != 51 ) ? (void)0 : __assert2("re_comp.c", 3660, __func__, "((convert)->type) != 41 && ((convert)->type) != 51" )), ((struct regnode_string *)convert)->string)); |
3661 | setSTR_LEN(convert, 0)do{ if (((convert)->type) == 41 || ((convert)->type) == 51) ((struct regnode_lstring *)(convert))->str_len = (0); else ((struct regnode_string *)(convert))->str_len = (0); } while (0); |
3662 | } |
3663 | assert( ( STR_LEN(convert) + len ) < 256 )((( ((((convert)->type) == 41 || ((convert)->type) == 51 ) ? (((((convert)->type) == 41 || ((convert)->type) == 51 ) ? (void)0 : __assert2("re_comp.c", 3663, __func__, "((convert)->type) == 41 || ((convert)->type) == 51" )), (((struct regnode_lstring *)convert)->str_len)) : (((( (convert)->type) != 41 && ((convert)->type) != 51 ) ? (void)0 : __assert2("re_comp.c", 3663, __func__, "((convert)->type) != 41 && ((convert)->type) != 51" )), ((struct regnode_string *)convert)->str_len)) + len ) < 256) ? (void)0 : __assert2("re_comp.c", 3663, __func__, "( STR_LEN(convert) + len ) < 256" )); |
3664 | setSTR_LEN(convert, (U8)(STR_LEN(convert) + len))do{ if (((convert)->type) == 41 || ((convert)->type) == 51) ((struct regnode_lstring *)(convert))->str_len = ((U8 )(((((convert)->type) == 41 || ((convert)->type) == 51) ? (((((convert)->type) == 41 || ((convert)->type) == 51 ) ? (void)0 : __assert2("re_comp.c", 3664, __func__, "((convert)->type) == 41 || ((convert)->type) == 51" )), (((struct regnode_lstring *)convert)->str_len)) : (((( (convert)->type) != 41 && ((convert)->type) != 51 ) ? (void)0 : __assert2("re_comp.c", 3664, __func__, "((convert)->type) != 41 && ((convert)->type) != 51" )), ((struct regnode_string *)convert)->str_len)) + len)); else ((struct regnode_string *)(convert))->str_len = ((U8 )(((((convert)->type) == 41 || ((convert)->type) == 51) ? (((((convert)->type) == 41 || ((convert)->type) == 51 ) ? (void)0 : __assert2("re_comp.c", 3664, __func__, "((convert)->type) == 41 || ((convert)->type) == 51" )), (((struct regnode_lstring *)convert)->str_len)) : (((( (convert)->type) != 41 && ((convert)->type) != 51 ) ? (void)0 : __assert2("re_comp.c", 3664, __func__, "((convert)->type) != 41 && ((convert)->type) != 51" )), ((struct regnode_string *)convert)->str_len)) + len)); } while (0); |
3665 | while (len--) |
3666 | *str++ = *ch++; |
3667 | } else { |
3668 | #ifdef DEBUGGING |
3669 | if (state>1) |
3670 | DEBUG_OPTIMISE_r(Perl_re_printf( aTHX_ "]\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_printf ( "]\n");} while (0); |
3671 | #endif |
3672 | break; |
3673 | } |
3674 | } |
3675 | trie->prefixlen = (state-1); |
3676 | if (str) { |
3677 | regnode *n = convert+NODE_SZ_STR(convert)((((((((convert)->type) == 41 || ((convert)->type) == 51 ) ? (((((convert)->type) == 41 || ((convert)->type) == 51 ) ? (void)0 : __assert2("re_comp.c", 3677, __func__, "((convert)->type) == 41 || ((convert)->type) == 51" )), (((struct regnode_lstring *)convert)->str_len)) : (((( (convert)->type) != 41 && ((convert)->type) != 51 ) ? (void)0 : __assert2("re_comp.c", 3677, __func__, "((convert)->type) != 41 && ((convert)->type) != 51" )), ((struct regnode_string *)convert)->str_len))) + sizeof (regnode) - 1) / sizeof(regnode)) + 1 + regarglen[(convert)-> type]); |
3678 | assert( NODE_SZ_STR(convert) <= U16_MAX )((((((((((convert)->type) == 41 || ((convert)->type) == 51) ? (((((convert)->type) == 41 || ((convert)->type) == 51) ? (void)0 : __assert2("re_comp.c", 3678, __func__, "((convert)->type) == 41 || ((convert)->type) == 51" )), (((struct regnode_lstring *)convert)->str_len)) : (((( (convert)->type) != 41 && ((convert)->type) != 51 ) ? (void)0 : __assert2("re_comp.c", 3678, __func__, "((convert)->type) != 41 && ((convert)->type) != 51" )), ((struct regnode_string *)convert)->str_len))) + sizeof (regnode) - 1) / sizeof(regnode)) + 1 + regarglen[(convert)-> type]) <= 0xffff) ? (void)0 : __assert2("re_comp.c", 3678, __func__, "NODE_SZ_STR(convert) <= U16_MAX")); |
3679 | NEXT_OFF(convert)((convert)->next_off) = (U16)(NODE_SZ_STR(convert)((((((((convert)->type) == 41 || ((convert)->type) == 51 ) ? (((((convert)->type) == 41 || ((convert)->type) == 51 ) ? (void)0 : __assert2("re_comp.c", 3679, __func__, "((convert)->type) == 41 || ((convert)->type) == 51" )), (((struct regnode_lstring *)convert)->str_len)) : (((( (convert)->type) != 41 && ((convert)->type) != 51 ) ? (void)0 : __assert2("re_comp.c", 3679, __func__, "((convert)->type) != 41 && ((convert)->type) != 51" )), ((struct regnode_string *)convert)->str_len))) + sizeof (regnode) - 1) / sizeof(regnode)) + 1 + regarglen[(convert)-> type])); |
3680 | trie->startstate = state; |
3681 | trie->minlen -= (state - 1); |
3682 | trie->maxlen -= (state - 1); |
3683 | #ifdef DEBUGGING |
3684 | /* At least the UNICOS C compiler choked on this |
3685 | * being argument to DEBUG_r(), so let's just have |
3686 | * it right here. */ |
3687 | if ( |
3688 | #ifdef PERL_EXT_RE_BUILD1 |
3689 | 1 |
3690 | #else |
3691 | DEBUG_r_TEST__builtin_expect(((PL_debug & 0x00000200) ? (_Bool)1 : (_Bool )0),(0)) |
3692 | #endif |
3693 | ) { |
3694 | regnode *fix = convert; |
3695 | U32 word = trie->wordcount; |
3696 | #ifdef RE_TRACK_PATTERN_OFFSETS |
3697 | mjd_nodelen++; |
3698 | #endif |
3699 | Set_Node_Offset_Length(convert, mjd_offset, state - 1)do { do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000 ))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3699, (int )(((convert) - (pRExC_state->emit_start))), (int)((mjd_offset )));} while (0); if((((convert) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((convert) - (pRExC_state ->emit_start)))-1] = ((mjd_offset)); } } while (0); do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n", 3699, (int)(((convert) - (pRExC_state->emit_start))), (int)((state - 1)));} while ( 0); if((((convert) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro", (int)(((convert ) - (pRExC_state->emit_start)))); } else { ((pRExC_state-> rxi)->u.offsets)[2*(((convert) - (pRExC_state->emit_start )))] = ((state - 1)); } } while (0); } while (0); |
3700 | while( ++fix < n ) { |
3701 | Set_Node_Offset_Length(fix, 0, 0)do { do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000 ))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3701, (int )(((fix) - (pRExC_state->emit_start))), (int)((0)));} while (0); if((((fix) - (pRExC_state->emit_start))) < 0) { Perl_croak ( "value of node is %d in Offset macro", (int)(((fix) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((fix) - (pRExC_state->emit_start)))-1] = ((0)); } } while (0); do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000 ))) Perl_warn ("** (%d) size of node %d is %d.\n", 3701, (int )(((fix) - (pRExC_state->emit_start))), (int)((0)));} while (0); if((((fix) - (pRExC_state->emit_start))) < 0) { Perl_croak ( "value of node is %d in Length macro", (int)(((fix) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((fix) - (pRExC_state->emit_start)))] = ((0)); } } while (0); } while (0); |
3702 | } |
3703 | while (word--) { |
3704 | SV ** const tmp = av_fetch( trie_words, word, 0 )Perl_av_fetch( trie_words,word,0); |
3705 | if (tmp) { |
3706 | if ( STR_LEN(convert)((((convert)->type) == 41 || ((convert)->type) == 51) ? (((((convert)->type) == 41 || ((convert)->type) == 51) ? (void)0 : __assert2("re_comp.c", 3706, __func__, "((convert)->type) == 41 || ((convert)->type) == 51" )), (((struct regnode_lstring *)convert)->str_len)) : (((( (convert)->type) != 41 && ((convert)->type) != 51 ) ? (void)0 : __assert2("re_comp.c", 3706, __func__, "((convert)->type) != 41 && ((convert)->type) != 51" )), ((struct regnode_string *)convert)->str_len)) <= SvCUR(*tmp)(*({ const SV *const _svcur = (const SV *)(*tmp); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 3706, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 3706, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 3706, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) ) |
3707 | sv_chop(*tmp, SvPV_nolen(*tmp) + STR_LEN(convert))Perl_sv_chop( *tmp,((((*tmp)->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? (*({ SV *const _svpvx = ((SV *)({ void *_p = (*tmp); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c" , 3707, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 3707, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 3707, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) : Perl_sv_2pv_flags( *tmp,0,2)) + ((((convert)->type) == 41 || ((convert)-> type) == 51) ? (((((convert)->type) == 41 || ((convert)-> type) == 51) ? (void)0 : __assert2("re_comp.c", 3707, __func__ , "((convert)->type) == 41 || ((convert)->type) == 51") ), (((struct regnode_lstring *)convert)->str_len)) : ((((( convert)->type) != 41 && ((convert)->type) != 51 ) ? (void)0 : __assert2("re_comp.c", 3707, __func__, "((convert)->type) != 41 && ((convert)->type) != 51" )), ((struct regnode_string *)convert)->str_len))); |
3708 | else |
3709 | sv_chop(*tmp, SvPV_nolen(*tmp) + SvCUR(*tmp))Perl_sv_chop( *tmp,((((*tmp)->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? (*({ SV *const _svpvx = ((SV *)({ void *_p = (*tmp); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c" , 3709, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 3709, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 3709, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) : Perl_sv_2pv_flags( *tmp,0,2)) + (*({ const SV *const _svcur = (const SV *)(*tmp ); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 3709, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 3709, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 3709, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))); |
3710 | } |
3711 | } |
3712 | } |
3713 | #endif |
3714 | if (trie->maxlen) { |
3715 | convert = n; |
3716 | } else { |
3717 | NEXT_OFF(convert)((convert)->next_off) = (U16)(tail - convert); |
3718 | DEBUG_r(optimize= n)do {optimize= n;} while (0); |
3719 | } |
3720 | } |
3721 | } |
3722 | if (!jumper) |
3723 | jumper = last; |
3724 | if ( trie->maxlen ) { |
3725 | NEXT_OFF( convert )((convert)->next_off) = (U16)(tail - convert); |
3726 | ARG_SET( convert, data_slot )(((((struct regnode_1 *)convert)->arg1)) = ((data_slot))); |
3727 | /* Store the offset to the first unabsorbed branch in |
3728 | jump[0], which is otherwise unused by the jump logic. |
3729 | We use this when dumping a trie and during optimisation. */ |
3730 | if (trie->jump) |
3731 | trie->jump[0] = (U16)(nextbranch - convert); |
3732 | |
3733 | /* If the start state is not accepting (meaning there is no empty string/NOTHING) |
3734 | * and there is a bitmap |
3735 | * and the first "jump target" node we found leaves enough room |
3736 | * then convert the TRIE node into a TRIEC node, with the bitmap |
3737 | * embedded inline in the opcode - this is hypothetically faster. |
3738 | */ |
3739 | if ( !trie->states[trie->startstate].wordnum |
3740 | && trie->bitmap |
3741 | && ( (char *)jumper - (char *)convert) >= (int)sizeof(struct regnode_charclass) ) |
3742 | { |
3743 | OP( convert )((convert)->type) = TRIEC89; |
3744 | Copy(trie->bitmap, ((struct regnode_charclass *)convert)->bitmap, ANYOF_BITMAP_SIZE, char)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(((1 << 8) / 8)) || sizeof(char) > ((size_t)1 << 8 *(sizeof(size_t) - sizeof(((1 << 8) / 8))))) ? (size_t) (((1 << 8) / 8)) : ((size_t)-1)/sizeof(char)) > ((size_t )-1)/sizeof(char))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)(((struct regnode_charclass *)convert)-> bitmap)) != 0) ? (void)0 : __assert2("re_comp.c", 3744, __func__ , "((void*)(((struct regnode_charclass *)convert)->bitmap)) != 0" )), ((((void*)(trie->bitmap)) != 0) ? (void)0 : __assert2( "re_comp.c", 3744, __func__, "((void*)(trie->bitmap)) != 0" )), (void)memcpy((char*)(((struct regnode_charclass *)convert )->bitmap),(const char*)(trie->bitmap), (((1 << 8 ) / 8)) * sizeof(char))); |
3745 | PerlMemShared_free(trie->bitmap)free((trie->bitmap)); |
3746 | trie->bitmap= NULL((void*)0); |
3747 | } else |
3748 | OP( convert )((convert)->type) = TRIE88; |
3749 | |
3750 | /* store the type in the flags */ |
3751 | convert->flags = nodetype; |
3752 | DEBUG_r({do {{ optimize = convert + 1 + regarglen[ ((convert)->type ) ]; };} while (0) |
3753 | optimize = convertdo {{ optimize = convert + 1 + regarglen[ ((convert)->type ) ]; };} while (0) |
3754 | + NODE_STEP_REGNODEdo {{ optimize = convert + 1 + regarglen[ ((convert)->type ) ]; };} while (0) |
3755 | + regarglen[ OP( convert ) ];do {{ optimize = convert + 1 + regarglen[ ((convert)->type ) ]; };} while (0) |
3756 | })do {{ optimize = convert + 1 + regarglen[ ((convert)->type ) ]; };} while (0); |
3757 | /* XXX We really should free up the resource in trie now, |
3758 | as we won't use them - (which resources?) dmq */ |
3759 | } |
3760 | /* needed for dumping*/ |
3761 | DEBUG_r(if (optimize) {do {if (optimize) { regnode *opt = convert; while ( ++opt < optimize) { do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))-1] = ((0)); } } while (0); do { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))] = ((0)); } } while (0); } while (0); } while( optimize < jumper ) { do { mjd_nodelen += (((pRExC_state->rxi)-> u.offsets)[2*((((optimize)) - (pRExC_state->emit_start)))] ); } while (0); ((optimize)->type) = 107; do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : ( _Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3774, (int)(((optimize ) - (pRExC_state->emit_start))), (int)((0)));} while (0); if ((((optimize) - (pRExC_state->emit_start))) < 0) { Perl_croak ( "value of node is %d in Offset macro", (int)(((optimize) - ( pRExC_state->emit_start)))); } else { ((pRExC_state->rxi )->u.offsets)[2*(((optimize) - (pRExC_state->emit_start )))-1] = ((0)); } } while (0); do { do {if (__builtin_expect( ((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3774, (int)(((optimize) - (pRExC_state->emit_start))), ( int)((0)));} while (0); if((((optimize) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((optimize) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((optimize) - (pRExC_state ->emit_start)))] = ((0)); } } while (0); } while (0); optimize ++; } do { do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000 ))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3777, (int )(((convert) - (pRExC_state->emit_start))), (int)((mjd_offset )));} while (0); if((((convert) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((convert) - (pRExC_state ->emit_start)))-1] = ((mjd_offset)); } } while (0); do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n", 3777, (int)(((convert) - (pRExC_state->emit_start))), (int)((mjd_nodelen)));} while (0); if((((convert) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro", (int)(( (convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state ->rxi)->u.offsets)[2*(((convert) - (pRExC_state->emit_start )))] = ((mjd_nodelen)); } } while (0); } while (0); };} while (0) |
3762 | regnode *opt = convert;do {if (optimize) { regnode *opt = convert; while ( ++opt < optimize) { do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))-1] = ((0)); } } while (0); do { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))] = ((0)); } } while (0); } while (0); } while( optimize < jumper ) { do { mjd_nodelen += (((pRExC_state->rxi)-> u.offsets)[2*((((optimize)) - (pRExC_state->emit_start)))] ); } while (0); ((optimize)->type) = 107; do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : ( _Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3774, (int)(((optimize ) - (pRExC_state->emit_start))), (int)((0)));} while (0); if ((((optimize) - (pRExC_state->emit_start))) < 0) { Perl_croak ( "value of node is %d in Offset macro", (int)(((optimize) - ( pRExC_state->emit_start)))); } else { ((pRExC_state->rxi )->u.offsets)[2*(((optimize) - (pRExC_state->emit_start )))-1] = ((0)); } } while (0); do { do {if (__builtin_expect( ((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3774, (int)(((optimize) - (pRExC_state->emit_start))), ( int)((0)));} while (0); if((((optimize) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((optimize) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((optimize) - (pRExC_state ->emit_start)))] = ((0)); } } while (0); } while (0); optimize ++; } do { do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000 ))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3777, (int )(((convert) - (pRExC_state->emit_start))), (int)((mjd_offset )));} while (0); if((((convert) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((convert) - (pRExC_state ->emit_start)))-1] = ((mjd_offset)); } } while (0); do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n", 3777, (int)(((convert) - (pRExC_state->emit_start))), (int)((mjd_nodelen)));} while (0); if((((convert) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro", (int)(( (convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state ->rxi)->u.offsets)[2*(((convert) - (pRExC_state->emit_start )))] = ((mjd_nodelen)); } } while (0); } while (0); };} while (0) |
3763 | |
3764 | while ( ++opt < optimize) {do {if (optimize) { regnode *opt = convert; while ( ++opt < optimize) { do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))-1] = ((0)); } } while (0); do { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))] = ((0)); } } while (0); } while (0); } while( optimize < jumper ) { do { mjd_nodelen += (((pRExC_state->rxi)-> u.offsets)[2*((((optimize)) - (pRExC_state->emit_start)))] ); } while (0); ((optimize)->type) = 107; do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : ( _Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3774, (int)(((optimize ) - (pRExC_state->emit_start))), (int)((0)));} while (0); if ((((optimize) - (pRExC_state->emit_start))) < 0) { Perl_croak ( "value of node is %d in Offset macro", (int)(((optimize) - ( pRExC_state->emit_start)))); } else { ((pRExC_state->rxi )->u.offsets)[2*(((optimize) - (pRExC_state->emit_start )))-1] = ((0)); } } while (0); do { do {if (__builtin_expect( ((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3774, (int)(((optimize) - (pRExC_state->emit_start))), ( int)((0)));} while (0); if((((optimize) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((optimize) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((optimize) - (pRExC_state ->emit_start)))] = ((0)); } } while (0); } while (0); optimize ++; } do { do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000 ))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3777, (int )(((convert) - (pRExC_state->emit_start))), (int)((mjd_offset )));} while (0); if((((convert) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((convert) - (pRExC_state ->emit_start)))-1] = ((mjd_offset)); } } while (0); do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n", 3777, (int)(((convert) - (pRExC_state->emit_start))), (int)((mjd_nodelen)));} while (0); if((((convert) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro", (int)(( (convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state ->rxi)->u.offsets)[2*(((convert) - (pRExC_state->emit_start )))] = ((mjd_nodelen)); } } while (0); } while (0); };} while (0) |
3765 | Set_Node_Offset_Length(opt, 0, 0);do {if (optimize) { regnode *opt = convert; while ( ++opt < optimize) { do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))-1] = ((0)); } } while (0); do { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))] = ((0)); } } while (0); } while (0); } while( optimize < jumper ) { do { mjd_nodelen += (((pRExC_state->rxi)-> u.offsets)[2*((((optimize)) - (pRExC_state->emit_start)))] ); } while (0); ((optimize)->type) = 107; do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : ( _Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3774, (int)(((optimize ) - (pRExC_state->emit_start))), (int)((0)));} while (0); if ((((optimize) - (pRExC_state->emit_start))) < 0) { Perl_croak ( "value of node is %d in Offset macro", (int)(((optimize) - ( pRExC_state->emit_start)))); } else { ((pRExC_state->rxi )->u.offsets)[2*(((optimize) - (pRExC_state->emit_start )))-1] = ((0)); } } while (0); do { do {if (__builtin_expect( ((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3774, (int)(((optimize) - (pRExC_state->emit_start))), ( int)((0)));} while (0); if((((optimize) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((optimize) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((optimize) - (pRExC_state ->emit_start)))] = ((0)); } } while (0); } while (0); optimize ++; } do { do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000 ))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3777, (int )(((convert) - (pRExC_state->emit_start))), (int)((mjd_offset )));} while (0); if((((convert) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((convert) - (pRExC_state ->emit_start)))-1] = ((mjd_offset)); } } while (0); do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n", 3777, (int)(((convert) - (pRExC_state->emit_start))), (int)((mjd_nodelen)));} while (0); if((((convert) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro", (int)(( (convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state ->rxi)->u.offsets)[2*(((convert) - (pRExC_state->emit_start )))] = ((mjd_nodelen)); } } while (0); } while (0); };} while (0) |
3766 | }do {if (optimize) { regnode *opt = convert; while ( ++opt < optimize) { do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))-1] = ((0)); } } while (0); do { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))] = ((0)); } } while (0); } while (0); } while( optimize < jumper ) { do { mjd_nodelen += (((pRExC_state->rxi)-> u.offsets)[2*((((optimize)) - (pRExC_state->emit_start)))] ); } while (0); ((optimize)->type) = 107; do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : ( _Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3774, (int)(((optimize ) - (pRExC_state->emit_start))), (int)((0)));} while (0); if ((((optimize) - (pRExC_state->emit_start))) < 0) { Perl_croak ( "value of node is %d in Offset macro", (int)(((optimize) - ( pRExC_state->emit_start)))); } else { ((pRExC_state->rxi )->u.offsets)[2*(((optimize) - (pRExC_state->emit_start )))-1] = ((0)); } } while (0); do { do {if (__builtin_expect( ((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3774, (int)(((optimize) - (pRExC_state->emit_start))), ( int)((0)));} while (0); if((((optimize) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((optimize) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((optimize) - (pRExC_state ->emit_start)))] = ((0)); } } while (0); } while (0); optimize ++; } do { do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000 ))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3777, (int )(((convert) - (pRExC_state->emit_start))), (int)((mjd_offset )));} while (0); if((((convert) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((convert) - (pRExC_state ->emit_start)))-1] = ((mjd_offset)); } } while (0); do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n", 3777, (int)(((convert) - (pRExC_state->emit_start))), (int)((mjd_nodelen)));} while (0); if((((convert) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro", (int)(( (convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state ->rxi)->u.offsets)[2*(((convert) - (pRExC_state->emit_start )))] = ((mjd_nodelen)); } } while (0); } while (0); };} while (0) |
3767 | /*do {if (optimize) { regnode *opt = convert; while ( ++opt < optimize) { do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))-1] = ((0)); } } while (0); do { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))] = ((0)); } } while (0); } while (0); } while( optimize < jumper ) { do { mjd_nodelen += (((pRExC_state->rxi)-> u.offsets)[2*((((optimize)) - (pRExC_state->emit_start)))] ); } while (0); ((optimize)->type) = 107; do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : ( _Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3774, (int)(((optimize ) - (pRExC_state->emit_start))), (int)((0)));} while (0); if ((((optimize) - (pRExC_state->emit_start))) < 0) { Perl_croak ( "value of node is %d in Offset macro", (int)(((optimize) - ( pRExC_state->emit_start)))); } else { ((pRExC_state->rxi )->u.offsets)[2*(((optimize) - (pRExC_state->emit_start )))-1] = ((0)); } } while (0); do { do {if (__builtin_expect( ((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3774, (int)(((optimize) - (pRExC_state->emit_start))), ( int)((0)));} while (0); if((((optimize) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((optimize) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((optimize) - (pRExC_state ->emit_start)))] = ((0)); } } while (0); } while (0); optimize ++; } do { do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000 ))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3777, (int )(((convert) - (pRExC_state->emit_start))), (int)((mjd_offset )));} while (0); if((((convert) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((convert) - (pRExC_state ->emit_start)))-1] = ((mjd_offset)); } } while (0); do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n", 3777, (int)(((convert) - (pRExC_state->emit_start))), (int)((mjd_nodelen)));} while (0); if((((convert) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro", (int)(( (convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state ->rxi)->u.offsets)[2*(((convert) - (pRExC_state->emit_start )))] = ((mjd_nodelen)); } } while (0); } while (0); };} while (0) |
3768 | Try to clean up some of the debris left after thedo {if (optimize) { regnode *opt = convert; while ( ++opt < optimize) { do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))-1] = ((0)); } } while (0); do { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))] = ((0)); } } while (0); } while (0); } while( optimize < jumper ) { do { mjd_nodelen += (((pRExC_state->rxi)-> u.offsets)[2*((((optimize)) - (pRExC_state->emit_start)))] ); } while (0); ((optimize)->type) = 107; do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : ( _Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3774, (int)(((optimize ) - (pRExC_state->emit_start))), (int)((0)));} while (0); if ((((optimize) - (pRExC_state->emit_start))) < 0) { Perl_croak ( "value of node is %d in Offset macro", (int)(((optimize) - ( pRExC_state->emit_start)))); } else { ((pRExC_state->rxi )->u.offsets)[2*(((optimize) - (pRExC_state->emit_start )))-1] = ((0)); } } while (0); do { do {if (__builtin_expect( ((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3774, (int)(((optimize) - (pRExC_state->emit_start))), ( int)((0)));} while (0); if((((optimize) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((optimize) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((optimize) - (pRExC_state ->emit_start)))] = ((0)); } } while (0); } while (0); optimize ++; } do { do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000 ))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3777, (int )(((convert) - (pRExC_state->emit_start))), (int)((mjd_offset )));} while (0); if((((convert) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((convert) - (pRExC_state ->emit_start)))-1] = ((mjd_offset)); } } while (0); do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n", 3777, (int)(((convert) - (pRExC_state->emit_start))), (int)((mjd_nodelen)));} while (0); if((((convert) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro", (int)(( (convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state ->rxi)->u.offsets)[2*(((convert) - (pRExC_state->emit_start )))] = ((mjd_nodelen)); } } while (0); } while (0); };} while (0) |
3769 | optimisation.do {if (optimize) { regnode *opt = convert; while ( ++opt < optimize) { do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))-1] = ((0)); } } while (0); do { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))] = ((0)); } } while (0); } while (0); } while( optimize < jumper ) { do { mjd_nodelen += (((pRExC_state->rxi)-> u.offsets)[2*((((optimize)) - (pRExC_state->emit_start)))] ); } while (0); ((optimize)->type) = 107; do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : ( _Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3774, (int)(((optimize ) - (pRExC_state->emit_start))), (int)((0)));} while (0); if ((((optimize) - (pRExC_state->emit_start))) < 0) { Perl_croak ( "value of node is %d in Offset macro", (int)(((optimize) - ( pRExC_state->emit_start)))); } else { ((pRExC_state->rxi )->u.offsets)[2*(((optimize) - (pRExC_state->emit_start )))-1] = ((0)); } } while (0); do { do {if (__builtin_expect( ((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3774, (int)(((optimize) - (pRExC_state->emit_start))), ( int)((0)));} while (0); if((((optimize) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((optimize) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((optimize) - (pRExC_state ->emit_start)))] = ((0)); } } while (0); } while (0); optimize ++; } do { do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000 ))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3777, (int )(((convert) - (pRExC_state->emit_start))), (int)((mjd_offset )));} while (0); if((((convert) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((convert) - (pRExC_state ->emit_start)))-1] = ((mjd_offset)); } } while (0); do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n", 3777, (int)(((convert) - (pRExC_state->emit_start))), (int)((mjd_nodelen)));} while (0); if((((convert) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro", (int)(( (convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state ->rxi)->u.offsets)[2*(((convert) - (pRExC_state->emit_start )))] = ((mjd_nodelen)); } } while (0); } while (0); };} while (0) |
3770 | */do {if (optimize) { regnode *opt = convert; while ( ++opt < optimize) { do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))-1] = ((0)); } } while (0); do { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))] = ((0)); } } while (0); } while (0); } while( optimize < jumper ) { do { mjd_nodelen += (((pRExC_state->rxi)-> u.offsets)[2*((((optimize)) - (pRExC_state->emit_start)))] ); } while (0); ((optimize)->type) = 107; do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : ( _Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3774, (int)(((optimize ) - (pRExC_state->emit_start))), (int)((0)));} while (0); if ((((optimize) - (pRExC_state->emit_start))) < 0) { Perl_croak ( "value of node is %d in Offset macro", (int)(((optimize) - ( pRExC_state->emit_start)))); } else { ((pRExC_state->rxi )->u.offsets)[2*(((optimize) - (pRExC_state->emit_start )))-1] = ((0)); } } while (0); do { do {if (__builtin_expect( ((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3774, (int)(((optimize) - (pRExC_state->emit_start))), ( int)((0)));} while (0); if((((optimize) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((optimize) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((optimize) - (pRExC_state ->emit_start)))] = ((0)); } } while (0); } while (0); optimize ++; } do { do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000 ))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3777, (int )(((convert) - (pRExC_state->emit_start))), (int)((mjd_offset )));} while (0); if((((convert) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((convert) - (pRExC_state ->emit_start)))-1] = ((mjd_offset)); } } while (0); do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n", 3777, (int)(((convert) - (pRExC_state->emit_start))), (int)((mjd_nodelen)));} while (0); if((((convert) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro", (int)(( (convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state ->rxi)->u.offsets)[2*(((convert) - (pRExC_state->emit_start )))] = ((mjd_nodelen)); } } while (0); } while (0); };} while (0) |
3771 | while( optimize < jumper ) {do {if (optimize) { regnode *opt = convert; while ( ++opt < optimize) { do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))-1] = ((0)); } } while (0); do { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))] = ((0)); } } while (0); } while (0); } while( optimize < jumper ) { do { mjd_nodelen += (((pRExC_state->rxi)-> u.offsets)[2*((((optimize)) - (pRExC_state->emit_start)))] ); } while (0); ((optimize)->type) = 107; do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : ( _Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3774, (int)(((optimize ) - (pRExC_state->emit_start))), (int)((0)));} while (0); if ((((optimize) - (pRExC_state->emit_start))) < 0) { Perl_croak ( "value of node is %d in Offset macro", (int)(((optimize) - ( pRExC_state->emit_start)))); } else { ((pRExC_state->rxi )->u.offsets)[2*(((optimize) - (pRExC_state->emit_start )))-1] = ((0)); } } while (0); do { do {if (__builtin_expect( ((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3774, (int)(((optimize) - (pRExC_state->emit_start))), ( int)((0)));} while (0); if((((optimize) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((optimize) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((optimize) - (pRExC_state ->emit_start)))] = ((0)); } } while (0); } while (0); optimize ++; } do { do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000 ))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3777, (int )(((convert) - (pRExC_state->emit_start))), (int)((mjd_offset )));} while (0); if((((convert) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((convert) - (pRExC_state ->emit_start)))-1] = ((mjd_offset)); } } while (0); do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n", 3777, (int)(((convert) - (pRExC_state->emit_start))), (int)((mjd_nodelen)));} while (0); if((((convert) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro", (int)(( (convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state ->rxi)->u.offsets)[2*(((convert) - (pRExC_state->emit_start )))] = ((mjd_nodelen)); } } while (0); } while (0); };} while (0) |
3772 | Track_Code( mjd_nodelen += Node_Length((optimize)); );do {if (optimize) { regnode *opt = convert; while ( ++opt < optimize) { do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))-1] = ((0)); } } while (0); do { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))] = ((0)); } } while (0); } while (0); } while( optimize < jumper ) { do { mjd_nodelen += (((pRExC_state->rxi)-> u.offsets)[2*((((optimize)) - (pRExC_state->emit_start)))] ); } while (0); ((optimize)->type) = 107; do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : ( _Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3774, (int)(((optimize ) - (pRExC_state->emit_start))), (int)((0)));} while (0); if ((((optimize) - (pRExC_state->emit_start))) < 0) { Perl_croak ( "value of node is %d in Offset macro", (int)(((optimize) - ( pRExC_state->emit_start)))); } else { ((pRExC_state->rxi )->u.offsets)[2*(((optimize) - (pRExC_state->emit_start )))-1] = ((0)); } } while (0); do { do {if (__builtin_expect( ((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3774, (int)(((optimize) - (pRExC_state->emit_start))), ( int)((0)));} while (0); if((((optimize) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((optimize) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((optimize) - (pRExC_state ->emit_start)))] = ((0)); } } while (0); } while (0); optimize ++; } do { do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000 ))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3777, (int )(((convert) - (pRExC_state->emit_start))), (int)((mjd_offset )));} while (0); if((((convert) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((convert) - (pRExC_state ->emit_start)))-1] = ((mjd_offset)); } } while (0); do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n", 3777, (int)(((convert) - (pRExC_state->emit_start))), (int)((mjd_nodelen)));} while (0); if((((convert) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro", (int)(( (convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state ->rxi)->u.offsets)[2*(((convert) - (pRExC_state->emit_start )))] = ((mjd_nodelen)); } } while (0); } while (0); };} while (0) |
3773 | OP( optimize ) = OPTIMIZED;do {if (optimize) { regnode *opt = convert; while ( ++opt < optimize) { do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))-1] = ((0)); } } while (0); do { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))] = ((0)); } } while (0); } while (0); } while( optimize < jumper ) { do { mjd_nodelen += (((pRExC_state->rxi)-> u.offsets)[2*((((optimize)) - (pRExC_state->emit_start)))] ); } while (0); ((optimize)->type) = 107; do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : ( _Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3774, (int)(((optimize ) - (pRExC_state->emit_start))), (int)((0)));} while (0); if ((((optimize) - (pRExC_state->emit_start))) < 0) { Perl_croak ( "value of node is %d in Offset macro", (int)(((optimize) - ( pRExC_state->emit_start)))); } else { ((pRExC_state->rxi )->u.offsets)[2*(((optimize) - (pRExC_state->emit_start )))-1] = ((0)); } } while (0); do { do {if (__builtin_expect( ((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3774, (int)(((optimize) - (pRExC_state->emit_start))), ( int)((0)));} while (0); if((((optimize) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((optimize) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((optimize) - (pRExC_state ->emit_start)))] = ((0)); } } while (0); } while (0); optimize ++; } do { do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000 ))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3777, (int )(((convert) - (pRExC_state->emit_start))), (int)((mjd_offset )));} while (0); if((((convert) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((convert) - (pRExC_state ->emit_start)))-1] = ((mjd_offset)); } } while (0); do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n", 3777, (int)(((convert) - (pRExC_state->emit_start))), (int)((mjd_nodelen)));} while (0); if((((convert) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro", (int)(( (convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state ->rxi)->u.offsets)[2*(((convert) - (pRExC_state->emit_start )))] = ((mjd_nodelen)); } } while (0); } while (0); };} while (0) |
3774 | Set_Node_Offset_Length(optimize, 0, 0);do {if (optimize) { regnode *opt = convert; while ( ++opt < optimize) { do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))-1] = ((0)); } } while (0); do { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))] = ((0)); } } while (0); } while (0); } while( optimize < jumper ) { do { mjd_nodelen += (((pRExC_state->rxi)-> u.offsets)[2*((((optimize)) - (pRExC_state->emit_start)))] ); } while (0); ((optimize)->type) = 107; do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : ( _Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3774, (int)(((optimize ) - (pRExC_state->emit_start))), (int)((0)));} while (0); if ((((optimize) - (pRExC_state->emit_start))) < 0) { Perl_croak ( "value of node is %d in Offset macro", (int)(((optimize) - ( pRExC_state->emit_start)))); } else { ((pRExC_state->rxi )->u.offsets)[2*(((optimize) - (pRExC_state->emit_start )))-1] = ((0)); } } while (0); do { do {if (__builtin_expect( ((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3774, (int)(((optimize) - (pRExC_state->emit_start))), ( int)((0)));} while (0); if((((optimize) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((optimize) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((optimize) - (pRExC_state ->emit_start)))] = ((0)); } } while (0); } while (0); optimize ++; } do { do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000 ))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3777, (int )(((convert) - (pRExC_state->emit_start))), (int)((mjd_offset )));} while (0); if((((convert) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((convert) - (pRExC_state ->emit_start)))-1] = ((mjd_offset)); } } while (0); do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n", 3777, (int)(((convert) - (pRExC_state->emit_start))), (int)((mjd_nodelen)));} while (0); if((((convert) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro", (int)(( (convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state ->rxi)->u.offsets)[2*(((convert) - (pRExC_state->emit_start )))] = ((mjd_nodelen)); } } while (0); } while (0); };} while (0) |
3775 | optimize++;do {if (optimize) { regnode *opt = convert; while ( ++opt < optimize) { do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))-1] = ((0)); } } while (0); do { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))] = ((0)); } } while (0); } while (0); } while( optimize < jumper ) { do { mjd_nodelen += (((pRExC_state->rxi)-> u.offsets)[2*((((optimize)) - (pRExC_state->emit_start)))] ); } while (0); ((optimize)->type) = 107; do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : ( _Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3774, (int)(((optimize ) - (pRExC_state->emit_start))), (int)((0)));} while (0); if ((((optimize) - (pRExC_state->emit_start))) < 0) { Perl_croak ( "value of node is %d in Offset macro", (int)(((optimize) - ( pRExC_state->emit_start)))); } else { ((pRExC_state->rxi )->u.offsets)[2*(((optimize) - (pRExC_state->emit_start )))-1] = ((0)); } } while (0); do { do {if (__builtin_expect( ((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3774, (int)(((optimize) - (pRExC_state->emit_start))), ( int)((0)));} while (0); if((((optimize) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((optimize) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((optimize) - (pRExC_state ->emit_start)))] = ((0)); } } while (0); } while (0); optimize ++; } do { do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000 ))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3777, (int )(((convert) - (pRExC_state->emit_start))), (int)((mjd_offset )));} while (0); if((((convert) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((convert) - (pRExC_state ->emit_start)))-1] = ((mjd_offset)); } } while (0); do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n", 3777, (int)(((convert) - (pRExC_state->emit_start))), (int)((mjd_nodelen)));} while (0); if((((convert) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro", (int)(( (convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state ->rxi)->u.offsets)[2*(((convert) - (pRExC_state->emit_start )))] = ((mjd_nodelen)); } } while (0); } while (0); };} while (0) |
3776 | }do {if (optimize) { regnode *opt = convert; while ( ++opt < optimize) { do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))-1] = ((0)); } } while (0); do { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))] = ((0)); } } while (0); } while (0); } while( optimize < jumper ) { do { mjd_nodelen += (((pRExC_state->rxi)-> u.offsets)[2*((((optimize)) - (pRExC_state->emit_start)))] ); } while (0); ((optimize)->type) = 107; do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : ( _Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3774, (int)(((optimize ) - (pRExC_state->emit_start))), (int)((0)));} while (0); if ((((optimize) - (pRExC_state->emit_start))) < 0) { Perl_croak ( "value of node is %d in Offset macro", (int)(((optimize) - ( pRExC_state->emit_start)))); } else { ((pRExC_state->rxi )->u.offsets)[2*(((optimize) - (pRExC_state->emit_start )))-1] = ((0)); } } while (0); do { do {if (__builtin_expect( ((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3774, (int)(((optimize) - (pRExC_state->emit_start))), ( int)((0)));} while (0); if((((optimize) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((optimize) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((optimize) - (pRExC_state ->emit_start)))] = ((0)); } } while (0); } while (0); optimize ++; } do { do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000 ))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3777, (int )(((convert) - (pRExC_state->emit_start))), (int)((mjd_offset )));} while (0); if((((convert) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((convert) - (pRExC_state ->emit_start)))-1] = ((mjd_offset)); } } while (0); do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n", 3777, (int)(((convert) - (pRExC_state->emit_start))), (int)((mjd_nodelen)));} while (0); if((((convert) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro", (int)(( (convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state ->rxi)->u.offsets)[2*(((convert) - (pRExC_state->emit_start )))] = ((mjd_nodelen)); } } while (0); } while (0); };} while (0) |
3777 | Set_Node_Offset_Length(convert, mjd_offset, mjd_nodelen);do {if (optimize) { regnode *opt = convert; while ( ++opt < optimize) { do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))-1] = ((0)); } } while (0); do { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))] = ((0)); } } while (0); } while (0); } while( optimize < jumper ) { do { mjd_nodelen += (((pRExC_state->rxi)-> u.offsets)[2*((((optimize)) - (pRExC_state->emit_start)))] ); } while (0); ((optimize)->type) = 107; do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : ( _Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3774, (int)(((optimize ) - (pRExC_state->emit_start))), (int)((0)));} while (0); if ((((optimize) - (pRExC_state->emit_start))) < 0) { Perl_croak ( "value of node is %d in Offset macro", (int)(((optimize) - ( pRExC_state->emit_start)))); } else { ((pRExC_state->rxi )->u.offsets)[2*(((optimize) - (pRExC_state->emit_start )))-1] = ((0)); } } while (0); do { do {if (__builtin_expect( ((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3774, (int)(((optimize) - (pRExC_state->emit_start))), ( int)((0)));} while (0); if((((optimize) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((optimize) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((optimize) - (pRExC_state ->emit_start)))] = ((0)); } } while (0); } while (0); optimize ++; } do { do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000 ))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3777, (int )(((convert) - (pRExC_state->emit_start))), (int)((mjd_offset )));} while (0); if((((convert) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((convert) - (pRExC_state ->emit_start)))-1] = ((mjd_offset)); } } while (0); do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n", 3777, (int)(((convert) - (pRExC_state->emit_start))), (int)((mjd_nodelen)));} while (0); if((((convert) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro", (int)(( (convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state ->rxi)->u.offsets)[2*(((convert) - (pRExC_state->emit_start )))] = ((mjd_nodelen)); } } while (0); } while (0); };} while (0) |
3778 | })do {if (optimize) { regnode *opt = convert; while ( ++opt < optimize) { do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))-1] = ((0)); } } while (0); do { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3765, (int)(((opt) - (pRExC_state->emit_start))), (int)( (0)));} while (0); if((((opt) - (pRExC_state->emit_start)) ) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((opt) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((opt) - (pRExC_state-> emit_start)))] = ((0)); } } while (0); } while (0); } while( optimize < jumper ) { do { mjd_nodelen += (((pRExC_state->rxi)-> u.offsets)[2*((((optimize)) - (pRExC_state->emit_start)))] ); } while (0); ((optimize)->type) = 107; do { do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : ( _Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3774, (int)(((optimize ) - (pRExC_state->emit_start))), (int)((0)));} while (0); if ((((optimize) - (pRExC_state->emit_start))) < 0) { Perl_croak ( "value of node is %d in Offset macro", (int)(((optimize) - ( pRExC_state->emit_start)))); } else { ((pRExC_state->rxi )->u.offsets)[2*(((optimize) - (pRExC_state->emit_start )))-1] = ((0)); } } while (0); do { do {if (__builtin_expect( ((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n" , 3774, (int)(((optimize) - (pRExC_state->emit_start))), ( int)((0)));} while (0); if((((optimize) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((optimize) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((optimize) - (pRExC_state ->emit_start)))] = ((0)); } } while (0); } while (0); optimize ++; } do { do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000 ))) Perl_warn ("** (%d) offset of node %d is %d.\n", 3777, (int )(((convert) - (pRExC_state->emit_start))), (int)((mjd_offset )));} while (0); if((((convert) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((convert) - (pRExC_state ->emit_start)))-1] = ((mjd_offset)); } } while (0); do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n", 3777, (int)(((convert) - (pRExC_state->emit_start))), (int)((mjd_nodelen)));} while (0); if((((convert) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro", (int)(( (convert) - (pRExC_state->emit_start)))); } else { ((pRExC_state ->rxi)->u.offsets)[2*(((convert) - (pRExC_state->emit_start )))] = ((mjd_nodelen)); } } while (0); } while (0); };} while (0); |
3779 | } /* end node insert */ |
3780 | |
3781 | /* Finish populating the prev field of the wordinfo array. Walk back |
3782 | * from each accept state until we find another accept state, and if |
3783 | * so, point the first word's .prev field at the second word. If the |
3784 | * second already has a .prev field set, stop now. This will be the |
3785 | * case either if we've already processed that word's accept state, |
3786 | * or that state had multiple words, and the overspill words were |
3787 | * already linked up earlier. |
3788 | */ |
3789 | { |
3790 | U16 word; |
3791 | U32 state; |
3792 | U16 prev; |
3793 | |
3794 | for (word=1; word <= trie->wordcount; word++) { |
3795 | prev = 0; |
3796 | if (trie->wordinfo[word].prev) |
3797 | continue; |
3798 | state = trie->wordinfo[word].accept; |
3799 | while (state) { |
3800 | state = prev_states[state]; |
3801 | if (!state) |
3802 | break; |
3803 | prev = trie->states[state].wordnum; |
3804 | if (prev) |
3805 | break; |
3806 | } |
3807 | trie->wordinfo[word].prev = prev; |
3808 | } |
3809 | Safefree(prev_states)Perl_safesysfree(((void *)(prev_states))); |
3810 | } |
3811 | |
3812 | |
3813 | /* and now dump out the compressed format */ |
3814 | DEBUG_TRIE_COMPILE_r(dump_trie(trie, widecharmap, revcharmap, depth+1))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) S_dump_trie ( trie,widecharmap,revcharmap,depth+1);} while (0); |
3815 | |
3816 | RExC_rxi(pRExC_state->rxi)->data->data[ data_slot + 1 ] = (void*)widecharmap; |
3817 | #ifdef DEBUGGING |
3818 | RExC_rxi(pRExC_state->rxi)->data->data[ data_slot + TRIE_WORDS_OFFSET2 ] = (void*)trie_words; |
3819 | RExC_rxi(pRExC_state->rxi)->data->data[ data_slot + 3 ] = (void*)revcharmap; |
3820 | #else |
3821 | SvREFCNT_dec_NN(revcharmap)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (revcharmap); _p; } ))); |
3822 | #endif |
3823 | return trie->jump |
3824 | ? MADE_JUMP_TRIE2 |
3825 | : trie->startstate>1 |
3826 | ? MADE_EXACT_TRIE4 |
3827 | : MADE_TRIE1; |
3828 | } |
3829 | |
3830 | STATICstatic regnode * |
3831 | S_construct_ahocorasick_from_trie(pTHX_ RExC_state_t *pRExC_state, regnode *source, U32 depth) |
3832 | { |
3833 | /* The Trie is constructed and compressed now so we can build a fail array if |
3834 | * it's needed |
3835 | |
3836 | This is basically the Aho-Corasick algorithm. Its from exercise 3.31 and |
3837 | 3.32 in the |
3838 | "Red Dragon" -- Compilers, principles, techniques, and tools. Aho, Sethi, |
3839 | Ullman 1985/88 |
3840 | ISBN 0-201-10088-6 |
3841 | |
3842 | We find the fail state for each state in the trie, this state is the longest |
3843 | proper suffix of the current state's 'word' that is also a proper prefix of |
3844 | another word in our trie. State 1 represents the word '' and is thus the |
3845 | default fail state. This allows the DFA not to have to restart after its |
3846 | tried and failed a word at a given point, it simply continues as though it |
3847 | had been matching the other word in the first place. |
3848 | Consider |
3849 | 'abcdgu'=~/abcdefg|cdgu/ |
3850 | When we get to 'd' we are still matching the first word, we would encounter |
3851 | 'g' which would fail, which would bring us to the state representing 'd' in |
3852 | the second word where we would try 'g' and succeed, proceeding to match |
3853 | 'cdgu'. |
3854 | */ |
3855 | /* add a fail transition */ |
3856 | const U32 trie_offset = ARG(source)((((struct regnode_1 *)source)->arg1)); |
3857 | reg_trie_data *trie=(reg_trie_data *)RExC_rxi(pRExC_state->rxi)->data->data[trie_offset]; |
3858 | U32 *q; |
3859 | const U32 ucharcount = trie->uniquecharcount; |
3860 | const U32 numstates = trie->statecount; |
3861 | const U32 ubound = trie->lasttrans + ucharcount; |
3862 | U32 q_read = 0; |
3863 | U32 q_write = 0; |
3864 | U32 charid; |
3865 | U32 base = trie->states[ 1 ].trans.base; |
3866 | U32 *fail; |
3867 | reg_ac_data *aho; |
3868 | const U32 data_slot = add_dataS_add_data( pRExC_state, STR_WITH_LEN("T")("" "T" ""), (sizeof("T")-1)); |
3869 | regnode *stclass; |
3870 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 3870, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 3870, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
3871 | |
3872 | PERL_ARGS_ASSERT_CONSTRUCT_AHOCORASICK_FROM_TRIE((pRExC_state) ? (void)0 : __assert2("re_comp.c", 3872, __func__ , "pRExC_state")); ((source) ? (void)0 : __assert2("re_comp.c" , 3872, __func__, "source")); |
3873 | PERL_UNUSED_CONTEXT; |
3874 | #ifndef DEBUGGING |
3875 | PERL_UNUSED_ARG(depth)((void)sizeof(depth)); |
3876 | #endif |
3877 | |
3878 | if ( OP(source)((source)->type) == TRIE88 ) { |
3879 | struct regnode_1 *op = (struct regnode_1 *) |
3880 | PerlMemShared_calloc(1, sizeof(struct regnode_1))calloc((1), (sizeof(struct regnode_1))); |
3881 | StructCopy(source, op, struct regnode_1)(*((struct regnode_1*)(op)) = *((struct regnode_1*)(source))); |
3882 | stclass = (regnode *)op; |
3883 | } else { |
3884 | struct regnode_charclass *op = (struct regnode_charclass *) |
3885 | PerlMemShared_calloc(1, sizeof(struct regnode_charclass))calloc((1), (sizeof(struct regnode_charclass))); |
3886 | StructCopy(source, op, struct regnode_charclass)(*((struct regnode_charclass*)(op)) = *((struct regnode_charclass *)(source))); |
3887 | stclass = (regnode *)op; |
3888 | } |
3889 | OP(stclass)((stclass)->type)+=2; /* convert the TRIE type to its AHO-CORASICK equivalent */ |
3890 | |
3891 | ARG_SET( stclass, data_slot )(((((struct regnode_1 *)stclass)->arg1)) = ((data_slot))); |
3892 | aho = (reg_ac_data *) PerlMemShared_calloc( 1, sizeof(reg_ac_data) )calloc((1), (sizeof(reg_ac_data))); |
3893 | RExC_rxi(pRExC_state->rxi)->data->data[ data_slot ] = (void*)aho; |
3894 | aho->trie=trie_offset; |
3895 | aho->states=(reg_trie_state *)PerlMemShared_malloc( numstates * sizeof(reg_trie_state) )malloc((numstates * sizeof(reg_trie_state))); |
3896 | Copy( trie->states, aho->states, numstates, reg_trie_state )((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(numstates ) || sizeof(reg_trie_state) > ((size_t)1 << 8*(sizeof (size_t) - sizeof(numstates)))) ? (size_t)(numstates) : ((size_t )-1)/sizeof(reg_trie_state)) > ((size_t)-1)/sizeof(reg_trie_state ))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)(aho->states)) != 0) ? (void)0 : __assert2 ("re_comp.c", 3896, __func__, "((void*)(aho->states)) != 0" )), ((((void*)(trie->states)) != 0) ? (void)0 : __assert2( "re_comp.c", 3896, __func__, "((void*)(trie->states)) != 0" )), (void)memcpy((char*)(aho->states),(const char*)(trie-> states), (numstates) * sizeof(reg_trie_state))); |
3897 | Newx( q, numstates, U32)(q = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof (numstates) || sizeof(U32) > ((size_t)1 << 8*(sizeof (size_t) - sizeof(numstates)))) ? (size_t)(numstates) : ((size_t )-1)/sizeof(U32)) > ((size_t)-1)/sizeof(U32))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), (U32 *)(Perl_safesysmalloc((size_t)((numstates)*sizeof(U32)))))); |
3898 | aho->fail = (U32 *) PerlMemShared_calloc( numstates, sizeof(U32) )calloc((numstates), (sizeof(U32))); |
3899 | aho->refcount = 1; |
3900 | fail = aho->fail; |
3901 | /* initialize fail[0..1] to be 1 so that we always have |
3902 | a valid final fail state */ |
3903 | fail[ 0 ] = fail[ 1 ] = 1; |
3904 | |
3905 | for ( charid = 0; charid < ucharcount ; charid++ ) { |
3906 | const U32 newstate = TRIE_TRANS_STATE( 1, base, ucharcount, charid, 0 )( ( base + charid >= ucharcount && base + charid < ubound && 1 == trie->trans[ base - ucharcount + charid ].check && trie->trans[ base - ucharcount + charid ].next ) ? trie->trans[ base - ucharcount + charid ].next : ( 1==1 ? 0 : 0 ) ); |
3907 | if ( newstate ) { |
3908 | q[ q_write ] = newstate; |
3909 | /* set to point at the root */ |
3910 | fail[ q[ q_write++ ] ]=1; |
3911 | } |
3912 | } |
3913 | while ( q_read < q_write) { |
3914 | const U32 cur = q[ q_read++ % numstates ]; |
3915 | base = trie->states[ cur ].trans.base; |
3916 | |
3917 | for ( charid = 0 ; charid < ucharcount ; charid++ ) { |
3918 | const U32 ch_state = TRIE_TRANS_STATE( cur, base, ucharcount, charid, 1 )( ( base + charid >= ucharcount && base + charid < ubound && cur == trie->trans[ base - ucharcount + charid ].check && trie->trans[ base - ucharcount + charid ].next ) ? trie->trans[ base - ucharcount + charid ].next : ( cur==1 ? 1 : 0 ) ); |
3919 | if (ch_state) { |
3920 | U32 fail_state = cur; |
3921 | U32 fail_base; |
3922 | do { |
3923 | fail_state = fail[ fail_state ]; |
3924 | fail_base = aho->states[ fail_state ].trans.base; |
3925 | } while ( !TRIE_TRANS_STATE( fail_state, fail_base, ucharcount, charid, 1 )( ( fail_base + charid >= ucharcount && fail_base + charid < ubound && fail_state == trie->trans[ fail_base - ucharcount + charid ].check && trie->trans[ fail_base - ucharcount + charid ].next ) ? trie->trans[ fail_base - ucharcount + charid ].next : ( fail_state==1 ? 1 : 0 ) ) ); |
3926 | |
3927 | fail_state = TRIE_TRANS_STATE( fail_state, fail_base, ucharcount, charid, 1 )( ( fail_base + charid >= ucharcount && fail_base + charid < ubound && fail_state == trie->trans[ fail_base - ucharcount + charid ].check && trie->trans[ fail_base - ucharcount + charid ].next ) ? trie->trans[ fail_base - ucharcount + charid ].next : ( fail_state==1 ? 1 : 0 ) ); |
3928 | fail[ ch_state ] = fail_state; |
3929 | if ( !aho->states[ ch_state ].wordnum && aho->states[ fail_state ].wordnum ) |
3930 | { |
3931 | aho->states[ ch_state ].wordnum = aho->states[ fail_state ].wordnum; |
3932 | } |
3933 | q[ q_write++ % numstates] = ch_state; |
3934 | } |
3935 | } |
3936 | } |
3937 | /* restore fail[0..1] to 0 so that we "fall out" of the AC loop |
3938 | when we fail in state 1, this allows us to use the |
3939 | charclass scan to find a valid start char. This is based on the principle |
3940 | that theres a good chance the string being searched contains lots of stuff |
3941 | that cant be a start char. |
3942 | */ |
3943 | fail[ 0 ] = fail[ 1 ] = 0; |
3944 | DEBUG_TRIE_COMPILE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { Perl_re_indentf ( "Stclass Failtable (%" "lu" " states): 0", depth, (UV)numstates ); for( q_read=1; q_read<numstates; q_read++ ) { Perl_re_printf ( ", %" "lu", (UV)fail[q_read]); } Perl_re_printf( "\n"); };} while (0) |
3945 | Perl_re_indentf( aTHX_ "Stclass Failtable (%" UVuf " states): 0",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { Perl_re_indentf ( "Stclass Failtable (%" "lu" " states): 0", depth, (UV)numstates ); for( q_read=1; q_read<numstates; q_read++ ) { Perl_re_printf ( ", %" "lu", (UV)fail[q_read]); } Perl_re_printf( "\n"); };} while (0) |
3946 | depth, (UV)numstatesdo {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { Perl_re_indentf ( "Stclass Failtable (%" "lu" " states): 0", depth, (UV)numstates ); for( q_read=1; q_read<numstates; q_read++ ) { Perl_re_printf ( ", %" "lu", (UV)fail[q_read]); } Perl_re_printf( "\n"); };} while (0) |
3947 | );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { Perl_re_indentf ( "Stclass Failtable (%" "lu" " states): 0", depth, (UV)numstates ); for( q_read=1; q_read<numstates; q_read++ ) { Perl_re_printf ( ", %" "lu", (UV)fail[q_read]); } Perl_re_printf( "\n"); };} while (0) |
3948 | for( q_read=1; q_read<numstates; q_read++ ) {do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { Perl_re_indentf ( "Stclass Failtable (%" "lu" " states): 0", depth, (UV)numstates ); for( q_read=1; q_read<numstates; q_read++ ) { Perl_re_printf ( ", %" "lu", (UV)fail[q_read]); } Perl_re_printf( "\n"); };} while (0) |
3949 | Perl_re_printf( aTHX_ ", %" UVuf, (UV)fail[q_read]);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { Perl_re_indentf ( "Stclass Failtable (%" "lu" " states): 0", depth, (UV)numstates ); for( q_read=1; q_read<numstates; q_read++ ) { Perl_re_printf ( ", %" "lu", (UV)fail[q_read]); } Perl_re_printf( "\n"); };} while (0) |
3950 | }do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { Perl_re_indentf ( "Stclass Failtable (%" "lu" " states): 0", depth, (UV)numstates ); for( q_read=1; q_read<numstates; q_read++ ) { Perl_re_printf ( ", %" "lu", (UV)fail[q_read]); } Perl_re_printf( "\n"); };} while (0) |
3951 | Perl_re_printf( aTHX_ "\n");do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { Perl_re_indentf ( "Stclass Failtable (%" "lu" " states): 0", depth, (UV)numstates ); for( q_read=1; q_read<numstates; q_read++ ) { Perl_re_printf ( ", %" "lu", (UV)fail[q_read]); } Perl_re_printf( "\n"); };} while (0) |
3952 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { Perl_re_indentf ( "Stclass Failtable (%" "lu" " states): 0", depth, (UV)numstates ); for( q_read=1; q_read<numstates; q_read++ ) { Perl_re_printf ( ", %" "lu", (UV)fail[q_read]); } Perl_re_printf( "\n"); };} while (0); |
3953 | Safefree(q)Perl_safesysfree(((void *)(q))); |
3954 | /*RExC_seen |= REG_TRIEDFA_SEEN;*/ |
3955 | return stclass; |
3956 | } |
3957 | |
3958 | |
3959 | /* The below joins as many adjacent EXACTish nodes as possible into a single |
3960 | * one. The regop may be changed if the node(s) contain certain sequences that |
3961 | * require special handling. The joining is only done if: |
3962 | * 1) there is room in the current conglomerated node to entirely contain the |
3963 | * next one. |
3964 | * 2) they are compatible node types |
3965 | * |
3966 | * The adjacent nodes actually may be separated by NOTHING-kind nodes, and |
3967 | * these get optimized out |
3968 | * |
3969 | * XXX khw thinks this should be enhanced to fill EXACT (at least) nodes as full |
3970 | * as possible, even if that means splitting an existing node so that its first |
3971 | * part is moved to the preceeding node. This would maximise the efficiency of |
3972 | * memEQ during matching. |
3973 | * |
3974 | * If a node is to match under /i (folded), the number of characters it matches |
3975 | * can be different than its character length if it contains a multi-character |
3976 | * fold. *min_subtract is set to the total delta number of characters of the |
3977 | * input nodes. |
3978 | * |
3979 | * And *unfolded_multi_char is set to indicate whether or not the node contains |
3980 | * an unfolded multi-char fold. This happens when it won't be known until |
3981 | * runtime whether the fold is valid or not; namely |
3982 | * 1) for EXACTF nodes that contain LATIN SMALL LETTER SHARP S, as only if the |
3983 | * target string being matched against turns out to be UTF-8 is that fold |
3984 | * valid; or |
3985 | * 2) for EXACTFL nodes whose folding rules depend on the locale in force at |
3986 | * runtime. |
3987 | * (Multi-char folds whose components are all above the Latin1 range are not |
3988 | * run-time locale dependent, and have already been folded by the time this |
3989 | * function is called.) |
3990 | * |
3991 | * This is as good a place as any to discuss the design of handling these |
3992 | * multi-character fold sequences. It's been wrong in Perl for a very long |
3993 | * time. There are three code points in Unicode whose multi-character folds |
3994 | * were long ago discovered to mess things up. The previous designs for |
3995 | * dealing with these involved assigning a special node for them. This |
3996 | * approach doesn't always work, as evidenced by this example: |
3997 | * "\xDFs" =~ /s\xDF/ui # Used to fail before these patches |
3998 | * Both sides fold to "sss", but if the pattern is parsed to create a node that |
3999 | * would match just the \xDF, it won't be able to handle the case where a |
4000 | * successful match would have to cross the node's boundary. The new approach |
4001 | * that hopefully generally solves the problem generates an EXACTFUP node |
4002 | * that is "sss" in this case. |
4003 | * |
4004 | * It turns out that there are problems with all multi-character folds, and not |
4005 | * just these three. Now the code is general, for all such cases. The |
4006 | * approach taken is: |
4007 | * 1) This routine examines each EXACTFish node that could contain multi- |
4008 | * character folded sequences. Since a single character can fold into |
4009 | * such a sequence, the minimum match length for this node is less than |
4010 | * the number of characters in the node. This routine returns in |
4011 | * *min_subtract how many characters to subtract from the actual |
4012 | * length of the string to get a real minimum match length; it is 0 if |
4013 | * there are no multi-char foldeds. This delta is used by the caller to |
4014 | * adjust the min length of the match, and the delta between min and max, |
4015 | * so that the optimizer doesn't reject these possibilities based on size |
4016 | * constraints. |
4017 | * |
4018 | * 2) For the sequence involving the LATIN SMALL LETTER SHARP S (U+00DF) |
4019 | * under /u, we fold it to 'ss' in regatom(), and in this routine, after |
4020 | * joining, we scan for occurrences of the sequence 'ss' in non-UTF-8 |
4021 | * EXACTFU nodes. The node type of such nodes is then changed to |
4022 | * EXACTFUP, indicating it is problematic, and needs careful handling. |
4023 | * (The procedures in step 1) above are sufficient to handle this case in |
4024 | * UTF-8 encoded nodes.) The reason this is problematic is that this is |
4025 | * the only case where there is a possible fold length change in non-UTF-8 |
4026 | * patterns. By reserving a special node type for problematic cases, the |
4027 | * far more common regular EXACTFU nodes can be processed faster. |
4028 | * regexec.c takes advantage of this. |
4029 | * |
4030 | * EXACTFUP has been created as a grab-bag for (hopefully uncommon) |
4031 | * problematic cases. These all only occur when the pattern is not |
4032 | * UTF-8. In addition to the 'ss' sequence where there is a possible fold |
4033 | * length change, it handles the situation where the string cannot be |
4034 | * entirely folded. The strings in an EXACTFish node are folded as much |
4035 | * as possible during compilation in regcomp.c. This saves effort in |
4036 | * regex matching. By using an EXACTFUP node when it is not possible to |
4037 | * fully fold at compile time, regexec.c can know that everything in an |
4038 | * EXACTFU node is folded, so folding can be skipped at runtime. The only |
4039 | * case where folding in EXACTFU nodes can't be done at compile time is |
4040 | * the presumably uncommon MICRO SIGN, when the pattern isn't UTF-8. This |
4041 | * is because its fold requires UTF-8 to represent. Thus EXACTFUP nodes |
4042 | * handle two very different cases. Alternatively, there could have been |
4043 | * a node type where there are length changes, one for unfolded, and one |
4044 | * for both. If yet another special case needed to be created, the number |
4045 | * of required node types would have to go to 7. khw figures that even |
4046 | * though there are plenty of node types to spare, that the maintenance |
4047 | * cost wasn't worth the small speedup of doing it that way, especially |
4048 | * since he thinks the MICRO SIGN is rarely encountered in practice. |
4049 | * |
4050 | * There are other cases where folding isn't done at compile time, but |
4051 | * none of them are under /u, and hence not for EXACTFU nodes. The folds |
4052 | * in EXACTFL nodes aren't known until runtime, and vary as the locale |
4053 | * changes. Some folds in EXACTF depend on if the runtime target string |
4054 | * is UTF-8 or not. (regatom() will create an EXACTFU node even under /di |
4055 | * when no fold in it depends on the UTF-8ness of the target string.) |
4056 | * |
4057 | * 3) A problem remains for unfolded multi-char folds. (These occur when the |
4058 | * validity of the fold won't be known until runtime, and so must remain |
4059 | * unfolded for now. This happens for the sharp s in EXACTF and EXACTFAA |
4060 | * nodes when the pattern isn't in UTF-8. (Note, BTW, that there cannot |
4061 | * be an EXACTF node with a UTF-8 pattern.) They also occur for various |
4062 | * folds in EXACTFL nodes, regardless of the UTF-ness of the pattern.) |
4063 | * The reason this is a problem is that the optimizer part of regexec.c |
4064 | * (probably unwittingly, in Perl_regexec_flags()) makes an assumption |
4065 | * that a character in the pattern corresponds to at most a single |
4066 | * character in the target string. (And I do mean character, and not byte |
4067 | * here, unlike other parts of the documentation that have never been |
4068 | * updated to account for multibyte Unicode.) Sharp s in EXACTF and |
4069 | * EXACTFL nodes can match the two character string 'ss'; in EXACTFAA |
4070 | * nodes it can match "\x{17F}\x{17F}". These, along with other ones in |
4071 | * EXACTFL nodes, violate the assumption, and they are the only instances |
4072 | * where it is violated. I'm reluctant to try to change the assumption, |
4073 | * as the code involved is impenetrable to me (khw), so instead the code |
4074 | * here punts. This routine examines EXACTFL nodes, and (when the pattern |
4075 | * isn't UTF-8) EXACTF and EXACTFAA for such unfolded folds, and returns a |
4076 | * boolean indicating whether or not the node contains such a fold. When |
4077 | * it is true, the caller sets a flag that later causes the optimizer in |
4078 | * this file to not set values for the floating and fixed string lengths, |
4079 | * and thus avoids the optimizer code in regexec.c that makes the invalid |
4080 | * assumption. Thus, there is no optimization based on string lengths for |
4081 | * EXACTFL nodes that contain these few folds, nor for non-UTF8-pattern |
4082 | * EXACTF and EXACTFAA nodes that contain the sharp s. (The reason the |
4083 | * assumption is wrong only in these cases is that all other non-UTF-8 |
4084 | * folds are 1-1; and, for UTF-8 patterns, we pre-fold all other folds to |
4085 | * their expanded versions. (Again, we can't prefold sharp s to 'ss' in |
4086 | * EXACTF nodes because we don't know at compile time if it actually |
4087 | * matches 'ss' or not. For EXACTF nodes it will match iff the target |
4088 | * string is in UTF-8. This is in contrast to EXACTFU nodes, where it |
4089 | * always matches; and EXACTFAA where it never does. In an EXACTFAA node |
4090 | * in a UTF-8 pattern, sharp s is folded to "\x{17F}\x{17F}, avoiding the |
4091 | * problem; but in a non-UTF8 pattern, folding it to that above-Latin1 |
4092 | * string would require the pattern to be forced into UTF-8, the overhead |
4093 | * of which we want to avoid. Similarly the unfolded multi-char folds in |
4094 | * EXACTFL nodes will match iff the locale at the time of match is a UTF-8 |
4095 | * locale.) |
4096 | * |
4097 | * Similarly, the code that generates tries doesn't currently handle |
4098 | * not-already-folded multi-char folds, and it looks like a pain to change |
4099 | * that. Therefore, trie generation of EXACTFAA nodes with the sharp s |
4100 | * doesn't work. Instead, such an EXACTFAA is turned into a new regnode, |
4101 | * EXACTFAA_NO_TRIE, which the trie code knows not to handle. Most people |
4102 | * using /iaa matching will be doing so almost entirely with ASCII |
4103 | * strings, so this should rarely be encountered in practice */ |
4104 | |
4105 | STATICstatic U32 |
4106 | S_join_exact(pTHX_ RExC_state_t *pRExC_state, regnode *scan, |
4107 | UV *min_subtract, bool_Bool *unfolded_multi_char, |
4108 | U32 flags, regnode *val, U32 depth) |
4109 | { |
4110 | /* Merge several consecutive EXACTish nodes into one. */ |
4111 | |
4112 | regnode *n = regnext(scan)Perl_regnext( scan); |
4113 | U32 stringok = 1; |
4114 | regnode *next = scan + NODE_SZ_STR(scan)((((((((scan)->type) == 41 || ((scan)->type) == 51) ? ( ((((scan)->type) == 41 || ((scan)->type) == 51) ? (void )0 : __assert2("re_comp.c", 4114, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->str_len)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 4114, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->str_len))) + sizeof(regnode ) - 1) / sizeof(regnode)) + 1 + regarglen[(scan)->type]); |
4115 | U32 merged = 0; |
4116 | U32 stopnow = 0; |
4117 | #ifdef DEBUGGING |
4118 | regnode *stop = scan; |
4119 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 4119, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 4119, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
4120 | #else |
4121 | PERL_UNUSED_ARG(depth)((void)sizeof(depth)); |
4122 | #endif |
4123 | |
4124 | PERL_ARGS_ASSERT_JOIN_EXACT((pRExC_state) ? (void)0 : __assert2("re_comp.c", 4124, __func__ , "pRExC_state")); ((scan) ? (void)0 : __assert2("re_comp.c", 4124, __func__, "scan")); ((min_subtract) ? (void)0 : __assert2 ("re_comp.c", 4124, __func__, "min_subtract")); ((unfolded_multi_char ) ? (void)0 : __assert2("re_comp.c", 4124, __func__, "unfolded_multi_char" )); |
4125 | #ifndef EXPERIMENTAL_INPLACESCAN |
4126 | PERL_UNUSED_ARG(flags)((void)sizeof(flags)); |
4127 | PERL_UNUSED_ARG(val)((void)sizeof(val)); |
4128 | #endif |
4129 | DEBUG_PEEP("join", scan, depth, 0)S_debug_peep( "join", pRExC_state, scan, depth, 0); |
4130 | |
4131 | assert(PL_regkind[OP(scan)] == EXACT)((PL_regkind[((scan)->type)] == 40) ? (void)0 : __assert2( "re_comp.c", 4131, __func__, "PL_regkind[OP(scan)] == EXACT") ); |
4132 | |
4133 | /* Look through the subsequent nodes in the chain. Skip NOTHING, merge |
4134 | * EXACT ones that are mergeable to the current one. */ |
4135 | while ( n |
4136 | && ( PL_regkind[OP(n)((n)->type)] == NOTHING54 |
4137 | || (stringok && PL_regkind[OP(n)((n)->type)] == EXACT40)) |
4138 | && NEXT_OFF(n)((n)->next_off) |
4139 | && NEXT_OFF(scan)((scan)->next_off) + NEXT_OFF(n)((n)->next_off) < I16_MAX0x7fff) |
4140 | { |
4141 | |
4142 | if (OP(n)((n)->type) == TAIL55 || n > next) |
4143 | stringok = 0; |
4144 | if (PL_regkind[OP(n)((n)->type)] == NOTHING54) { |
4145 | DEBUG_PEEP("skip:", n, depth, 0)S_debug_peep( "skip:", pRExC_state, n, depth, 0); |
4146 | NEXT_OFF(scan)((scan)->next_off) += NEXT_OFF(n)((n)->next_off); |
4147 | next = n + NODE_STEP_REGNODE1; |
4148 | #ifdef DEBUGGING |
4149 | if (stringok) |
4150 | stop = n; |
4151 | #endif |
4152 | n = regnext(n)Perl_regnext( n); |
4153 | } |
4154 | else if (stringok) { |
4155 | const unsigned int oldl = STR_LEN(scan)((((scan)->type) == 41 || ((scan)->type) == 51) ? ((((( scan)->type) == 41 || ((scan)->type) == 51) ? (void)0 : __assert2("re_comp.c", 4155, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->str_len)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 4155, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->str_len)); |
4156 | regnode * const nnext = regnext(n)Perl_regnext( n); |
4157 | |
4158 | /* XXX I (khw) kind of doubt that this works on platforms (should |
4159 | * Perl ever run on one) where U8_MAX is above 255 because of lots |
4160 | * of other assumptions */ |
4161 | /* Don't join if the sum can't fit into a single node */ |
4162 | if (oldl + STR_LEN(n)((((n)->type) == 41 || ((n)->type) == 51) ? (((((n)-> type) == 41 || ((n)->type) == 51) ? (void)0 : __assert2("re_comp.c" , 4162, __func__, "((n)->type) == 41 || ((n)->type) == 51" )), (((struct regnode_lstring *)n)->str_len)) : (((((n)-> type) != 41 && ((n)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 4162, __func__, "((n)->type) != 41 && ((n)->type) != 51" )), ((struct regnode_string *)n)->str_len)) > U8_MAX0xff) |
4163 | break; |
4164 | |
4165 | /* Joining something that requires UTF-8 with something that |
4166 | * doesn't, means the result requires UTF-8. */ |
4167 | if (OP(scan)((scan)->type) == EXACT40 && (OP(n)((n)->type) == EXACT_REQ850)) { |
4168 | OP(scan)((scan)->type) = EXACT_REQ850; |
4169 | } |
4170 | else if (OP(scan)((scan)->type) == EXACT_REQ850 && (OP(n)((n)->type) == EXACT40)) { |
4171 | ; /* join is compatible, no need to change OP */ |
4172 | } |
4173 | else if ((OP(scan)((scan)->type) == EXACTFU45) && (OP(n)((n)->type) == EXACTFU_REQ852)) { |
4174 | OP(scan)((scan)->type) = EXACTFU_REQ852; |
4175 | } |
4176 | else if ((OP(scan)((scan)->type) == EXACTFU_REQ852) && (OP(n)((n)->type) == EXACTFU45)) { |
4177 | ; /* join is compatible, no need to change OP */ |
4178 | } |
4179 | else if (OP(scan)((scan)->type) == EXACTFU45 && OP(n)((n)->type) == EXACTFU45) { |
4180 | ; /* join is compatible, no need to change OP */ |
4181 | } |
4182 | else if (OP(scan)((scan)->type) == EXACTFU45 && OP(n)((n)->type) == EXACTFU_S_EDGE53) { |
4183 | |
4184 | /* Under /di, temporary EXACTFU_S_EDGE nodes are generated, |
4185 | * which can join with EXACTFU ones. We check for this case |
4186 | * here. These need to be resolved to either EXACTFU or |
4187 | * EXACTF at joining time. They have nothing in them that |
4188 | * would forbid them from being the more desirable EXACTFU |
4189 | * nodes except that they begin and/or end with a single [Ss]. |
4190 | * The reason this is problematic is because they could be |
4191 | * joined in this loop with an adjacent node that ends and/or |
4192 | * begins with [Ss] which would then form the sequence 'ss', |
4193 | * which matches differently under /di than /ui, in which case |
4194 | * EXACTFU can't be used. If the 'ss' sequence doesn't get |
4195 | * formed, the nodes get absorbed into any adjacent EXACTFU |
4196 | * node. And if the only adjacent node is EXACTF, they get |
4197 | * absorbed into that, under the theory that a longer node is |
4198 | * better than two shorter ones, even if one is EXACTFU. Note |
4199 | * that EXACTFU_REQ8 is generated only for UTF-8 patterns, |
4200 | * and the EXACTFU_S_EDGE ones only for non-UTF-8. */ |
4201 | |
4202 | if (STRING(n)((((n)->type) == 41 || ((n)->type) == 51) ? (((((n)-> type) == 41 || ((n)->type) == 51) ? (void)0 : __assert2("re_comp.c" , 4202, __func__, "((n)->type) == 41 || ((n)->type) == 51" )), (((struct regnode_lstring *)n)->string)) : (((((n)-> type) != 41 && ((n)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 4202, __func__, "((n)->type) != 41 && ((n)->type) != 51" )), ((struct regnode_string *)n)->string))[STR_LEN(n)((((n)->type) == 41 || ((n)->type) == 51) ? (((((n)-> type) == 41 || ((n)->type) == 51) ? (void)0 : __assert2("re_comp.c" , 4202, __func__, "((n)->type) == 41 || ((n)->type) == 51" )), (((struct regnode_lstring *)n)->str_len)) : (((((n)-> type) != 41 && ((n)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 4202, __func__, "((n)->type) != 41 && ((n)->type) != 51" )), ((struct regnode_string *)n)->str_len))-1] == 's') { |
4203 | |
4204 | /* Here the joined node would end with 's'. If the node |
4205 | * following the combination is an EXACTF one, it's better to |
4206 | * join this trailing edge 's' node with that one, leaving the |
4207 | * current one in 'scan' be the more desirable EXACTFU */ |
4208 | if (OP(nnext)((nnext)->type) == EXACTF43) { |
4209 | break; |
4210 | } |
4211 | |
4212 | OP(scan)((scan)->type) = EXACTFU_S_EDGE53; |
4213 | |
4214 | } /* Otherwise, the beginning 's' of the 2nd node just |
4215 | becomes an interior 's' in 'scan' */ |
4216 | } |
4217 | else if (OP(scan)((scan)->type) == EXACTF43 && OP(n)((n)->type) == EXACTF43) { |
4218 | ; /* join is compatible, no need to change OP */ |
4219 | } |
4220 | else if (OP(scan)((scan)->type) == EXACTF43 && OP(n)((n)->type) == EXACTFU_S_EDGE53) { |
4221 | |
4222 | /* EXACTF nodes are compatible for joining with EXACTFU_S_EDGE |
4223 | * nodes. But the latter nodes can be also joined with EXACTFU |
4224 | * ones, and that is a better outcome, so if the node following |
4225 | * 'n' is EXACTFU, quit now so that those two can be joined |
4226 | * later */ |
4227 | if (OP(nnext)((nnext)->type) == EXACTFU45) { |
4228 | break; |
4229 | } |
4230 | |
4231 | /* The join is compatible, and the combined node will be |
4232 | * EXACTF. (These don't care if they begin or end with 's' */ |
4233 | } |
4234 | else if (OP(scan)((scan)->type) == EXACTFU_S_EDGE53 && OP(n)((n)->type) == EXACTFU_S_EDGE53) { |
4235 | if ( STRING(scan)((((scan)->type) == 41 || ((scan)->type) == 51) ? ((((( scan)->type) == 41 || ((scan)->type) == 51) ? (void)0 : __assert2("re_comp.c", 4235, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->string)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 4235, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->string))[STR_LEN(scan)((((scan)->type) == 41 || ((scan)->type) == 51) ? ((((( scan)->type) == 41 || ((scan)->type) == 51) ? (void)0 : __assert2("re_comp.c", 4235, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->str_len)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 4235, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->str_len))-1] == 's' |
4236 | && STRING(n)((((n)->type) == 41 || ((n)->type) == 51) ? (((((n)-> type) == 41 || ((n)->type) == 51) ? (void)0 : __assert2("re_comp.c" , 4236, __func__, "((n)->type) == 41 || ((n)->type) == 51" )), (((struct regnode_lstring *)n)->string)) : (((((n)-> type) != 41 && ((n)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 4236, __func__, "((n)->type) != 41 && ((n)->type) != 51" )), ((struct regnode_string *)n)->string))[0] == 's') |
4237 | { |
4238 | /* When combined, we have the sequence 'ss', which means we |
4239 | * have to remain /di */ |
4240 | OP(scan)((scan)->type) = EXACTF43; |
4241 | } |
4242 | } |
4243 | else if (OP(scan)((scan)->type) == EXACTFU_S_EDGE53 && OP(n)((n)->type) == EXACTFU45) { |
4244 | if (STRING(n)((((n)->type) == 41 || ((n)->type) == 51) ? (((((n)-> type) == 41 || ((n)->type) == 51) ? (void)0 : __assert2("re_comp.c" , 4244, __func__, "((n)->type) == 41 || ((n)->type) == 51" )), (((struct regnode_lstring *)n)->string)) : (((((n)-> type) != 41 && ((n)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 4244, __func__, "((n)->type) != 41 && ((n)->type) != 51" )), ((struct regnode_string *)n)->string))[0] == 's') { |
4245 | ; /* Here the join is compatible and the combined node |
4246 | starts with 's', no need to change OP */ |
4247 | } |
4248 | else { /* Now the trailing 's' is in the interior */ |
4249 | OP(scan)((scan)->type) = EXACTFU45; |
4250 | } |
4251 | } |
4252 | else if (OP(scan)((scan)->type) == EXACTFU_S_EDGE53 && OP(n)((n)->type) == EXACTF43) { |
4253 | |
4254 | /* The join is compatible, and the combined node will be |
4255 | * EXACTF. (These don't care if they begin or end with 's' */ |
4256 | OP(scan)((scan)->type) = EXACTF43; |
4257 | } |
4258 | else if (OP(scan)((scan)->type) != OP(n)((n)->type)) { |
4259 | |
4260 | /* The only other compatible joinings are the same node type */ |
4261 | break; |
4262 | } |
4263 | |
4264 | DEBUG_PEEP("merg", n, depth, 0)S_debug_peep( "merg", pRExC_state, n, depth, 0); |
4265 | merged++; |
4266 | |
4267 | NEXT_OFF(scan)((scan)->next_off) += NEXT_OFF(n)((n)->next_off); |
4268 | assert( ( STR_LEN(scan) + STR_LEN(n) ) < 256 )((( ((((scan)->type) == 41 || ((scan)->type) == 51) ? ( ((((scan)->type) == 41 || ((scan)->type) == 51) ? (void )0 : __assert2("re_comp.c", 4268, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->str_len)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 4268, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->str_len)) + ((((n)-> type) == 41 || ((n)->type) == 51) ? (((((n)->type) == 41 || ((n)->type) == 51) ? (void)0 : __assert2("re_comp.c", 4268 , __func__, "((n)->type) == 41 || ((n)->type) == 51")), (((struct regnode_lstring *)n)->str_len)) : (((((n)->type ) != 41 && ((n)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 4268, __func__, "((n)->type) != 41 && ((n)->type) != 51" )), ((struct regnode_string *)n)->str_len)) ) < 256) ? ( void)0 : __assert2("re_comp.c", 4268, __func__, "( STR_LEN(scan) + STR_LEN(n) ) < 256" )); |
4269 | setSTR_LEN(scan, (U8)(STR_LEN(scan) + STR_LEN(n)))do{ if (((scan)->type) == 41 || ((scan)->type) == 51) ( (struct regnode_lstring *)(scan))->str_len = ((U8)(((((scan )->type) == 41 || ((scan)->type) == 51) ? (((((scan)-> type) == 41 || ((scan)->type) == 51) ? (void)0 : __assert2 ("re_comp.c", 4269, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->str_len)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 4269, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->str_len)) + ((((n)-> type) == 41 || ((n)->type) == 51) ? (((((n)->type) == 41 || ((n)->type) == 51) ? (void)0 : __assert2("re_comp.c", 4269 , __func__, "((n)->type) == 41 || ((n)->type) == 51")), (((struct regnode_lstring *)n)->str_len)) : (((((n)->type ) != 41 && ((n)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 4269, __func__, "((n)->type) != 41 && ((n)->type) != 51" )), ((struct regnode_string *)n)->str_len)))); else ((struct regnode_string *)(scan))->str_len = ((U8)(((((scan)->type ) == 41 || ((scan)->type) == 51) ? (((((scan)->type) == 41 || ((scan)->type) == 51) ? (void)0 : __assert2("re_comp.c" , 4269, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->str_len)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 4269, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->str_len)) + ((((n)-> type) == 41 || ((n)->type) == 51) ? (((((n)->type) == 41 || ((n)->type) == 51) ? (void)0 : __assert2("re_comp.c", 4269 , __func__, "((n)->type) == 41 || ((n)->type) == 51")), (((struct regnode_lstring *)n)->str_len)) : (((((n)->type ) != 41 && ((n)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 4269, __func__, "((n)->type) != 41 && ((n)->type) != 51" )), ((struct regnode_string *)n)->str_len)))); } while (0); |
4270 | next = n + NODE_SZ_STR(n)((((((((n)->type) == 41 || ((n)->type) == 51) ? (((((n) ->type) == 41 || ((n)->type) == 51) ? (void)0 : __assert2 ("re_comp.c", 4270, __func__, "((n)->type) == 41 || ((n)->type) == 51" )), (((struct regnode_lstring *)n)->str_len)) : (((((n)-> type) != 41 && ((n)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 4270, __func__, "((n)->type) != 41 && ((n)->type) != 51" )), ((struct regnode_string *)n)->str_len))) + sizeof(regnode ) - 1) / sizeof(regnode)) + 1 + regarglen[(n)->type]); |
4271 | /* Now we can overwrite *n : */ |
4272 | Move(STRING(n), STRING(scan) + oldl, STR_LEN(n), char)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(((( (n)->type) == 41 || ((n)->type) == 51) ? (((((n)->type ) == 41 || ((n)->type) == 51) ? (void)0 : __assert2("re_comp.c" , 4272, __func__, "((n)->type) == 41 || ((n)->type) == 51" )), (((struct regnode_lstring *)n)->str_len)) : (((((n)-> type) != 41 && ((n)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 4272, __func__, "((n)->type) != 41 && ((n)->type) != 51" )), ((struct regnode_string *)n)->str_len))) || sizeof(char ) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(((((n)-> type) == 41 || ((n)->type) == 51) ? (((((n)->type) == 41 || ((n)->type) == 51) ? (void)0 : __assert2("re_comp.c", 4272 , __func__, "((n)->type) == 41 || ((n)->type) == 51")), (((struct regnode_lstring *)n)->str_len)) : (((((n)->type ) != 41 && ((n)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 4272, __func__, "((n)->type) != 41 && ((n)->type) != 51" )), ((struct regnode_string *)n)->str_len)))))) ? (size_t) (((((n)->type) == 41 || ((n)->type) == 51) ? (((((n)-> type) == 41 || ((n)->type) == 51) ? (void)0 : __assert2("re_comp.c" , 4272, __func__, "((n)->type) == 41 || ((n)->type) == 51" )), (((struct regnode_lstring *)n)->str_len)) : (((((n)-> type) != 41 && ((n)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 4272, __func__, "((n)->type) != 41 && ((n)->type) != 51" )), ((struct regnode_string *)n)->str_len))) : ((size_t)-1 )/sizeof(char)) > ((size_t)-1)/sizeof(char))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), ((( (void*)(((((scan)->type) == 41 || ((scan)->type) == 51) ? (((((scan)->type) == 41 || ((scan)->type) == 51) ? ( void)0 : __assert2("re_comp.c", 4272, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->string)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 4272, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->string)) + oldl)) != 0 ) ? (void)0 : __assert2("re_comp.c", 4272, __func__, "((void*)(((((scan)->type) == 41 || ((scan)->type) == 51) ? (((((scan)->type) == 41 || ((scan)->type) == 51) ? (void)0 : __assert2(\"re_comp.c\", 4272, __func__, \"((scan)->type) == 41 || ((scan)->type) == 51\")), (((struct regnode_lstring *)scan)->string)) : (((((scan)->type) != 41 && ((scan)->type) != 51) ? (void)0 : __assert2(\"re_comp.c\", 4272, __func__, \"((scan)->type) != 41 && ((scan)->type) != 51\")), ((struct regnode_string *)scan)->string)) + oldl)) != 0" )), ((((void*)(((((n)->type) == 41 || ((n)->type) == 51 ) ? (((((n)->type) == 41 || ((n)->type) == 51) ? (void) 0 : __assert2("re_comp.c", 4272, __func__, "((n)->type) == 41 || ((n)->type) == 51" )), (((struct regnode_lstring *)n)->string)) : (((((n)-> type) != 41 && ((n)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 4272, __func__, "((n)->type) != 41 && ((n)->type) != 51" )), ((struct regnode_string *)n)->string)))) != 0) ? (void )0 : __assert2("re_comp.c", 4272, __func__, "((void*)(((((n)->type) == 41 || ((n)->type) == 51) ? (((((n)->type) == 41 || ((n)->type) == 51) ? (void)0 : __assert2(\"re_comp.c\", 4272, __func__, \"((n)->type) == 41 || ((n)->type) == 51\")), (((struct regnode_lstring *)n)->string)) : (((((n)->type) != 41 && ((n)->type) != 51) ? (void)0 : __assert2(\"re_comp.c\", 4272, __func__, \"((n)->type) != 41 && ((n)->type) != 51\")), ((struct regnode_string *)n)->string)))) != 0" )), (void)memmove((char*)(((((scan)->type) == 41 || ((scan )->type) == 51) ? (((((scan)->type) == 41 || ((scan)-> type) == 51) ? (void)0 : __assert2("re_comp.c", 4272, __func__ , "((scan)->type) == 41 || ((scan)->type) == 51")), ((( struct regnode_lstring *)scan)->string)) : (((((scan)-> type) != 41 && ((scan)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 4272, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->string)) + oldl),(const char*)(((((n)->type) == 41 || ((n)->type) == 51) ? ((( ((n)->type) == 41 || ((n)->type) == 51) ? (void)0 : __assert2 ("re_comp.c", 4272, __func__, "((n)->type) == 41 || ((n)->type) == 51" )), (((struct regnode_lstring *)n)->string)) : (((((n)-> type) != 41 && ((n)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 4272, __func__, "((n)->type) != 41 && ((n)->type) != 51" )), ((struct regnode_string *)n)->string))), (((((n)->type ) == 41 || ((n)->type) == 51) ? (((((n)->type) == 41 || ((n)->type) == 51) ? (void)0 : __assert2("re_comp.c", 4272 , __func__, "((n)->type) == 41 || ((n)->type) == 51")), (((struct regnode_lstring *)n)->str_len)) : (((((n)->type ) != 41 && ((n)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 4272, __func__, "((n)->type) != 41 && ((n)->type) != 51" )), ((struct regnode_string *)n)->str_len))) * sizeof(char ))); |
4273 | #ifdef DEBUGGING |
4274 | stop = next - 1; |
4275 | #endif |
4276 | n = nnext; |
4277 | if (stopnow) break; |
4278 | } |
4279 | |
4280 | #ifdef EXPERIMENTAL_INPLACESCAN |
4281 | if (flags && !NEXT_OFF(n)((n)->next_off)) { |
4282 | DEBUG_PEEP("atch", val, depth, 0)S_debug_peep( "atch", pRExC_state, val, depth, 0); |
4283 | if (reg_off_by_arg[OP(n)((n)->type)]) { |
4284 | ARG_SET(n, val - n)(((((struct regnode_1 *)n)->arg1)) = ((val - n))); |
4285 | } |
4286 | else { |
4287 | NEXT_OFF(n)((n)->next_off) = val - n; |
4288 | } |
4289 | stopnow = 1; |
4290 | } |
4291 | #endif |
4292 | } |
4293 | |
4294 | /* This temporary node can now be turned into EXACTFU, and must, as |
4295 | * regexec.c doesn't handle it */ |
4296 | if (OP(scan)((scan)->type) == EXACTFU_S_EDGE53) { |
4297 | OP(scan)((scan)->type) = EXACTFU45; |
4298 | } |
4299 | |
4300 | *min_subtract = 0; |
4301 | *unfolded_multi_char = FALSE(0); |
4302 | |
4303 | /* Here, all the adjacent mergeable EXACTish nodes have been merged. We |
4304 | * can now analyze for sequences of problematic code points. (Prior to |
4305 | * this final joining, sequences could have been split over boundaries, and |
4306 | * hence missed). The sequences only happen in folding, hence for any |
4307 | * non-EXACT EXACTish node */ |
4308 | if (OP(scan)((scan)->type) != EXACT40 && OP(scan)((scan)->type) != EXACT_REQ850 && OP(scan)((scan)->type) != EXACTL42) { |
4309 | U8* s0 = (U8*) STRING(scan)((((scan)->type) == 41 || ((scan)->type) == 51) ? ((((( scan)->type) == 41 || ((scan)->type) == 51) ? (void)0 : __assert2("re_comp.c", 4309, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->string)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 4309, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->string)); |
4310 | U8* s = s0; |
4311 | U8* s_end = s0 + STR_LEN(scan)((((scan)->type) == 41 || ((scan)->type) == 51) ? ((((( scan)->type) == 41 || ((scan)->type) == 51) ? (void)0 : __assert2("re_comp.c", 4311, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->str_len)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 4311, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->str_len)); |
4312 | |
4313 | int total_count_delta = 0; /* Total delta number of characters that |
4314 | multi-char folds expand to */ |
4315 | |
4316 | /* One pass is made over the node's string looking for all the |
4317 | * possibilities. To avoid some tests in the loop, there are two main |
4318 | * cases, for UTF-8 patterns (which can't have EXACTF nodes) and |
4319 | * non-UTF-8 */ |
4320 | if (UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) { |
4321 | U8* folded = NULL((void*)0); |
4322 | |
4323 | if (OP(scan)((scan)->type) == EXACTFL44) { |
4324 | U8 *d; |
4325 | |
4326 | /* An EXACTFL node would already have been changed to another |
4327 | * node type unless there is at least one character in it that |
4328 | * is problematic; likely a character whose fold definition |
4329 | * won't be known until runtime, and so has yet to be folded. |
4330 | * For all but the UTF-8 locale, folds are 1-1 in length, but |
4331 | * to handle the UTF-8 case, we need to create a temporary |
4332 | * folded copy using UTF-8 locale rules in order to analyze it. |
4333 | * This is because our macros that look to see if a sequence is |
4334 | * a multi-char fold assume everything is folded (otherwise the |
4335 | * tests in those macros would be too complicated and slow). |
4336 | * Note that here, the non-problematic folds will have already |
4337 | * been done, so we can just copy such characters. We actually |
4338 | * don't completely fold the EXACTFL string. We skip the |
4339 | * unfolded multi-char folds, as that would just create work |
4340 | * below to figure out the size they already are */ |
4341 | |
4342 | Newx(folded, UTF8_MAX_FOLD_CHAR_EXPAND * STR_LEN(scan) + 1, U8)(folded = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof (3 * ((((scan)->type) == 41 || ((scan)->type) == 51) ? ( ((((scan)->type) == 41 || ((scan)->type) == 51) ? (void )0 : __assert2("re_comp.c", 4342, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->str_len)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 4342, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->str_len)) + 1) || sizeof (U8) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(3 * ( (((scan)->type) == 41 || ((scan)->type) == 51) ? (((((scan )->type) == 41 || ((scan)->type) == 51) ? (void)0 : __assert2 ("re_comp.c", 4342, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->str_len)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 4342, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->str_len)) + 1)))) ? ( size_t)(3 * ((((scan)->type) == 41 || ((scan)->type) == 51) ? (((((scan)->type) == 41 || ((scan)->type) == 51) ? (void)0 : __assert2("re_comp.c", 4342, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->str_len)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 4342, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->str_len)) + 1) : ((size_t )-1)/sizeof(U8)) > ((size_t)-1)/sizeof(U8))) ? (_Bool)1 : ( _Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), (U8*) (Perl_safesysmalloc((size_t)((3 * ((((scan)->type) == 41 || ((scan)->type) == 51) ? (((((scan)->type) == 41 || ((scan )->type) == 51) ? (void)0 : __assert2("re_comp.c", 4342, __func__ , "((scan)->type) == 41 || ((scan)->type) == 51")), ((( struct regnode_lstring *)scan)->str_len)) : (((((scan)-> type) != 41 && ((scan)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 4342, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->str_len)) + 1)*sizeof (U8)))))); |
4343 | d = folded; |
4344 | while (s < s_end) { |
4345 | STRLEN s_len = UTF8SKIP(s)PL_utf8skip[*(const U8*)(s)]; |
4346 | if (! is_PROBLEMATIC_LOCALE_FOLD_utf8(s)( ( ((const U8*)s)[0] <= 0x7F ) ? 1 : ( ((((0xC3) >= (0xC2 )) ? (void)0 : __assert2("re_comp.c", 4346, __func__, "(0xC3) >= (0xC2)" )), ( (sizeof(((const U8*)s)[0]) == sizeof(U8)) ? ((((NV) ((0xC2 )) >= 0) ? (void)0 : __assert2("re_comp.c", 4346, __func__ , "(NV) ((0xC2)) >= 0")), (((NV) (((0xC3) - (0xC2))) >= 0) ? (void)0 : __assert2("re_comp.c", 4346, __func__, "(NV) (((0xC3) - (0xC2))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[0])))) - (((0xC2)) | 0)) ) <= (((U64) ((((0xC3) - (0xC2))) | 0))))) : (sizeof(((const U8*)s)[0]) == sizeof(U32)) ? ((((NV) ((0xC2)) >= 0) ? (void )0 : __assert2("re_comp.c", 4346, __func__, "(NV) ((0xC2)) >= 0" )), (((NV) (((0xC3) - (0xC2))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4346, __func__, "(NV) (((0xC3) - (0xC2))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[0])))) - (((0xC2)) | 0) )) <= (((U64) ((((0xC3) - (0xC2))) | 0))))) : (((sizeof((( const U8*)s)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 4346, __func__, "sizeof(((const U8*)s)[0]) == sizeof(U64)") ), ((((NV) ((0xC2)) >= 0) ? (void)0 : __assert2("re_comp.c" , 4346, __func__, "(NV) ((0xC2)) >= 0")), (((NV) (((0xC3) - (0xC2))) >= 0) ? (void)0 : __assert2("re_comp.c", 4346, __func__ , "(NV) (((0xC3) - (0xC2))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[0])))) - (((0xC2)) | 0))) <= (((U64) ((((0xC3 ) - (0xC2))) | 0)))))))) ) ? 2 : ( 0xC4 == ((const U8*)s)[0] ) ? ( ( ((((0xB1) >= (0xB0)) ? (void)0 : __assert2("re_comp.c" , 4346, __func__, "(0xB1) >= (0xB0)")), ( (sizeof(((const U8 *)s)[1]) == sizeof(U8)) ? ((((NV) ((0xB0)) >= 0) ? (void)0 : __assert2("re_comp.c", 4346, __func__, "(NV) ((0xB0)) >= 0" )), (((NV) (((0xB1) - (0xB0))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4346, __func__, "(NV) (((0xB1) - (0xB0))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[1])))) - (((0xB0)) | 0)) ) <= (((U64) ((((0xB1) - (0xB0))) | 0))))) : (sizeof(((const U8*)s)[1]) == sizeof(U32)) ? ((((NV) ((0xB0)) >= 0) ? (void )0 : __assert2("re_comp.c", 4346, __func__, "(NV) ((0xB0)) >= 0" )), (((NV) (((0xB1) - (0xB0))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4346, __func__, "(NV) (((0xB1) - (0xB0))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[1])))) - (((0xB0)) | 0) )) <= (((U64) ((((0xB1) - (0xB0))) | 0))))) : (((sizeof((( const U8*)s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 4346, __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)") ), ((((NV) ((0xB0)) >= 0) ? (void)0 : __assert2("re_comp.c" , 4346, __func__, "(NV) ((0xB0)) >= 0")), (((NV) (((0xB1) - (0xB0))) >= 0) ? (void)0 : __assert2("re_comp.c", 4346, __func__ , "(NV) (((0xB1) - (0xB0))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[1])))) - (((0xB0)) | 0))) <= (((U64) ((((0xB1 ) - (0xB0))) | 0)))))))) ) ? 2 : 0 ) : ( 0xC5 == ((const U8*) s)[0] ) ? ( ( 0x89 == ((const U8*)s)[1] || 0xB8 == ((const U8 *)s)[1] || 0xBF == ((const U8*)s)[1] ) ? 2 : 0 ): ( 0xC7 == ( (const U8*)s)[0] ) ? ( ( 0xB0 == ((const U8*)s)[1] ) ? 2 : 0 ) : ( 0xCC == ((const U8*)s)[0] ) ? ( ( 0x87 == ((const U8*)s) [1] ) ? 2 : 0 ) : ( 0xCE == ((const U8*)s)[0] ) ? ( ( ( ((const U8*)s)[1] & 0xDF ) == 0x9C ) ? 2 : 0 ) : ( 0xE1 == ((const U8*)s)[0] ) ? ( ( ( 0xBA == ((const U8*)s)[1] ) && ( ((((0x9A) >= (0x96)) ? (void)0 : __assert2("re_comp.c", 4346 , __func__, "(0x9A) >= (0x96)")), ( (sizeof(((const U8*)s) [2]) == sizeof(U8)) ? ((((NV) ((0x96)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4346, __func__, "(NV) ((0x96)) >= 0")), (((NV ) (((0x9A) - (0x96))) >= 0) ? (void)0 : __assert2("re_comp.c" , 4346, __func__, "(NV) (((0x9A) - (0x96))) >= 0")), (((U64 ) (((((U8) (((const U8*)s)[2])))) - (((0x96)) | 0))) <= (( (U64) ((((0x9A) - (0x96))) | 0))))) : (sizeof(((const U8*)s)[ 2]) == sizeof(U32)) ? ((((NV) ((0x96)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4346, __func__, "(NV) ((0x96)) >= 0")), (((NV ) (((0x9A) - (0x96))) >= 0) ? (void)0 : __assert2("re_comp.c" , 4346, __func__, "(NV) (((0x9A) - (0x96))) >= 0")), (((U64 ) (((((U32) (((const U8*)s)[2])))) - (((0x96)) | 0))) <= ( ((U64) ((((0x9A) - (0x96))) | 0))))) : (((sizeof(((const U8*) s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 4346 , __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)")), ((( (NV) ((0x96)) >= 0) ? (void)0 : __assert2("re_comp.c", 4346 , __func__, "(NV) ((0x96)) >= 0")), (((NV) (((0x9A) - (0x96 ))) >= 0) ? (void)0 : __assert2("re_comp.c", 4346, __func__ , "(NV) (((0x9A) - (0x96))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0x96)) | 0))) <= (((U64) ((((0x9A ) - (0x96))) | 0)))))))) || 0x9E == ((const U8*)s)[2] ) ) ? 3 : 0 ): ( 0xE2 == ((const U8*)s)[0] ) ? ( ( ( 0x84 == ((const U8*)s)[1] ) && ( ((((0xAB) >= (0xAA)) ? (void)0 : __assert2("re_comp.c", 4346, __func__, "(0xAB) >= (0xAA)" )), ( (sizeof(((const U8*)s)[2]) == sizeof(U8)) ? ((((NV) ((0xAA )) >= 0) ? (void)0 : __assert2("re_comp.c", 4346, __func__ , "(NV) ((0xAA)) >= 0")), (((NV) (((0xAB) - (0xAA))) >= 0) ? (void)0 : __assert2("re_comp.c", 4346, __func__, "(NV) (((0xAB) - (0xAA))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[2])))) - (((0xAA)) | 0)) ) <= (((U64) ((((0xAB) - (0xAA))) | 0))))) : (sizeof(((const U8*)s)[2]) == sizeof(U32)) ? ((((NV) ((0xAA)) >= 0) ? (void )0 : __assert2("re_comp.c", 4346, __func__, "(NV) ((0xAA)) >= 0" )), (((NV) (((0xAB) - (0xAA))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4346, __func__, "(NV) (((0xAB) - (0xAA))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[2])))) - (((0xAA)) | 0) )) <= (((U64) ((((0xAB) - (0xAA))) | 0))))) : (((sizeof((( const U8*)s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 4346, __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)") ), ((((NV) ((0xAA)) >= 0) ? (void)0 : __assert2("re_comp.c" , 4346, __func__, "(NV) ((0xAA)) >= 0")), (((NV) (((0xAB) - (0xAA))) >= 0) ? (void)0 : __assert2("re_comp.c", 4346, __func__ , "(NV) (((0xAB) - (0xAA))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0xAA)) | 0))) <= (((U64) ((((0xAB ) - (0xAA))) | 0)))))))) ) ) ? 3 : 0 ): ( ( ( 0xEF == ((const U8*)s)[0] ) && ( 0xAC == ((const U8*)s)[1] ) ) && ( ((((0x86) >= (0x80)) ? (void)0 : __assert2("re_comp.c", 4346, __func__, "(0x86) >= (0x80)")), ( (sizeof(((const U8 *)s)[2]) == sizeof(U8)) ? ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c", 4346, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x86) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4346, __func__, "(NV) (((0x86) - (0x80))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[2])))) - (((0x80)) | 0)) ) <= (((U64) ((((0x86) - (0x80))) | 0))))) : (sizeof(((const U8*)s)[2]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? (void )0 : __assert2("re_comp.c", 4346, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x86) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4346, __func__, "(NV) (((0x86) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[2])))) - (((0x80)) | 0) )) <= (((U64) ((((0x86) - (0x80))) | 0))))) : (((sizeof((( const U8*)s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 4346, __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)") ), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c" , 4346, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x86) - (0x80))) >= 0) ? (void)0 : __assert2("re_comp.c", 4346, __func__ , "(NV) (((0x86) - (0x80))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0x80)) | 0))) <= (((U64) ((((0x86 ) - (0x80))) | 0)))))))) ) ) ? 3 : 0 )) { |
4347 | Copy(s, d, s_len, U8)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(s_len ) || sizeof(U8) > ((size_t)1 << 8*(sizeof(size_t) - sizeof (s_len)))) ? (size_t)(s_len) : ((size_t)-1)/sizeof(U8)) > ( (size_t)-1)/sizeof(U8))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), ((((void*)(d)) != 0) ? (void) 0 : __assert2("re_comp.c", 4347, __func__, "((void*)(d)) != 0" )), ((((void*)(s)) != 0) ? (void)0 : __assert2("re_comp.c", 4347 , __func__, "((void*)(s)) != 0")), (void)memcpy((char*)(d),(const char*)(s), (s_len) * sizeof(U8))); |
4348 | d += s_len; |
4349 | } |
4350 | else if (is_FOLDS_TO_MULTI_utf8(s)( ( 0xC3 == ((const U8*)s)[0] ) ? ( ( 0x9F == ((const U8*)s)[ 1] ) ? 2 : 0 ) : ( 0xC4 == ((const U8*)s)[0] || 0xC7 == ((const U8*)s)[0] ) ? ( ( 0xB0 == ((const U8*)s)[1] ) ? 2 : 0 ) : ( 0xC5 == ((const U8*)s)[0] ) ? ( ( 0x89 == ((const U8*)s)[1] ) ? 2 : 0 ) : ( 0xCE == ((const U8*)s)[0] ) ? ( ( ( ((const U8*)s) [1] & 0xDF ) == 0x90 ) ? 2 : 0 ) : ( 0xD6 == ((const U8*) s)[0] ) ? ( ( 0x87 == ((const U8*)s)[1] ) ? 2 : 0 ) : ( 0xE1 == ((const U8*)s)[0] ) ? ( ( 0xBA == ((const U8*)s)[1] ) ? ( ( ( (((0x9A) >= (0x96)) ? (void)0 : __assert2("re_comp.c", 4350 , __func__, "(0x9A) >= (0x96)")), ( (sizeof(((const U8*)s) [2]) == sizeof(U8)) ? ((((NV) ((0x96)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4350, __func__, "(NV) ((0x96)) >= 0")), (((NV ) (((0x9A) - (0x96))) >= 0) ? (void)0 : __assert2("re_comp.c" , 4350, __func__, "(NV) (((0x9A) - (0x96))) >= 0")), (((U64 ) (((((U8) (((const U8*)s)[2])))) - (((0x96)) | 0))) <= (( (U64) ((((0x9A) - (0x96))) | 0))))) : (sizeof(((const U8*)s)[ 2]) == sizeof(U32)) ? ((((NV) ((0x96)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4350, __func__, "(NV) ((0x96)) >= 0")), (((NV ) (((0x9A) - (0x96))) >= 0) ? (void)0 : __assert2("re_comp.c" , 4350, __func__, "(NV) (((0x9A) - (0x96))) >= 0")), (((U64 ) (((((U32) (((const U8*)s)[2])))) - (((0x96)) | 0))) <= ( ((U64) ((((0x9A) - (0x96))) | 0))))) : (((sizeof(((const U8*) s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 4350 , __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)")), ((( (NV) ((0x96)) >= 0) ? (void)0 : __assert2("re_comp.c", 4350 , __func__, "(NV) ((0x96)) >= 0")), (((NV) (((0x9A) - (0x96 ))) >= 0) ? (void)0 : __assert2("re_comp.c", 4350, __func__ , "(NV) (((0x9A) - (0x96))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0x96)) | 0))) <= (((U64) ((((0x9A ) - (0x96))) | 0)))))))) || 0x9E == ((const U8*)s)[2] ) ? 3 : 0 ) : ( 0xBD == ((const U8*)s)[1] ) ? ( ( ( ((const U8*)s)[2 ] & 0xF9 ) == 0x90 ) ? 3 : 0 ) : ( 0xBE == ((const U8*)s) [1] ) ? ( ( ((((0xAF) >= (0x80)) ? (void)0 : __assert2("re_comp.c" , 4350, __func__, "(0xAF) >= (0x80)")), ( (sizeof(((const U8 *)s)[2]) == sizeof(U8)) ? ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c", 4350, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0xAF) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4350, __func__, "(NV) (((0xAF) - (0x80))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[2])))) - (((0x80)) | 0)) ) <= (((U64) ((((0xAF) - (0x80))) | 0))))) : (sizeof(((const U8*)s)[2]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? (void )0 : __assert2("re_comp.c", 4350, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0xAF) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4350, __func__, "(NV) (((0xAF) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[2])))) - (((0x80)) | 0) )) <= (((U64) ((((0xAF) - (0x80))) | 0))))) : (((sizeof((( const U8*)s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 4350, __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)") ), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c" , 4350, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0xAF) - (0x80))) >= 0) ? (void)0 : __assert2("re_comp.c", 4350, __func__ , "(NV) (((0xAF) - (0x80))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0x80)) | 0))) <= (((U64) ((((0xAF ) - (0x80))) | 0)))))))) || ((((0xB4) >= (0xB2)) ? (void)0 : __assert2("re_comp.c", 4350, __func__, "(0xB4) >= (0xB2)" )), ( (sizeof(((const U8*)s)[2]) == sizeof(U8)) ? ((((NV) ((0xB2 )) >= 0) ? (void)0 : __assert2("re_comp.c", 4350, __func__ , "(NV) ((0xB2)) >= 0")), (((NV) (((0xB4) - (0xB2))) >= 0) ? (void)0 : __assert2("re_comp.c", 4350, __func__, "(NV) (((0xB4) - (0xB2))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[2])))) - (((0xB2)) | 0)) ) <= (((U64) ((((0xB4) - (0xB2))) | 0))))) : (sizeof(((const U8*)s)[2]) == sizeof(U32)) ? ((((NV) ((0xB2)) >= 0) ? (void )0 : __assert2("re_comp.c", 4350, __func__, "(NV) ((0xB2)) >= 0" )), (((NV) (((0xB4) - (0xB2))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4350, __func__, "(NV) (((0xB4) - (0xB2))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[2])))) - (((0xB2)) | 0) )) <= (((U64) ((((0xB4) - (0xB2))) | 0))))) : (((sizeof((( const U8*)s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 4350, __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)") ), ((((NV) ((0xB2)) >= 0) ? (void)0 : __assert2("re_comp.c" , 4350, __func__, "(NV) ((0xB2)) >= 0")), (((NV) (((0xB4) - (0xB2))) >= 0) ? (void)0 : __assert2("re_comp.c", 4350, __func__ , "(NV) (((0xB4) - (0xB2))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0xB2)) | 0))) <= (((U64) ((((0xB4 ) - (0xB2))) | 0)))))))) || ((((0xB7) >= (0xB6)) ? (void)0 : __assert2("re_comp.c", 4350, __func__, "(0xB7) >= (0xB6)" )), ( (sizeof(((const U8*)s)[2]) == sizeof(U8)) ? ((((NV) ((0xB6 )) >= 0) ? (void)0 : __assert2("re_comp.c", 4350, __func__ , "(NV) ((0xB6)) >= 0")), (((NV) (((0xB7) - (0xB6))) >= 0) ? (void)0 : __assert2("re_comp.c", 4350, __func__, "(NV) (((0xB7) - (0xB6))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[2])))) - (((0xB6)) | 0)) ) <= (((U64) ((((0xB7) - (0xB6))) | 0))))) : (sizeof(((const U8*)s)[2]) == sizeof(U32)) ? ((((NV) ((0xB6)) >= 0) ? (void )0 : __assert2("re_comp.c", 4350, __func__, "(NV) ((0xB6)) >= 0" )), (((NV) (((0xB7) - (0xB6))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4350, __func__, "(NV) (((0xB7) - (0xB6))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[2])))) - (((0xB6)) | 0) )) <= (((U64) ((((0xB7) - (0xB6))) | 0))))) : (((sizeof((( const U8*)s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 4350, __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)") ), ((((NV) ((0xB6)) >= 0) ? (void)0 : __assert2("re_comp.c" , 4350, __func__, "(NV) ((0xB6)) >= 0")), (((NV) (((0xB7) - (0xB6))) >= 0) ? (void)0 : __assert2("re_comp.c", 4350, __func__ , "(NV) (((0xB7) - (0xB6))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0xB6)) | 0))) <= (((U64) ((((0xB7 ) - (0xB6))) | 0)))))))) || 0xBC == ((const U8*)s)[2] ) ? 3 : 0 ) : ( ( 0xBF == ((const U8*)s)[1] ) && ( ( ( ((const U8*)s)[2] & 0xCA ) == 0x82 ) || ( ( ((const U8*)s)[2] & 0xF7 ) == 0x84 ) || ((const U8*)s)[2] == 0xA4 || ( ( ((const U8*)s)[2] & 0xF7 ) == 0xB4 ) ) ) ? 3 : 0 ): ( ( ( 0xEF == ((const U8*)s)[0] ) && ( 0xAC == ((const U8*)s)[1] ) ) && ( ((((0x86) >= (0x80)) ? (void)0 : __assert2 ("re_comp.c", 4350, __func__, "(0x86) >= (0x80)")), ( (sizeof (((const U8*)s)[2]) == sizeof(U8)) ? ((((NV) ((0x80)) >= 0 ) ? (void)0 : __assert2("re_comp.c", 4350, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x86) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4350, __func__, "(NV) (((0x86) - (0x80))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[2])))) - (((0x80)) | 0)) ) <= (((U64) ((((0x86) - (0x80))) | 0))))) : (sizeof(((const U8*)s)[2]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? (void )0 : __assert2("re_comp.c", 4350, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x86) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4350, __func__, "(NV) (((0x86) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[2])))) - (((0x80)) | 0) )) <= (((U64) ((((0x86) - (0x80))) | 0))))) : (((sizeof((( const U8*)s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 4350, __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)") ), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c" , 4350, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x86) - (0x80))) >= 0) ? (void)0 : __assert2("re_comp.c", 4350, __func__ , "(NV) (((0x86) - (0x80))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0x80)) | 0))) <= (((U64) ((((0x86 ) - (0x80))) | 0)))))))) || ((((0x97) >= (0x93)) ? (void)0 : __assert2("re_comp.c", 4350, __func__, "(0x97) >= (0x93)" )), ( (sizeof(((const U8*)s)[2]) == sizeof(U8)) ? ((((NV) ((0x93 )) >= 0) ? (void)0 : __assert2("re_comp.c", 4350, __func__ , "(NV) ((0x93)) >= 0")), (((NV) (((0x97) - (0x93))) >= 0) ? (void)0 : __assert2("re_comp.c", 4350, __func__, "(NV) (((0x97) - (0x93))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[2])))) - (((0x93)) | 0)) ) <= (((U64) ((((0x97) - (0x93))) | 0))))) : (sizeof(((const U8*)s)[2]) == sizeof(U32)) ? ((((NV) ((0x93)) >= 0) ? (void )0 : __assert2("re_comp.c", 4350, __func__, "(NV) ((0x93)) >= 0" )), (((NV) (((0x97) - (0x93))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4350, __func__, "(NV) (((0x97) - (0x93))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[2])))) - (((0x93)) | 0) )) <= (((U64) ((((0x97) - (0x93))) | 0))))) : (((sizeof((( const U8*)s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 4350, __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)") ), ((((NV) ((0x93)) >= 0) ? (void)0 : __assert2("re_comp.c" , 4350, __func__, "(NV) ((0x93)) >= 0")), (((NV) (((0x97) - (0x93))) >= 0) ? (void)0 : __assert2("re_comp.c", 4350, __func__ , "(NV) (((0x97) - (0x93))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0x93)) | 0))) <= (((U64) ((((0x97 ) - (0x93))) | 0)))))))) ) ) ? 3 : 0 )) { |
4351 | *unfolded_multi_char = TRUE(1); |
4352 | Copy(s, d, s_len, U8)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(s_len ) || sizeof(U8) > ((size_t)1 << 8*(sizeof(size_t) - sizeof (s_len)))) ? (size_t)(s_len) : ((size_t)-1)/sizeof(U8)) > ( (size_t)-1)/sizeof(U8))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), ((((void*)(d)) != 0) ? (void) 0 : __assert2("re_comp.c", 4352, __func__, "((void*)(d)) != 0" )), ((((void*)(s)) != 0) ? (void)0 : __assert2("re_comp.c", 4352 , __func__, "((void*)(s)) != 0")), (void)memcpy((char*)(d),(const char*)(s), (s_len) * sizeof(U8))); |
4353 | d += s_len; |
4354 | } |
4355 | else if (isASCII(*s)((U64)((*s) | 0) < 128)) { |
4356 | *(d++) = toFOLD(*s)((((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 4356 , __func__, "('Z') >= ('A')")), ( (sizeof(*s) == sizeof(U8 )) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 4356, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ( 'A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 4356, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) (*s))) ) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof(*s) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? ( void)0 : __assert2("re_comp.c", 4356, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 4356, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U32) (*s)))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof(*s) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 4356, __func__, "sizeof(*s) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 4356, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ( 'A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 4356, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) (*s)) )) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)))) )))) ? (U8)((*s) + ('a' - 'A')) : (*s)); |
4357 | } |
4358 | else { |
4359 | STRLEN len; |
4360 | _toFOLD_utf8_flags(s, s_end, d, &len, FOLD_FLAGS_FULL)Perl__to_utf8_fold_flags( s,s_end,d,&len,0x2); |
4361 | d += len; |
4362 | } |
4363 | s += s_len; |
4364 | } |
4365 | |
4366 | /* Point the remainder of the routine to look at our temporary |
4367 | * folded copy */ |
4368 | s = folded; |
4369 | s_end = d; |
4370 | } /* End of creating folded copy of EXACTFL string */ |
4371 | |
4372 | /* Examine the string for a multi-character fold sequence. UTF-8 |
4373 | * patterns have all characters pre-folded by the time this code is |
4374 | * executed */ |
4375 | while (s < s_end - 1) /* Can stop 1 before the end, as minimum |
4376 | length sequence we are looking for is 2 */ |
4377 | { |
4378 | int count = 0; /* How many characters in a multi-char fold */ |
4379 | int len = is_MULTI_CHAR_FOLD_utf8_safe(s, s_end)( ((s_end)-(s) > 5) ? ( ( 0x61 == ((const U8*)s)[0] ) ? ( ( ( 0xCA == ((const U8*)s)[1] ) && ( 0xBE == ((const U8 *)s)[2] ) ) ? 3 : 0 ) : ( 0x66 == ((const U8*)s)[0] ) ? ( ( 0x66 == ((const U8*)s)[1] ) ? ( ( 0x69 == ((const U8*)s)[2] || 0x6C == ((const U8*)s)[2] ) ? 3 : 2 ) : ( 0x69 == ((const U8*)s)[ 1] || 0x6C == ((const U8*)s)[1] ) ? 2 : 0 ) : ( 0x68 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0xB1 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x69 == ((const U8 *)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x87 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x6A == ((const U8*)s )[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x8C == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x73 == ((const U8*)s)[0 ] ) ? ( ( ((((0x74) >= (0x73)) ? (void)0 : __assert2("re_comp.c" , 4379, __func__, "(0x74) >= (0x73)")), ( (sizeof(((const U8 *)s)[1]) == sizeof(U8)) ? ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c", 4379, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4379, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[1])))) - (((0x73)) | 0)) ) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)s)[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 4379, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4379, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[1])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof((( const U8*)s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 4379, __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)") ), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 4379, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 4379, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0)))))))) ) ? 2 : 0 ) : ( 0x74 == ((const U8*) s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x88 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x77 == ((const U8*)s )[0] || 0x79 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8 *)s)[1] ) && ( 0x8A == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0xC5 == ((const U8*)s)[0] ) ? ( ( ( ( 0xBF == ((const U8 *)s)[1] ) && ( 0xC5 == ((const U8*)s)[2] ) ) && ( 0xBF == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xCA == ((const U8*)s)[0] ) ? ( ( ( 0xBC == ((const U8*)s)[1] ) && ( 0x6E == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0xCE == ((const U8 *)s)[0] ) ? ( ( ( ((const U8*)s)[1] & 0xFD ) == 0xAC ) ? ( ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xB1 == ((const U8*)s)[1] || 0xB7 == ((const U8*)s)[1] ) ? ( ( 0xCD == ((const U8*)s)[2] ) ? ( ( 0x82 == ((const U8*)s)[3] ) ? ( ( ( 0xCE == ((const U8*)s) [4] ) && ( 0xB9 == ((const U8*)s)[5] ) ) ? 6 : 4 ) : 0 ) : ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xB9 == ((const U8*)s)[1] ) ? ( ( 0xCC == ((const U8*)s)[2] ) ? ( ( 0x88 == ((const U8*)s)[3] ) ? ( ( 0xCC == ((const U8*)s)[4] ) ? ( ( ((((0x81) >= (0x80 )) ? (void)0 : __assert2("re_comp.c", 4379, __func__, "(0x81) >= (0x80)" )), ( (sizeof(((const U8*)s)[5]) == sizeof(U8)) ? ((((NV) ((0x80 )) >= 0) ? (void)0 : __assert2("re_comp.c", 4379, __func__ , "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_comp.c", 4379, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[5])))) - (((0x80)) | 0)) ) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (sizeof(((const U8*)s)[5]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? (void )0 : __assert2("re_comp.c", 4379, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4379, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[5])))) - (((0x80)) | 0) )) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (((sizeof((( const U8*)s)[5]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 4379, __func__, "sizeof(((const U8*)s)[5]) == sizeof(U64)") ), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c" , 4379, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_comp.c", 4379, __func__ , "(NV) (((0x81) - (0x80))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[5])))) - (((0x80)) | 0))) <= (((U64) ((((0x81 ) - (0x80))) | 0)))))))) ) ? 6 : 0 ) : ( ( 0xCD == ((const U8 *)s)[4] ) && ( 0x82 == ((const U8*)s)[5] ) ) ? 6 : 0 ) : 0 ) : ( ( 0xCD == ((const U8*)s)[2] ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : 0 ) : ( 0xCF == ((const U8 *)s)[0] ) ? ( ( 0x81 == ((const U8*)s)[1] ) ? ( ( ( 0xCC == ( (const U8*)s)[2] ) && ( 0x93 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0x85 == ((const U8*)s)[1] ) ? ( ( 0xCC == ((const U8*)s)[2] ) ? ( ( 0x88 == ((const U8*)s)[3] ) ? ( ( 0xCC == ( (const U8*)s)[4] ) ? ( ( ((((0x81) >= (0x80)) ? (void)0 : __assert2 ("re_comp.c", 4379, __func__, "(0x81) >= (0x80)")), ( (sizeof (((const U8*)s)[5]) == sizeof(U8)) ? ((((NV) ((0x80)) >= 0 ) ? (void)0 : __assert2("re_comp.c", 4379, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4379, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[5])))) - (((0x80)) | 0)) ) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (sizeof(((const U8*)s)[5]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? (void )0 : __assert2("re_comp.c", 4379, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4379, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[5])))) - (((0x80)) | 0) )) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (((sizeof((( const U8*)s)[5]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 4379, __func__, "sizeof(((const U8*)s)[5]) == sizeof(U64)") ), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c" , 4379, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_comp.c", 4379, __func__ , "(NV) (((0x81) - (0x80))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[5])))) - (((0x80)) | 0))) <= (((U64) ((((0x81 ) - (0x80))) | 0)))))))) ) ? 6 : 0 ) : ( ( 0xCD == ((const U8 *)s)[4] ) && ( 0x82 == ((const U8*)s)[5] ) ) ? 6 : 0 ) : ( 0x93 == ((const U8*)s)[3] ) ? ( ( 0xCC == ((const U8*)s) [4] ) ? ( ( ((((0x81) >= (0x80)) ? (void)0 : __assert2("re_comp.c" , 4379, __func__, "(0x81) >= (0x80)")), ( (sizeof(((const U8 *)s)[5]) == sizeof(U8)) ? ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c", 4379, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4379, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[5])))) - (((0x80)) | 0)) ) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (sizeof(((const U8*)s)[5]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? (void )0 : __assert2("re_comp.c", 4379, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4379, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[5])))) - (((0x80)) | 0) )) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (((sizeof((( const U8*)s)[5]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 4379, __func__, "sizeof(((const U8*)s)[5]) == sizeof(U64)") ), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c" , 4379, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_comp.c", 4379, __func__ , "(NV) (((0x81) - (0x80))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[5])))) - (((0x80)) | 0))) <= (((U64) ((((0x81 ) - (0x80))) | 0)))))))) ) ? 6 : 4 ) : ( ( 0xCD == ((const U8 *)s)[4] ) && ( 0x82 == ((const U8*)s)[5] ) ) ? 6 : 4 ) : 0 ) : ( ( 0xCD == ((const U8*)s)[2] ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0x89 == ((const U8*)s)[1 ] ) ? ( ( 0xCD == ((const U8*)s)[2] ) ? ( ( 0x82 == ((const U8 *)s)[3] ) ? ( ( ( 0xCE == ((const U8*)s)[4] ) && ( 0xB9 == ((const U8*)s)[5] ) ) ? 6 : 4 ) : 0 ) : ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( ( ( 0x8E == ((const U8*)s)[1] ) && ( 0xCE == ((const U8*)s)[2] ) ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xD5 == ((const U8*)s)[0] ) ? ( ( 0xA5 == ( (const U8*)s)[1] ) ? ( ( ( 0xD6 == ((const U8*)s)[2] ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xB4 == ((const U8*)s)[1] ) ? ( ( ( 0xD5 == ((const U8*)s)[2] ) && ( ( ( ((const U8*)s)[3] & 0xF7 ) == 0xA5 ) || ((const U8*) s)[3] == 0xAB || ((const U8*)s)[3] == 0xB6 ) ) ? 4 : 0 ) : ( ( ( 0xBE == ((const U8*)s)[1] ) && ( 0xD5 == ((const U8 *)s)[2] ) ) && ( 0xB6 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xE1 == ((const U8*)s)[0] ) ? ( ( 0xBC == ((const U8*) s)[1] ) ? ( ( ( ( ( ((const U8*)s)[2] & 0xD8 ) == 0x80 ) && ( 0xCE == ((const U8*)s)[3] ) ) && ( 0xB9 == ((const U8*)s)[4] ) ) ? 5 : 0 ) : ( ( ( ( 0xBD == ((const U8*)s)[1] ) && ( ( ( ((const U8*)s)[2] & 0xF8 ) == 0xA0 ) || ( ( ((const U8*)s)[2] & 0xFB ) == 0xB0 ) || ((const U8*) s)[2] == 0xBC ) ) && ( 0xCE == ((const U8*)s)[3] ) ) && ( 0xB9 == ((const U8*)s)[4] ) ) ? 5 : 0 ) : 0 ) : ((s_end)-( s) > 4) ? ( ( 0x61 == ((const U8*)s)[0] ) ? ( ( ( 0xCA == ( (const U8*)s)[1] ) && ( 0xBE == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x66 == ((const U8*)s)[0] ) ? ( ( 0x66 == ((const U8*)s)[1] ) ? ( ( 0x69 == ((const U8*)s)[2] || 0x6C == ((const U8*)s)[2] ) ? 3 : 2 ) : ( 0x69 == ((const U8*)s)[1] || 0x6C == ((const U8*)s)[1] ) ? 2 : 0 ) : ( 0x68 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0xB1 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x69 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x87 == ((const U8 *)s)[2] ) ) ? 3 : 0 ) : ( 0x6A == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x8C == ((const U8* )s)[2] ) ) ? 3 : 0 ) : ( 0x73 == ((const U8*)s)[0] ) ? ( ( (( ((0x74) >= (0x73)) ? (void)0 : __assert2("re_comp.c", 4379 , __func__, "(0x74) >= (0x73)")), ( (sizeof(((const U8*)s) [1]) == sizeof(U8)) ? ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4379, __func__, "(NV) ((0x73)) >= 0")), (((NV ) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c" , 4379, __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64 ) (((((U8) (((const U8*)s)[1])))) - (((0x73)) | 0))) <= (( (U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)s)[ 1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4379, __func__, "(NV) ((0x73)) >= 0")), (((NV ) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c" , 4379, __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64 ) (((((U32) (((const U8*)s)[1])))) - (((0x73)) | 0))) <= ( ((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof(((const U8*) s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 4379 , __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)")), ((( (NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c", 4379 , __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73 ))) >= 0) ? (void)0 : __assert2("re_comp.c", 4379, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0)))))))) ) ? 2 : 0 ) : ( 0x74 == ((const U8*) s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x88 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x77 == ((const U8*)s )[0] || 0x79 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8 *)s)[1] ) && ( 0x8A == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0xC5 == ((const U8*)s)[0] ) ? ( ( ( ( 0xBF == ((const U8 *)s)[1] ) && ( 0xC5 == ((const U8*)s)[2] ) ) && ( 0xBF == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xCA == ((const U8*)s)[0] ) ? ( ( ( 0xBC == ((const U8*)s)[1] ) && ( 0x6E == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0xCE == ((const U8 *)s)[0] ) ? ( ( ( ((const U8*)s)[1] & 0xFD ) == 0xAC ) ? ( ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xB1 == ((const U8*)s)[1] || 0xB7 == ((const U8*)s)[1] ) ? ( ( 0xCD == ((const U8*)s)[2] ) ? ( ( 0x82 == ((const U8*)s)[3] ) ? 4 : 0 ) : ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( ( ( 0xB9 == ((const U8*)s)[1] ) && ( 0xCD == ((const U8*)s)[2] ) ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xCF == ((const U8*)s)[0] ) ? ( ( 0x81 == ( (const U8*)s)[1] ) ? ( ( ( 0xCC == ((const U8*)s)[2] ) && ( 0x93 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0x85 == ((const U8*)s)[1] ) ? ( ( 0xCC == ((const U8*)s)[2] ) ? ( ( 0x93 == ( (const U8*)s)[3] ) ? 4 : 0 ) : ( ( 0xCD == ((const U8*)s)[2] ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0x89 == ((const U8*)s)[1] ) ? ( ( 0xCD == ((const U8*)s)[2] ) ? ( ( 0x82 == ((const U8*)s)[3] ) ? 4 : 0 ) : ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( ( ( 0x8E == ((const U8*)s)[1] ) && ( 0xCE == ((const U8*)s)[2] ) ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xD5 == ((const U8*)s)[0] ) ? ( ( 0xA5 == ( (const U8*)s)[1] ) ? ( ( ( 0xD6 == ((const U8*)s)[2] ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xB4 == ((const U8*)s)[1] ) ? ( ( ( 0xD5 == ((const U8*)s)[2] ) && ( ( ( ((const U8*)s)[3] & 0xF7 ) == 0xA5 ) || ((const U8*) s)[3] == 0xAB || ((const U8*)s)[3] == 0xB6 ) ) ? 4 : 0 ) : ( ( ( 0xBE == ((const U8*)s)[1] ) && ( 0xD5 == ((const U8 *)s)[2] ) ) && ( 0xB6 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xE1 == ((const U8*)s)[0] ) ? ( ( 0xBC == ((const U8*) s)[1] ) ? ( ( ( ( ( ((const U8*)s)[2] & 0xD8 ) == 0x80 ) && ( 0xCE == ((const U8*)s)[3] ) ) && ( 0xB9 == ((const U8*)s)[4] ) ) ? 5 : 0 ) : ( ( ( ( 0xBD == ((const U8*)s)[1] ) && ( ( ( ((const U8*)s)[2] & 0xF8 ) == 0xA0 ) || ( ( ((const U8*)s)[2] & 0xFB ) == 0xB0 ) || ((const U8*) s)[2] == 0xBC ) ) && ( 0xCE == ((const U8*)s)[3] ) ) && ( 0xB9 == ((const U8*)s)[4] ) ) ? 5 : 0 ) : 0 ) : ( ((s_end) -(s) > 3) ? ( ( 0x61 == ((const U8*)s)[0] ) ? ( ( ( 0xCA == ((const U8*)s)[1] ) && ( 0xBE == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x66 == ((const U8*)s)[0] ) ? ( ( 0x66 == (( const U8*)s)[1] ) ? ( ( 0x69 == ((const U8*)s)[2] || 0x6C == ( (const U8*)s)[2] ) ? 3 : 2 ) : ( 0x69 == ((const U8*)s)[1] || 0x6C == ((const U8*)s)[1] ) ? 2 : 0 ) : ( 0x68 == ((const U8 *)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0xB1 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x69 == ((const U8*)s )[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x87 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x6A == ((const U8*)s)[0 ] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x8C == ( (const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x73 == ((const U8*)s)[0] ) ? ( ( ((((0x74) >= (0x73)) ? (void)0 : __assert2("re_comp.c" , 4379, __func__, "(0x74) >= (0x73)")), ( (sizeof(((const U8 *)s)[1]) == sizeof(U8)) ? ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c", 4379, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4379, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[1])))) - (((0x73)) | 0)) ) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)s)[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 4379, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4379, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[1])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof((( const U8*)s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 4379, __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)") ), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 4379, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 4379, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0)))))))) ) ? 2 : 0 ) : ( 0x74 == ((const U8*) s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x88 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x77 == ((const U8*)s )[0] || 0x79 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8 *)s)[1] ) && ( 0x8A == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0xC5 == ((const U8*)s)[0] ) ? ( ( ( ( 0xBF == ((const U8 *)s)[1] ) && ( 0xC5 == ((const U8*)s)[2] ) ) && ( 0xBF == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xCA == ((const U8*)s)[0] ) ? ( ( ( 0xBC == ((const U8*)s)[1] ) && ( 0x6E == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0xCE == ((const U8 *)s)[0] ) ? ( ( ( ((const U8*)s)[1] & 0xFD ) == 0xAC ) ? ( ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xB1 == ((const U8*)s)[1] || 0xB7 == ((const U8*)s)[1] ) ? ( ( 0xCD == ((const U8*)s)[2] ) ? ( ( 0x82 == ((const U8*)s)[3] ) ? 4 : 0 ) : ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( ( ( 0xB9 == ((const U8*)s)[1] ) && ( 0xCD == ((const U8*)s)[2] ) ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xCF == ((const U8*)s)[0] ) ? ( ( 0x81 == ( (const U8*)s)[1] ) ? ( ( ( 0xCC == ((const U8*)s)[2] ) && ( 0x93 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0x85 == ((const U8*)s)[1] ) ? ( ( 0xCC == ((const U8*)s)[2] ) ? ( ( 0x93 == ( (const U8*)s)[3] ) ? 4 : 0 ) : ( ( 0xCD == ((const U8*)s)[2] ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0x89 == ((const U8*)s)[1] ) ? ( ( 0xCD == ((const U8*)s)[2] ) ? ( ( 0x82 == ((const U8*)s)[3] ) ? 4 : 0 ) : ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( ( ( 0x8E == ((const U8*)s)[1] ) && ( 0xCE == ((const U8*)s)[2] ) ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xD5 == ((const U8*)s)[0] ) ? ( ( 0xA5 == ( (const U8*)s)[1] ) ? ( ( ( 0xD6 == ((const U8*)s)[2] ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xB4 == ((const U8*)s)[1] ) ? ( ( ( 0xD5 == ((const U8*)s)[2] ) && ( ( ( ((const U8*)s)[3] & 0xF7 ) == 0xA5 ) || ((const U8*) s)[3] == 0xAB || ((const U8*)s)[3] == 0xB6 ) ) ? 4 : 0 ) : ( ( ( 0xBE == ((const U8*)s)[1] ) && ( 0xD5 == ((const U8 *)s)[2] ) ) && ( 0xB6 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : 0 ) : ((s_end)-(s) > 2) ? ( ( 0x61 == ((const U8*)s)[ 0] ) ? ( ( ( 0xCA == ((const U8*)s)[1] ) && ( 0xBE == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x66 == ((const U8*)s)[0 ] ) ? ( ( 0x66 == ((const U8*)s)[1] ) ? ( ( 0x69 == ((const U8 *)s)[2] || 0x6C == ((const U8*)s)[2] ) ? 3 : 2 ) : ( 0x69 == ( (const U8*)s)[1] || 0x6C == ((const U8*)s)[1] ) ? 2 : 0 ) : ( 0x68 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1 ] ) && ( 0xB1 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x69 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x87 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x6A == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x8C == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x73 == ((const U8 *)s)[0] ) ? ( ( ((((0x74) >= (0x73)) ? (void)0 : __assert2 ("re_comp.c", 4379, __func__, "(0x74) >= (0x73)")), ( (sizeof (((const U8*)s)[1]) == sizeof(U8)) ? ((((NV) ((0x73)) >= 0 ) ? (void)0 : __assert2("re_comp.c", 4379, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4379, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[1])))) - (((0x73)) | 0)) ) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)s)[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 4379, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4379, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[1])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof((( const U8*)s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 4379, __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)") ), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 4379, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 4379, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0)))))))) ) ? 2 : 0 ) : ( 0x74 == ((const U8*) s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x88 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x77 == ((const U8*)s )[0] || 0x79 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8 *)s)[1] ) && ( 0x8A == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( ( ( 0xCA == ((const U8*)s)[0] ) && ( 0xBC == ((const U8*)s)[1] ) ) && ( 0x6E == ((const U8*)s)[2] ) ) ? 3 : 0 ): ((s_end)-(s) > 1) ? ( ( 0x66 == ((const U8*)s)[0] ) ? ( ( 0x66 == ((const U8*)s)[1] || 0x69 == ((const U8*)s)[1] || 0x6C == ((const U8*)s)[1] ) ? 2 : 0 ) : ( ( 0x73 == ((const U8*)s)[0] ) && ( ((((0x74) >= (0x73)) ? (void)0 : __assert2("re_comp.c", 4379, __func__, "(0x74) >= (0x73)" )), ( (sizeof(((const U8*)s)[1]) == sizeof(U8)) ? ((((NV) ((0x73 )) >= 0) ? (void)0 : __assert2("re_comp.c", 4379, __func__ , "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 4379, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[1])))) - (((0x73)) | 0)) ) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)s)[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 4379, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4379, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[1])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof((( const U8*)s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 4379, __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)") ), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 4379, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 4379, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0)))))))) ) ) ? 2 : 0 ): 0 ) ); |
4380 | if (! len) { /* Not a multi-char fold: get next char */ |
4381 | s += UTF8SKIP(s)PL_utf8skip[*(const U8*)(s)]; |
4382 | continue; |
4383 | } |
4384 | |
4385 | { /* Here is a generic multi-char fold. */ |
4386 | U8* multi_end = s + len; |
4387 | |
4388 | /* Count how many characters are in it. In the case of |
4389 | * /aa, no folds which contain ASCII code points are |
4390 | * allowed, so check for those, and skip if found. */ |
4391 | if (OP(scan)((scan)->type) != EXACTFAA46 && OP(scan)((scan)->type) != EXACTFAA_NO_TRIE49) { |
4392 | count = utf8_length(s, multi_end)Perl_utf8_length( s,multi_end); |
4393 | s = multi_end; |
4394 | } |
4395 | else { |
4396 | while (s < multi_end) { |
4397 | if (isASCII(*s)((U64)((*s) | 0) < 128)) { |
4398 | s++; |
4399 | goto next_iteration; |
4400 | } |
4401 | else { |
4402 | s += UTF8SKIP(s)PL_utf8skip[*(const U8*)(s)]; |
4403 | } |
4404 | count++; |
4405 | } |
4406 | } |
4407 | } |
4408 | |
4409 | /* The delta is how long the sequence is minus 1 (1 is how long |
4410 | * the character that folds to the sequence is) */ |
4411 | total_count_delta += count - 1; |
4412 | next_iteration: ; |
4413 | } |
4414 | |
4415 | /* We created a temporary folded copy of the string in EXACTFL |
4416 | * nodes. Therefore we need to be sure it doesn't go below zero, |
4417 | * as the real string could be shorter */ |
4418 | if (OP(scan)((scan)->type) == EXACTFL44) { |
4419 | int total_chars = utf8_length((U8*) STRING(scan),Perl_utf8_length( (U8*) ((((scan)->type) == 41 || ((scan)-> type) == 51) ? (((((scan)->type) == 41 || ((scan)->type ) == 51) ? (void)0 : __assert2("re_comp.c", 4419, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->string)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 4419, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->string)),(U8*) ((((scan )->type) == 41 || ((scan)->type) == 51) ? (((((scan)-> type) == 41 || ((scan)->type) == 51) ? (void)0 : __assert2 ("re_comp.c", 4420, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->string)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 4420, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->string)) + ((((scan)-> type) == 41 || ((scan)->type) == 51) ? (((((scan)->type ) == 41 || ((scan)->type) == 51) ? (void)0 : __assert2("re_comp.c" , 4420, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->str_len)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 4420, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->str_len))) |
4420 | (U8*) STRING(scan) + STR_LEN(scan))Perl_utf8_length( (U8*) ((((scan)->type) == 41 || ((scan)-> type) == 51) ? (((((scan)->type) == 41 || ((scan)->type ) == 51) ? (void)0 : __assert2("re_comp.c", 4419, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->string)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 4419, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->string)),(U8*) ((((scan )->type) == 41 || ((scan)->type) == 51) ? (((((scan)-> type) == 41 || ((scan)->type) == 51) ? (void)0 : __assert2 ("re_comp.c", 4420, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->string)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 4420, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->string)) + ((((scan)-> type) == 41 || ((scan)->type) == 51) ? (((((scan)->type ) == 41 || ((scan)->type) == 51) ? (void)0 : __assert2("re_comp.c" , 4420, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->str_len)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 4420, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->str_len))); |
4421 | if (total_count_delta > total_chars) { |
4422 | total_count_delta = total_chars; |
4423 | } |
4424 | } |
4425 | |
4426 | *min_subtract += total_count_delta; |
4427 | Safefree(folded)Perl_safesysfree(((void *)(folded))); |
4428 | } |
4429 | else if (OP(scan)((scan)->type) == EXACTFAA46) { |
4430 | |
4431 | /* Non-UTF-8 pattern, EXACTFAA node. There can't be a multi-char |
4432 | * fold to the ASCII range (and there are no existing ones in the |
4433 | * upper latin1 range). But, as outlined in the comments preceding |
4434 | * this function, we need to flag any occurrences of the sharp s. |
4435 | * This character forbids trie formation (because of added |
4436 | * complexity) */ |
4437 | #if UNICODE_MAJOR_VERSION13 > 3 /* no multifolds in early Unicode */ \ |
4438 | || (UNICODE_MAJOR_VERSION13 == 3 && ( UNICODE_DOT_VERSION0 > 0) \ |
4439 | || UNICODE_DOT_DOT_VERSION0 > 0) |
4440 | while (s < s_end) { |
4441 | if (*s == LATIN_SMALL_LETTER_SHARP_S0xDF) { |
4442 | OP(scan)((scan)->type) = EXACTFAA_NO_TRIE49; |
4443 | *unfolded_multi_char = TRUE(1); |
4444 | break; |
4445 | } |
4446 | s++; |
4447 | } |
4448 | } |
4449 | else if (OP(scan)((scan)->type) != EXACTFAA_NO_TRIE49) { |
4450 | |
4451 | /* Non-UTF-8 pattern, not EXACTFAA node. Look for the multi-char |
4452 | * folds that are all Latin1. As explained in the comments |
4453 | * preceding this function, we look also for the sharp s in EXACTF |
4454 | * and EXACTFL nodes; it can be in the final position. Otherwise |
4455 | * we can stop looking 1 byte earlier because have to find at least |
4456 | * two characters for a multi-fold */ |
4457 | const U8* upper = (OP(scan)((scan)->type) == EXACTF43 || OP(scan)((scan)->type) == EXACTFL44) |
4458 | ? s_end |
4459 | : s_end -1; |
4460 | |
4461 | while (s < upper) { |
4462 | int len = is_MULTI_CHAR_FOLD_latin1_safe(s, s_end)( ((s_end)-(s) > 2) ? ( ( ( ((const U8*)s)[0] & 0xDF ) == 0x46 ) ? ( ( ( ((const U8*)s)[1] & 0xDF ) == 0x46 ) ? ( ( ( ( ((const U8*)s)[2] & 0xDF ) == 0x49 ) || ( ( ((const U8*)s)[2] & 0xDF ) == 0x4C ) ) ? 3 : 2 ) : ( ( ( ((const U8*)s)[1] & 0xDF ) == 0x49 ) || ( ( ((const U8*)s)[1] & 0xDF ) == 0x4C ) ) ? 2 : 0 ) : ( ( ( ((const U8*)s)[0] & 0xDF ) == 0x53 ) && ( ((((0x54) >= (0x53)) ? (void )0 : __assert2("re_comp.c", 4462, __func__, "(0x54) >= (0x53)" )), ( (sizeof(((const U8*)s)[1]) == sizeof(U8)) ? ((((NV) ((0x53 )) >= 0) ? (void)0 : __assert2("re_comp.c", 4462, __func__ , "(NV) ((0x53)) >= 0")), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2("re_comp.c", 4462, __func__, "(NV) (((0x54) - (0x53))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[1])))) - (((0x53)) | 0)) ) <= (((U64) ((((0x54) - (0x53))) | 0))))) : (sizeof(((const U8*)s)[1]) == sizeof(U32)) ? ((((NV) ((0x53)) >= 0) ? (void )0 : __assert2("re_comp.c", 4462, __func__, "(NV) ((0x53)) >= 0" )), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4462, __func__, "(NV) (((0x54) - (0x53))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[1])))) - (((0x53)) | 0) )) <= (((U64) ((((0x54) - (0x53))) | 0))))) : (((sizeof((( const U8*)s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 4462, __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)") ), ((((NV) ((0x53)) >= 0) ? (void)0 : __assert2("re_comp.c" , 4462, __func__, "(NV) ((0x53)) >= 0")), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2("re_comp.c", 4462, __func__ , "(NV) (((0x54) - (0x53))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[1])))) - (((0x53)) | 0))) <= (((U64) ((((0x54 ) - (0x53))) | 0)))))))) || ((((0x74) >= (0x73)) ? (void)0 : __assert2("re_comp.c", 4462, __func__, "(0x74) >= (0x73)" )), ( (sizeof(((const U8*)s)[1]) == sizeof(U8)) ? ((((NV) ((0x73 )) >= 0) ? (void)0 : __assert2("re_comp.c", 4462, __func__ , "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 4462, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[1])))) - (((0x73)) | 0)) ) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)s)[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 4462, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4462, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[1])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof((( const U8*)s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 4462, __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)") ), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 4462, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 4462, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0)))))))) ) ) ? 2 : 0 ): ((s_end)-(s) > 1) ? ( ( ( ((const U8*)s)[0] & 0xDF ) == 0x46 ) ? ( ( ( ( ((const U8*)s)[1] & 0xDF ) == 0x46 ) || ( ( ((const U8*)s)[1] & 0xDF ) == 0x49 ) || ( ( ((const U8*)s)[1] & 0xDF ) == 0x4C ) ) ? 2 : 0 ) : ( ( ( ((const U8*)s)[0] & 0xDF ) == 0x53 ) && ( ((((0x54) >= (0x53)) ? (void)0 : __assert2 ("re_comp.c", 4462, __func__, "(0x54) >= (0x53)")), ( (sizeof (((const U8*)s)[1]) == sizeof(U8)) ? ((((NV) ((0x53)) >= 0 ) ? (void)0 : __assert2("re_comp.c", 4462, __func__, "(NV) ((0x53)) >= 0" )), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4462, __func__, "(NV) (((0x54) - (0x53))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[1])))) - (((0x53)) | 0)) ) <= (((U64) ((((0x54) - (0x53))) | 0))))) : (sizeof(((const U8*)s)[1]) == sizeof(U32)) ? ((((NV) ((0x53)) >= 0) ? (void )0 : __assert2("re_comp.c", 4462, __func__, "(NV) ((0x53)) >= 0" )), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4462, __func__, "(NV) (((0x54) - (0x53))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[1])))) - (((0x53)) | 0) )) <= (((U64) ((((0x54) - (0x53))) | 0))))) : (((sizeof((( const U8*)s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 4462, __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)") ), ((((NV) ((0x53)) >= 0) ? (void)0 : __assert2("re_comp.c" , 4462, __func__, "(NV) ((0x53)) >= 0")), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2("re_comp.c", 4462, __func__ , "(NV) (((0x54) - (0x53))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[1])))) - (((0x53)) | 0))) <= (((U64) ((((0x54 ) - (0x53))) | 0)))))))) || ((((0x74) >= (0x73)) ? (void)0 : __assert2("re_comp.c", 4462, __func__, "(0x74) >= (0x73)" )), ( (sizeof(((const U8*)s)[1]) == sizeof(U8)) ? ((((NV) ((0x73 )) >= 0) ? (void)0 : __assert2("re_comp.c", 4462, __func__ , "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 4462, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[1])))) - (((0x73)) | 0)) ) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)s)[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 4462, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4462, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[1])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof((( const U8*)s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 4462, __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)") ), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 4462, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 4462, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0)))))))) ) ) ? 2 : 0 ): 0 ); |
4463 | if (! len) { /* Not a multi-char fold. */ |
4464 | if (*s == LATIN_SMALL_LETTER_SHARP_S0xDF |
4465 | && (OP(scan)((scan)->type) == EXACTF43 || OP(scan)((scan)->type) == EXACTFL44)) |
4466 | { |
4467 | *unfolded_multi_char = TRUE(1); |
4468 | } |
4469 | s++; |
4470 | continue; |
4471 | } |
4472 | |
4473 | if (len == 2 |
4474 | && isALPHA_FOLD_EQ(*s, 's')((((((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 4474 , __func__, "('Z') >= ('A')")), ( (sizeof((~('A' ^ 'a') & (*s))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 4474, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 4474, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) ((~('A' ^ 'a') & (*s)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & (*s))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 4474, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 4474, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U32) ((~('A' ^ 'a') & (*s)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a' ) & (*s))) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 4474, __func__, "sizeof((~('A' ^ 'a') & (*s))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 4474, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ( 'A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 4474, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & (*s)))))) - ((('A')) | 0))) <= (((U64) (((('Z' ) - ('A'))) | 0)))))))) || (((('Z') >= ('A')) ? (void)0 : __assert2 ("re_comp.c", 4474, __func__, "('Z') >= ('A')")), ( (sizeof ((~('A' ^ 'a') & ('s'))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 4474, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 4474, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 4474, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 4474, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U32) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a' ) & ('s'))) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 4474, __func__, "sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 4474, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ( 'A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 4474, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((( 'Z') - ('A'))) | 0))))))))) ? (void)0 : __assert2("re_comp.c" , 4474, __func__, "(((('Z') >= ('A')) ? (void)0 : __assert2(\"re_comp.c\", 4474, __func__, \"('Z') >= ('A')\")), ( (sizeof((~('A' ^ 'a') & (*s))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 4474, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 4474, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U8) ((~('A' ^ 'a') & (*s)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & (*s))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 4474, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 4474, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U32) ((~('A' ^ 'a') & (*s)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a') & (*s))) == sizeof(U64)) ? (void)0 : __assert2(\"re_comp.c\", 4474, __func__, \"sizeof((~('A' ^ 'a') & (*s))) == sizeof(U64)\")), ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 4474, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 4474, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U64) ((~('A' ^ 'a') & (*s)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)))))))) || (((('Z') >= ('A')) ? (void)0 : __assert2(\"re_comp.c\", 4474, __func__, \"('Z') >= ('A')\")), ( (sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 4474, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 4474, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U8) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 4474, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 4474, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U32) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U64)) ? (void)0 : __assert2(\"re_comp.c\", 4474, __func__, \"sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U64)\")), ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 4474, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 4474, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U64) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))))))" )), ((*s) & ~('A' ^ 'a')) == (('s') & ~('A' ^ 'a'))) |
4475 | && isALPHA_FOLD_EQ(*(s+1), 's')((((((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 4475 , __func__, "('Z') >= ('A')")), ( (sizeof((~('A' ^ 'a') & (*(s+1)))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void )0 : __assert2("re_comp.c", 4475, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 4475, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) ((~('A' ^ 'a') & (*(s+1))))))) - ((('A')) | 0)) ) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & (*(s+1)))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 4475, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 4475, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U32) ((~('A' ^ 'a') & (*(s+1))))))) - ((('A')) | 0) )) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a') & (*(s+1)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_comp.c", 4475, __func__, "sizeof((~('A' ^ 'a') & (*(s+1)))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 4475, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ( 'A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 4475, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & (*(s+1))))))) - ((('A')) | 0))) <= (((U64) ( ((('Z') - ('A'))) | 0)))))))) || (((('Z') >= ('A')) ? (void )0 : __assert2("re_comp.c", 4475, __func__, "('Z') >= ('A')" )), ( (sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U8)) ? (( ((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 4475 , __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A')) ) >= 0) ? (void)0 : __assert2("re_comp.c", 4475, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((( 'Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2 ("re_comp.c", 4475, __func__, "(NV) (('A')) >= 0")), (((NV ) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 4475, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U32) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a' ) & ('s'))) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 4475, __func__, "sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 4475, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ( 'A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 4475, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((( 'Z') - ('A'))) | 0))))))))) ? (void)0 : __assert2("re_comp.c" , 4475, __func__, "(((('Z') >= ('A')) ? (void)0 : __assert2(\"re_comp.c\", 4475, __func__, \"('Z') >= ('A')\")), ( (sizeof((~('A' ^ 'a') & (*(s+1)))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 4475, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 4475, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U8) ((~('A' ^ 'a') & (*(s+1))))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & (*(s+1)))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 4475, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 4475, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U32) ((~('A' ^ 'a') & (*(s+1))))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a') & (*(s+1)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_comp.c\", 4475, __func__, \"sizeof((~('A' ^ 'a') & (*(s+1)))) == sizeof(U64)\")), ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 4475, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 4475, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U64) ((~('A' ^ 'a') & (*(s+1))))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)))))))) || (((('Z') >= ('A')) ? (void)0 : __assert2(\"re_comp.c\", 4475, __func__, \"('Z') >= ('A')\")), ( (sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 4475, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 4475, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U8) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 4475, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 4475, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U32) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U64)) ? (void)0 : __assert2(\"re_comp.c\", 4475, __func__, \"sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U64)\")), ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 4475, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 4475, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U64) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))))))" )), ((*(s+1)) & ~('A' ^ 'a')) == (('s') & ~('A' ^ 'a' )))) |
4476 | { |
4477 | |
4478 | /* EXACTF nodes need to know that the minimum length |
4479 | * changed so that a sharp s in the string can match this |
4480 | * ss in the pattern, but they remain EXACTF nodes, as they |
4481 | * won't match this unless the target string is in UTF-8, |
4482 | * which we don't know until runtime. EXACTFL nodes can't |
4483 | * transform into EXACTFU nodes */ |
4484 | if (OP(scan)((scan)->type) != EXACTF43 && OP(scan)((scan)->type) != EXACTFL44) { |
4485 | OP(scan)((scan)->type) = EXACTFUP47; |
4486 | } |
4487 | } |
4488 | |
4489 | *min_subtract += len - 1; |
4490 | s += len; |
4491 | } |
4492 | #endif |
4493 | } |
4494 | } |
4495 | |
4496 | #ifdef DEBUGGING |
4497 | /* Allow dumping but overwriting the collection of skipped |
4498 | * ops and/or strings with fake optimized ops */ |
4499 | n = scan + NODE_SZ_STR(scan)((((((((scan)->type) == 41 || ((scan)->type) == 51) ? ( ((((scan)->type) == 41 || ((scan)->type) == 51) ? (void )0 : __assert2("re_comp.c", 4499, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->str_len)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 4499, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->str_len))) + sizeof(regnode ) - 1) / sizeof(regnode)) + 1 + regarglen[(scan)->type]); |
4500 | while (n <= stop) { |
4501 | OP(n)((n)->type) = OPTIMIZED107; |
4502 | FLAGS(n)((n)->flags) = 0; |
4503 | NEXT_OFF(n)((n)->next_off) = 0; |
4504 | n++; |
4505 | } |
4506 | #endif |
4507 | DEBUG_OPTIMISE_r(if (merged){DEBUG_PEEP("finl", scan, depth, 0);})do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) if ( merged){S_debug_peep( "finl", pRExC_state, scan, depth, 0);}; } while (0); |
4508 | return stopnow; |
4509 | } |
4510 | |
4511 | /* REx optimizer. Converts nodes into quicker variants "in place". |
4512 | Finds fixed substrings. */ |
4513 | |
4514 | /* Stops at toplevel WHILEM as well as at "last". At end *scanp is set |
4515 | to the position after last scanned or to NULL. */ |
4516 | |
4517 | #define INIT_AND_WITHP((!and_withp) ? (void)0 : __assert2("re_comp.c", 4517, __func__ , "!and_withp")); (and_withp = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(1) || sizeof(regnode_ssc) > (( size_t)1 << 8*(sizeof(size_t) - sizeof(1)))) ? (size_t) (1) : ((size_t)-1)/sizeof(regnode_ssc)) > ((size_t)-1)/sizeof (regnode_ssc))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (regnode_ssc*)(Perl_safesysmalloc((size_t)((1)*sizeof (regnode_ssc)))))); Perl_save_pushptr( (void *)((char*)(and_withp )),10) \ |
4518 | assert(!and_withp)((!and_withp) ? (void)0 : __assert2("re_comp.c", 4518, __func__ , "!and_withp")); \ |
4519 | Newx(and_withp, 1, regnode_ssc)(and_withp = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(1) || sizeof(regnode_ssc) > ((size_t)1 << 8* (sizeof(size_t) - sizeof(1)))) ? (size_t)(1) : ((size_t)-1)/sizeof (regnode_ssc)) > ((size_t)-1)/sizeof(regnode_ssc))) ? (_Bool )1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), (regnode_ssc*)(Perl_safesysmalloc((size_t)((1)*sizeof(regnode_ssc )))))); \ |
4520 | SAVEFREEPV(and_withp)Perl_save_pushptr( (void *)((char*)(and_withp)),10) |
4521 | |
4522 | |
4523 | static void |
4524 | S_unwind_scan_frames(pTHX_ const void *p) |
4525 | { |
4526 | scan_frame *f= (scan_frame *)p; |
4527 | do { |
4528 | scan_frame *n= f->next_frame; |
4529 | Safefree(f)Perl_safesysfree(((void *)(f))); |
4530 | f= n; |
4531 | } while (f); |
4532 | } |
4533 | |
4534 | /* Follow the next-chain of the current node and optimize away |
4535 | all the NOTHINGs from it. |
4536 | */ |
4537 | STATICstatic void |
4538 | S_rck_elide_nothing(pTHX_ regnode *node) |
4539 | { |
4540 | dVARstruct Perl___notused_struct; |
4541 | |
4542 | PERL_ARGS_ASSERT_RCK_ELIDE_NOTHING((node) ? (void)0 : __assert2("re_comp.c", 4542, __func__, "node" )); |
4543 | |
4544 | if (OP(node)((node)->type) != CURLYX61) { |
4545 | const int max = (reg_off_by_arg[OP(node)((node)->type)] |
4546 | ? I32_MAX0x7fffffff |
4547 | /* I32 may be smaller than U16 on CRAYs! */ |
4548 | : (I32_MAX0x7fffffff < U16_MAX0xffff ? I32_MAX0x7fffffff : U16_MAX0xffff)); |
4549 | int off = (reg_off_by_arg[OP(node)((node)->type)] ? ARG(node)((((struct regnode_1 *)node)->arg1)) : NEXT_OFF(node)((node)->next_off)); |
4550 | int noff; |
4551 | regnode *n = node; |
4552 | |
4553 | /* Skip NOTHING and LONGJMP. */ |
4554 | while ( |
4555 | (n = regnext(n)Perl_regnext( n)) |
4556 | && ( |
4557 | (PL_regkind[OP(n)((n)->type)] == NOTHING54 && (noff = NEXT_OFF(n)((n)->next_off))) |
4558 | || ((OP(n)((n)->type) == LONGJMP77) && (noff = ARG(n)((((struct regnode_1 *)n)->arg1)))) |
4559 | ) |
4560 | && off + noff < max |
4561 | ) { |
4562 | off += noff; |
4563 | } |
4564 | if (reg_off_by_arg[OP(node)((node)->type)]) |
4565 | ARG(node)((((struct regnode_1 *)node)->arg1)) = off; |
4566 | else |
4567 | NEXT_OFF(node)((node)->next_off) = off; |
4568 | } |
4569 | return; |
4570 | } |
4571 | |
4572 | /* the return from this sub is the minimum length that could possibly match */ |
4573 | STATICstatic SSize_tssize_t |
4574 | S_study_chunk(pTHX_ RExC_state_t *pRExC_state, regnode **scanp, |
4575 | SSize_tssize_t *minlenp, SSize_tssize_t *deltap, |
4576 | regnode *last, |
4577 | scan_data_t *data, |
4578 | I32 stopparen, |
4579 | U32 recursed_depth, |
4580 | regnode_ssc *and_withp, |
4581 | U32 flags, U32 depth, bool_Bool was_mutate_ok) |
4582 | /* scanp: Start here (read-write). */ |
4583 | /* deltap: Write maxlen-minlen here. */ |
4584 | /* last: Stop before this one. */ |
4585 | /* data: string data about the pattern */ |
4586 | /* stopparen: treat close N as END */ |
4587 | /* recursed: which subroutines have we recursed into */ |
4588 | /* and_withp: Valid if flags & SCF_DO_STCLASS_OR */ |
4589 | { |
4590 | dVARstruct Perl___notused_struct; |
4591 | SSize_tssize_t final_minlen; |
4592 | /* There must be at least this number of characters to match */ |
4593 | SSize_tssize_t min = 0; |
4594 | I32 pars = 0, code; |
4595 | regnode *scan = *scanp, *next; |
4596 | SSize_tssize_t delta = 0; |
4597 | int is_inf = (flags & SCF_DO_SUBSTR0x0400) && (data->flags & SF_IS_INF0x0040); |
4598 | int is_inf_internal = 0; /* The studied chunk is infinite */ |
4599 | I32 is_par = OP(scan)((scan)->type) == OPEN63 ? ARG(scan)((((struct regnode_1 *)scan)->arg1)) : 0; |
4600 | scan_data_t data_fake; |
4601 | SV *re_trie_maxbuff = NULL((void*)0); |
4602 | regnode *first_non_open = scan; |
4603 | SSize_tssize_t stopmin = OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1); |
4604 | scan_frame *frame = NULL((void*)0); |
4605 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 4605, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 4605, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
4606 | |
4607 | PERL_ARGS_ASSERT_STUDY_CHUNK((pRExC_state) ? (void)0 : __assert2("re_comp.c", 4607, __func__ , "pRExC_state")); ((scanp) ? (void)0 : __assert2("re_comp.c" , 4607, __func__, "scanp")); ((minlenp) ? (void)0 : __assert2 ("re_comp.c", 4607, __func__, "minlenp")); ((deltap) ? (void) 0 : __assert2("re_comp.c", 4607, __func__, "deltap")); ((last ) ? (void)0 : __assert2("re_comp.c", 4607, __func__, "last")); |
4608 | RExC_study_started(pRExC_state->study_started)= 1; |
4609 | |
4610 | Zero(&data_fake, 1, scan_data_t)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(1) || sizeof(scan_data_t) > ((size_t)1 << 8*(sizeof(size_t ) - sizeof(1)))) ? (size_t)(1) : ((size_t)-1)/sizeof(scan_data_t )) > ((size_t)-1)/sizeof(scan_data_t))) ? (_Bool)1 : (_Bool )0),(0)) && (Perl_croak_memory_wrap(),0)), ((((void*) (&data_fake)) != 0) ? (void)0 : __assert2("re_comp.c", 4610 , __func__, "((void*)(&data_fake)) != 0")), (void)memset( (char*)(&data_fake),0,(1) * sizeof(scan_data_t))); |
4611 | |
4612 | if ( depth == 0 ) { |
4613 | while (first_non_open && OP(first_non_open)((first_non_open)->type) == OPEN63) |
4614 | first_non_open=regnext(first_non_open)Perl_regnext( first_non_open); |
4615 | } |
4616 | |
4617 | |
4618 | fake_study_recurse: |
4619 | DEBUG_r(do {(pRExC_state->study_chunk_recursed_count)++;;} while ( 0) |
4620 | RExC_study_chunk_recursed_count++;do {(pRExC_state->study_chunk_recursed_count)++;;} while ( 0) |
4621 | )do {(pRExC_state->study_chunk_recursed_count)++;;} while ( 0); |
4622 | DEBUG_OPTIMISE_MORE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0) |
4623 | {do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0) |
4624 | Perl_re_indentf( aTHX_ "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0) |
4625 | depth, (long)stopparen,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0) |
4626 | (unsigned long)RExC_study_chunk_recursed_count,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0) |
4627 | (unsigned long)depth, (unsigned long)recursed_depth,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0) |
4628 | scan,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0) |
4629 | last);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0) |
4630 | if (recursed_depth) {do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0) |
4631 | U32 i;do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0) |
4632 | U32 j;do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0) |
4633 | for ( j = 0 ; j < recursed_depth ; j++ ) {do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0) |
4634 | for ( i = 0 ; i < (U32)RExC_total_parens ; i++ ) {do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0) |
4635 | if (PAREN_TEST(j, i) && (!j || !PAREN_TEST(j - 1, i))) {do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0) |
4636 | Perl_re_printf( aTHX_ " %d",(int)i);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0) |
4637 | break;do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0) |
4638 | }do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0) |
4639 | }do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0) |
4640 | if ( j + 1 < recursed_depth ) {do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0) |
4641 | Perl_re_printf( aTHX_ ",");do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0) |
4642 | }do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0) |
4643 | }do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0) |
4644 | }do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0) |
4645 | Perl_re_printf( aTHX_ "\n");do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0) |
4646 | }do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0) |
4647 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_indentf( "study_chunk stopparen=%ld recursed_count=%lu depth=%lu recursed_depth=%lu scan=%p last=%p" , depth, (long)stopparen, (unsigned long)(pRExC_state->study_chunk_recursed_count ), (unsigned long)depth, (unsigned long)recursed_depth, scan, last); if (recursed_depth) { U32 i; U32 j; for ( j = 0 ; j < recursed_depth ; j++ ) { for ( i = 0 ; i < (U32)(pRExC_state ->total_par) ; i++ ) { if ((((U8*)(((pRExC_state->study_chunk_recursed ) + (j) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))) && (!j || !(((U8*)(((pRExC_state->study_chunk_recursed) + (j - 1 ) * (pRExC_state->study_chunk_recursed_bytes))))[(i) >> 3] & (1 << ((i) & 7))))) { Perl_re_printf( " %d" ,(int)i); break; } } if ( j + 1 < recursed_depth ) { Perl_re_printf ( ","); } } } Perl_re_printf( "\n"); };} while (0); |
4648 | while ( scan && OP(scan)((scan)->type) != END0 && scan < last ){ |
4649 | UV min_subtract = 0; /* How mmany chars to subtract from the minimum |
4650 | node length to get a real minimum (because |
4651 | the folded version may be shorter) */ |
4652 | bool_Bool unfolded_multi_char = FALSE(0); |
4653 | /* avoid mutating ops if we are anywhere within the recursed or |
4654 | * enframed handling for a GOSUB: the outermost level will handle it. |
4655 | */ |
4656 | bool_Bool mutate_ok = was_mutate_ok && !(frame && frame->in_gosub); |
4657 | /* Peephole optimizer: */ |
4658 | DEBUG_STUDYDATA("Peep", data, depth, is_inf)S_debug_studydata( "Peep", data, depth, is_inf); |
4659 | DEBUG_PEEP("Peep", scan, depth, flags)S_debug_peep( "Peep", pRExC_state, scan, depth, flags); |
4660 | |
4661 | |
4662 | /* The reason we do this here is that we need to deal with things like |
4663 | * /(?:f)(?:o)(?:o)/ which cant be dealt with by the normal EXACT |
4664 | * parsing code, as each (?:..) is handled by a different invocation of |
4665 | * reg() -- Yves |
4666 | */ |
4667 | if (PL_regkind[OP(scan)((scan)->type)] == EXACT40 |
4668 | && OP(scan)((scan)->type) != LEXACT41 |
4669 | && OP(scan)((scan)->type) != LEXACT_REQ851 |
4670 | && mutate_ok |
4671 | ) { |
4672 | join_exact(pRExC_state, scan, &min_subtract, &unfolded_multi_char,S_join_exact( pRExC_state,scan,&min_subtract,&unfolded_multi_char ,0,((void*)0),depth + 1) |
4673 | 0, NULL, depth + 1)S_join_exact( pRExC_state,scan,&min_subtract,&unfolded_multi_char ,0,((void*)0),depth + 1); |
4674 | } |
4675 | |
4676 | /* Follow the next-chain of the current node and optimize |
4677 | away all the NOTHINGs from it. |
4678 | */ |
4679 | rck_elide_nothing(scan)S_rck_elide_nothing( scan); |
4680 | |
4681 | /* The principal pseudo-switch. Cannot be a switch, since we look into |
4682 | * several different things. */ |
4683 | if ( OP(scan)((scan)->type) == DEFINEP95 ) { |
4684 | SSize_tssize_t minlen = 0; |
4685 | SSize_tssize_t deltanext = 0; |
4686 | SSize_tssize_t fake_last_close = 0; |
4687 | I32 f = SCF_IN_DEFINE0x20000; |
4688 | |
4689 | StructCopy(&zero_scan_data, &data_fake, scan_data_t)(*((scan_data_t*)(&data_fake)) = *((scan_data_t*)(&zero_scan_data ))); |
4690 | scan = regnext(scan)Perl_regnext( scan); |
4691 | assert( OP(scan) == IFTHEN )((((scan)->type) == 82) ? (void)0 : __assert2("re_comp.c", 4691, __func__, "OP(scan) == IFTHEN")); |
4692 | DEBUG_PEEP("expect IFTHEN", scan, depth, flags)S_debug_peep( "expect IFTHEN", pRExC_state, scan, depth, flags ); |
4693 | |
4694 | data_fake.last_closep= &fake_last_close; |
4695 | minlen = *minlenp; |
4696 | next = regnext(scan)Perl_regnext( scan); |
4697 | scan = NEXTOPER(NEXTOPER(scan))((((scan) + 1)) + 1); |
4698 | DEBUG_PEEP("scan", scan, depth, flags)S_debug_peep( "scan", pRExC_state, scan, depth, flags); |
4699 | DEBUG_PEEP("next", next, depth, flags)S_debug_peep( "next", pRExC_state, next, depth, flags); |
4700 | |
4701 | /* we suppose the run is continuous, last=next... |
4702 | * NOTE we dont use the return here! */ |
4703 | /* DEFINEP study_chunk() recursion */ |
4704 | (void)study_chunk(pRExC_state, &scan, &minlen,S_study_chunk( pRExC_state,&scan,&minlen,&deltanext ,next,&data_fake,stopparen,recursed_depth,((void*)0),f,depth +1,mutate_ok) |
4705 | &deltanext, next, &data_fake, stopparen,S_study_chunk( pRExC_state,&scan,&minlen,&deltanext ,next,&data_fake,stopparen,recursed_depth,((void*)0),f,depth +1,mutate_ok) |
4706 | recursed_depth, NULL, f, depth+1, mutate_ok)S_study_chunk( pRExC_state,&scan,&minlen,&deltanext ,next,&data_fake,stopparen,recursed_depth,((void*)0),f,depth +1,mutate_ok); |
4707 | |
4708 | scan = next; |
4709 | } else |
4710 | if ( |
4711 | OP(scan)((scan)->type) == BRANCH39 || |
4712 | OP(scan)((scan)->type) == BRANCHJ78 || |
4713 | OP(scan)((scan)->type) == IFTHEN82 |
4714 | ) { |
4715 | next = regnext(scan)Perl_regnext( scan); |
4716 | code = OP(scan)((scan)->type); |
4717 | |
4718 | /* The op(next)==code check below is to see if we |
4719 | * have "BRANCH-BRANCH", "BRANCHJ-BRANCHJ", "IFTHEN-IFTHEN" |
4720 | * IFTHEN is special as it might not appear in pairs. |
4721 | * Not sure whether BRANCH-BRANCHJ is possible, regardless |
4722 | * we dont handle it cleanly. */ |
4723 | if (OP(next)((next)->type) == code || code == IFTHEN82) { |
4724 | /* NOTE - There is similar code to this block below for |
4725 | * handling TRIE nodes on a re-study. If you change stuff here |
4726 | * check there too. */ |
4727 | SSize_tssize_t max1 = 0, min1 = OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1), num = 0; |
4728 | regnode_ssc accum; |
4729 | regnode * const startbranch=scan; |
4730 | |
4731 | if (flags & SCF_DO_SUBSTR0x0400) { |
4732 | /* Cannot merge strings after this. */ |
4733 | scan_commit(pRExC_state, data, minlenp, is_inf)S_scan_commit( pRExC_state,data,minlenp,is_inf); |
4734 | } |
4735 | |
4736 | if (flags & SCF_DO_STCLASS(0x0800|0x1000)) |
4737 | ssc_init_zero(pRExC_state, &accum)S_ssc_init( pRExC_state,&accum); |
4738 | |
4739 | while (OP(scan)((scan)->type) == code) { |
4740 | SSize_tssize_t deltanext, minnext, fake; |
4741 | I32 f = 0; |
4742 | regnode_ssc this_class; |
4743 | |
4744 | DEBUG_PEEP("Branch", scan, depth, flags)S_debug_peep( "Branch", pRExC_state, scan, depth, flags); |
4745 | |
4746 | num++; |
4747 | StructCopy(&zero_scan_data, &data_fake, scan_data_t)(*((scan_data_t*)(&data_fake)) = *((scan_data_t*)(&zero_scan_data ))); |
4748 | if (data) { |
4749 | data_fake.whilem_c = data->whilem_c; |
4750 | data_fake.last_closep = data->last_closep; |
4751 | } |
4752 | else |
4753 | data_fake.last_closep = &fake; |
4754 | |
4755 | data_fake.pos_delta = delta; |
4756 | next = regnext(scan)Perl_regnext( scan); |
4757 | |
4758 | scan = NEXTOPER(scan)((scan) + 1); /* everything */ |
4759 | if (code != BRANCH39) /* everything but BRANCH */ |
4760 | scan = NEXTOPER(scan)((scan) + 1); |
4761 | |
4762 | if (flags & SCF_DO_STCLASS(0x0800|0x1000)) { |
4763 | ssc_init(pRExC_state, &this_class)S_ssc_init( pRExC_state,&this_class); |
4764 | data_fake.start_class = &this_class; |
4765 | f = SCF_DO_STCLASS_AND0x0800; |
4766 | } |
4767 | if (flags & SCF_WHILEM_VISITED_POS0x2000) |
4768 | f |= SCF_WHILEM_VISITED_POS0x2000; |
4769 | |
4770 | /* we suppose the run is continuous, last=next...*/ |
4771 | /* recurse study_chunk() for each BRANCH in an alternation */ |
4772 | minnext = study_chunk(pRExC_state, &scan, minlenp,S_study_chunk( pRExC_state,&scan,minlenp,&deltanext,next ,&data_fake,stopparen,recursed_depth,((void*)0),f,depth+1 ,mutate_ok) |
4773 | &deltanext, next, &data_fake, stopparen,S_study_chunk( pRExC_state,&scan,minlenp,&deltanext,next ,&data_fake,stopparen,recursed_depth,((void*)0),f,depth+1 ,mutate_ok) |
4774 | recursed_depth, NULL, f, depth+1,S_study_chunk( pRExC_state,&scan,minlenp,&deltanext,next ,&data_fake,stopparen,recursed_depth,((void*)0),f,depth+1 ,mutate_ok) |
4775 | mutate_ok)S_study_chunk( pRExC_state,&scan,minlenp,&deltanext,next ,&data_fake,stopparen,recursed_depth,((void*)0),f,depth+1 ,mutate_ok); |
4776 | |
4777 | if (min1 > minnext) |
4778 | min1 = minnext; |
4779 | if (deltanext == OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1)) { |
4780 | is_inf = is_inf_internal = 1; |
4781 | max1 = OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1); |
4782 | } else if (max1 < minnext + deltanext) |
4783 | max1 = minnext + deltanext; |
4784 | scan = next; |
4785 | if (data_fake.flags & (SF_HAS_PAR0x0080|SF_IN_PAR0x0100)) |
4786 | pars++; |
4787 | if (data_fake.flags & SCF_SEEN_ACCEPT0x8000) { |
4788 | if ( stopmin > minnext) |
4789 | stopmin = min + min1; |
4790 | flags &= ~SCF_DO_SUBSTR0x0400; |
4791 | if (data) |
4792 | data->flags |= SCF_SEEN_ACCEPT0x8000; |
4793 | } |
4794 | if (data) { |
4795 | if (data_fake.flags & SF_HAS_EVAL0x0200) |
4796 | data->flags |= SF_HAS_EVAL0x0200; |
4797 | data->whilem_c = data_fake.whilem_c; |
4798 | } |
4799 | if (flags & SCF_DO_STCLASS(0x0800|0x1000)) |
4800 | ssc_or(pRExC_state, &accum, (regnode_charclass*)&this_class)S_ssc_or( pRExC_state,&accum,(regnode_charclass*)&this_class ); |
4801 | } |
4802 | if (code == IFTHEN82 && num < 2) /* Empty ELSE branch */ |
4803 | min1 = 0; |
4804 | if (flags & SCF_DO_SUBSTR0x0400) { |
4805 | data->pos_min += min1; |
4806 | if (data->pos_delta >= OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1) - (max1 - min1)) |
4807 | data->pos_delta = OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1); |
4808 | else |
4809 | data->pos_delta += max1 - min1; |
4810 | if (max1 != min1 || is_inf) |
4811 | data->cur_is_floating = 1; |
4812 | } |
4813 | min += min1; |
4814 | if (delta == OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1) |
4815 | || OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1) - delta - (max1 - min1) < 0) |
4816 | delta = OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1); |
4817 | else |
4818 | delta += max1 - min1; |
4819 | if (flags & SCF_DO_STCLASS_OR0x1000) { |
4820 | ssc_or(pRExC_state, data->start_class, (regnode_charclass*) &accum)S_ssc_or( pRExC_state,data->start_class,(regnode_charclass *) &accum); |
4821 | if (min1) { |
4822 | ssc_and(pRExC_state, data->start_class, (regnode_charclass *) and_withp)S_ssc_and( pRExC_state,data->start_class,(regnode_charclass *) and_withp); |
4823 | flags &= ~SCF_DO_STCLASS(0x0800|0x1000); |
4824 | } |
4825 | } |
4826 | else if (flags & SCF_DO_STCLASS_AND0x0800) { |
4827 | if (min1) { |
4828 | ssc_and(pRExC_state, data->start_class, (regnode_charclass *) &accum)S_ssc_and( pRExC_state,data->start_class,(regnode_charclass *) &accum); |
4829 | flags &= ~SCF_DO_STCLASS(0x0800|0x1000); |
4830 | } |
4831 | else { |
4832 | /* Switch to OR mode: cache the old value of |
4833 | * data->start_class */ |
4834 | INIT_AND_WITHP((!and_withp) ? (void)0 : __assert2("re_comp.c", 4834, __func__ , "!and_withp")); (and_withp = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(1) || sizeof(regnode_ssc) > (( size_t)1 << 8*(sizeof(size_t) - sizeof(1)))) ? (size_t) (1) : ((size_t)-1)/sizeof(regnode_ssc)) > ((size_t)-1)/sizeof (regnode_ssc))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (regnode_ssc*)(Perl_safesysmalloc((size_t)((1)*sizeof (regnode_ssc)))))); Perl_save_pushptr( (void *)((char*)(and_withp )),10); |
4835 | StructCopy(data->start_class, and_withp, regnode_ssc)(*((regnode_ssc*)(and_withp)) = *((regnode_ssc*)(data->start_class ))); |
4836 | flags &= ~SCF_DO_STCLASS_AND0x0800; |
4837 | StructCopy(&accum, data->start_class, regnode_ssc)(*((regnode_ssc*)(data->start_class)) = *((regnode_ssc*)(& accum))); |
4838 | flags |= SCF_DO_STCLASS_OR0x1000; |
4839 | } |
4840 | } |
4841 | |
4842 | if (PERL_ENABLE_TRIE_OPTIMISATION1 |
4843 | && OP(startbranch)((startbranch)->type) == BRANCH39 |
4844 | && mutate_ok |
4845 | ) { |
4846 | /* demq. |
4847 | |
4848 | Assuming this was/is a branch we are dealing with: 'scan' |
4849 | now points at the item that follows the branch sequence, |
4850 | whatever it is. We now start at the beginning of the |
4851 | sequence and look for subsequences of |
4852 | |
4853 | BRANCH->EXACT=>x1 |
4854 | BRANCH->EXACT=>x2 |
4855 | tail |
4856 | |
4857 | which would be constructed from a pattern like |
4858 | /A|LIST|OF|WORDS/ |
4859 | |
4860 | If we can find such a subsequence we need to turn the first |
4861 | element into a trie and then add the subsequent branch exact |
4862 | strings to the trie. |
4863 | |
4864 | We have two cases |
4865 | |
4866 | 1. patterns where the whole set of branches can be |
4867 | converted. |
4868 | |
4869 | 2. patterns where only a subset can be converted. |
4870 | |
4871 | In case 1 we can replace the whole set with a single regop |
4872 | for the trie. In case 2 we need to keep the start and end |
4873 | branches so |
4874 | |
4875 | 'BRANCH EXACT; BRANCH EXACT; BRANCH X' |
4876 | becomes BRANCH TRIE; BRANCH X; |
4877 | |
4878 | There is an additional case, that being where there is a |
4879 | common prefix, which gets split out into an EXACT like node |
4880 | preceding the TRIE node. |
4881 | |
4882 | If x(1..n)==tail then we can do a simple trie, if not we make |
4883 | a "jump" trie, such that when we match the appropriate word |
4884 | we "jump" to the appropriate tail node. Essentially we turn |
4885 | a nested if into a case structure of sorts. |
4886 | |
4887 | */ |
4888 | |
4889 | int made=0; |
4890 | if (!re_trie_maxbuff) { |
4891 | re_trie_maxbuff = get_sv(RE_TRIE_MAXBUF_NAME, 1)Perl_get_sv( "\022E_TRIE_MAXBUF",1); |
4892 | if (!SvIOK(re_trie_maxbuff)((re_trie_maxbuff)->sv_flags & 0x00000100)) |
4893 | sv_setiv(re_trie_maxbuff, RE_TRIE_MAXBUF_INIT)Perl_sv_setiv( re_trie_maxbuff,65536); |
4894 | } |
4895 | if ( SvIV(re_trie_maxbuff)((((re_trie_maxbuff)->sv_flags & (0x00000100|0x00200000 )) == 0x00000100) ? (*({ const SV *const _svivx = (const SV * )(re_trie_maxbuff); ((PL_valid_types_IVX[((svtype)((_svivx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c" , 4895, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 4895, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( re_trie_maxbuff,2))>=0 ) { |
4896 | regnode *cur; |
4897 | regnode *first = (regnode *)NULL((void*)0); |
4898 | regnode *prev = (regnode *)NULL((void*)0); |
4899 | regnode *tail = scan; |
4900 | U8 trietype = 0; |
4901 | U32 count=0; |
4902 | |
4903 | /* var tail is used because there may be a TAIL |
4904 | regop in the way. Ie, the exacts will point to the |
4905 | thing following the TAIL, but the last branch will |
4906 | point at the TAIL. So we advance tail. If we |
4907 | have nested (?:) we may have to move through several |
4908 | tails. |
4909 | */ |
4910 | |
4911 | while ( OP( tail )((tail)->type) == TAIL55 ) { |
4912 | /* this is the TAIL generated by (?:) */ |
4913 | tail = regnext( tail )Perl_regnext( tail); |
4914 | } |
4915 | |
4916 | |
4917 | DEBUG_TRIE_COMPILE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),tail,((void*)0 ),pRExC_state); Perl_re_indentf( "%s %" "lu" ":%s\n", depth+1 , "Looking for TRIE'able sequences. Tail node is ", (UV) ((tail ) - (pRExC_state->emit_start)), (((((pRExC_state->mysv1 ))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)) ); } ;} while (0) |
4918 | regprop(RExC_rx, RExC_mysv, tail, NULL, pRExC_state);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),tail,((void*)0 ),pRExC_state); Perl_re_indentf( "%s %" "lu" ":%s\n", depth+1 , "Looking for TRIE'able sequences. Tail node is ", (UV) ((tail ) - (pRExC_state->emit_start)), (((((pRExC_state->mysv1 ))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)) ); } ;} while (0) |
4919 | Perl_re_indentf( aTHX_ "%s %" UVuf ":%s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),tail,((void*)0 ),pRExC_state); Perl_re_indentf( "%s %" "lu" ":%s\n", depth+1 , "Looking for TRIE'able sequences. Tail node is ", (UV) ((tail ) - (pRExC_state->emit_start)), (((((pRExC_state->mysv1 ))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)) ); } ;} while (0) |
4920 | depth+1,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),tail,((void*)0 ),pRExC_state); Perl_re_indentf( "%s %" "lu" ":%s\n", depth+1 , "Looking for TRIE'able sequences. Tail node is ", (UV) ((tail ) - (pRExC_state->emit_start)), (((((pRExC_state->mysv1 ))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)) ); } ;} while (0) |
4921 | "Looking for TRIE'able sequences. Tail node is ",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),tail,((void*)0 ),pRExC_state); Perl_re_indentf( "%s %" "lu" ":%s\n", depth+1 , "Looking for TRIE'able sequences. Tail node is ", (UV) ((tail ) - (pRExC_state->emit_start)), (((((pRExC_state->mysv1 ))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)) ); } ;} while (0) |
4922 | (UV) REGNODE_OFFSET(tail),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),tail,((void*)0 ),pRExC_state); Perl_re_indentf( "%s %" "lu" ":%s\n", depth+1 , "Looking for TRIE'able sequences. Tail node is ", (UV) ((tail ) - (pRExC_state->emit_start)), (((((pRExC_state->mysv1 ))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)) ); } ;} while (0) |
4923 | SvPV_nolen_const( RExC_mysv )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),tail,((void*)0 ),pRExC_state); Perl_re_indentf( "%s %" "lu" ":%s\n", depth+1 , "Looking for TRIE'able sequences. Tail node is ", (UV) ((tail ) - (pRExC_state->emit_start)), (((((pRExC_state->mysv1 ))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)) ); } ;} while (0) |
4924 | );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),tail,((void*)0 ),pRExC_state); Perl_re_indentf( "%s %" "lu" ":%s\n", depth+1 , "Looking for TRIE'able sequences. Tail node is ", (UV) ((tail ) - (pRExC_state->emit_start)), (((((pRExC_state->mysv1 ))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)) ); } ;} while (0) |
4925 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),tail,((void*)0 ),pRExC_state); Perl_re_indentf( "%s %" "lu" ":%s\n", depth+1 , "Looking for TRIE'able sequences. Tail node is ", (UV) ((tail ) - (pRExC_state->emit_start)), (((((pRExC_state->mysv1 ))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)) ); } ;} while (0); |
4926 | |
4927 | /* |
4928 | |
4929 | Step through the branches |
4930 | cur represents each branch, |
4931 | noper is the first thing to be matched as part |
4932 | of that branch |
4933 | noper_next is the regnext() of that node. |
4934 | |
4935 | We normally handle a case like this |
4936 | /FOO[xyz]|BAR[pqr]/ via a "jump trie" but we also |
4937 | support building with NOJUMPTRIE, which restricts |
4938 | the trie logic to structures like /FOO|BAR/. |
4939 | |
4940 | If noper is a trieable nodetype then the branch is |
4941 | a possible optimization target. If we are building |
4942 | under NOJUMPTRIE then we require that noper_next is |
4943 | the same as scan (our current position in the regex |
4944 | program). |
4945 | |
4946 | Once we have two or more consecutive such branches |
4947 | we can create a trie of the EXACT's contents and |
4948 | stitch it in place into the program. |
4949 | |
4950 | If the sequence represents all of the branches in |
4951 | the alternation we replace the entire thing with a |
4952 | single TRIE node. |
4953 | |
4954 | Otherwise when it is a subsequence we need to |
4955 | stitch it in place and replace only the relevant |
4956 | branches. This means the first branch has to remain |
4957 | as it is used by the alternation logic, and its |
4958 | next pointer, and needs to be repointed at the item |
4959 | on the branch chain following the last branch we |
4960 | have optimized away. |
4961 | |
4962 | This could be either a BRANCH, in which case the |
4963 | subsequence is internal, or it could be the item |
4964 | following the branch sequence in which case the |
4965 | subsequence is at the end (which does not |
4966 | necessarily mean the first node is the start of the |
4967 | alternation). |
4968 | |
4969 | TRIE_TYPE(X) is a define which maps the optype to a |
4970 | trietype. |
4971 | |
4972 | optype | trietype |
4973 | ----------------+----------- |
4974 | NOTHING | NOTHING |
4975 | EXACT | EXACT |
4976 | EXACT_REQ8 | EXACT |
4977 | EXACTFU | EXACTFU |
4978 | EXACTFU_REQ8 | EXACTFU |
4979 | EXACTFUP | EXACTFU |
4980 | EXACTFAA | EXACTFAA |
4981 | EXACTL | EXACTL |
4982 | EXACTFLU8 | EXACTFLU8 |
4983 | |
4984 | |
4985 | */ |
4986 | #define TRIE_TYPE(X)( ( 54 == (X) ) ? 54 : ( 40 == (X) || 50 == (X) ) ? 40 : ( 45 == (X) || 52 == (X) || 47 == (X) ) ? 45 : ( 46 == (X) ) ? 46 : ( 42 == (X) ) ? 42 : ( 48 == (X) ) ? 48 : 0 ) ( ( NOTHING54 == (X) ) \ |
4987 | ? NOTHING54 \ |
4988 | : ( EXACT40 == (X) || EXACT_REQ850 == (X) ) \ |
4989 | ? EXACT40 \ |
4990 | : ( EXACTFU45 == (X) \ |
4991 | || EXACTFU_REQ852 == (X) \ |
4992 | || EXACTFUP47 == (X) ) \ |
4993 | ? EXACTFU45 \ |
4994 | : ( EXACTFAA46 == (X) ) \ |
4995 | ? EXACTFAA46 \ |
4996 | : ( EXACTL42 == (X) ) \ |
4997 | ? EXACTL42 \ |
4998 | : ( EXACTFLU848 == (X) ) \ |
4999 | ? EXACTFLU848 \ |
5000 | : 0 ) |
5001 | |
5002 | /* dont use tail as the end marker for this traverse */ |
5003 | for ( cur = startbranch ; cur != scan ; cur = regnext( cur )Perl_regnext( cur) ) { |
5004 | regnode * const noper = NEXTOPER( cur )((cur) + 1); |
5005 | U8 noper_type = OP( noper )((noper)->type); |
5006 | U8 noper_trietype = TRIE_TYPE( noper_type )( ( 54 == (noper_type) ) ? 54 : ( 40 == (noper_type) || 50 == (noper_type) ) ? 40 : ( 45 == (noper_type) || 52 == (noper_type ) || 47 == (noper_type) ) ? 45 : ( 46 == (noper_type) ) ? 46 : ( 42 == (noper_type) ) ? 42 : ( 48 == (noper_type) ) ? 48 : 0 ); |
5007 | #if defined(DEBUGGING) || defined(NOJUMPTRIE) |
5008 | regnode * const noper_next = regnext( noper )Perl_regnext( noper); |
5009 | U8 noper_next_type = (noper_next && noper_next < tail) ? OP(noper_next)((noper_next)->type) : 0; |
5010 | U8 noper_next_trietype = (noper_next && noper_next < tail) ? TRIE_TYPE( noper_next_type )( ( 54 == (noper_next_type) ) ? 54 : ( 40 == (noper_next_type ) || 50 == (noper_next_type) ) ? 40 : ( 45 == (noper_next_type ) || 52 == (noper_next_type) || 47 == (noper_next_type) ) ? 45 : ( 46 == (noper_next_type) ) ? 46 : ( 42 == (noper_next_type ) ) ? 42 : ( 48 == (noper_next_type) ) ? 48 : 0 ) :0; |
5011 | #endif |
5012 | |
5013 | DEBUG_TRIE_COMPILE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %d:%s (%d)", depth+1, ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1) ); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),noper,((void*) 0),pRExC_state); Perl_re_printf( " -> %d:%s", ((noper) ? ( int)((noper)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32))); if ( noper_next ) { my_regprop( (pRExC_state->rx),(pRExC_state ->mysv1),noper_next,((void*)0),pRExC_state); Perl_re_printf ( "\t=> %d:%s\t", ((noper_next) ? (int)((noper_next)-(pRExC_state ->emit_start)) : -1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32))); } Perl_re_printf( "(First==%d,Last==%d,Cur==%d,tt==%s,ntt==%s,nntt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype], PL_reg_name[noper_trietype], PL_reg_name[noper_next_trietype ] ); };} while (0) |
5014 | regprop(RExC_rx, RExC_mysv, cur, NULL, pRExC_state);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %d:%s (%d)", depth+1, ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1) ); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),noper,((void*) 0),pRExC_state); Perl_re_printf( " -> %d:%s", ((noper) ? ( int)((noper)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32))); if ( noper_next ) { my_regprop( (pRExC_state->rx),(pRExC_state ->mysv1),noper_next,((void*)0),pRExC_state); Perl_re_printf ( "\t=> %d:%s\t", ((noper_next) ? (int)((noper_next)-(pRExC_state ->emit_start)) : -1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32))); } Perl_re_printf( "(First==%d,Last==%d,Cur==%d,tt==%s,ntt==%s,nntt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype], PL_reg_name[noper_trietype], PL_reg_name[noper_next_trietype ] ); };} while (0) |
5015 | Perl_re_indentf( aTHX_ "- %d:%s (%d)",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %d:%s (%d)", depth+1, ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1) ); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),noper,((void*) 0),pRExC_state); Perl_re_printf( " -> %d:%s", ((noper) ? ( int)((noper)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32))); if ( noper_next ) { my_regprop( (pRExC_state->rx),(pRExC_state ->mysv1),noper_next,((void*)0),pRExC_state); Perl_re_printf ( "\t=> %d:%s\t", ((noper_next) ? (int)((noper_next)-(pRExC_state ->emit_start)) : -1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32))); } Perl_re_printf( "(First==%d,Last==%d,Cur==%d,tt==%s,ntt==%s,nntt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype], PL_reg_name[noper_trietype], PL_reg_name[noper_next_trietype ] ); };} while (0) |
5016 | depth+1,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %d:%s (%d)", depth+1, ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1) ); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),noper,((void*) 0),pRExC_state); Perl_re_printf( " -> %d:%s", ((noper) ? ( int)((noper)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32))); if ( noper_next ) { my_regprop( (pRExC_state->rx),(pRExC_state ->mysv1),noper_next,((void*)0),pRExC_state); Perl_re_printf ( "\t=> %d:%s\t", ((noper_next) ? (int)((noper_next)-(pRExC_state ->emit_start)) : -1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32))); } Perl_re_printf( "(First==%d,Last==%d,Cur==%d,tt==%s,ntt==%s,nntt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype], PL_reg_name[noper_trietype], PL_reg_name[noper_next_trietype ] ); };} while (0) |
5017 | REG_NODE_NUM(cur), SvPV_nolen_const( RExC_mysv ), REG_NODE_NUM(cur) );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %d:%s (%d)", depth+1, ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1) ); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),noper,((void*) 0),pRExC_state); Perl_re_printf( " -> %d:%s", ((noper) ? ( int)((noper)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32))); if ( noper_next ) { my_regprop( (pRExC_state->rx),(pRExC_state ->mysv1),noper_next,((void*)0),pRExC_state); Perl_re_printf ( "\t=> %d:%s\t", ((noper_next) ? (int)((noper_next)-(pRExC_state ->emit_start)) : -1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32))); } Perl_re_printf( "(First==%d,Last==%d,Cur==%d,tt==%s,ntt==%s,nntt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype], PL_reg_name[noper_trietype], PL_reg_name[noper_next_trietype ] ); };} while (0) |
5018 | |
5019 | regprop(RExC_rx, RExC_mysv, noper, NULL, pRExC_state);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %d:%s (%d)", depth+1, ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1) ); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),noper,((void*) 0),pRExC_state); Perl_re_printf( " -> %d:%s", ((noper) ? ( int)((noper)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32))); if ( noper_next ) { my_regprop( (pRExC_state->rx),(pRExC_state ->mysv1),noper_next,((void*)0),pRExC_state); Perl_re_printf ( "\t=> %d:%s\t", ((noper_next) ? (int)((noper_next)-(pRExC_state ->emit_start)) : -1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32))); } Perl_re_printf( "(First==%d,Last==%d,Cur==%d,tt==%s,ntt==%s,nntt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype], PL_reg_name[noper_trietype], PL_reg_name[noper_next_trietype ] ); };} while (0) |
5020 | Perl_re_printf( aTHX_ " -> %d:%s",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %d:%s (%d)", depth+1, ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1) ); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),noper,((void*) 0),pRExC_state); Perl_re_printf( " -> %d:%s", ((noper) ? ( int)((noper)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32))); if ( noper_next ) { my_regprop( (pRExC_state->rx),(pRExC_state ->mysv1),noper_next,((void*)0),pRExC_state); Perl_re_printf ( "\t=> %d:%s\t", ((noper_next) ? (int)((noper_next)-(pRExC_state ->emit_start)) : -1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32))); } Perl_re_printf( "(First==%d,Last==%d,Cur==%d,tt==%s,ntt==%s,nntt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype], PL_reg_name[noper_trietype], PL_reg_name[noper_next_trietype ] ); };} while (0) |
5021 | REG_NODE_NUM(noper), SvPV_nolen_const(RExC_mysv));do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %d:%s (%d)", depth+1, ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1) ); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),noper,((void*) 0),pRExC_state); Perl_re_printf( " -> %d:%s", ((noper) ? ( int)((noper)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32))); if ( noper_next ) { my_regprop( (pRExC_state->rx),(pRExC_state ->mysv1),noper_next,((void*)0),pRExC_state); Perl_re_printf ( "\t=> %d:%s\t", ((noper_next) ? (int)((noper_next)-(pRExC_state ->emit_start)) : -1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32))); } Perl_re_printf( "(First==%d,Last==%d,Cur==%d,tt==%s,ntt==%s,nntt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype], PL_reg_name[noper_trietype], PL_reg_name[noper_next_trietype ] ); };} while (0) |
5022 | |
5023 | if ( noper_next ) {do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %d:%s (%d)", depth+1, ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1) ); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),noper,((void*) 0),pRExC_state); Perl_re_printf( " -> %d:%s", ((noper) ? ( int)((noper)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32))); if ( noper_next ) { my_regprop( (pRExC_state->rx),(pRExC_state ->mysv1),noper_next,((void*)0),pRExC_state); Perl_re_printf ( "\t=> %d:%s\t", ((noper_next) ? (int)((noper_next)-(pRExC_state ->emit_start)) : -1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32))); } Perl_re_printf( "(First==%d,Last==%d,Cur==%d,tt==%s,ntt==%s,nntt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype], PL_reg_name[noper_trietype], PL_reg_name[noper_next_trietype ] ); };} while (0) |
5024 | regprop(RExC_rx, RExC_mysv, noper_next, NULL, pRExC_state);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %d:%s (%d)", depth+1, ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1) ); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),noper,((void*) 0),pRExC_state); Perl_re_printf( " -> %d:%s", ((noper) ? ( int)((noper)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32))); if ( noper_next ) { my_regprop( (pRExC_state->rx),(pRExC_state ->mysv1),noper_next,((void*)0),pRExC_state); Perl_re_printf ( "\t=> %d:%s\t", ((noper_next) ? (int)((noper_next)-(pRExC_state ->emit_start)) : -1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32))); } Perl_re_printf( "(First==%d,Last==%d,Cur==%d,tt==%s,ntt==%s,nntt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype], PL_reg_name[noper_trietype], PL_reg_name[noper_next_trietype ] ); };} while (0) |
5025 | Perl_re_printf( aTHX_ "\t=> %d:%s\t",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %d:%s (%d)", depth+1, ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1) ); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),noper,((void*) 0),pRExC_state); Perl_re_printf( " -> %d:%s", ((noper) ? ( int)((noper)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32))); if ( noper_next ) { my_regprop( (pRExC_state->rx),(pRExC_state ->mysv1),noper_next,((void*)0),pRExC_state); Perl_re_printf ( "\t=> %d:%s\t", ((noper_next) ? (int)((noper_next)-(pRExC_state ->emit_start)) : -1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32))); } Perl_re_printf( "(First==%d,Last==%d,Cur==%d,tt==%s,ntt==%s,nntt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype], PL_reg_name[noper_trietype], PL_reg_name[noper_next_trietype ] ); };} while (0) |
5026 | REG_NODE_NUM(noper_next), SvPV_nolen_const(RExC_mysv));do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %d:%s (%d)", depth+1, ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1) ); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),noper,((void*) 0),pRExC_state); Perl_re_printf( " -> %d:%s", ((noper) ? ( int)((noper)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32))); if ( noper_next ) { my_regprop( (pRExC_state->rx),(pRExC_state ->mysv1),noper_next,((void*)0),pRExC_state); Perl_re_printf ( "\t=> %d:%s\t", ((noper_next) ? (int)((noper_next)-(pRExC_state ->emit_start)) : -1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32))); } Perl_re_printf( "(First==%d,Last==%d,Cur==%d,tt==%s,ntt==%s,nntt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype], PL_reg_name[noper_trietype], PL_reg_name[noper_next_trietype ] ); };} while (0) |
5027 | }do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %d:%s (%d)", depth+1, ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1) ); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),noper,((void*) 0),pRExC_state); Perl_re_printf( " -> %d:%s", ((noper) ? ( int)((noper)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32))); if ( noper_next ) { my_regprop( (pRExC_state->rx),(pRExC_state ->mysv1),noper_next,((void*)0),pRExC_state); Perl_re_printf ( "\t=> %d:%s\t", ((noper_next) ? (int)((noper_next)-(pRExC_state ->emit_start)) : -1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32))); } Perl_re_printf( "(First==%d,Last==%d,Cur==%d,tt==%s,ntt==%s,nntt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype], PL_reg_name[noper_trietype], PL_reg_name[noper_next_trietype ] ); };} while (0) |
5028 | Perl_re_printf( aTHX_ "(First==%d,Last==%d,Cur==%d,tt==%s,ntt==%s,nntt==%s)\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %d:%s (%d)", depth+1, ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1) ); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),noper,((void*) 0),pRExC_state); Perl_re_printf( " -> %d:%s", ((noper) ? ( int)((noper)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32))); if ( noper_next ) { my_regprop( (pRExC_state->rx),(pRExC_state ->mysv1),noper_next,((void*)0),pRExC_state); Perl_re_printf ( "\t=> %d:%s\t", ((noper_next) ? (int)((noper_next)-(pRExC_state ->emit_start)) : -1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32))); } Perl_re_printf( "(First==%d,Last==%d,Cur==%d,tt==%s,ntt==%s,nntt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype], PL_reg_name[noper_trietype], PL_reg_name[noper_next_trietype ] ); };} while (0) |
5029 | REG_NODE_NUM(first), REG_NODE_NUM(prev), REG_NODE_NUM(cur),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %d:%s (%d)", depth+1, ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1) ); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),noper,((void*) 0),pRExC_state); Perl_re_printf( " -> %d:%s", ((noper) ? ( int)((noper)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32))); if ( noper_next ) { my_regprop( (pRExC_state->rx),(pRExC_state ->mysv1),noper_next,((void*)0),pRExC_state); Perl_re_printf ( "\t=> %d:%s\t", ((noper_next) ? (int)((noper_next)-(pRExC_state ->emit_start)) : -1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32))); } Perl_re_printf( "(First==%d,Last==%d,Cur==%d,tt==%s,ntt==%s,nntt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype], PL_reg_name[noper_trietype], PL_reg_name[noper_next_trietype ] ); };} while (0) |
5030 | PL_reg_name[trietype], PL_reg_name[noper_trietype], PL_reg_name[noper_next_trietype]do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %d:%s (%d)", depth+1, ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1) ); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),noper,((void*) 0),pRExC_state); Perl_re_printf( " -> %d:%s", ((noper) ? ( int)((noper)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32))); if ( noper_next ) { my_regprop( (pRExC_state->rx),(pRExC_state ->mysv1),noper_next,((void*)0),pRExC_state); Perl_re_printf ( "\t=> %d:%s\t", ((noper_next) ? (int)((noper_next)-(pRExC_state ->emit_start)) : -1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32))); } Perl_re_printf( "(First==%d,Last==%d,Cur==%d,tt==%s,ntt==%s,nntt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype], PL_reg_name[noper_trietype], PL_reg_name[noper_next_trietype ] ); };} while (0) |
5031 | );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %d:%s (%d)", depth+1, ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1) ); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),noper,((void*) 0),pRExC_state); Perl_re_printf( " -> %d:%s", ((noper) ? ( int)((noper)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32))); if ( noper_next ) { my_regprop( (pRExC_state->rx),(pRExC_state ->mysv1),noper_next,((void*)0),pRExC_state); Perl_re_printf ( "\t=> %d:%s\t", ((noper_next) ? (int)((noper_next)-(pRExC_state ->emit_start)) : -1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32))); } Perl_re_printf( "(First==%d,Last==%d,Cur==%d,tt==%s,ntt==%s,nntt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype], PL_reg_name[noper_trietype], PL_reg_name[noper_next_trietype ] ); };} while (0) |
5032 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %d:%s (%d)", depth+1, ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), ((cur ) ? (int)((cur)-(pRExC_state->emit_start)) : -1) ); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),noper,((void*) 0),pRExC_state); Perl_re_printf( " -> %d:%s", ((noper) ? ( int)((noper)-(pRExC_state->emit_start)) : -1), (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32))); if ( noper_next ) { my_regprop( (pRExC_state->rx),(pRExC_state ->mysv1),noper_next,((void*)0),pRExC_state); Perl_re_printf ( "\t=> %d:%s\t", ((noper_next) ? (int)((noper_next)-(pRExC_state ->emit_start)) : -1), (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32))); } Perl_re_printf( "(First==%d,Last==%d,Cur==%d,tt==%s,ntt==%s,nntt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype], PL_reg_name[noper_trietype], PL_reg_name[noper_next_trietype ] ); };} while (0); |
5033 | |
5034 | /* Is noper a trieable nodetype that can be merged |
5035 | * with the current trie (if there is one)? */ |
5036 | if ( noper_trietype |
5037 | && |
5038 | ( |
5039 | ( noper_trietype == NOTHING54 ) |
5040 | || ( trietype == NOTHING54 ) |
5041 | || ( trietype == noper_trietype ) |
5042 | ) |
5043 | #ifdef NOJUMPTRIE |
5044 | && noper_next >= tail |
5045 | #endif |
5046 | && count < U16_MAX0xffff) |
5047 | { |
5048 | /* Handle mergable triable node Either we are |
5049 | * the first node in a new trieable sequence, |
5050 | * in which case we do some bookkeeping, |
5051 | * otherwise we update the end pointer. */ |
5052 | if ( !first ) { |
5053 | first = cur; |
5054 | if ( noper_trietype == NOTHING54 ) { |
5055 | #if !defined(DEBUGGING) && !defined(NOJUMPTRIE) |
5056 | regnode * const noper_next = regnext( noper )Perl_regnext( noper); |
5057 | U8 noper_next_type = (noper_next && noper_next < tail) ? OP(noper_next)((noper_next)->type) : 0; |
5058 | U8 noper_next_trietype = noper_next_type ? TRIE_TYPE( noper_next_type )( ( 54 == (noper_next_type) ) ? 54 : ( 40 == (noper_next_type ) || 50 == (noper_next_type) ) ? 40 : ( 45 == (noper_next_type ) || 52 == (noper_next_type) || 47 == (noper_next_type) ) ? 45 : ( 46 == (noper_next_type) ) ? 46 : ( 42 == (noper_next_type ) ) ? 42 : ( 48 == (noper_next_type) ) ? 48 : 0 ) :0; |
5059 | #endif |
5060 | |
5061 | if ( noper_next_trietype ) { |
5062 | trietype = noper_next_trietype; |
5063 | } else if (noper_next_type) { |
5064 | /* a NOTHING regop is 1 regop wide. |
5065 | * We need at least two for a trie |
5066 | * so we can't merge this in */ |
5067 | first = NULL((void*)0); |
5068 | } |
5069 | } else { |
5070 | trietype = noper_trietype; |
5071 | } |
5072 | } else { |
5073 | if ( trietype == NOTHING54 ) |
5074 | trietype = noper_trietype; |
5075 | prev = cur; |
5076 | } |
5077 | if (first) |
5078 | count++; |
5079 | } /* end handle mergable triable node */ |
5080 | else { |
5081 | /* handle unmergable node - |
5082 | * noper may either be a triable node which can |
5083 | * not be tried together with the current trie, |
5084 | * or a non triable node */ |
5085 | if ( prev ) { |
5086 | /* If last is set and trietype is not |
5087 | * NOTHING then we have found at least two |
5088 | * triable branch sequences in a row of a |
5089 | * similar trietype so we can turn them |
5090 | * into a trie. If/when we allow NOTHING to |
5091 | * start a trie sequence this condition |
5092 | * will be required, and it isn't expensive |
5093 | * so we leave it in for now. */ |
5094 | if ( trietype && trietype != NOTHING54 ) |
5095 | make_trie( pRExC_state,S_make_trie( pRExC_state,startbranch,first,cur,tail,count,trietype ,depth+1) |
5096 | startbranch, first, cur, tail,S_make_trie( pRExC_state,startbranch,first,cur,tail,count,trietype ,depth+1) |
5097 | count, trietype, depth+1 )S_make_trie( pRExC_state,startbranch,first,cur,tail,count,trietype ,depth+1); |
5098 | prev = NULL((void*)0); /* note: we clear/update |
5099 | first, trietype etc below, |
5100 | so we dont do it here */ |
5101 | } |
5102 | if ( noper_trietype |
5103 | #ifdef NOJUMPTRIE |
5104 | && noper_next >= tail |
5105 | #endif |
5106 | ){ |
5107 | /* noper is triable, so we can start a new |
5108 | * trie sequence */ |
5109 | count = 1; |
5110 | first = cur; |
5111 | trietype = noper_trietype; |
5112 | } else if (first) { |
5113 | /* if we already saw a first but the |
5114 | * current node is not triable then we have |
5115 | * to reset the first information. */ |
5116 | count = 0; |
5117 | first = NULL((void*)0); |
5118 | trietype = 0; |
5119 | } |
5120 | } /* end handle unmergable node */ |
5121 | } /* loop over branches */ |
5122 | DEBUG_TRIE_COMPILE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %s (%d) <SCAN FINISHED> " , depth+1, (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), ((cur) ? (int)((cur)-(pRExC_state->emit_start )) : -1)); Perl_re_printf( "(First==%d, Last==%d, Cur==%d, tt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype] ); };} while (0) |
5123 | regprop(RExC_rx, RExC_mysv, cur, NULL, pRExC_state);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %s (%d) <SCAN FINISHED> " , depth+1, (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), ((cur) ? (int)((cur)-(pRExC_state->emit_start )) : -1)); Perl_re_printf( "(First==%d, Last==%d, Cur==%d, tt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype] ); };} while (0) |
5124 | Perl_re_indentf( aTHX_ "- %s (%d) <SCAN FINISHED> ",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %s (%d) <SCAN FINISHED> " , depth+1, (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), ((cur) ? (int)((cur)-(pRExC_state->emit_start )) : -1)); Perl_re_printf( "(First==%d, Last==%d, Cur==%d, tt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype] ); };} while (0) |
5125 | depth+1, SvPV_nolen_const( RExC_mysv ), REG_NODE_NUM(cur));do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %s (%d) <SCAN FINISHED> " , depth+1, (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), ((cur) ? (int)((cur)-(pRExC_state->emit_start )) : -1)); Perl_re_printf( "(First==%d, Last==%d, Cur==%d, tt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype] ); };} while (0) |
5126 | Perl_re_printf( aTHX_ "(First==%d, Last==%d, Cur==%d, tt==%s)\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %s (%d) <SCAN FINISHED> " , depth+1, (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), ((cur) ? (int)((cur)-(pRExC_state->emit_start )) : -1)); Perl_re_printf( "(First==%d, Last==%d, Cur==%d, tt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype] ); };} while (0) |
5127 | REG_NODE_NUM(first), REG_NODE_NUM(prev), REG_NODE_NUM(cur),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %s (%d) <SCAN FINISHED> " , depth+1, (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), ((cur) ? (int)((cur)-(pRExC_state->emit_start )) : -1)); Perl_re_printf( "(First==%d, Last==%d, Cur==%d, tt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype] ); };} while (0) |
5128 | PL_reg_name[trietype]do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %s (%d) <SCAN FINISHED> " , depth+1, (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), ((cur) ? (int)((cur)-(pRExC_state->emit_start )) : -1)); Perl_re_printf( "(First==%d, Last==%d, Cur==%d, tt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype] ); };} while (0) |
5129 | );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %s (%d) <SCAN FINISHED> " , depth+1, (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), ((cur) ? (int)((cur)-(pRExC_state->emit_start )) : -1)); Perl_re_printf( "(First==%d, Last==%d, Cur==%d, tt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype] ); };} while (0) |
5130 | |
5131 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %s (%d) <SCAN FINISHED> " , depth+1, (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), ((cur) ? (int)((cur)-(pRExC_state->emit_start )) : -1)); Perl_re_printf( "(First==%d, Last==%d, Cur==%d, tt==%s)\n" , ((first) ? (int)((first)-(pRExC_state->emit_start)) : -1 ), ((prev) ? (int)((prev)-(pRExC_state->emit_start)) : -1) , ((cur) ? (int)((cur)-(pRExC_state->emit_start)) : -1), PL_reg_name [trietype] ); };} while (0); |
5132 | if ( prev && trietype ) { |
5133 | if ( trietype != NOTHING54 ) { |
5134 | /* the last branch of the sequence was part of |
5135 | * a trie, so we have to construct it here |
5136 | * outside of the loop */ |
5137 | made= make_trie( pRExC_state, startbranch,S_make_trie( pRExC_state,startbranch,first,scan,tail,count,trietype ,depth+1) |
5138 | first, scan, tail, count,S_make_trie( pRExC_state,startbranch,first,scan,tail,count,trietype ,depth+1) |
5139 | trietype, depth+1 )S_make_trie( pRExC_state,startbranch,first,scan,tail,count,trietype ,depth+1); |
5140 | #ifdef TRIE_STUDY_OPT |
5141 | if ( ((made == MADE_EXACT_TRIE4 && |
5142 | startbranch == first) |
5143 | || ( first_non_open == first )) && |
5144 | depth==0 ) { |
5145 | flags |= SCF_TRIE_RESTUDY0x4000; |
5146 | if ( startbranch == first |
5147 | && scan >= tail ) |
5148 | { |
5149 | RExC_seen(pRExC_state->seen) &=~REG_TOP_LEVEL_BRANCHES_SEEN0x00000040; |
5150 | } |
5151 | } |
5152 | #endif |
5153 | } else { |
5154 | /* at this point we know whatever we have is a |
5155 | * NOTHING sequence/branch AND if 'startbranch' |
5156 | * is 'first' then we can turn the whole thing |
5157 | * into a NOTHING |
5158 | */ |
5159 | if ( startbranch == first ) { |
5160 | regnode *opt; |
5161 | /* the entire thing is a NOTHING sequence, |
5162 | * something like this: (?:|) So we can |
5163 | * turn it into a plain NOTHING op. */ |
5164 | DEBUG_TRIE_COMPILE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %s (%d) <NOTHING BRANCH SEQUENCE>\n" , depth+1, (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), ((cur) ? (int)((cur)-(pRExC_state->emit_start )) : -1)); };} while (0) |
5165 | regprop(RExC_rx, RExC_mysv, cur, NULL, pRExC_state);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %s (%d) <NOTHING BRANCH SEQUENCE>\n" , depth+1, (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), ((cur) ? (int)((cur)-(pRExC_state->emit_start )) : -1)); };} while (0) |
5166 | Perl_re_indentf( aTHX_ "- %s (%d) <NOTHING BRANCH SEQUENCE>\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %s (%d) <NOTHING BRANCH SEQUENCE>\n" , depth+1, (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), ((cur) ? (int)((cur)-(pRExC_state->emit_start )) : -1)); };} while (0) |
5167 | depth+1,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %s (%d) <NOTHING BRANCH SEQUENCE>\n" , depth+1, (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), ((cur) ? (int)((cur)-(pRExC_state->emit_start )) : -1)); };} while (0) |
5168 | SvPV_nolen_const( RExC_mysv ), REG_NODE_NUM(cur));do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %s (%d) <NOTHING BRANCH SEQUENCE>\n" , depth+1, (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), ((cur) ? (int)((cur)-(pRExC_state->emit_start )) : -1)); };} while (0) |
5169 | |
5170 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),cur,((void*)0) ,pRExC_state); Perl_re_indentf( "- %s (%d) <NOTHING BRANCH SEQUENCE>\n" , depth+1, (((((pRExC_state->mysv1))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv1),0,2|32)), ((cur) ? (int)((cur)-(pRExC_state->emit_start )) : -1)); };} while (0); |
5171 | OP(startbranch)((startbranch)->type)= NOTHING54; |
5172 | NEXT_OFF(startbranch)((startbranch)->next_off)= tail - startbranch; |
5173 | for ( opt= startbranch + 1; opt < tail ; opt++ ) |
5174 | OP(opt)((opt)->type)= OPTIMIZED107; |
5175 | } |
5176 | } |
5177 | } /* end if ( prev) */ |
5178 | } /* TRIE_MAXBUF is non zero */ |
5179 | } /* do trie */ |
5180 | |
5181 | } |
5182 | else if ( code == BRANCHJ78 ) { /* single branch is optimized. */ |
5183 | scan = NEXTOPER(NEXTOPER(scan))((((scan) + 1)) + 1); |
5184 | } else /* single branch is optimized. */ |
5185 | scan = NEXTOPER(scan)((scan) + 1); |
5186 | continue; |
5187 | } else if (OP(scan)((scan)->type) == SUSPEND81 || OP(scan)((scan)->type) == GOSUB92) { |
5188 | I32 paren = 0; |
5189 | regnode *start = NULL((void*)0); |
5190 | regnode *end = NULL((void*)0); |
5191 | U32 my_recursed_depth= recursed_depth; |
5192 | |
5193 | if (OP(scan)((scan)->type) != SUSPEND81) { /* GOSUB */ |
5194 | /* Do setup, note this code has side effects beyond |
5195 | * the rest of this block. Specifically setting |
5196 | * RExC_recurse[] must happen at least once during |
5197 | * study_chunk(). */ |
5198 | paren = ARG(scan)((((struct regnode_1 *)scan)->arg1)); |
5199 | RExC_recurse(pRExC_state->recurse)[ARG2L(scan)((((struct regnode_2L *)scan)->arg2))] = scan; |
5200 | start = REGNODE_p(RExC_open_parens[paren])((pRExC_state->emit_start) + ((pRExC_state->open_parens )[paren])); |
5201 | end = REGNODE_p(RExC_close_parens[paren])((pRExC_state->emit_start) + ((pRExC_state->close_parens )[paren])); |
5202 | |
5203 | /* NOTE we MUST always execute the above code, even |
5204 | * if we do nothing with a GOSUB */ |
5205 | if ( |
5206 | ( flags & SCF_IN_DEFINE0x20000 ) |
5207 | || |
5208 | ( |
5209 | (is_inf_internal || is_inf || (data && data->flags & SF_IS_INF0x0040)) |
5210 | && |
5211 | ( (flags & (SCF_DO_STCLASS(0x0800|0x1000) | SCF_DO_SUBSTR0x0400)) == 0 ) |
5212 | ) |
5213 | ) { |
5214 | /* no need to do anything here if we are in a define. */ |
5215 | /* or we are after some kind of infinite construct |
5216 | * so we can skip recursing into this item. |
5217 | * Since it is infinite we will not change the maxlen |
5218 | * or delta, and if we miss something that might raise |
5219 | * the minlen it will merely pessimise a little. |
5220 | * |
5221 | * Iow /(?(DEFINE)(?<foo>foo|food))a+(?&foo)/ |
5222 | * might result in a minlen of 1 and not of 4, |
5223 | * but this doesn't make us mismatch, just try a bit |
5224 | * harder than we should. |
5225 | * |
5226 | * However we must assume this GOSUB is infinite, to |
5227 | * avoid wrongly applying other optimizations in the |
5228 | * enclosing scope - see GH 18096, for example. |
5229 | */ |
5230 | is_inf = is_inf_internal = 1; |
5231 | scan= regnext(scan)Perl_regnext( scan); |
5232 | continue; |
5233 | } |
5234 | |
5235 | if ( |
5236 | !recursed_depth |
5237 | || !PAREN_TEST(recursed_depth - 1, paren)(((U8*)(((pRExC_state->study_chunk_recursed) + (recursed_depth - 1) * (pRExC_state->study_chunk_recursed_bytes))))[(paren ) >> 3] & (1 << ((paren) & 7))) |
5238 | ) { |
5239 | /* it is quite possible that there are more efficient ways |
5240 | * to do this. We maintain a bitmap per level of recursion |
5241 | * of which patterns we have entered so we can detect if a |
5242 | * pattern creates a possible infinite loop. When we |
5243 | * recurse down a level we copy the previous levels bitmap |
5244 | * down. When we are at recursion level 0 we zero the top |
5245 | * level bitmap. It would be nice to implement a different |
5246 | * more efficient way of doing this. In particular the top |
5247 | * level bitmap may be unnecessary. |
5248 | */ |
5249 | if (!recursed_depth) { |
5250 | Zero(RExC_study_chunk_recursed, RExC_study_chunk_recursed_bytes, U8)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof((pRExC_state ->study_chunk_recursed_bytes)) || sizeof(U8) > ((size_t )1 << 8*(sizeof(size_t) - sizeof((pRExC_state->study_chunk_recursed_bytes ))))) ? (size_t)((pRExC_state->study_chunk_recursed_bytes) ) : ((size_t)-1)/sizeof(U8)) > ((size_t)-1)/sizeof(U8))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)((pRExC_state->study_chunk_recursed))) != 0) ? (void)0 : __assert2("re_comp.c", 5250, __func__, "((void*)((pRExC_state->study_chunk_recursed))) != 0" )), (void)memset((char*)((pRExC_state->study_chunk_recursed )),0,((pRExC_state->study_chunk_recursed_bytes)) * sizeof( U8))); |
5251 | } else { |
5252 | Copy(PAREN_OFFSET(recursed_depth - 1),((void)(__builtin_expect(((((( sizeof(size_t) < sizeof((pRExC_state ->study_chunk_recursed_bytes)) || sizeof(U8) > ((size_t )1 << 8*(sizeof(size_t) - sizeof((pRExC_state->study_chunk_recursed_bytes ))))) ? (size_t)((pRExC_state->study_chunk_recursed_bytes) ) : ((size_t)-1)/sizeof(U8)) > ((size_t)-1)/sizeof(U8))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)(((pRExC_state->study_chunk_recursed) + ( recursed_depth) * (pRExC_state->study_chunk_recursed_bytes )))) != 0) ? (void)0 : __assert2("re_comp.c", 5254, __func__, "((void*)(((pRExC_state->study_chunk_recursed) + (recursed_depth) * (pRExC_state->study_chunk_recursed_bytes)))) != 0" )), ((((void*)(((pRExC_state->study_chunk_recursed) + (recursed_depth - 1) * (pRExC_state->study_chunk_recursed_bytes)))) != 0) ? (void)0 : __assert2("re_comp.c", 5254, __func__, "((void*)(((pRExC_state->study_chunk_recursed) + (recursed_depth - 1) * (pRExC_state->study_chunk_recursed_bytes)))) != 0" )), (void)memcpy((char*)(((pRExC_state->study_chunk_recursed ) + (recursed_depth) * (pRExC_state->study_chunk_recursed_bytes ))),(const char*)(((pRExC_state->study_chunk_recursed) + ( recursed_depth - 1) * (pRExC_state->study_chunk_recursed_bytes ))), ((pRExC_state->study_chunk_recursed_bytes)) * sizeof( U8))) |
5253 | PAREN_OFFSET(recursed_depth),((void)(__builtin_expect(((((( sizeof(size_t) < sizeof((pRExC_state ->study_chunk_recursed_bytes)) || sizeof(U8) > ((size_t )1 << 8*(sizeof(size_t) - sizeof((pRExC_state->study_chunk_recursed_bytes ))))) ? (size_t)((pRExC_state->study_chunk_recursed_bytes) ) : ((size_t)-1)/sizeof(U8)) > ((size_t)-1)/sizeof(U8))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)(((pRExC_state->study_chunk_recursed) + ( recursed_depth) * (pRExC_state->study_chunk_recursed_bytes )))) != 0) ? (void)0 : __assert2("re_comp.c", 5254, __func__, "((void*)(((pRExC_state->study_chunk_recursed) + (recursed_depth) * (pRExC_state->study_chunk_recursed_bytes)))) != 0" )), ((((void*)(((pRExC_state->study_chunk_recursed) + (recursed_depth - 1) * (pRExC_state->study_chunk_recursed_bytes)))) != 0) ? (void)0 : __assert2("re_comp.c", 5254, __func__, "((void*)(((pRExC_state->study_chunk_recursed) + (recursed_depth - 1) * (pRExC_state->study_chunk_recursed_bytes)))) != 0" )), (void)memcpy((char*)(((pRExC_state->study_chunk_recursed ) + (recursed_depth) * (pRExC_state->study_chunk_recursed_bytes ))),(const char*)(((pRExC_state->study_chunk_recursed) + ( recursed_depth - 1) * (pRExC_state->study_chunk_recursed_bytes ))), ((pRExC_state->study_chunk_recursed_bytes)) * sizeof( U8))) |
5254 | RExC_study_chunk_recursed_bytes, U8)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof((pRExC_state ->study_chunk_recursed_bytes)) || sizeof(U8) > ((size_t )1 << 8*(sizeof(size_t) - sizeof((pRExC_state->study_chunk_recursed_bytes ))))) ? (size_t)((pRExC_state->study_chunk_recursed_bytes) ) : ((size_t)-1)/sizeof(U8)) > ((size_t)-1)/sizeof(U8))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)(((pRExC_state->study_chunk_recursed) + ( recursed_depth) * (pRExC_state->study_chunk_recursed_bytes )))) != 0) ? (void)0 : __assert2("re_comp.c", 5254, __func__, "((void*)(((pRExC_state->study_chunk_recursed) + (recursed_depth) * (pRExC_state->study_chunk_recursed_bytes)))) != 0" )), ((((void*)(((pRExC_state->study_chunk_recursed) + (recursed_depth - 1) * (pRExC_state->study_chunk_recursed_bytes)))) != 0) ? (void)0 : __assert2("re_comp.c", 5254, __func__, "((void*)(((pRExC_state->study_chunk_recursed) + (recursed_depth - 1) * (pRExC_state->study_chunk_recursed_bytes)))) != 0" )), (void)memcpy((char*)(((pRExC_state->study_chunk_recursed ) + (recursed_depth) * (pRExC_state->study_chunk_recursed_bytes ))),(const char*)(((pRExC_state->study_chunk_recursed) + ( recursed_depth - 1) * (pRExC_state->study_chunk_recursed_bytes ))), ((pRExC_state->study_chunk_recursed_bytes)) * sizeof( U8))); |
5255 | } |
5256 | /* we havent recursed into this paren yet, so recurse into it */ |
5257 | DEBUG_STUDYDATA("gosub-set", data, depth, is_inf)S_debug_studydata( "gosub-set", data, depth, is_inf); |
5258 | PAREN_SET(recursed_depth, paren)(((U8*)(((pRExC_state->study_chunk_recursed) + (recursed_depth ) * (pRExC_state->study_chunk_recursed_bytes))))[(paren) >> 3] |= (1 << ((paren) & 7))); |
5259 | my_recursed_depth= recursed_depth + 1; |
5260 | } else { |
5261 | DEBUG_STUDYDATA("gosub-inf", data, depth, is_inf)S_debug_studydata( "gosub-inf", data, depth, is_inf); |
5262 | /* some form of infinite recursion, assume infinite length |
5263 | * */ |
5264 | if (flags & SCF_DO_SUBSTR0x0400) { |
5265 | scan_commit(pRExC_state, data, minlenp, is_inf)S_scan_commit( pRExC_state,data,minlenp,is_inf); |
5266 | data->cur_is_floating = 1; |
5267 | } |
5268 | is_inf = is_inf_internal = 1; |
5269 | if (flags & SCF_DO_STCLASS_OR0x1000) /* Allow everything */ |
5270 | ssc_anything(data->start_class)S_ssc_anything( data->start_class); |
5271 | flags &= ~SCF_DO_STCLASS(0x0800|0x1000); |
5272 | |
5273 | start= NULL((void*)0); /* reset start so we dont recurse later on. */ |
5274 | } |
5275 | } else { |
5276 | paren = stopparen; |
5277 | start = scan + 2; |
5278 | end = regnext(scan)Perl_regnext( scan); |
5279 | } |
5280 | if (start) { |
5281 | scan_frame *newframe; |
5282 | assert(end)((end) ? (void)0 : __assert2("re_comp.c", 5282, __func__, "end" )); |
5283 | if (!RExC_frame_last(pRExC_state->frame_last)) { |
5284 | Newxz(newframe, 1, scan_frame)(newframe = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(1) || sizeof(scan_frame) > ((size_t)1 << 8*( sizeof(size_t) - sizeof(1)))) ? (size_t)(1) : ((size_t)-1)/sizeof (scan_frame)) > ((size_t)-1)/sizeof(scan_frame))) ? (_Bool )1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), (scan_frame*)(Perl_safesyscalloc((1),sizeof(scan_frame))))); |
5285 | SAVEDESTRUCTOR_X(S_unwind_scan_frames, newframe)Perl_save_destructor_x( (DESTRUCTORFUNC_t)(S_unwind_scan_frames ),(void*)(newframe)); |
5286 | RExC_frame_head(pRExC_state->frame_head)= newframe; |
5287 | RExC_frame_count(pRExC_state->frame_count)++; |
5288 | } else if (!RExC_frame_last(pRExC_state->frame_last)->next_frame) { |
5289 | Newxz(newframe, 1, scan_frame)(newframe = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(1) || sizeof(scan_frame) > ((size_t)1 << 8*( sizeof(size_t) - sizeof(1)))) ? (size_t)(1) : ((size_t)-1)/sizeof (scan_frame)) > ((size_t)-1)/sizeof(scan_frame))) ? (_Bool )1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), (scan_frame*)(Perl_safesyscalloc((1),sizeof(scan_frame))))); |
5290 | RExC_frame_last(pRExC_state->frame_last)->next_frame= newframe; |
5291 | newframe->prev_frame= RExC_frame_last(pRExC_state->frame_last); |
5292 | RExC_frame_count(pRExC_state->frame_count)++; |
5293 | } else { |
5294 | newframe= RExC_frame_last(pRExC_state->frame_last)->next_frame; |
5295 | } |
5296 | RExC_frame_last(pRExC_state->frame_last)= newframe; |
5297 | |
5298 | newframe->next_regnode = regnext(scan)Perl_regnext( scan); |
5299 | newframe->last_regnode = last; |
5300 | newframe->stopparen = stopparen; |
5301 | newframe->prev_recursed_depth = recursed_depth; |
5302 | newframe->this_prev_frame= frame; |
5303 | newframe->in_gosub = ( |
5304 | (frame && frame->in_gosub) || OP(scan)((scan)->type) == GOSUB92 |
5305 | ); |
5306 | |
5307 | DEBUG_STUDYDATA("frame-new", data, depth, is_inf)S_debug_studydata( "frame-new", data, depth, is_inf); |
5308 | DEBUG_PEEP("fnew", scan, depth, flags)S_debug_peep( "fnew", pRExC_state, scan, depth, flags); |
5309 | |
5310 | frame = newframe; |
5311 | scan = start; |
5312 | stopparen = paren; |
5313 | last = end; |
5314 | depth = depth + 1; |
5315 | recursed_depth= my_recursed_depth; |
5316 | |
5317 | continue; |
5318 | } |
5319 | } |
5320 | else if ( OP(scan)((scan)->type) == EXACT40 |
5321 | || OP(scan)((scan)->type) == LEXACT41 |
5322 | || OP(scan)((scan)->type) == EXACT_REQ850 |
5323 | || OP(scan)((scan)->type) == LEXACT_REQ851 |
5324 | || OP(scan)((scan)->type) == EXACTL42) |
5325 | { |
5326 | SSize_tssize_t bytelen = STR_LEN(scan)((((scan)->type) == 41 || ((scan)->type) == 51) ? ((((( scan)->type) == 41 || ((scan)->type) == 51) ? (void)0 : __assert2("re_comp.c", 5326, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->str_len)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 5326, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->str_len)), charlen; |
5327 | UV uc; |
5328 | assert(bytelen)((bytelen) ? (void)0 : __assert2("re_comp.c", 5328, __func__, "bytelen")); |
5329 | if (UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) { |
5330 | const U8 * const s = (U8*)STRING(scan)((((scan)->type) == 41 || ((scan)->type) == 51) ? ((((( scan)->type) == 41 || ((scan)->type) == 51) ? (void)0 : __assert2("re_comp.c", 5330, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->string)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 5330, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->string)); |
5331 | uc = utf8_to_uvchr_buf(s, s + bytelen, NULL)Perl_utf8_to_uvchr_buf_helper( (const U8 *) (s),(const U8 *) s + bytelen,((void*)0)); |
5332 | charlen = utf8_length(s, s + bytelen)Perl_utf8_length( s,s + bytelen); |
5333 | } else { |
5334 | uc = *((U8*)STRING(scan)((((scan)->type) == 41 || ((scan)->type) == 51) ? ((((( scan)->type) == 41 || ((scan)->type) == 51) ? (void)0 : __assert2("re_comp.c", 5334, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->string)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 5334, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->string))); |
5335 | charlen = bytelen; |
5336 | } |
5337 | min += charlen; |
5338 | if (flags & SCF_DO_SUBSTR0x0400) { /* Update longest substr. */ |
5339 | /* The code below prefers earlier match for fixed |
5340 | offset, later match for variable offset. */ |
5341 | if (data->last_end == -1) { /* Update the start info. */ |
5342 | data->last_start_min = data->pos_min; |
5343 | data->last_start_max = |
5344 | is_inf ? OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1) |
5345 | : (data->pos_delta > OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1) - data->pos_min) |
5346 | ? OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1) : data->pos_min + data->pos_delta; |
5347 | } |
5348 | sv_catpvn(data->last_found, STRING(scan), bytelen)Perl_sv_catpvn_flags( data->last_found,((((scan)->type) == 41 || ((scan)->type) == 51) ? (((((scan)->type) == 41 || ((scan)->type) == 51) ? (void)0 : __assert2("re_comp.c" , 5348, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->string)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 5348, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->string)),bytelen,2); |
5349 | if (UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
5350 | SvUTF8_on(data->last_found)((data->last_found)->sv_flags |= (0x20000000)); |
5351 | { |
5352 | SV * const sv = data->last_found; |
5353 | MAGIC * const mg = SvUTF8(sv)((sv)->sv_flags & 0x20000000) && SvMAGICAL(sv)((sv)->sv_flags & (0x00200000|0x00400000|0x00800000)) ? |
5354 | mg_findPerl_mg_find(sv, PERL_MAGIC_utf8'w') : NULL((void*)0); |
5355 | if (mg && mg->mg_len >= 0) |
5356 | mg->mg_len += charlen; |
5357 | } |
5358 | data->last_end = data->pos_min + charlen; |
5359 | data->pos_min += charlen; /* As in the first entry. */ |
5360 | data->flags &= ~SF_BEFORE_EOL(0x0001|0x0002); |
5361 | } |
5362 | |
5363 | /* ANDing the code point leaves at most it, and not in locale, and |
5364 | * can't match null string */ |
5365 | if (flags & SCF_DO_STCLASS_AND0x0800) { |
5366 | ssc_cp_and(data->start_class, uc)S_ssc_cp_and( data->start_class,uc); |
5367 | ANYOF_FLAGS(data->start_class)((data->start_class)->flags) &= ~SSC_MATCHES_EMPTY_STRING0x01; |
5368 | ssc_clear_localeS_ssc_clear_locale(data->start_class); |
5369 | } |
5370 | else if (flags & SCF_DO_STCLASS_OR0x1000) { |
5371 | ssc_add_cp(data->start_class, uc)S_ssc_add_range( (data->start_class),(uc),(uc)); |
5372 | ssc_and(pRExC_state, data->start_class, (regnode_charclass *) and_withp)S_ssc_and( pRExC_state,data->start_class,(regnode_charclass *) and_withp); |
5373 | |
5374 | /* See commit msg 749e076fceedeb708a624933726e7989f2302f6a */ |
5375 | ANYOF_FLAGS(data->start_class)((data->start_class)->flags) &= ~SSC_MATCHES_EMPTY_STRING0x01; |
5376 | } |
5377 | flags &= ~SCF_DO_STCLASS(0x0800|0x1000); |
5378 | } |
5379 | else if (PL_regkind[OP(scan)((scan)->type)] == EXACT40) { |
5380 | /* But OP != EXACT!, so is EXACTFish */ |
5381 | SSize_tssize_t bytelen = STR_LEN(scan)((((scan)->type) == 41 || ((scan)->type) == 51) ? ((((( scan)->type) == 41 || ((scan)->type) == 51) ? (void)0 : __assert2("re_comp.c", 5381, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->str_len)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 5381, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->str_len)), charlen; |
5382 | const U8 * s = (U8*)STRING(scan)((((scan)->type) == 41 || ((scan)->type) == 51) ? ((((( scan)->type) == 41 || ((scan)->type) == 51) ? (void)0 : __assert2("re_comp.c", 5382, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->string)) : (((((scan )->type) != 41 && ((scan)->type) != 51) ? (void )0 : __assert2("re_comp.c", 5382, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->string)); |
5383 | |
5384 | /* Replace a length 1 ASCII fold pair node with an ANYOFM node, |
5385 | * with the mask set to the complement of the bit that differs |
5386 | * between upper and lower case, and the lowest code point of the |
5387 | * pair (which the '&' forces) */ |
5388 | if ( bytelen == 1 |
5389 | && isALPHA_A(*s)(((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 5389 , __func__, "('Z') >= ('A')")), ( (sizeof((~('A' ^ 'a') & (*s))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 5389, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 5389, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) ((~('A' ^ 'a') & (*s)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & (*s))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 5389, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 5389, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U32) ((~('A' ^ 'a') & (*s)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a' ) & (*s))) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 5389, __func__, "sizeof((~('A' ^ 'a') & (*s))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 5389, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ( 'A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 5389, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & (*s)))))) - ((('A')) | 0))) <= (((U64) (((('Z' ) - ('A'))) | 0)))))))) |
5390 | && ( OP(scan)((scan)->type) == EXACTFAA46 |
5391 | || ( OP(scan)((scan)->type) == EXACTFU45 |
5392 | && ! HAS_NONLATIN1_SIMPLE_FOLD_CLOSURE(*s)((! ((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF) )) ? (_Bool)1 : (_Bool)0)) || (PL_charclass[(U8) (*s)] & ( 1U << (19)))))) |
5393 | && mutate_ok |
5394 | ) { |
5395 | U8 mask = ~ ('A' ^ 'a'); /* These differ in just one bit */ |
5396 | |
5397 | OP(scan)((scan)->type) = ANYOFM28; |
5398 | ARG_SET(scan, *s & mask)(((((struct regnode_1 *)scan)->arg1)) = ((*s & mask))); |
5399 | FLAGS(scan)((scan)->flags) = mask; |
5400 | /* we're not EXACTFish any more, so restudy */ |
5401 | continue; |
5402 | } |
5403 | |
5404 | /* Search for fixed substrings supports EXACT only. */ |
5405 | if (flags & SCF_DO_SUBSTR0x0400) { |
5406 | assert(data)((data) ? (void)0 : __assert2("re_comp.c", 5406, __func__, "data" )); |
5407 | scan_commit(pRExC_state, data, minlenp, is_inf)S_scan_commit( pRExC_state,data,minlenp,is_inf); |
5408 | } |
5409 | charlen = UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ? (SSize_tssize_t) utf8_length(s, s + bytelen)Perl_utf8_length( s,s + bytelen) : bytelen; |
5410 | if (unfolded_multi_char) { |
5411 | RExC_seen(pRExC_state->seen) |= REG_UNFOLDED_MULTI_SEEN0x00000400; |
5412 | } |
5413 | min += charlen - min_subtract; |
5414 | assert (min >= 0)((min >= 0) ? (void)0 : __assert2("re_comp.c", 5414, __func__ , "min >= 0")); |
5415 | delta += min_subtract; |
5416 | if (flags & SCF_DO_SUBSTR0x0400) { |
5417 | data->pos_min += charlen - min_subtract; |
5418 | if (data->pos_min < 0) { |
5419 | data->pos_min = 0; |
5420 | } |
5421 | data->pos_delta += min_subtract; |
5422 | if (min_subtract) { |
5423 | data->cur_is_floating = 1; /* float */ |
5424 | } |
5425 | } |
5426 | |
5427 | if (flags & SCF_DO_STCLASS(0x0800|0x1000)) { |
5428 | SV* EXACTF_invlist = make_exactf_invlist(pRExC_state, scan)S_make_exactf_invlist( pRExC_state,scan); |
5429 | |
5430 | assert(EXACTF_invlist)((EXACTF_invlist) ? (void)0 : __assert2("re_comp.c", 5430, __func__ , "EXACTF_invlist")); |
5431 | if (flags & SCF_DO_STCLASS_AND0x0800) { |
5432 | if (OP(scan)((scan)->type) != EXACTFL44) |
5433 | ssc_clear_localeS_ssc_clear_locale(data->start_class); |
5434 | ANYOF_FLAGS(data->start_class)((data->start_class)->flags) &= ~SSC_MATCHES_EMPTY_STRING0x01; |
5435 | ANYOF_POSIXL_ZERO(data->start_class)do { (((regnode_charclass_posixl*) (data->start_class))-> classflags) = 0; } while (0); |
5436 | ssc_intersection(data->start_class, EXACTF_invlist, FALSE)S_ssc_intersection( data->start_class,EXACTF_invlist,(0)); |
5437 | } |
5438 | else { /* SCF_DO_STCLASS_OR */ |
5439 | ssc_union(data->start_class, EXACTF_invlist, FALSE)S_ssc_union( data->start_class,EXACTF_invlist,(0)); |
5440 | ssc_and(pRExC_state, data->start_class, (regnode_charclass *) and_withp)S_ssc_and( pRExC_state,data->start_class,(regnode_charclass *) and_withp); |
5441 | |
5442 | /* See commit msg 749e076fceedeb708a624933726e7989f2302f6a */ |
5443 | ANYOF_FLAGS(data->start_class)((data->start_class)->flags) &= ~SSC_MATCHES_EMPTY_STRING0x01; |
5444 | } |
5445 | flags &= ~SCF_DO_STCLASS(0x0800|0x1000); |
5446 | SvREFCNT_dec(EXACTF_invlist)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (EXACTF_invlist); _p; }))); |
5447 | } |
5448 | } |
5449 | else if (REGNODE_VARIES(OP(scan))(PL_varies_bitmask[(((scan)->type)) >> 3] & (1 << ((((scan)->type)) & 7)))) { |
5450 | SSize_tssize_t mincount, maxcount, minnext, deltanext, pos_before = 0; |
5451 | I32 fl = 0, f = flags; |
5452 | regnode * const oscan = scan; |
5453 | regnode_ssc this_class; |
5454 | regnode_ssc *oclass = NULL((void*)0); |
5455 | I32 next_is_eval = 0; |
5456 | |
5457 | switch (PL_regkind[OP(scan)((scan)->type)]) { |
5458 | case WHILEM62: /* End of (?:...)* . */ |
5459 | scan = NEXTOPER(scan)((scan) + 1); |
5460 | goto finish; |
5461 | case PLUS57: |
5462 | if (flags & (SCF_DO_SUBSTR0x0400 | SCF_DO_STCLASS(0x0800|0x1000))) { |
5463 | next = NEXTOPER(scan)((scan) + 1); |
5464 | if ( OP(next)((next)->type) == EXACT40 |
5465 | || OP(next)((next)->type) == LEXACT41 |
5466 | || OP(next)((next)->type) == EXACT_REQ850 |
5467 | || OP(next)((next)->type) == LEXACT_REQ851 |
5468 | || OP(next)((next)->type) == EXACTL42 |
5469 | || (flags & SCF_DO_STCLASS(0x0800|0x1000))) |
5470 | { |
5471 | mincount = 1; |
5472 | maxcount = REG_INFTY0xffff; |
5473 | next = regnext(scan)Perl_regnext( scan); |
5474 | scan = NEXTOPER(scan)((scan) + 1); |
5475 | goto do_curly; |
5476 | } |
5477 | } |
5478 | if (flags & SCF_DO_SUBSTR0x0400) |
5479 | data->pos_min++; |
5480 | min++; |
5481 | /* FALLTHROUGH */ |
5482 | case STAR56: |
5483 | next = NEXTOPER(scan)((scan) + 1); |
5484 | |
5485 | /* This temporary node can now be turned into EXACTFU, and |
5486 | * must, as regexec.c doesn't handle it */ |
5487 | if (OP(next)((next)->type) == EXACTFU_S_EDGE53 && mutate_ok) { |
5488 | OP(next)((next)->type) = EXACTFU45; |
5489 | } |
5490 | |
5491 | if ( STR_LEN(next)((((next)->type) == 41 || ((next)->type) == 51) ? ((((( next)->type) == 41 || ((next)->type) == 51) ? (void)0 : __assert2("re_comp.c", 5491, __func__, "((next)->type) == 41 || ((next)->type) == 51" )), (((struct regnode_lstring *)next)->str_len)) : (((((next )->type) != 41 && ((next)->type) != 51) ? (void )0 : __assert2("re_comp.c", 5491, __func__, "((next)->type) != 41 && ((next)->type) != 51" )), ((struct regnode_string *)next)->str_len)) == 1 |
5492 | && isALPHA_A(* STRING(next))(((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 5492 , __func__, "('Z') >= ('A')")), ( (sizeof((~('A' ^ 'a') & (* ((((next)->type) == 41 || ((next)->type) == 51) ? ( ((((next)->type) == 41 || ((next)->type) == 51) ? (void )0 : __assert2("re_comp.c", 5492, __func__, "((next)->type) == 41 || ((next)->type) == 51" )), (((struct regnode_lstring *)next)->string)) : (((((next )->type) != 41 && ((next)->type) != 51) ? (void )0 : __assert2("re_comp.c", 5492, __func__, "((next)->type) != 41 && ((next)->type) != 51" )), ((struct regnode_string *)next)->string))))) == sizeof (U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 5492, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ( 'A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 5492, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) ((~('A' ^ 'a') & (* ((((next)->type) == 41 || ((next)->type ) == 51) ? (((((next)->type) == 41 || ((next)->type) == 51) ? (void)0 : __assert2("re_comp.c", 5492, __func__, "((next)->type) == 41 || ((next)->type) == 51" )), (((struct regnode_lstring *)next)->string)) : (((((next )->type) != 41 && ((next)->type) != 51) ? (void )0 : __assert2("re_comp.c", 5492, __func__, "((next)->type) != 41 && ((next)->type) != 51" )), ((struct regnode_string *)next)->string)))))))) - ((('A' )) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof ((~('A' ^ 'a') & (* ((((next)->type) == 41 || ((next)-> type) == 51) ? (((((next)->type) == 41 || ((next)->type ) == 51) ? (void)0 : __assert2("re_comp.c", 5492, __func__, "((next)->type) == 41 || ((next)->type) == 51" )), (((struct regnode_lstring *)next)->string)) : (((((next )->type) != 41 && ((next)->type) != 51) ? (void )0 : __assert2("re_comp.c", 5492, __func__, "((next)->type) != 41 && ((next)->type) != 51" )), ((struct regnode_string *)next)->string))))) == sizeof (U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 5492, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ( 'A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 5492, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U32) ((~('A' ^ 'a') & (* ((((next)->type) == 41 || ((next)->type ) == 51) ? (((((next)->type) == 41 || ((next)->type) == 51) ? (void)0 : __assert2("re_comp.c", 5492, __func__, "((next)->type) == 41 || ((next)->type) == 51" )), (((struct regnode_lstring *)next)->string)) : (((((next )->type) != 41 && ((next)->type) != 51) ? (void )0 : __assert2("re_comp.c", 5492, __func__, "((next)->type) != 41 && ((next)->type) != 51" )), ((struct regnode_string *)next)->string)))))))) - ((('A' )) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof ((~('A' ^ 'a') & (* ((((next)->type) == 41 || ((next)-> type) == 51) ? (((((next)->type) == 41 || ((next)->type ) == 51) ? (void)0 : __assert2("re_comp.c", 5492, __func__, "((next)->type) == 41 || ((next)->type) == 51" )), (((struct regnode_lstring *)next)->string)) : (((((next )->type) != 41 && ((next)->type) != 51) ? (void )0 : __assert2("re_comp.c", 5492, __func__, "((next)->type) != 41 && ((next)->type) != 51" )), ((struct regnode_string *)next)->string))))) == sizeof (U64)) ? (void)0 : __assert2("re_comp.c", 5492, __func__, "sizeof((~('A' ^ 'a') & (* ((((next)->type) == 41 || ((next)->type) == 51) ? (((((next)->type) == 41 || ((next)->type) == 51) ? (void)0 : __assert2(\"re_comp.c\", 5492, __func__, \"((next)->type) == 41 || ((next)->type) == 51\")), (((struct regnode_lstring *)next)->string)) : (((((next)->type) != 41 && ((next)->type) != 51) ? (void)0 : __assert2(\"re_comp.c\", 5492, __func__, \"((next)->type) != 41 && ((next)->type) != 51\")), ((struct regnode_string *)next)->string))))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 5492, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ( 'A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 5492, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & (* ((((next)->type) == 41 || ((next)->type ) == 51) ? (((((next)->type) == 41 || ((next)->type) == 51) ? (void)0 : __assert2("re_comp.c", 5492, __func__, "((next)->type) == 41 || ((next)->type) == 51" )), (((struct regnode_lstring *)next)->string)) : (((((next )->type) != 41 && ((next)->type) != 51) ? (void )0 : __assert2("re_comp.c", 5492, __func__, "((next)->type) != 41 && ((next)->type) != 51" )), ((struct regnode_string *)next)->string)))))))) - ((('A' )) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)))))))) |
5493 | && ( OP(next)((next)->type) == EXACTFAA46 |
5494 | || ( OP(next)((next)->type) == EXACTFU45 |
5495 | && ! HAS_NONLATIN1_SIMPLE_FOLD_CLOSURE(* STRING(next))((! ((( (sizeof(* ((((next)->type) == 41 || ((next)->type ) == 51) ? (((((next)->type) == 41 || ((next)->type) == 51) ? (void)0 : __assert2("re_comp.c", 5495, __func__, "((next)->type) == 41 || ((next)->type) == 51" )), (((struct regnode_lstring *)next)->string)) : (((((next )->type) != 41 && ((next)->type) != 51) ? (void )0 : __assert2("re_comp.c", 5495, __func__, "((next)->type) != 41 && ((next)->type) != 51" )), ((struct regnode_string *)next)->string))) == 1) || !( ((U64)((* ((((next)->type) == 41 || ((next)->type) == 51 ) ? (((((next)->type) == 41 || ((next)->type) == 51) ? ( void)0 : __assert2("re_comp.c", 5495, __func__, "((next)->type) == 41 || ((next)->type) == 51" )), (((struct regnode_lstring *)next)->string)) : (((((next )->type) != 41 && ((next)->type) != 51) ? (void )0 : __assert2("re_comp.c", 5495, __func__, "((next)->type) != 41 && ((next)->type) != 51" )), ((struct regnode_string *)next)->string))) | 0)) & ~0xFF))) ? (_Bool)1 : (_Bool)0)) || (PL_charclass[(U8) (* (( ((next)->type) == 41 || ((next)->type) == 51) ? (((((next )->type) == 41 || ((next)->type) == 51) ? (void)0 : __assert2 ("re_comp.c", 5495, __func__, "((next)->type) == 41 || ((next)->type) == 51" )), (((struct regnode_lstring *)next)->string)) : (((((next )->type) != 41 && ((next)->type) != 51) ? (void )0 : __assert2("re_comp.c", 5495, __func__, "((next)->type) != 41 && ((next)->type) != 51" )), ((struct regnode_string *)next)->string)))] & (1U << (19)))))) |
5496 | && mutate_ok |
5497 | ) { |
5498 | /* These differ in just one bit */ |
5499 | U8 mask = ~ ('A' ^ 'a'); |
5500 | |
5501 | assert(isALPHA_A(* STRING(next)))(((((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 5501 , __func__, "('Z') >= ('A')")), ( (sizeof((~('A' ^ 'a') & (* ((((next)->type) == 41 || ((next)->type) == 51) ? ( ((((next)->type) == 41 || ((next)->type) == 51) ? (void )0 : __assert2("re_comp.c", 5501, __func__, "((next)->type) == 41 || ((next)->type) == 51" )), (((struct regnode_lstring *)next)->string)) : (((((next )->type) != 41 && ((next)->type) != 51) ? (void )0 : __assert2("re_comp.c", 5501, __func__, "((next)->type) != 41 && ((next)->type) != 51" )), ((struct regnode_string *)next)->string))))) == sizeof (U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 5501, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ( 'A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 5501, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) ((~('A' ^ 'a') & (* ((((next)->type) == 41 || ((next)->type ) == 51) ? (((((next)->type) == 41 || ((next)->type) == 51) ? (void)0 : __assert2("re_comp.c", 5501, __func__, "((next)->type) == 41 || ((next)->type) == 51" )), (((struct regnode_lstring *)next)->string)) : (((((next )->type) != 41 && ((next)->type) != 51) ? (void )0 : __assert2("re_comp.c", 5501, __func__, "((next)->type) != 41 && ((next)->type) != 51" )), ((struct regnode_string *)next)->string)))))))) - ((('A' )) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof ((~('A' ^ 'a') & (* ((((next)->type) == 41 || ((next)-> type) == 51) ? (((((next)->type) == 41 || ((next)->type ) == 51) ? (void)0 : __assert2("re_comp.c", 5501, __func__, "((next)->type) == 41 || ((next)->type) == 51" )), (((struct regnode_lstring *)next)->string)) : (((((next )->type) != 41 && ((next)->type) != 51) ? (void )0 : __assert2("re_comp.c", 5501, __func__, "((next)->type) != 41 && ((next)->type) != 51" )), ((struct regnode_string *)next)->string))))) == sizeof (U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 5501, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ( 'A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 5501, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U32) ((~('A' ^ 'a') & (* ((((next)->type) == 41 || ((next)->type ) == 51) ? (((((next)->type) == 41 || ((next)->type) == 51) ? (void)0 : __assert2("re_comp.c", 5501, __func__, "((next)->type) == 41 || ((next)->type) == 51" )), (((struct regnode_lstring *)next)->string)) : (((((next )->type) != 41 && ((next)->type) != 51) ? (void )0 : __assert2("re_comp.c", 5501, __func__, "((next)->type) != 41 && ((next)->type) != 51" )), ((struct regnode_string *)next)->string)))))))) - ((('A' )) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof ((~('A' ^ 'a') & (* ((((next)->type) == 41 || ((next)-> type) == 51) ? (((((next)->type) == 41 || ((next)->type ) == 51) ? (void)0 : __assert2("re_comp.c", 5501, __func__, "((next)->type) == 41 || ((next)->type) == 51" )), (((struct regnode_lstring *)next)->string)) : (((((next )->type) != 41 && ((next)->type) != 51) ? (void )0 : __assert2("re_comp.c", 5501, __func__, "((next)->type) != 41 && ((next)->type) != 51" )), ((struct regnode_string *)next)->string))))) == sizeof (U64)) ? (void)0 : __assert2("re_comp.c", 5501, __func__, "sizeof((~('A' ^ 'a') & (* ((((next)->type) == 41 || ((next)->type) == 51) ? (((((next)->type) == 41 || ((next)->type) == 51) ? (void)0 : __assert2(\"re_comp.c\", 5501, __func__, \"((next)->type) == 41 || ((next)->type) == 51\")), (((struct regnode_lstring *)next)->string)) : (((((next)->type) != 41 && ((next)->type) != 51) ? (void)0 : __assert2(\"re_comp.c\", 5501, __func__, \"((next)->type) != 41 && ((next)->type) != 51\")), ((struct regnode_string *)next)->string))))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 5501, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ( 'A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 5501, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & (* ((((next)->type) == 41 || ((next)->type ) == 51) ? (((((next)->type) == 41 || ((next)->type) == 51) ? (void)0 : __assert2("re_comp.c", 5501, __func__, "((next)->type) == 41 || ((next)->type) == 51" )), (((struct regnode_lstring *)next)->string)) : (((((next )->type) != 41 && ((next)->type) != 51) ? (void )0 : __assert2("re_comp.c", 5501, __func__, "((next)->type) != 41 && ((next)->type) != 51" )), ((struct regnode_string *)next)->string)))))))) - ((('A' )) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))))))) ? (void )0 : __assert2("re_comp.c", 5501, __func__, "isALPHA_A(* STRING(next))" )); |
5502 | |
5503 | /* Then replace it by an ANYOFM node, with |
5504 | * the mask set to the complement of the |
5505 | * bit that differs between upper and lower |
5506 | * case, and the lowest code point of the |
5507 | * pair (which the '&' forces) */ |
5508 | OP(next)((next)->type) = ANYOFM28; |
5509 | ARG_SET(next, *STRING(next) & mask)(((((struct regnode_1 *)next)->arg1)) = ((*((((next)->type ) == 41 || ((next)->type) == 51) ? (((((next)->type) == 41 || ((next)->type) == 51) ? (void)0 : __assert2("re_comp.c" , 5509, __func__, "((next)->type) == 41 || ((next)->type) == 51" )), (((struct regnode_lstring *)next)->string)) : (((((next )->type) != 41 && ((next)->type) != 51) ? (void )0 : __assert2("re_comp.c", 5509, __func__, "((next)->type) != 41 && ((next)->type) != 51" )), ((struct regnode_string *)next)->string)) & mask)) ); |
5510 | FLAGS(next)((next)->flags) = mask; |
5511 | } |
5512 | |
5513 | if (flags & SCF_DO_STCLASS(0x0800|0x1000)) { |
5514 | mincount = 0; |
5515 | maxcount = REG_INFTY0xffff; |
5516 | next = regnext(scan)Perl_regnext( scan); |
5517 | scan = NEXTOPER(scan)((scan) + 1); |
5518 | goto do_curly; |
5519 | } |
5520 | if (flags & SCF_DO_SUBSTR0x0400) { |
5521 | scan_commit(pRExC_state, data, minlenp, is_inf)S_scan_commit( pRExC_state,data,minlenp,is_inf); |
5522 | /* Cannot extend fixed substrings */ |
5523 | data->cur_is_floating = 1; /* float */ |
5524 | } |
5525 | is_inf = is_inf_internal = 1; |
5526 | scan = regnext(scan)Perl_regnext( scan); |
5527 | goto optimize_curly_tail; |
5528 | case CURLY58: |
5529 | if (stopparen>0 && (OP(scan)((scan)->type)==CURLYN59 || OP(scan)((scan)->type)==CURLYM60) |
5530 | && (scan->flags == stopparen)) |
5531 | { |
5532 | mincount = 1; |
5533 | maxcount = 1; |
5534 | } else { |
5535 | mincount = ARG1(scan)((((struct regnode_2 *)scan)->arg1)); |
5536 | maxcount = ARG2(scan)((((struct regnode_2 *)scan)->arg2)); |
5537 | } |
5538 | next = regnext(scan)Perl_regnext( scan); |
5539 | if (OP(scan)((scan)->type) == CURLYX61) { |
5540 | I32 lp = (data ? *(data->last_closep) : 0); |
5541 | scan->flags = ((lp <= (I32)U8_MAX0xff) ? (U8)lp : U8_MAX0xff); |
5542 | } |
5543 | scan = NEXTOPER(scan)((scan) + 1) + EXTRA_STEP_2ARGS((sizeof(struct regnode_2)-1)/sizeof(struct regnode)); |
5544 | next_is_eval = (OP(scan)((scan)->type) == EVAL84); |
5545 | do_curly: |
5546 | if (flags & SCF_DO_SUBSTR0x0400) { |
5547 | if (mincount == 0) |
5548 | scan_commit(pRExC_state, data, minlenp, is_inf)S_scan_commit( pRExC_state,data,minlenp,is_inf); |
5549 | /* Cannot extend fixed substrings */ |
5550 | pos_before = data->pos_min; |
5551 | } |
5552 | if (data) { |
5553 | fl = data->flags; |
5554 | data->flags &= ~(SF_HAS_PAR0x0080|SF_IN_PAR0x0100|SF_HAS_EVAL0x0200); |
5555 | if (is_inf) |
5556 | data->flags |= SF_IS_INF0x0040; |
5557 | } |
5558 | if (flags & SCF_DO_STCLASS(0x0800|0x1000)) { |
5559 | ssc_init(pRExC_state, &this_class)S_ssc_init( pRExC_state,&this_class); |
5560 | oclass = data->start_class; |
5561 | data->start_class = &this_class; |
5562 | f |= SCF_DO_STCLASS_AND0x0800; |
5563 | f &= ~SCF_DO_STCLASS_OR0x1000; |
5564 | } |
5565 | /* Exclude from super-linear cache processing any {n,m} |
5566 | regops for which the combination of input pos and regex |
5567 | pos is not enough information to determine if a match |
5568 | will be possible. |
5569 | |
5570 | For example, in the regex /foo(bar\s*){4,8}baz/ with the |
5571 | regex pos at the \s*, the prospects for a match depend not |
5572 | only on the input position but also on how many (bar\s*) |
5573 | repeats into the {4,8} we are. */ |
5574 | if ((mincount > 1) || (maxcount > 1 && maxcount != REG_INFTY0xffff)) |
5575 | f &= ~SCF_WHILEM_VISITED_POS0x2000; |
5576 | |
5577 | /* This will finish on WHILEM, setting scan, or on NULL: */ |
5578 | /* recurse study_chunk() on loop bodies */ |
5579 | minnext = study_chunk(pRExC_state, &scan, minlenp, &deltanext,S_study_chunk( pRExC_state,&scan,minlenp,&deltanext,last ,data,stopparen,recursed_depth,((void*)0),(mincount == 0 ? (f & ~0x0400) : f),depth+1,mutate_ok) |
5580 | last, data, stopparen, recursed_depth, NULL,S_study_chunk( pRExC_state,&scan,minlenp,&deltanext,last ,data,stopparen,recursed_depth,((void*)0),(mincount == 0 ? (f & ~0x0400) : f),depth+1,mutate_ok) |
5581 | (mincount == 0S_study_chunk( pRExC_state,&scan,minlenp,&deltanext,last ,data,stopparen,recursed_depth,((void*)0),(mincount == 0 ? (f & ~0x0400) : f),depth+1,mutate_ok) |
5582 | ? (f & ~SCF_DO_SUBSTR)S_study_chunk( pRExC_state,&scan,minlenp,&deltanext,last ,data,stopparen,recursed_depth,((void*)0),(mincount == 0 ? (f & ~0x0400) : f),depth+1,mutate_ok) |
5583 | : f)S_study_chunk( pRExC_state,&scan,minlenp,&deltanext,last ,data,stopparen,recursed_depth,((void*)0),(mincount == 0 ? (f & ~0x0400) : f),depth+1,mutate_ok) |
5584 | , depth+1, mutate_ok)S_study_chunk( pRExC_state,&scan,minlenp,&deltanext,last ,data,stopparen,recursed_depth,((void*)0),(mincount == 0 ? (f & ~0x0400) : f),depth+1,mutate_ok); |
5585 | |
5586 | if (flags & SCF_DO_STCLASS(0x0800|0x1000)) |
5587 | data->start_class = oclass; |
5588 | if (mincount == 0 || minnext == 0) { |
5589 | if (flags & SCF_DO_STCLASS_OR0x1000) { |
5590 | ssc_or(pRExC_state, data->start_class, (regnode_charclass *) &this_class)S_ssc_or( pRExC_state,data->start_class,(regnode_charclass *) &this_class); |
5591 | } |
5592 | else if (flags & SCF_DO_STCLASS_AND0x0800) { |
5593 | /* Switch to OR mode: cache the old value of |
5594 | * data->start_class */ |
5595 | INIT_AND_WITHP((!and_withp) ? (void)0 : __assert2("re_comp.c", 5595, __func__ , "!and_withp")); (and_withp = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(1) || sizeof(regnode_ssc) > (( size_t)1 << 8*(sizeof(size_t) - sizeof(1)))) ? (size_t) (1) : ((size_t)-1)/sizeof(regnode_ssc)) > ((size_t)-1)/sizeof (regnode_ssc))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (regnode_ssc*)(Perl_safesysmalloc((size_t)((1)*sizeof (regnode_ssc)))))); Perl_save_pushptr( (void *)((char*)(and_withp )),10); |
5596 | StructCopy(data->start_class, and_withp, regnode_ssc)(*((regnode_ssc*)(and_withp)) = *((regnode_ssc*)(data->start_class ))); |
5597 | flags &= ~SCF_DO_STCLASS_AND0x0800; |
5598 | StructCopy(&this_class, data->start_class, regnode_ssc)(*((regnode_ssc*)(data->start_class)) = *((regnode_ssc*)(& this_class))); |
5599 | flags |= SCF_DO_STCLASS_OR0x1000; |
5600 | ANYOF_FLAGS(data->start_class)((data->start_class)->flags) |
5601 | |= SSC_MATCHES_EMPTY_STRING0x01; |
5602 | } |
5603 | } else { /* Non-zero len */ |
5604 | if (flags & SCF_DO_STCLASS_OR0x1000) { |
5605 | ssc_or(pRExC_state, data->start_class, (regnode_charclass *) &this_class)S_ssc_or( pRExC_state,data->start_class,(regnode_charclass *) &this_class); |
5606 | ssc_and(pRExC_state, data->start_class, (regnode_charclass *) and_withp)S_ssc_and( pRExC_state,data->start_class,(regnode_charclass *) and_withp); |
5607 | } |
5608 | else if (flags & SCF_DO_STCLASS_AND0x0800) |
5609 | ssc_and(pRExC_state, data->start_class, (regnode_charclass *) &this_class)S_ssc_and( pRExC_state,data->start_class,(regnode_charclass *) &this_class); |
5610 | flags &= ~SCF_DO_STCLASS(0x0800|0x1000); |
5611 | } |
5612 | if (!scan) /* It was not CURLYX, but CURLY. */ |
5613 | scan = next; |
5614 | if (((flags & (SCF_TRIE_DOING_RESTUDY0x10000|SCF_DO_SUBSTR0x0400))==SCF_DO_SUBSTR0x0400) |
5615 | /* ? quantifier ok, except for (?{ ... }) */ |
5616 | && (next_is_eval || !(mincount == 0 && maxcount == 1)) |
5617 | && (minnext == 0) && (deltanext == 0) |
5618 | && data && !(data->flags & (SF_HAS_PAR0x0080|SF_IN_PAR0x0100)) |
5619 | && maxcount <= REG_INFTY0xffff/3) /* Complement check for big |
5620 | count */ |
5621 | { |
5622 | _WARN_HELPER(RExC_precomp_end, packWARN(WARN_REGEXP),do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 5627, (pRExC_state->precomp_end )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->precomp_end) - ( pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || ( PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_NONE ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* ((((20 )) & 0xFF))+1) / 8)] & (1 << ((2*((((20 ) ) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF ))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), "Quantifier unexpected on zero-length expression " "in regex m/%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( pRExC_state->precomp_end) - (pRExC_state->precomp)), (void *)((pRExC_state->precomp))); do { if (( (pRExC_state->copy_start ) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->precomp_end) - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->precomp_end) - ( pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + ((pRExC_state-> precomp_end) - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->precomp_end) - ( pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + ((pRExC_state-> precomp_end) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
5623 | Perl_ck_warner(aTHX_ packWARN(WARN_REGEXP),do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 5627, (pRExC_state->precomp_end )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->precomp_end) - ( pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || ( PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_NONE ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* ((((20 )) & 0xFF))+1) / 8)] & (1 << ((2*((((20 ) ) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF ))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), "Quantifier unexpected on zero-length expression " "in regex m/%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( pRExC_state->precomp_end) - (pRExC_state->precomp)), (void *)((pRExC_state->precomp))); do { if (( (pRExC_state->copy_start ) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->precomp_end) - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->precomp_end) - ( pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + ((pRExC_state-> precomp_end) - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->precomp_end) - ( pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + ((pRExC_state-> precomp_end) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
5624 | "Quantifier unexpected on zero-length expression "do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 5627, (pRExC_state->precomp_end )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->precomp_end) - ( pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || ( PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_NONE ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* ((((20 )) & 0xFF))+1) / 8)] & (1 << ((2*((((20 ) ) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF ))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), "Quantifier unexpected on zero-length expression " "in regex m/%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( pRExC_state->precomp_end) - (pRExC_state->precomp)), (void *)((pRExC_state->precomp))); do { if (( (pRExC_state->copy_start ) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->precomp_end) - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->precomp_end) - ( pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + ((pRExC_state-> precomp_end) - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->precomp_end) - ( pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + ((pRExC_state-> precomp_end) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
5625 | "in regex m/%" UTF8f "/",do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 5627, (pRExC_state->precomp_end )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->precomp_end) - ( pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || ( PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_NONE ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* ((((20 )) & 0xFF))+1) / 8)] & (1 << ((2*((((20 ) ) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF ))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), "Quantifier unexpected on zero-length expression " "in regex m/%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( pRExC_state->precomp_end) - (pRExC_state->precomp)), (void *)((pRExC_state->precomp))); do { if (( (pRExC_state->copy_start ) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->precomp_end) - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->precomp_end) - ( pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + ((pRExC_state-> precomp_end) - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->precomp_end) - ( pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + ((pRExC_state-> precomp_end) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
5626 | UTF8fARG(UTF, RExC_precomp_end - RExC_precomp,do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 5627, (pRExC_state->precomp_end )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->precomp_end) - ( pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || ( PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_NONE ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* ((((20 )) & 0xFF))+1) / 8)] & (1 << ((2*((((20 ) ) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF ))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), "Quantifier unexpected on zero-length expression " "in regex m/%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( pRExC_state->precomp_end) - (pRExC_state->precomp)), (void *)((pRExC_state->precomp))); do { if (( (pRExC_state->copy_start ) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->precomp_end) - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->precomp_end) - ( pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + ((pRExC_state-> precomp_end) - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->precomp_end) - ( pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + ((pRExC_state-> precomp_end) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
5627 | RExC_precomp)))do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 5627, (pRExC_state->precomp_end )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->precomp_end) - ( pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || ( PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_NONE ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* ((((20 )) & 0xFF))+1) / 8)] & (1 << ((2*((((20 ) ) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF ))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), "Quantifier unexpected on zero-length expression " "in regex m/%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( pRExC_state->precomp_end) - (pRExC_state->precomp)), (void *)((pRExC_state->precomp))); do { if (( (pRExC_state->copy_start ) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->precomp_end) - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->precomp_end) - ( pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + ((pRExC_state-> precomp_end) - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->precomp_end) - ( pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + ((pRExC_state-> precomp_end) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); |
5628 | } |
5629 | |
5630 | if ( ( minnext > 0 && mincount >= SSize_t_MAX(ssize_t)(~(size_t)0 >> 1) / minnext ) |
5631 | || min >= SSize_t_MAX(ssize_t)(~(size_t)0 >> 1) - minnext * mincount ) |
5632 | { |
5633 | FAIL("Regexp out of space")do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "%s in regex m/%" "d%" "lu" "%4p" "%s/", "Regexp out of space" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp )), ellipses); } while (0); |
5634 | } |
5635 | |
5636 | min += minnext * mincount; |
5637 | is_inf_internal |= deltanext == OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1) |
5638 | || (maxcount == REG_INFTY0xffff && minnext + deltanext > 0); |
5639 | is_inf |= is_inf_internal; |
5640 | if (is_inf) { |
5641 | delta = OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1); |
5642 | } else { |
5643 | delta += (minnext + deltanext) * maxcount |
5644 | - minnext * mincount; |
5645 | } |
5646 | /* Try powerful optimization CURLYX => CURLYN. */ |
5647 | if ( OP(oscan)((oscan)->type) == CURLYX61 && data |
5648 | && data->flags & SF_IN_PAR0x0100 |
5649 | && !(data->flags & SF_HAS_EVAL0x0200) |
5650 | && !deltanext && minnext == 1 |
5651 | && mutate_ok |
5652 | ) { |
5653 | /* Try to optimize to CURLYN. */ |
5654 | regnode *nxt = NEXTOPER(oscan)((oscan) + 1) + EXTRA_STEP_2ARGS((sizeof(struct regnode_2)-1)/sizeof(struct regnode)); |
5655 | regnode * const nxt1 = nxt; |
5656 | #ifdef DEBUGGING |
5657 | regnode *nxt2; |
5658 | #endif |
5659 | |
5660 | /* Skip open. */ |
5661 | nxt = regnext(nxt)Perl_regnext( nxt); |
5662 | if (!REGNODE_SIMPLE(OP(nxt))(PL_simple_bitmask[(((nxt)->type)) >> 3] & (1 << ((((nxt)->type)) & 7))) |
5663 | && !(PL_regkind[OP(nxt)((nxt)->type)] == EXACT40 |
5664 | && STR_LEN(nxt)((((nxt)->type) == 41 || ((nxt)->type) == 51) ? (((((nxt )->type) == 41 || ((nxt)->type) == 51) ? (void)0 : __assert2 ("re_comp.c", 5664, __func__, "((nxt)->type) == 41 || ((nxt)->type) == 51" )), (((struct regnode_lstring *)nxt)->str_len)) : (((((nxt )->type) != 41 && ((nxt)->type) != 51) ? (void) 0 : __assert2("re_comp.c", 5664, __func__, "((nxt)->type) != 41 && ((nxt)->type) != 51" )), ((struct regnode_string *)nxt)->str_len)) == 1)) |
5665 | goto nogo; |
5666 | #ifdef DEBUGGING |
5667 | nxt2 = nxt; |
5668 | #endif |
5669 | nxt = regnext(nxt)Perl_regnext( nxt); |
5670 | if (OP(nxt)((nxt)->type) != CLOSE64) |
5671 | goto nogo; |
5672 | if (RExC_open_parens(pRExC_state->open_parens)) { |
5673 | |
5674 | /*open->CURLYM*/ |
5675 | RExC_open_parens(pRExC_state->open_parens)[ARG(nxt1)((((struct regnode_1 *)nxt1)->arg1))] = REGNODE_OFFSET(oscan)((oscan) - (pRExC_state->emit_start)); |
5676 | |
5677 | /*close->while*/ |
5678 | RExC_close_parens(pRExC_state->close_parens)[ARG(nxt1)((((struct regnode_1 *)nxt1)->arg1))] = REGNODE_OFFSET(nxt)((nxt) - (pRExC_state->emit_start)) + 2; |
5679 | } |
5680 | /* Now we know that nxt2 is the only contents: */ |
5681 | oscan->flags = (U8)ARG(nxt)((((struct regnode_1 *)nxt)->arg1)); |
5682 | OP(oscan)((oscan)->type) = CURLYN59; |
5683 | OP(nxt1)((nxt1)->type) = NOTHING54; /* was OPEN. */ |
5684 | |
5685 | #ifdef DEBUGGING |
5686 | OP(nxt1 + 1)((nxt1 + 1)->type) = OPTIMIZED107; /* was count. */ |
5687 | NEXT_OFF(nxt1+ 1)((nxt1+ 1)->next_off) = 0; /* just for consistency. */ |
5688 | NEXT_OFF(nxt2)((nxt2)->next_off) = 0; /* just for consistency with CURLY. */ |
5689 | OP(nxt)((nxt)->type) = OPTIMIZED107; /* was CLOSE. */ |
5690 | OP(nxt + 1)((nxt + 1)->type) = OPTIMIZED107; /* was count. */ |
5691 | NEXT_OFF(nxt+ 1)((nxt+ 1)->next_off) = 0; /* just for consistency. */ |
5692 | #endif |
5693 | } |
5694 | nogo: |
5695 | |
5696 | /* Try optimization CURLYX => CURLYM. */ |
5697 | if ( OP(oscan)((oscan)->type) == CURLYX61 && data |
5698 | && !(data->flags & SF_HAS_PAR0x0080) |
5699 | && !(data->flags & SF_HAS_EVAL0x0200) |
5700 | && !deltanext /* atom is fixed width */ |
5701 | && minnext != 0 /* CURLYM can't handle zero width */ |
5702 | /* Nor characters whose fold at run-time may be |
5703 | * multi-character */ |
5704 | && ! (RExC_seen(pRExC_state->seen) & REG_UNFOLDED_MULTI_SEEN0x00000400) |
5705 | && mutate_ok |
5706 | ) { |
5707 | /* XXXX How to optimize if data == 0? */ |
5708 | /* Optimize to a simpler form. */ |
5709 | regnode *nxt = NEXTOPER(oscan)((oscan) + 1) + EXTRA_STEP_2ARGS((sizeof(struct regnode_2)-1)/sizeof(struct regnode)); /* OPEN */ |
5710 | regnode *nxt2; |
5711 | |
5712 | OP(oscan)((oscan)->type) = CURLYM60; |
5713 | while ( (nxt2 = regnext(nxt)Perl_regnext( nxt)) /* skip over embedded stuff*/ |
5714 | && (OP(nxt2)((nxt2)->type) != WHILEM62)) |
5715 | nxt = nxt2; |
5716 | OP(nxt2)((nxt2)->type) = SUCCEED1; /* Whas WHILEM */ |
5717 | /* Need to optimize away parenths. */ |
5718 | if ((data->flags & SF_IN_PAR0x0100) && OP(nxt)((nxt)->type) == CLOSE64) { |
5719 | /* Set the parenth number. */ |
5720 | regnode *nxt1 = NEXTOPER(oscan)((oscan) + 1) + EXTRA_STEP_2ARGS((sizeof(struct regnode_2)-1)/sizeof(struct regnode)); /* OPEN*/ |
5721 | |
5722 | oscan->flags = (U8)ARG(nxt)((((struct regnode_1 *)nxt)->arg1)); |
5723 | if (RExC_open_parens(pRExC_state->open_parens)) { |
5724 | /*open->CURLYM*/ |
5725 | RExC_open_parens(pRExC_state->open_parens)[ARG(nxt1)((((struct regnode_1 *)nxt1)->arg1))] = REGNODE_OFFSET(oscan)((oscan) - (pRExC_state->emit_start)); |
5726 | |
5727 | /*close->NOTHING*/ |
5728 | RExC_close_parens(pRExC_state->close_parens)[ARG(nxt1)((((struct regnode_1 *)nxt1)->arg1))] = REGNODE_OFFSET(nxt2)((nxt2) - (pRExC_state->emit_start)) |
5729 | + 1; |
5730 | } |
5731 | OP(nxt1)((nxt1)->type) = OPTIMIZED107; /* was OPEN. */ |
5732 | OP(nxt)((nxt)->type) = OPTIMIZED107; /* was CLOSE. */ |
5733 | |
5734 | #ifdef DEBUGGING |
5735 | OP(nxt1 + 1)((nxt1 + 1)->type) = OPTIMIZED107; /* was count. */ |
5736 | OP(nxt + 1)((nxt + 1)->type) = OPTIMIZED107; /* was count. */ |
5737 | NEXT_OFF(nxt1 + 1)((nxt1 + 1)->next_off) = 0; /* just for consistency. */ |
5738 | NEXT_OFF(nxt + 1)((nxt + 1)->next_off) = 0; /* just for consistency. */ |
5739 | #endif |
5740 | #if 0 |
5741 | while ( nxt1 && (OP(nxt1)((nxt1)->type) != WHILEM62)) { |
5742 | regnode *nnxt = regnext(nxt1)Perl_regnext( nxt1); |
5743 | if (nnxt == nxt) { |
5744 | if (reg_off_by_arg[OP(nxt1)((nxt1)->type)]) |
5745 | ARG_SET(nxt1, nxt2 - nxt1)(((((struct regnode_1 *)nxt1)->arg1)) = ((nxt2 - nxt1))); |
5746 | else if (nxt2 - nxt1 < U16_MAX0xffff) |
5747 | NEXT_OFF(nxt1)((nxt1)->next_off) = nxt2 - nxt1; |
5748 | else |
5749 | OP(nxt)((nxt)->type) = NOTHING54; /* Cannot beautify */ |
5750 | } |
5751 | nxt1 = nnxt; |
5752 | } |
5753 | #endif |
5754 | /* Optimize again: */ |
5755 | /* recurse study_chunk() on optimised CURLYX => CURLYM */ |
5756 | study_chunk(pRExC_state, &nxt1, minlenp, &deltanext, nxt,S_study_chunk( pRExC_state,&nxt1,minlenp,&deltanext,nxt ,((void*)0),stopparen,recursed_depth,((void*)0),0,depth+1,mutate_ok ) |
5757 | NULL, stopparen, recursed_depth, NULL, 0,S_study_chunk( pRExC_state,&nxt1,minlenp,&deltanext,nxt ,((void*)0),stopparen,recursed_depth,((void*)0),0,depth+1,mutate_ok ) |
5758 | depth+1, mutate_ok)S_study_chunk( pRExC_state,&nxt1,minlenp,&deltanext,nxt ,((void*)0),stopparen,recursed_depth,((void*)0),0,depth+1,mutate_ok ); |
5759 | } |
5760 | else |
5761 | oscan->flags = 0; |
5762 | } |
5763 | else if ((OP(oscan)((oscan)->type) == CURLYX61) |
5764 | && (flags & SCF_WHILEM_VISITED_POS0x2000) |
5765 | /* See the comment on a similar expression above. |
5766 | However, this time it's not a subexpression |
5767 | we care about, but the expression itself. */ |
5768 | && (maxcount == REG_INFTY0xffff) |
5769 | && data) { |
5770 | /* This stays as CURLYX, we can put the count/of pair. */ |
5771 | /* Find WHILEM (as in regexec.c) */ |
5772 | regnode *nxt = oscan + NEXT_OFF(oscan)((oscan)->next_off); |
5773 | |
5774 | if (OP(PREVOPER(nxt))((((nxt) - 1))->type) == NOTHING54) /* LONGJMP */ |
5775 | nxt += ARG(nxt)((((struct regnode_1 *)nxt)->arg1)); |
5776 | nxt = PREVOPER(nxt)((nxt) - 1); |
5777 | if (nxt->flags & 0xf) { |
5778 | /* we've already set whilem count on this node */ |
5779 | } else if (++data->whilem_c < 16) { |
5780 | assert(data->whilem_c <= RExC_whilem_seen)((data->whilem_c <= (pRExC_state->whilem_seen)) ? (void )0 : __assert2("re_comp.c", 5780, __func__, "data->whilem_c <= RExC_whilem_seen" )); |
5781 | nxt->flags = (U8)(data->whilem_c |
5782 | | (RExC_whilem_seen(pRExC_state->whilem_seen) << 4)); /* On WHILEM */ |
5783 | } |
5784 | } |
5785 | if (data && fl & (SF_HAS_PAR0x0080|SF_IN_PAR0x0100)) |
5786 | pars++; |
5787 | if (flags & SCF_DO_SUBSTR0x0400) { |
5788 | SV *last_str = NULL((void*)0); |
5789 | STRLEN last_chrs = 0; |
5790 | int counted = mincount != 0; |
5791 | |
5792 | if (data->last_end > 0 && mincount != 0) { /* Ends with a |
5793 | string. */ |
5794 | SSize_tssize_t b = pos_before >= data->last_start_min |
5795 | ? pos_before : data->last_start_min; |
5796 | STRLEN l; |
5797 | const char * const s = SvPV_const(data->last_found, l)((((data->last_found)->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((l = (*({ const SV *const _svcur = (const SV *)(data->last_found); ((PL_valid_types_PVX[((svtype)(( _svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 5797, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 5797, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 5797, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))), ((const char*)(0 + (data->last_found )->sv_u.svu_pv))) : (const char*) Perl_sv_2pv_flags( data-> last_found,&l,(2|32))); |
5798 | SSize_tssize_t old = b - data->last_start_min; |
5799 | assert(old >= 0)((old >= 0) ? (void)0 : __assert2("re_comp.c", 5799, __func__ , "old >= 0")); |
5800 | |
5801 | if (UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
5802 | old = utf8_hop_forwardPerl_utf8_hop_forward((U8*)s, old, |
5803 | (U8 *) SvEND(data->last_found)((data->last_found)->sv_u.svu_pv + ((XPV*)(data->last_found )->sv_any)->xpv_cur)) |
5804 | - (U8*)s; |
5805 | l -= old; |
5806 | /* Get the added string: */ |
5807 | last_str = newSVpvn_utf8(s + old, l, UTF)Perl_newSVpvn_flags( (s + old),(l),((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? 0x20000000 : 0); |
5808 | last_chrs = UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ? utf8_length((U8*)(s + old),Perl_utf8_length( (U8*)(s + old),(U8*)(s + old + l)) |
5809 | (U8*)(s + old + l))Perl_utf8_length( (U8*)(s + old),(U8*)(s + old + l)) : l; |
5810 | if (deltanext == 0 && pos_before == b) { |
5811 | /* What was added is a constant string */ |
5812 | if (mincount > 1) { |
5813 | |
5814 | SvGROW(last_str, (mincount * l) + 1)(((last_str)->sv_flags & 0x10000000) || ((XPV*) (last_str )->sv_any)->xpv_len_u.xpvlenu_len < ((mincount * l) + 1) ? Perl_sv_grow( last_str,(mincount * l) + 1) : (*({ SV *const _svpvx = ((SV *)({ void *_p = (last_str); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 5814, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 5814, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 5814, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))); |
5815 | repeatcpyPerl_repeatcpy(SvPVX(last_str)(*({ SV *const _svpvx = ((SV *)({ void *_p = (last_str); _p; } )); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 5815, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 5815, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 5815, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) + l, |
5816 | SvPVX_const(last_str)((const char*)(0 + (last_str)->sv_u.svu_pv)), l, |
5817 | mincount - 1); |
5818 | SvCUR_set(last_str, SvCUR(last_str) * mincount)do { ((PL_valid_types_PVX[((svtype)((last_str)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 5818, __func__, "PL_valid_types_PVX[SvTYPE(last_str) & SVt_MASK]" )); ((!((((last_str)->sv_flags & (0x00004000|0x00008000 )) == 0x00008000) && (((svtype)((last_str)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((last_str)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c" , 5818, __func__, "!isGV_with_GP(last_str)")); ((!(((svtype)( (last_str)->sv_flags & 0xff)) == SVt_PVIO && ! (((XPVIO*) (last_str)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 5818, __func__, "!(SvTYPE(last_str) == SVt_PVIO && !(IoFLAGS(last_str) & IOf_FAKE_DIRP))" )); (((XPV*) (last_str)->sv_any)->xpv_cur = ((*({ const SV *const _svcur = (const SV *)(last_str); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 5818, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 5818, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 5818, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) * mincount)); } while (0); |
5819 | /* Add additional parts. */ |
5820 | SvCUR_set(data->last_found,do { ((PL_valid_types_PVX[((svtype)((data->last_found)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c" , 5821, __func__, "PL_valid_types_PVX[SvTYPE(data->last_found) & SVt_MASK]" )); ((!((((data->last_found)->sv_flags & (0x00004000 |0x00008000)) == 0x00008000) && (((svtype)((data-> last_found)->sv_flags & 0xff)) == SVt_PVGV || ((svtype )((data->last_found)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 5821, __func__, "!isGV_with_GP(data->last_found)" )); ((!(((svtype)((data->last_found)->sv_flags & 0xff )) == SVt_PVIO && !(((XPVIO*) (data->last_found)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 5821, __func__, "!(SvTYPE(data->last_found) == SVt_PVIO && !(IoFLAGS(data->last_found) & IOf_FAKE_DIRP))" )); (((XPV*) (data->last_found)->sv_any)->xpv_cur = ( (*({ const SV *const _svcur = (const SV *)(data->last_found ); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 5821, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 5821, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 5821, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - l)); } while (0) |
5821 | SvCUR(data->last_found) - l)do { ((PL_valid_types_PVX[((svtype)((data->last_found)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c" , 5821, __func__, "PL_valid_types_PVX[SvTYPE(data->last_found) & SVt_MASK]" )); ((!((((data->last_found)->sv_flags & (0x00004000 |0x00008000)) == 0x00008000) && (((svtype)((data-> last_found)->sv_flags & 0xff)) == SVt_PVGV || ((svtype )((data->last_found)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 5821, __func__, "!isGV_with_GP(data->last_found)" )); ((!(((svtype)((data->last_found)->sv_flags & 0xff )) == SVt_PVIO && !(((XPVIO*) (data->last_found)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 5821, __func__, "!(SvTYPE(data->last_found) == SVt_PVIO && !(IoFLAGS(data->last_found) & IOf_FAKE_DIRP))" )); (((XPV*) (data->last_found)->sv_any)->xpv_cur = ( (*({ const SV *const _svcur = (const SV *)(data->last_found ); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 5821, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 5821, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 5821, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - l)); } while (0); |
5822 | sv_catsv(data->last_found, last_str)Perl_sv_catsv_flags( data->last_found,last_str,2); |
5823 | { |
5824 | SV * sv = data->last_found; |
5825 | MAGIC *mg = |
5826 | SvUTF8(sv)((sv)->sv_flags & 0x20000000) && SvMAGICAL(sv)((sv)->sv_flags & (0x00200000|0x00400000|0x00800000)) ? |
5827 | mg_findPerl_mg_find(sv, PERL_MAGIC_utf8'w') : NULL((void*)0); |
5828 | if (mg && mg->mg_len >= 0) |
5829 | mg->mg_len += last_chrs * (mincount-1); |
5830 | } |
5831 | last_chrs *= mincount; |
5832 | data->last_end += l * (mincount - 1); |
5833 | } |
5834 | } else { |
5835 | /* start offset must point into the last copy */ |
5836 | data->last_start_min += minnext * (mincount - 1); |
5837 | data->last_start_max = |
5838 | is_inf |
5839 | ? OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1) |
5840 | : data->last_start_max + |
5841 | (maxcount - 1) * (minnext + data->pos_delta); |
5842 | } |
5843 | } |
5844 | /* It is counted once already... */ |
5845 | data->pos_min += minnext * (mincount - counted); |
5846 | #if 0 |
5847 | Perl_re_printf( aTHX_ "counted=%" UVuf"lu" " deltanext=%" UVuf"lu" |
5848 | " OPTIMIZE_INFTY=%" UVuf"lu" " minnext=%" UVuf"lu" |
5849 | " maxcount=%" UVuf"lu" " mincount=%" UVuf"lu" "\n", |
5850 | (UV)counted, (UV)deltanext, (UV)OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1), (UV)minnext, (UV)maxcount, |
5851 | (UV)mincount); |
5852 | if (deltanext != OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1)) |
5853 | Perl_re_printf( aTHX_ "LHS=%" UVuf"lu" " RHS=%" UVuf"lu" "\n", |
5854 | (UV)(-counted * deltanext + (minnext + deltanext) * maxcount |
5855 | - minnext * mincount), (UV)(OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1) - data->pos_delta)); |
5856 | #endif |
5857 | if (deltanext == OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1) |
5858 | || -counted * deltanext + (minnext + deltanext) * maxcount - minnext * mincount >= OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1) - data->pos_delta) |
5859 | data->pos_delta = OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1); |
5860 | else |
5861 | data->pos_delta += - counted * deltanext + |
5862 | (minnext + deltanext) * maxcount - minnext * mincount; |
5863 | if (mincount != maxcount) { |
5864 | /* Cannot extend fixed substrings found inside |
5865 | the group. */ |
5866 | scan_commit(pRExC_state, data, minlenp, is_inf)S_scan_commit( pRExC_state,data,minlenp,is_inf); |
5867 | if (mincount && last_str) { |
5868 | SV * const sv = data->last_found; |
5869 | MAGIC * const mg = SvUTF8(sv)((sv)->sv_flags & 0x20000000) && SvMAGICAL(sv)((sv)->sv_flags & (0x00200000|0x00400000|0x00800000)) ? |
5870 | mg_findPerl_mg_find(sv, PERL_MAGIC_utf8'w') : NULL((void*)0); |
5871 | |
5872 | if (mg) |
5873 | mg->mg_len = -1; |
5874 | sv_setsv(sv, last_str)Perl_sv_setsv_flags( sv,last_str,2|0); |
5875 | data->last_end = data->pos_min; |
5876 | data->last_start_min = data->pos_min - last_chrs; |
5877 | data->last_start_max = is_inf |
5878 | ? OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1) |
5879 | : data->pos_min + data->pos_delta - last_chrs; |
5880 | } |
5881 | data->cur_is_floating = 1; /* float */ |
5882 | } |
5883 | SvREFCNT_dec(last_str)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (last_str); _p; }))); |
5884 | } |
5885 | if (data && (fl & SF_HAS_EVAL0x0200)) |
5886 | data->flags |= SF_HAS_EVAL0x0200; |
5887 | optimize_curly_tail: |
5888 | rck_elide_nothing(oscan)S_rck_elide_nothing( oscan); |
5889 | continue; |
5890 | |
5891 | default: |
5892 | Perl_croak(aTHX_ "panic: unexpected varying REx opcode %d", |
5893 | OP(scan)((scan)->type)); |
5894 | case REF67: |
5895 | case CLUMP38: |
5896 | if (flags & SCF_DO_SUBSTR0x0400) { |
5897 | /* Cannot expect anything... */ |
5898 | scan_commit(pRExC_state, data, minlenp, is_inf)S_scan_commit( pRExC_state,data,minlenp,is_inf); |
5899 | data->cur_is_floating = 1; /* float */ |
5900 | } |
5901 | is_inf = is_inf_internal = 1; |
5902 | if (flags & SCF_DO_STCLASS_OR0x1000) { |
5903 | if (OP(scan)((scan)->type) == CLUMP38) { |
5904 | /* Actually is any start char, but very few code points |
5905 | * aren't start characters */ |
5906 | ssc_match_all_cp(data->start_class)S_ssc_add_range( data->start_class,0,(~(UV)0)); |
5907 | } |
5908 | else { |
5909 | ssc_anything(data->start_class)S_ssc_anything( data->start_class); |
5910 | } |
5911 | } |
5912 | flags &= ~SCF_DO_STCLASS(0x0800|0x1000); |
5913 | break; |
5914 | } |
5915 | } |
5916 | else if (OP(scan)((scan)->type) == LNBREAK106) { |
5917 | if (flags & SCF_DO_STCLASS(0x0800|0x1000)) { |
5918 | if (flags & SCF_DO_STCLASS_AND0x0800) { |
5919 | ssc_intersection(data->start_class,S_ssc_intersection( data->start_class,PL_XPosix_ptrs[15],( 0)) |
5920 | PL_XPosix_ptrs[_CC_VERTSPACE], FALSE)S_ssc_intersection( data->start_class,PL_XPosix_ptrs[15],( 0)); |
5921 | ssc_clear_localeS_ssc_clear_locale(data->start_class); |
5922 | ANYOF_FLAGS(data->start_class)((data->start_class)->flags) |
5923 | &= ~SSC_MATCHES_EMPTY_STRING0x01; |
5924 | } |
5925 | else if (flags & SCF_DO_STCLASS_OR0x1000) { |
5926 | ssc_union(data->start_class,S_ssc_union( data->start_class,PL_XPosix_ptrs[15],(0)) |
5927 | PL_XPosix_ptrs[_CC_VERTSPACE],S_ssc_union( data->start_class,PL_XPosix_ptrs[15],(0)) |
5928 | FALSE)S_ssc_union( data->start_class,PL_XPosix_ptrs[15],(0)); |
5929 | ssc_and(pRExC_state, data->start_class, (regnode_charclass *) and_withp)S_ssc_and( pRExC_state,data->start_class,(regnode_charclass *) and_withp); |
5930 | |
5931 | /* See commit msg for |
5932 | * 749e076fceedeb708a624933726e7989f2302f6a */ |
5933 | ANYOF_FLAGS(data->start_class)((data->start_class)->flags) |
5934 | &= ~SSC_MATCHES_EMPTY_STRING0x01; |
5935 | } |
5936 | flags &= ~SCF_DO_STCLASS(0x0800|0x1000); |
5937 | } |
5938 | min++; |
5939 | if (delta != OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1)) |
5940 | delta++; /* Because of the 2 char string cr-lf */ |
5941 | if (flags & SCF_DO_SUBSTR0x0400) { |
5942 | /* Cannot expect anything... */ |
5943 | scan_commit(pRExC_state, data, minlenp, is_inf)S_scan_commit( pRExC_state,data,minlenp,is_inf); |
5944 | data->pos_min += 1; |
5945 | if (data->pos_delta != OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1)) { |
5946 | data->pos_delta += 1; |
5947 | } |
5948 | data->cur_is_floating = 1; /* float */ |
5949 | } |
5950 | } |
5951 | else if (REGNODE_SIMPLE(OP(scan))(PL_simple_bitmask[(((scan)->type)) >> 3] & (1 << ((((scan)->type)) & 7)))) { |
5952 | |
5953 | if (flags & SCF_DO_SUBSTR0x0400) { |
5954 | scan_commit(pRExC_state, data, minlenp, is_inf)S_scan_commit( pRExC_state,data,minlenp,is_inf); |
5955 | data->pos_min++; |
5956 | } |
5957 | min++; |
5958 | if (flags & SCF_DO_STCLASS(0x0800|0x1000)) { |
5959 | bool_Bool invert = 0; |
5960 | SV* my_invlist = NULL((void*)0); |
5961 | U8 namedclass; |
5962 | |
5963 | /* See commit msg 749e076fceedeb708a624933726e7989f2302f6a */ |
5964 | ANYOF_FLAGS(data->start_class)((data->start_class)->flags) &= ~SSC_MATCHES_EMPTY_STRING0x01; |
5965 | |
5966 | /* Some of the logic below assumes that switching |
5967 | locale on will only add false positives. */ |
5968 | switch (OP(scan)((scan)->type)) { |
5969 | |
5970 | default: |
5971 | #ifdef DEBUGGING |
5972 | Perl_croak(aTHX_ "panic: unexpected simple REx opcode %d", |
5973 | OP(scan)((scan)->type)); |
5974 | #endif |
5975 | case SANY17: |
5976 | if (flags & SCF_DO_STCLASS_OR0x1000) /* Allow everything */ |
5977 | ssc_match_all_cp(data->start_class)S_ssc_add_range( data->start_class,0,(~(UV)0)); |
5978 | break; |
5979 | |
5980 | case REG_ANY16: |
5981 | { |
5982 | SV* REG_ANY_invlist = _new_invlist(2)Perl__new_invlist( 2); |
5983 | REG_ANY_invlist = add_cp_to_invlist(REG_ANY_invlist,S_add_cp_to_invlist( REG_ANY_invlist,'\n') |
5984 | '\n')S_add_cp_to_invlist( REG_ANY_invlist,'\n'); |
5985 | if (flags & SCF_DO_STCLASS_OR0x1000) { |
5986 | ssc_union(data->start_class,S_ssc_union( data->start_class,REG_ANY_invlist,(1)) |
5987 | REG_ANY_invlist,S_ssc_union( data->start_class,REG_ANY_invlist,(1)) |
5988 | TRUE /* TRUE => invert, hence all but \nS_ssc_union( data->start_class,REG_ANY_invlist,(1)) |
5989 | */S_ssc_union( data->start_class,REG_ANY_invlist,(1)) |
5990 | )S_ssc_union( data->start_class,REG_ANY_invlist,(1)); |
5991 | } |
5992 | else if (flags & SCF_DO_STCLASS_AND0x0800) { |
5993 | ssc_intersection(data->start_class,S_ssc_intersection( data->start_class,REG_ANY_invlist,(1)) |
5994 | REG_ANY_invlist,S_ssc_intersection( data->start_class,REG_ANY_invlist,(1)) |
5995 | TRUE /* TRUE => invert */S_ssc_intersection( data->start_class,REG_ANY_invlist,(1)) |
5996 | )S_ssc_intersection( data->start_class,REG_ANY_invlist,(1)); |
5997 | ssc_clear_localeS_ssc_clear_locale(data->start_class); |
5998 | } |
5999 | SvREFCNT_dec_NN(REG_ANY_invlist)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (REG_ANY_invlist); _p; }))); |
6000 | } |
6001 | break; |
6002 | |
6003 | case ANYOFD19: |
6004 | case ANYOFL20: |
6005 | case ANYOFPOSIXL21: |
6006 | case ANYOFH22: |
6007 | case ANYOFHb23: |
6008 | case ANYOFHr24: |
6009 | case ANYOFHs25: |
6010 | case ANYOF18: |
6011 | if (flags & SCF_DO_STCLASS_AND0x0800) |
6012 | ssc_and(pRExC_state, data->start_class,S_ssc_and( pRExC_state,data->start_class,(regnode_charclass *) scan) |
6013 | (regnode_charclass *) scan)S_ssc_and( pRExC_state,data->start_class,(regnode_charclass *) scan); |
6014 | else |
6015 | ssc_or(pRExC_state, data->start_class,S_ssc_or( pRExC_state,data->start_class,(regnode_charclass *) scan) |
6016 | (regnode_charclass *) scan)S_ssc_or( pRExC_state,data->start_class,(regnode_charclass *) scan); |
6017 | break; |
6018 | |
6019 | case NANYOFM29: /* NANYOFM already contains the inversion of the |
6020 | input ANYOF data, so, unlike things like |
6021 | NPOSIXA, don't change 'invert' to TRUE */ |
6022 | /* FALLTHROUGH */ |
6023 | case ANYOFM28: |
6024 | { |
6025 | SV* cp_list = get_ANYOFM_contents(scan)S_get_ANYOFM_contents( scan); |
6026 | |
6027 | if (flags & SCF_DO_STCLASS_OR0x1000) { |
6028 | ssc_union(data->start_class, cp_list, invert)S_ssc_union( data->start_class,cp_list,invert); |
6029 | } |
6030 | else if (flags & SCF_DO_STCLASS_AND0x0800) { |
6031 | ssc_intersection(data->start_class, cp_list, invert)S_ssc_intersection( data->start_class,cp_list,invert); |
6032 | } |
6033 | |
6034 | SvREFCNT_dec_NN(cp_list)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (cp_list); _p; })) ); |
6035 | break; |
6036 | } |
6037 | |
6038 | case ANYOFR26: |
6039 | case ANYOFRb27: |
6040 | { |
6041 | SV* cp_list = NULL((void*)0); |
6042 | |
6043 | cp_list = _add_range_to_invlist(cp_list,Perl__add_range_to_invlist( cp_list,(((((struct regnode_1 *)scan )->arg1)) & ((1 << 20) - 1)),(((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1)) + (((((struct regnode_1 *)scan)->arg1)) >> 20)) |
6044 | ANYOFRbase(scan),Perl__add_range_to_invlist( cp_list,(((((struct regnode_1 *)scan )->arg1)) & ((1 << 20) - 1)),(((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1)) + (((((struct regnode_1 *)scan)->arg1)) >> 20)) |
6045 | ANYOFRbase(scan) + ANYOFRdelta(scan))Perl__add_range_to_invlist( cp_list,(((((struct regnode_1 *)scan )->arg1)) & ((1 << 20) - 1)),(((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1)) + (((((struct regnode_1 *)scan)->arg1)) >> 20)); |
6046 | |
6047 | if (flags & SCF_DO_STCLASS_OR0x1000) { |
6048 | ssc_union(data->start_class, cp_list, invert)S_ssc_union( data->start_class,cp_list,invert); |
6049 | } |
6050 | else if (flags & SCF_DO_STCLASS_AND0x0800) { |
6051 | ssc_intersection(data->start_class, cp_list, invert)S_ssc_intersection( data->start_class,cp_list,invert); |
6052 | } |
6053 | |
6054 | SvREFCNT_dec_NN(cp_list)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (cp_list); _p; })) ); |
6055 | break; |
6056 | } |
6057 | |
6058 | case NPOSIXL35: |
6059 | invert = 1; |
6060 | /* FALLTHROUGH */ |
6061 | |
6062 | case POSIXL31: |
6063 | namedclass = classnum_to_namedclass(FLAGS(scan))((((scan)->flags)) * 2) + invert; |
6064 | if (flags & SCF_DO_STCLASS_AND0x0800) { |
6065 | bool_Bool was_there = cBOOL(((((((regnode_charclass_posixl*) (data->start_class))-> classflags) & (1U << ((namedclass))))) ? (_Bool)1 : (_Bool)0) |
6066 | ANYOF_POSIXL_TEST(data->start_class,((((((regnode_charclass_posixl*) (data->start_class))-> classflags) & (1U << ((namedclass))))) ? (_Bool)1 : (_Bool)0) |
6067 | namedclass))((((((regnode_charclass_posixl*) (data->start_class))-> classflags) & (1U << ((namedclass))))) ? (_Bool)1 : (_Bool)0); |
6068 | ANYOF_POSIXL_ZERO(data->start_class)do { (((regnode_charclass_posixl*) (data->start_class))-> classflags) = 0; } while (0); |
6069 | if (was_there) { /* Do an AND */ |
6070 | ANYOF_POSIXL_SET(data->start_class, namedclass)((((regnode_charclass_posixl*) (data->start_class))->classflags ) |= (1U << ((namedclass)))); |
6071 | } |
6072 | /* No individual code points can now match */ |
6073 | data->start_class->invlist |
6074 | = sv_2mortal(_new_invlist(0))Perl_sv_2mortal( Perl__new_invlist( 0)); |
6075 | } |
6076 | else { |
6077 | int complement = namedclass + ((invert) ? -1 : 1); |
6078 | |
6079 | assert(flags & SCF_DO_STCLASS_OR)((flags & 0x1000) ? (void)0 : __assert2("re_comp.c", 6079 , __func__, "flags & SCF_DO_STCLASS_OR")); |
6080 | |
6081 | /* If the complement of this class was already there, |
6082 | * the result is that they match all code points, |
6083 | * (\d + \D == everything). Remove the classes from |
6084 | * future consideration. Locale is not relevant in |
6085 | * this case */ |
6086 | if (ANYOF_POSIXL_TEST(data->start_class, complement)((((regnode_charclass_posixl*) (data->start_class))->classflags ) & (1U << ((complement))))) { |
6087 | ssc_match_all_cp(data->start_class)S_ssc_add_range( data->start_class,0,(~(UV)0)); |
6088 | ANYOF_POSIXL_CLEAR(data->start_class, namedclass)((((regnode_charclass_posixl*) (data->start_class))->classflags ) &= ~ (1U <<((namedclass)))); |
6089 | ANYOF_POSIXL_CLEAR(data->start_class, complement)((((regnode_charclass_posixl*) (data->start_class))->classflags ) &= ~ (1U <<((complement)))); |
6090 | } |
6091 | else { /* The usual case; just add this class to the |
6092 | existing set */ |
6093 | ANYOF_POSIXL_SET(data->start_class, namedclass)((((regnode_charclass_posixl*) (data->start_class))->classflags ) |= (1U << ((namedclass)))); |
6094 | } |
6095 | } |
6096 | break; |
6097 | |
6098 | case NPOSIXA37: /* For these, we always know the exact set of |
6099 | what's matched */ |
6100 | invert = 1; |
6101 | /* FALLTHROUGH */ |
6102 | case POSIXA33: |
6103 | my_invlist = invlist_clone(PL_Posix_ptrs[FLAGS(scan)], NULL)Perl_invlist_clone( PL_Posix_ptrs[((scan)->flags)],((void* )0)); |
6104 | goto join_posix_and_ascii; |
6105 | |
6106 | case NPOSIXD34: |
6107 | case NPOSIXU36: |
6108 | invert = 1; |
6109 | /* FALLTHROUGH */ |
6110 | case POSIXD30: |
6111 | case POSIXU32: |
6112 | my_invlist = invlist_clone(PL_XPosix_ptrs[FLAGS(scan)], NULL)Perl_invlist_clone( PL_XPosix_ptrs[((scan)->flags)],((void *)0)); |
6113 | |
6114 | /* NPOSIXD matches all upper Latin1 code points unless the |
6115 | * target string being matched is UTF-8, which is |
6116 | * unknowable until match time. Since we are going to |
6117 | * invert, we want to get rid of all of them so that the |
6118 | * inversion will match all */ |
6119 | if (OP(scan)((scan)->type) == NPOSIXD34) { |
6120 | _invlist_subtract(my_invlist, PL_UpperLatin1,Perl__invlist_intersection_maybe_complement_2nd( my_invlist,PL_UpperLatin1 ,(1),&my_invlist) |
6121 | &my_invlist)Perl__invlist_intersection_maybe_complement_2nd( my_invlist,PL_UpperLatin1 ,(1),&my_invlist); |
6122 | } |
6123 | |
6124 | join_posix_and_ascii: |
6125 | |
6126 | if (flags & SCF_DO_STCLASS_AND0x0800) { |
6127 | ssc_intersection(data->start_class, my_invlist, invert)S_ssc_intersection( data->start_class,my_invlist,invert); |
6128 | ssc_clear_localeS_ssc_clear_locale(data->start_class); |
6129 | } |
6130 | else { |
6131 | assert(flags & SCF_DO_STCLASS_OR)((flags & 0x1000) ? (void)0 : __assert2("re_comp.c", 6131 , __func__, "flags & SCF_DO_STCLASS_OR")); |
6132 | ssc_union(data->start_class, my_invlist, invert)S_ssc_union( data->start_class,my_invlist,invert); |
6133 | } |
6134 | SvREFCNT_dec(my_invlist)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (my_invlist); _p; })) ); |
6135 | } |
6136 | if (flags & SCF_DO_STCLASS_OR0x1000) |
6137 | ssc_and(pRExC_state, data->start_class, (regnode_charclass *) and_withp)S_ssc_and( pRExC_state,data->start_class,(regnode_charclass *) and_withp); |
6138 | flags &= ~SCF_DO_STCLASS(0x0800|0x1000); |
6139 | } |
6140 | } |
6141 | else if (PL_regkind[OP(scan)((scan)->type)] == EOL4 && flags & SCF_DO_SUBSTR0x0400) { |
6142 | data->flags |= (OP(scan)((scan)->type) == MEOL5 |
6143 | ? SF_BEFORE_MEOL0x0002 |
6144 | : SF_BEFORE_SEOL0x0001); |
6145 | scan_commit(pRExC_state, data, minlenp, is_inf)S_scan_commit( pRExC_state,data,minlenp,is_inf); |
6146 | |
6147 | } |
6148 | else if ( PL_regkind[OP(scan)((scan)->type)] == BRANCHJ78 |
6149 | /* Lookbehind, or need to calculate parens/evals/stclass: */ |
6150 | && (scan->flags || data || (flags & SCF_DO_STCLASS(0x0800|0x1000))) |
6151 | && (OP(scan)((scan)->type) == IFMATCH79 || OP(scan)((scan)->type) == UNLESSM80)) |
6152 | { |
6153 | if ( !PERL_ENABLE_POSITIVE_ASSERTION_STUDY0 |
6154 | || OP(scan)((scan)->type) == UNLESSM80 ) |
6155 | { |
6156 | /* Negative Lookahead/lookbehind |
6157 | In this case we can't do fixed string optimisation. |
6158 | */ |
6159 | |
6160 | SSize_tssize_t deltanext, minnext, fake = 0; |
6161 | regnode *nscan; |
6162 | regnode_ssc intrnl; |
6163 | int f = 0; |
6164 | |
6165 | StructCopy(&zero_scan_data, &data_fake, scan_data_t)(*((scan_data_t*)(&data_fake)) = *((scan_data_t*)(&zero_scan_data ))); |
6166 | if (data) { |
6167 | data_fake.whilem_c = data->whilem_c; |
6168 | data_fake.last_closep = data->last_closep; |
6169 | } |
6170 | else |
6171 | data_fake.last_closep = &fake; |
6172 | data_fake.pos_delta = delta; |
6173 | if ( flags & SCF_DO_STCLASS(0x0800|0x1000) && !scan->flags |
6174 | && OP(scan)((scan)->type) == IFMATCH79 ) { /* Lookahead */ |
6175 | ssc_init(pRExC_state, &intrnl)S_ssc_init( pRExC_state,&intrnl); |
6176 | data_fake.start_class = &intrnl; |
6177 | f |= SCF_DO_STCLASS_AND0x0800; |
6178 | } |
6179 | if (flags & SCF_WHILEM_VISITED_POS0x2000) |
6180 | f |= SCF_WHILEM_VISITED_POS0x2000; |
6181 | next = regnext(scan)Perl_regnext( scan); |
6182 | nscan = NEXTOPER(NEXTOPER(scan))((((scan) + 1)) + 1); |
6183 | |
6184 | /* recurse study_chunk() for lookahead body */ |
6185 | minnext = study_chunk(pRExC_state, &nscan, minlenp, &deltanext,S_study_chunk( pRExC_state,&nscan,minlenp,&deltanext, last,&data_fake,stopparen,recursed_depth,((void*)0),f,depth +1,mutate_ok) |
6186 | last, &data_fake, stopparen,S_study_chunk( pRExC_state,&nscan,minlenp,&deltanext, last,&data_fake,stopparen,recursed_depth,((void*)0),f,depth +1,mutate_ok) |
6187 | recursed_depth, NULL, f, depth+1,S_study_chunk( pRExC_state,&nscan,minlenp,&deltanext, last,&data_fake,stopparen,recursed_depth,((void*)0),f,depth +1,mutate_ok) |
6188 | mutate_ok)S_study_chunk( pRExC_state,&nscan,minlenp,&deltanext, last,&data_fake,stopparen,recursed_depth,((void*)0),f,depth +1,mutate_ok); |
6189 | if (scan->flags) { |
6190 | if ( deltanext < 0 |
6191 | || deltanext > (I32) U8_MAX0xff |
6192 | || minnext > (I32)U8_MAX0xff |
6193 | || minnext + deltanext > (I32)U8_MAX0xff) |
6194 | { |
6195 | FAIL2("Lookbehind longer than %" UVuf " not implemented",do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "Lookbehind longer than %" "lu" " not implemented" " in regex m/%" "d%" "lu" "%4p" "%s/", (UV)0xff, (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)(len), (void*)((pRExC_state->precomp)), ellipses); } while (0) |
6196 | (UV)U8_MAX)do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "Lookbehind longer than %" "lu" " not implemented" " in regex m/%" "d%" "lu" "%4p" "%s/", (UV)0xff, (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)(len), (void*)((pRExC_state->precomp)), ellipses); } while (0); |
6197 | } |
6198 | |
6199 | /* The 'next_off' field has been repurposed to count the |
6200 | * additional starting positions to try beyond the initial |
6201 | * one. (This leaves it at 0 for non-variable length |
6202 | * matches to avoid breakage for those not using this |
6203 | * extension) */ |
6204 | if (deltanext) { |
6205 | scan->next_off = deltanext; |
6206 | ckWARNexperimental(RExC_parse,do { if (! (pRExC_state->sWARN_EXPERIMENTAL__VLB)) { (pRExC_state ->sWARN_EXPERIMENTAL__VLB) = 1; do { if (! (pRExC_state-> copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 6208, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((72 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((72 )) & 0xFF))+1) % 8)))) || (((((72 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((72 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((72 )) >> 8) & 0xFF))+1) % 8)))) || (((((72 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((72 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((72 )) >>16) & 0xFF))+1) % 8)))) || (((((72 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((72 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((72 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner_d ( (72 ), "Variable length lookbehind is experimental" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 6208, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); } } while (0) |
6207 | WARN_EXPERIMENTAL__VLB,do { if (! (pRExC_state->sWARN_EXPERIMENTAL__VLB)) { (pRExC_state ->sWARN_EXPERIMENTAL__VLB) = 1; do { if (! (pRExC_state-> copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 6208, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((72 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((72 )) & 0xFF))+1) % 8)))) || (((((72 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((72 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((72 )) >> 8) & 0xFF))+1) % 8)))) || (((((72 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((72 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((72 )) >>16) & 0xFF))+1) % 8)))) || (((((72 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((72 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((72 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner_d ( (72 ), "Variable length lookbehind is experimental" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 6208, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); } } while (0) |
6208 | "Variable length lookbehind is experimental")do { if (! (pRExC_state->sWARN_EXPERIMENTAL__VLB)) { (pRExC_state ->sWARN_EXPERIMENTAL__VLB) = 1; do { if (! (pRExC_state-> copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 6208, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((72 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((72 )) & 0xFF))+1) % 8)))) || (((((72 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((72 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((72 )) >> 8) & 0xFF))+1) % 8)))) || (((((72 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((72 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((72 )) >>16) & 0xFF))+1) % 8)))) || (((((72 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((72 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((72 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner_d ( (72 ), "Variable length lookbehind is experimental" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 6208, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); } } while (0); |
6209 | } |
6210 | scan->flags = (U8)minnext + deltanext; |
6211 | } |
6212 | if (data) { |
6213 | if (data_fake.flags & (SF_HAS_PAR0x0080|SF_IN_PAR0x0100)) |
6214 | pars++; |
6215 | if (data_fake.flags & SF_HAS_EVAL0x0200) |
6216 | data->flags |= SF_HAS_EVAL0x0200; |
6217 | data->whilem_c = data_fake.whilem_c; |
6218 | } |
6219 | if (f & SCF_DO_STCLASS_AND0x0800) { |
6220 | if (flags & SCF_DO_STCLASS_OR0x1000) { |
6221 | /* OR before, AND after: ideally we would recurse with |
6222 | * data_fake to get the AND applied by study of the |
6223 | * remainder of the pattern, and then derecurse; |
6224 | * *** HACK *** for now just treat as "no information". |
6225 | * See [perl #56690]. |
6226 | */ |
6227 | ssc_init(pRExC_state, data->start_class)S_ssc_init( pRExC_state,data->start_class); |
6228 | } else { |
6229 | /* AND before and after: combine and continue. These |
6230 | * assertions are zero-length, so can match an EMPTY |
6231 | * string */ |
6232 | ssc_and(pRExC_state, data->start_class, (regnode_charclass *) &intrnl)S_ssc_and( pRExC_state,data->start_class,(regnode_charclass *) &intrnl); |
6233 | ANYOF_FLAGS(data->start_class)((data->start_class)->flags) |
6234 | |= SSC_MATCHES_EMPTY_STRING0x01; |
6235 | } |
6236 | } |
6237 | } |
6238 | #if PERL_ENABLE_POSITIVE_ASSERTION_STUDY0 |
6239 | else { |
6240 | /* Positive Lookahead/lookbehind |
6241 | In this case we can do fixed string optimisation, |
6242 | but we must be careful about it. Note in the case of |
6243 | lookbehind the positions will be offset by the minimum |
6244 | length of the pattern, something we won't know about |
6245 | until after the recurse. |
6246 | */ |
6247 | SSize_tssize_t deltanext, fake = 0; |
6248 | regnode *nscan; |
6249 | regnode_ssc intrnl; |
6250 | int f = 0; |
6251 | /* We use SAVEFREEPV so that when the full compile |
6252 | is finished perl will clean up the allocated |
6253 | minlens when it's all done. This way we don't |
6254 | have to worry about freeing them when we know |
6255 | they wont be used, which would be a pain. |
6256 | */ |
6257 | SSize_tssize_t *minnextp; |
6258 | Newx( minnextp, 1, SSize_t )(minnextp = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(1) || sizeof(ssize_t) > ((size_t)1 << 8*(sizeof (size_t) - sizeof(1)))) ? (size_t)(1) : ((size_t)-1)/sizeof(ssize_t )) > ((size_t)-1)/sizeof(ssize_t))) ? (_Bool)1 : (_Bool)0) ,(0)) && (Perl_croak_memory_wrap(),0)), (ssize_t*)(Perl_safesysmalloc ((size_t)((1)*sizeof(ssize_t)))))); |
6259 | SAVEFREEPV(minnextp)Perl_save_pushptr( (void *)((char*)(minnextp)),10); |
6260 | |
6261 | if (data) { |
6262 | StructCopy(data, &data_fake, scan_data_t)(*((scan_data_t*)(&data_fake)) = *((scan_data_t*)(data))); |
6263 | if ((flags & SCF_DO_SUBSTR0x0400) && data->last_found) { |
6264 | f |= SCF_DO_SUBSTR0x0400; |
6265 | if (scan->flags) |
6266 | scan_commit(pRExC_state, &data_fake, minlenp, is_inf)S_scan_commit( pRExC_state,&data_fake,minlenp,is_inf); |
6267 | data_fake.last_found=newSVsv(data->last_found)Perl_newSVsv_flags( (data->last_found),2|16); |
6268 | } |
6269 | } |
6270 | else |
6271 | data_fake.last_closep = &fake; |
6272 | data_fake.flags = 0; |
6273 | data_fake.substrs[0].flags = 0; |
6274 | data_fake.substrs[1].flags = 0; |
6275 | data_fake.pos_delta = delta; |
6276 | if (is_inf) |
6277 | data_fake.flags |= SF_IS_INF0x0040; |
6278 | if ( flags & SCF_DO_STCLASS(0x0800|0x1000) && !scan->flags |
6279 | && OP(scan)((scan)->type) == IFMATCH79 ) { /* Lookahead */ |
6280 | ssc_init(pRExC_state, &intrnl)S_ssc_init( pRExC_state,&intrnl); |
6281 | data_fake.start_class = &intrnl; |
6282 | f |= SCF_DO_STCLASS_AND0x0800; |
6283 | } |
6284 | if (flags & SCF_WHILEM_VISITED_POS0x2000) |
6285 | f |= SCF_WHILEM_VISITED_POS0x2000; |
6286 | next = regnext(scan)Perl_regnext( scan); |
6287 | nscan = NEXTOPER(NEXTOPER(scan))((((scan) + 1)) + 1); |
6288 | |
6289 | /* positive lookahead study_chunk() recursion */ |
6290 | *minnextp = study_chunk(pRExC_state, &nscan, minnextp,S_study_chunk( pRExC_state,&nscan,minnextp,&deltanext ,last,&data_fake,stopparen,recursed_depth,((void*)0),f,depth +1,mutate_ok) |
6291 | &deltanext, last, &data_fake,S_study_chunk( pRExC_state,&nscan,minnextp,&deltanext ,last,&data_fake,stopparen,recursed_depth,((void*)0),f,depth +1,mutate_ok) |
6292 | stopparen, recursed_depth, NULL,S_study_chunk( pRExC_state,&nscan,minnextp,&deltanext ,last,&data_fake,stopparen,recursed_depth,((void*)0),f,depth +1,mutate_ok) |
6293 | f, depth+1, mutate_ok)S_study_chunk( pRExC_state,&nscan,minnextp,&deltanext ,last,&data_fake,stopparen,recursed_depth,((void*)0),f,depth +1,mutate_ok); |
6294 | if (scan->flags) { |
6295 | assert(0)((0) ? (void)0 : __assert2("re_comp.c", 6295, __func__, "0")); /* This code has never been tested since this |
6296 | is normally not compiled */ |
6297 | if ( deltanext < 0 |
6298 | || deltanext > (I32) U8_MAX0xff |
6299 | || *minnextp > (I32)U8_MAX0xff |
6300 | || *minnextp + deltanext > (I32)U8_MAX0xff) |
6301 | { |
6302 | FAIL2("Lookbehind longer than %" UVuf " not implemented",do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "Lookbehind longer than %" "lu" " not implemented" " in regex m/%" "d%" "lu" "%4p" "%s/", (UV)0xff, (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)(len), (void*)((pRExC_state->precomp)), ellipses); } while (0) |
6303 | (UV)U8_MAX)do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "Lookbehind longer than %" "lu" " not implemented" " in regex m/%" "d%" "lu" "%4p" "%s/", (UV)0xff, (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)(len), (void*)((pRExC_state->precomp)), ellipses); } while (0); |
6304 | } |
6305 | |
6306 | if (deltanext) { |
6307 | scan->next_off = deltanext; |
6308 | } |
6309 | scan->flags = (U8)*minnextp + deltanext; |
6310 | } |
6311 | |
6312 | *minnextp += min; |
6313 | |
6314 | if (f & SCF_DO_STCLASS_AND0x0800) { |
6315 | ssc_and(pRExC_state, data->start_class, (regnode_charclass *) &intrnl)S_ssc_and( pRExC_state,data->start_class,(regnode_charclass *) &intrnl); |
6316 | ANYOF_FLAGS(data->start_class)((data->start_class)->flags) |= SSC_MATCHES_EMPTY_STRING0x01; |
6317 | } |
6318 | if (data) { |
6319 | if (data_fake.flags & (SF_HAS_PAR0x0080|SF_IN_PAR0x0100)) |
6320 | pars++; |
6321 | if (data_fake.flags & SF_HAS_EVAL0x0200) |
6322 | data->flags |= SF_HAS_EVAL0x0200; |
6323 | data->whilem_c = data_fake.whilem_c; |
6324 | if ((flags & SCF_DO_SUBSTR0x0400) && data_fake.last_found) { |
6325 | int i; |
6326 | if (RExC_rx(pRExC_state->rx)->minlen<*minnextp) |
6327 | RExC_rx(pRExC_state->rx)->minlen=*minnextp; |
6328 | scan_commit(pRExC_state, &data_fake, minnextp, is_inf)S_scan_commit( pRExC_state,&data_fake,minnextp,is_inf); |
6329 | SvREFCNT_dec_NN(data_fake.last_found)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (data_fake.last_found ); _p; }))); |
6330 | |
6331 | for (i = 0; i < 2; i++) { |
6332 | if (data_fake.substrs[i].minlenp != minlenp) { |
6333 | data->substrs[i].min_offset = |
6334 | data_fake.substrs[i].min_offset; |
6335 | data->substrs[i].max_offset = |
6336 | data_fake.substrs[i].max_offset; |
6337 | data->substrs[i].minlenp = |
6338 | data_fake.substrs[i].minlenp; |
6339 | data->substrs[i].lookbehind += scan->flags; |
6340 | } |
6341 | } |
6342 | } |
6343 | } |
6344 | } |
6345 | #endif |
6346 | } |
6347 | else if (OP(scan)((scan)->type) == OPEN63) { |
6348 | if (stopparen != (I32)ARG(scan)((((struct regnode_1 *)scan)->arg1))) |
6349 | pars++; |
6350 | } |
6351 | else if (OP(scan)((scan)->type) == CLOSE64) { |
6352 | if (stopparen == (I32)ARG(scan)((((struct regnode_1 *)scan)->arg1))) { |
6353 | break; |
6354 | } |
6355 | if ((I32)ARG(scan)((((struct regnode_1 *)scan)->arg1)) == is_par) { |
6356 | next = regnext(scan)Perl_regnext( scan); |
6357 | |
6358 | if ( next && (OP(next)((next)->type) != WHILEM62) && next < last) |
6359 | is_par = 0; /* Disable optimization */ |
6360 | } |
6361 | if (data) |
6362 | *(data->last_closep) = ARG(scan)((((struct regnode_1 *)scan)->arg1)); |
6363 | } |
6364 | else if (OP(scan)((scan)->type) == EVAL84) { |
6365 | if (data) |
6366 | data->flags |= SF_HAS_EVAL0x0200; |
6367 | } |
6368 | else if ( PL_regkind[OP(scan)((scan)->type)] == ENDLIKE96 ) { |
6369 | if (flags & SCF_DO_SUBSTR0x0400) { |
6370 | scan_commit(pRExC_state, data, minlenp, is_inf)S_scan_commit( pRExC_state,data,minlenp,is_inf); |
6371 | flags &= ~SCF_DO_SUBSTR0x0400; |
6372 | } |
6373 | if (data && OP(scan)((scan)->type)==ACCEPT98) { |
6374 | data->flags |= SCF_SEEN_ACCEPT0x8000; |
6375 | if (stopmin > min) |
6376 | stopmin = min; |
6377 | } |
6378 | } |
6379 | else if (OP(scan)((scan)->type) == LOGICAL86 && scan->flags == 2) /* Embedded follows */ |
6380 | { |
6381 | if (flags & SCF_DO_SUBSTR0x0400) { |
6382 | scan_commit(pRExC_state, data, minlenp, is_inf)S_scan_commit( pRExC_state,data,minlenp,is_inf); |
6383 | data->cur_is_floating = 1; /* float */ |
6384 | } |
6385 | is_inf = is_inf_internal = 1; |
6386 | if (flags & SCF_DO_STCLASS_OR0x1000) /* Allow everything */ |
6387 | ssc_anything(data->start_class)S_ssc_anything( data->start_class); |
6388 | flags &= ~SCF_DO_STCLASS(0x0800|0x1000); |
6389 | } |
6390 | else if (OP(scan)((scan)->type) == GPOS7) { |
6391 | if (!(RExC_rx(pRExC_state->rx)->intflags & PREGf_GPOS_FLOAT0x00000200) && |
6392 | !(delta || is_inf || (data && data->pos_delta))) |
6393 | { |
6394 | if (!(RExC_rx(pRExC_state->rx)->intflags & PREGf_ANCH( 0x00000800 | 0x00001000 | 0x00000400 )) && (flags & SCF_DO_SUBSTR0x0400)) |
6395 | RExC_rx(pRExC_state->rx)->intflags |= PREGf_ANCH_GPOS0x00001000; |
6396 | if (RExC_rx(pRExC_state->rx)->gofs < (STRLEN)min) |
6397 | RExC_rx(pRExC_state->rx)->gofs = min; |
6398 | } else { |
6399 | RExC_rx(pRExC_state->rx)->intflags |= PREGf_GPOS_FLOAT0x00000200; |
6400 | RExC_rx(pRExC_state->rx)->gofs = 0; |
6401 | } |
6402 | } |
6403 | #ifdef TRIE_STUDY_OPT |
6404 | #ifdef FULL_TRIE_STUDY |
6405 | else if (PL_regkind[OP(scan)((scan)->type)] == TRIE88) { |
6406 | /* NOTE - There is similar code to this block above for handling |
6407 | BRANCH nodes on the initial study. If you change stuff here |
6408 | check there too. */ |
6409 | regnode *trie_node= scan; |
6410 | regnode *tail= regnext(scan)Perl_regnext( scan); |
6411 | reg_trie_data *trie = (reg_trie_data*)RExC_rxi(pRExC_state->rxi)->data->data[ ARG(scan)((((struct regnode_1 *)scan)->arg1)) ]; |
6412 | SSize_tssize_t max1 = 0, min1 = OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1); |
6413 | regnode_ssc accum; |
6414 | |
6415 | if (flags & SCF_DO_SUBSTR0x0400) { /* XXXX Add !SUSPEND? */ |
6416 | /* Cannot merge strings after this. */ |
6417 | scan_commit(pRExC_state, data, minlenp, is_inf)S_scan_commit( pRExC_state,data,minlenp,is_inf); |
6418 | } |
6419 | if (flags & SCF_DO_STCLASS(0x0800|0x1000)) |
6420 | ssc_init_zero(pRExC_state, &accum)S_ssc_init( pRExC_state,&accum); |
6421 | |
6422 | if (!trie->jump) { |
6423 | min1= trie->minlen; |
6424 | max1= trie->maxlen; |
6425 | } else { |
6426 | const regnode *nextbranch= NULL((void*)0); |
6427 | U32 word; |
6428 | |
6429 | for ( word=1 ; word <= trie->wordcount ; word++) |
6430 | { |
6431 | SSize_tssize_t deltanext=0, minnext=0, f = 0, fake; |
6432 | regnode_ssc this_class; |
6433 | |
6434 | StructCopy(&zero_scan_data, &data_fake, scan_data_t)(*((scan_data_t*)(&data_fake)) = *((scan_data_t*)(&zero_scan_data ))); |
6435 | if (data) { |
6436 | data_fake.whilem_c = data->whilem_c; |
6437 | data_fake.last_closep = data->last_closep; |
6438 | } |
6439 | else |
6440 | data_fake.last_closep = &fake; |
6441 | data_fake.pos_delta = delta; |
6442 | if (flags & SCF_DO_STCLASS(0x0800|0x1000)) { |
6443 | ssc_init(pRExC_state, &this_class)S_ssc_init( pRExC_state,&this_class); |
6444 | data_fake.start_class = &this_class; |
6445 | f = SCF_DO_STCLASS_AND0x0800; |
6446 | } |
6447 | if (flags & SCF_WHILEM_VISITED_POS0x2000) |
6448 | f |= SCF_WHILEM_VISITED_POS0x2000; |
6449 | |
6450 | if (trie->jump[word]) { |
6451 | if (!nextbranch) |
6452 | nextbranch = trie_node + trie->jump[0]; |
6453 | scan= trie_node + trie->jump[word]; |
6454 | /* We go from the jump point to the branch that follows |
6455 | it. Note this means we need the vestigal unused |
6456 | branches even though they arent otherwise used. */ |
6457 | /* optimise study_chunk() for TRIE */ |
6458 | minnext = study_chunk(pRExC_state, &scan, minlenp,S_study_chunk( pRExC_state,&scan,minlenp,&deltanext,( regnode *)nextbranch,&data_fake,stopparen,recursed_depth, ((void*)0),f,depth+1,mutate_ok) |
6459 | &deltanext, (regnode *)nextbranch, &data_fake,S_study_chunk( pRExC_state,&scan,minlenp,&deltanext,( regnode *)nextbranch,&data_fake,stopparen,recursed_depth, ((void*)0),f,depth+1,mutate_ok) |
6460 | stopparen, recursed_depth, NULL, f, depth+1,S_study_chunk( pRExC_state,&scan,minlenp,&deltanext,( regnode *)nextbranch,&data_fake,stopparen,recursed_depth, ((void*)0),f,depth+1,mutate_ok) |
6461 | mutate_ok)S_study_chunk( pRExC_state,&scan,minlenp,&deltanext,( regnode *)nextbranch,&data_fake,stopparen,recursed_depth, ((void*)0),f,depth+1,mutate_ok); |
6462 | } |
6463 | if (nextbranch && PL_regkind[OP(nextbranch)((nextbranch)->type)]==BRANCH39) |
6464 | nextbranch= regnext((regnode*)nextbranch)Perl_regnext( (regnode*)nextbranch); |
6465 | |
6466 | if (min1 > (SSize_tssize_t)(minnext + trie->minlen)) |
6467 | min1 = minnext + trie->minlen; |
6468 | if (deltanext == OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1)) { |
6469 | is_inf = is_inf_internal = 1; |
6470 | max1 = OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1); |
6471 | } else if (max1 < (SSize_tssize_t)(minnext + deltanext + trie->maxlen)) |
6472 | max1 = minnext + deltanext + trie->maxlen; |
6473 | |
6474 | if (data_fake.flags & (SF_HAS_PAR0x0080|SF_IN_PAR0x0100)) |
6475 | pars++; |
6476 | if (data_fake.flags & SCF_SEEN_ACCEPT0x8000) { |
6477 | if ( stopmin > min + min1) |
6478 | stopmin = min + min1; |
6479 | flags &= ~SCF_DO_SUBSTR0x0400; |
6480 | if (data) |
6481 | data->flags |= SCF_SEEN_ACCEPT0x8000; |
6482 | } |
6483 | if (data) { |
6484 | if (data_fake.flags & SF_HAS_EVAL0x0200) |
6485 | data->flags |= SF_HAS_EVAL0x0200; |
6486 | data->whilem_c = data_fake.whilem_c; |
6487 | } |
6488 | if (flags & SCF_DO_STCLASS(0x0800|0x1000)) |
6489 | ssc_or(pRExC_state, &accum, (regnode_charclass *) &this_class)S_ssc_or( pRExC_state,&accum,(regnode_charclass *) &this_class ); |
6490 | } |
6491 | } |
6492 | if (flags & SCF_DO_SUBSTR0x0400) { |
6493 | data->pos_min += min1; |
6494 | data->pos_delta += max1 - min1; |
6495 | if (max1 != min1 || is_inf) |
6496 | data->cur_is_floating = 1; /* float */ |
6497 | } |
6498 | min += min1; |
6499 | if (delta != OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1)) { |
6500 | if (OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1) - (max1 - min1) >= delta) |
6501 | delta += max1 - min1; |
6502 | else |
6503 | delta = OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1); |
6504 | } |
6505 | if (flags & SCF_DO_STCLASS_OR0x1000) { |
6506 | ssc_or(pRExC_state, data->start_class, (regnode_charclass *) &accum)S_ssc_or( pRExC_state,data->start_class,(regnode_charclass *) &accum); |
6507 | if (min1) { |
6508 | ssc_and(pRExC_state, data->start_class, (regnode_charclass *) and_withp)S_ssc_and( pRExC_state,data->start_class,(regnode_charclass *) and_withp); |
6509 | flags &= ~SCF_DO_STCLASS(0x0800|0x1000); |
6510 | } |
6511 | } |
6512 | else if (flags & SCF_DO_STCLASS_AND0x0800) { |
6513 | if (min1) { |
6514 | ssc_and(pRExC_state, data->start_class, (regnode_charclass *) &accum)S_ssc_and( pRExC_state,data->start_class,(regnode_charclass *) &accum); |
6515 | flags &= ~SCF_DO_STCLASS(0x0800|0x1000); |
6516 | } |
6517 | else { |
6518 | /* Switch to OR mode: cache the old value of |
6519 | * data->start_class */ |
6520 | INIT_AND_WITHP((!and_withp) ? (void)0 : __assert2("re_comp.c", 6520, __func__ , "!and_withp")); (and_withp = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(1) || sizeof(regnode_ssc) > (( size_t)1 << 8*(sizeof(size_t) - sizeof(1)))) ? (size_t) (1) : ((size_t)-1)/sizeof(regnode_ssc)) > ((size_t)-1)/sizeof (regnode_ssc))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (regnode_ssc*)(Perl_safesysmalloc((size_t)((1)*sizeof (regnode_ssc)))))); Perl_save_pushptr( (void *)((char*)(and_withp )),10); |
6521 | StructCopy(data->start_class, and_withp, regnode_ssc)(*((regnode_ssc*)(and_withp)) = *((regnode_ssc*)(data->start_class ))); |
6522 | flags &= ~SCF_DO_STCLASS_AND0x0800; |
6523 | StructCopy(&accum, data->start_class, regnode_ssc)(*((regnode_ssc*)(data->start_class)) = *((regnode_ssc*)(& accum))); |
6524 | flags |= SCF_DO_STCLASS_OR0x1000; |
6525 | } |
6526 | } |
6527 | scan= tail; |
6528 | continue; |
6529 | } |
6530 | #else |
6531 | else if (PL_regkind[OP(scan)((scan)->type)] == TRIE88) { |
6532 | reg_trie_data *trie = (reg_trie_data*)RExC_rxi(pRExC_state->rxi)->data->data[ ARG(scan)((((struct regnode_1 *)scan)->arg1)) ]; |
6533 | U8*bang=NULL((void*)0); |
6534 | |
6535 | min += trie->minlen; |
6536 | delta += (trie->maxlen - trie->minlen); |
6537 | flags &= ~SCF_DO_STCLASS(0x0800|0x1000); /* xxx */ |
6538 | if (flags & SCF_DO_SUBSTR0x0400) { |
6539 | /* Cannot expect anything... */ |
6540 | scan_commit(pRExC_state, data, minlenp, is_inf)S_scan_commit( pRExC_state,data,minlenp,is_inf); |
6541 | data->pos_min += trie->minlen; |
6542 | data->pos_delta += (trie->maxlen - trie->minlen); |
6543 | if (trie->maxlen != trie->minlen) |
6544 | data->cur_is_floating = 1; /* float */ |
6545 | } |
6546 | if (trie->jump) /* no more substrings -- for now /grr*/ |
6547 | flags &= ~SCF_DO_SUBSTR0x0400; |
6548 | } |
6549 | else if (OP(scan)((scan)->type) == REGEX_SET109) { |
6550 | Perl_croak(aTHX_ "panic: %s regnode should be resolved" |
6551 | " before optimization", reg_name[REGEX_SET109]); |
6552 | } |
6553 | |
6554 | #endif /* old or new */ |
6555 | #endif /* TRIE_STUDY_OPT */ |
6556 | |
6557 | /* Else: zero-length, ignore. */ |
6558 | scan = regnext(scan)Perl_regnext( scan); |
6559 | } |
6560 | |
6561 | finish: |
6562 | if (frame) { |
6563 | /* we need to unwind recursion. */ |
6564 | depth = depth - 1; |
6565 | |
6566 | DEBUG_STUDYDATA("frame-end", data, depth, is_inf)S_debug_studydata( "frame-end", data, depth, is_inf); |
6567 | DEBUG_PEEP("fend", scan, depth, flags)S_debug_peep( "fend", pRExC_state, scan, depth, flags); |
6568 | |
6569 | /* restore previous context */ |
6570 | last = frame->last_regnode; |
6571 | scan = frame->next_regnode; |
6572 | stopparen = frame->stopparen; |
6573 | recursed_depth = frame->prev_recursed_depth; |
6574 | |
6575 | RExC_frame_last(pRExC_state->frame_last) = frame->prev_frame; |
6576 | frame = frame->this_prev_frame; |
6577 | goto fake_study_recurse; |
6578 | } |
6579 | |
6580 | assert(!frame)((!frame) ? (void)0 : __assert2("re_comp.c", 6580, __func__, "!frame" )); |
6581 | DEBUG_STUDYDATA("pre-fin", data, depth, is_inf)S_debug_studydata( "pre-fin", data, depth, is_inf); |
6582 | |
6583 | *scanp = scan; |
6584 | *deltap = is_inf_internal ? OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1) : delta; |
6585 | |
6586 | if (flags & SCF_DO_SUBSTR0x0400 && is_inf) |
6587 | data->pos_delta = OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1) - data->pos_min; |
6588 | if (is_par > (I32)U8_MAX0xff) |
6589 | is_par = 0; |
6590 | if (is_par && pars==1 && data) { |
6591 | data->flags |= SF_IN_PAR0x0100; |
6592 | data->flags &= ~SF_HAS_PAR0x0080; |
6593 | } |
6594 | else if (pars && data) { |
6595 | data->flags |= SF_HAS_PAR0x0080; |
6596 | data->flags &= ~SF_IN_PAR0x0100; |
6597 | } |
6598 | if (flags & SCF_DO_STCLASS_OR0x1000) |
6599 | ssc_and(pRExC_state, data->start_class, (regnode_charclass *) and_withp)S_ssc_and( pRExC_state,data->start_class,(regnode_charclass *) and_withp); |
6600 | if (flags & SCF_TRIE_RESTUDY0x4000) |
6601 | data->flags |= SCF_TRIE_RESTUDY0x4000; |
6602 | |
6603 | DEBUG_STUDYDATA("post-fin", data, depth, is_inf)S_debug_studydata( "post-fin", data, depth, is_inf); |
6604 | |
6605 | final_minlen = min < stopmin |
6606 | ? min : stopmin; |
6607 | |
6608 | if (!(RExC_seen(pRExC_state->seen) & REG_UNBOUNDED_QUANTIFIER_SEEN0x00001000)) { |
6609 | if (final_minlen > OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1) - delta) |
6610 | RExC_maxlen(pRExC_state->maxlen) = OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1); |
6611 | else if (RExC_maxlen(pRExC_state->maxlen) < final_minlen + delta) |
6612 | RExC_maxlen(pRExC_state->maxlen) = final_minlen + delta; |
6613 | } |
6614 | return final_minlen; |
6615 | } |
6616 | |
6617 | STATICstatic U32 |
6618 | S_add_data(RExC_state_t* const pRExC_state, const char* const s, const U32 n) |
6619 | { |
6620 | U32 count = RExC_rxi(pRExC_state->rxi)->data ? RExC_rxi(pRExC_state->rxi)->data->count : 0; |
6621 | |
6622 | PERL_ARGS_ASSERT_ADD_DATA((pRExC_state) ? (void)0 : __assert2("re_comp.c", 6622, __func__ , "pRExC_state")); ((s) ? (void)0 : __assert2("re_comp.c", 6622 , __func__, "s")); |
6623 | |
6624 | Renewc(RExC_rxi->data,((pRExC_state->rxi)->data = ((void)(__builtin_expect((( ((( sizeof(size_t) < sizeof(sizeof(*(pRExC_state->rxi)-> data) + sizeof(void*) * (count + n - 1)) || sizeof(char) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(sizeof(*(pRExC_state ->rxi)->data) + sizeof(void*) * (count + n - 1))))) ? ( size_t)(sizeof(*(pRExC_state->rxi)->data) + sizeof(void *) * (count + n - 1)) : ((size_t)-1)/sizeof(char)) > ((size_t )-1)/sizeof(char))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (struct reg_data*)(Perl_safesysrealloc((void *)((pRExC_state ->rxi)->data),(size_t)((sizeof(*(pRExC_state->rxi)-> data) + sizeof(void*) * (count + n - 1))*sizeof(char)))))) |
6625 | sizeof(*RExC_rxi->data) + sizeof(void*) * (count + n - 1),((pRExC_state->rxi)->data = ((void)(__builtin_expect((( ((( sizeof(size_t) < sizeof(sizeof(*(pRExC_state->rxi)-> data) + sizeof(void*) * (count + n - 1)) || sizeof(char) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(sizeof(*(pRExC_state ->rxi)->data) + sizeof(void*) * (count + n - 1))))) ? ( size_t)(sizeof(*(pRExC_state->rxi)->data) + sizeof(void *) * (count + n - 1)) : ((size_t)-1)/sizeof(char)) > ((size_t )-1)/sizeof(char))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (struct reg_data*)(Perl_safesysrealloc((void *)((pRExC_state ->rxi)->data),(size_t)((sizeof(*(pRExC_state->rxi)-> data) + sizeof(void*) * (count + n - 1))*sizeof(char)))))) |
6626 | char, struct reg_data)((pRExC_state->rxi)->data = ((void)(__builtin_expect((( ((( sizeof(size_t) < sizeof(sizeof(*(pRExC_state->rxi)-> data) + sizeof(void*) * (count + n - 1)) || sizeof(char) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(sizeof(*(pRExC_state ->rxi)->data) + sizeof(void*) * (count + n - 1))))) ? ( size_t)(sizeof(*(pRExC_state->rxi)->data) + sizeof(void *) * (count + n - 1)) : ((size_t)-1)/sizeof(char)) > ((size_t )-1)/sizeof(char))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (struct reg_data*)(Perl_safesysrealloc((void *)((pRExC_state ->rxi)->data),(size_t)((sizeof(*(pRExC_state->rxi)-> data) + sizeof(void*) * (count + n - 1))*sizeof(char)))))); |
6627 | if(count) |
6628 | Renew(RExC_rxi->data->what, count + n, U8)((pRExC_state->rxi)->data->what = ((void)(__builtin_expect (((((( sizeof(size_t) < sizeof(count + n) || sizeof(U8) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(count + n)))) ? (size_t)(count + n) : ((size_t)-1)/sizeof(U8)) > ((size_t )-1)/sizeof(U8))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (U8*)(Perl_safesysrealloc((void *)((pRExC_state->rxi )->data->what),(size_t)((count + n)*sizeof(U8)))))); |
6629 | else |
6630 | Newx(RExC_rxi->data->what, n, U8)((pRExC_state->rxi)->data->what = ((void)(__builtin_expect (((((( sizeof(size_t) < sizeof(n) || sizeof(U8) > ((size_t )1 << 8*(sizeof(size_t) - sizeof(n)))) ? (size_t)(n) : ( (size_t)-1)/sizeof(U8)) > ((size_t)-1)/sizeof(U8))) ? (_Bool )1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), (U8*)(Perl_safesysmalloc((size_t)((n)*sizeof(U8)))))); |
6631 | RExC_rxi(pRExC_state->rxi)->data->count = count + n; |
6632 | Copy(s, RExC_rxi->data->what + count, n, U8)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(n) || sizeof(U8) > ((size_t)1 << 8*(sizeof(size_t) - sizeof (n)))) ? (size_t)(n) : ((size_t)-1)/sizeof(U8)) > ((size_t )-1)/sizeof(U8))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)((pRExC_state->rxi)->data->what + count )) != 0) ? (void)0 : __assert2("re_comp.c", 6632, __func__, "((void*)((pRExC_state->rxi)->data->what + count)) != 0" )), ((((void*)(s)) != 0) ? (void)0 : __assert2("re_comp.c", 6632 , __func__, "((void*)(s)) != 0")), (void)memcpy((char*)((pRExC_state ->rxi)->data->what + count),(const char*)(s), (n) * sizeof (U8))); |
6633 | return count; |
6634 | } |
6635 | |
6636 | /*XXX: todo make this not included in a non debugging perl, but appears to be |
6637 | * used anyway there, in 'use re' */ |
6638 | #ifndef PERL_IN_XSUB_RE |
6639 | void |
6640 | Perl_reginitcolors(pTHXvoid) |
6641 | { |
6642 | const char * const s = PerlEnv_getenv("PERL_RE_COLORS")Perl_mortal_getenv("PERL_RE_COLORS"); |
6643 | if (s) { |
6644 | char *t = savepv(s)Perl_savepv( s); |
6645 | int i = 0; |
6646 | PL_colors[0] = t; |
6647 | while (++i < 6) { |
6648 | t = strchr(t, '\t'); |
6649 | if (t) { |
6650 | *t = '\0'; |
6651 | PL_colors[i] = ++t; |
6652 | } |
6653 | else |
6654 | PL_colors[i] = t = (char *)""; |
6655 | } |
6656 | } else { |
6657 | int i = 0; |
6658 | while (i < 6) |
6659 | PL_colors[i++] = (char *)""; |
6660 | } |
6661 | PL_colorset = 1; |
6662 | } |
6663 | #endif |
6664 | |
6665 | |
6666 | #ifdef TRIE_STUDY_OPT |
6667 | #define CHECK_RESTUDY_GOTO_butfirst(dOsomething)do { if ( (data.flags & 0x4000) && ! restudied++ ) { dOsomething; goto reStudy; } } while (0) \ |
6668 | STMT_STARTdo { \ |
6669 | if ( \ |
6670 | (data.flags & SCF_TRIE_RESTUDY0x4000) \ |
6671 | && ! restudied++ \ |
6672 | ) { \ |
6673 | dOsomething; \ |
6674 | goto reStudy; \ |
6675 | } \ |
6676 | } STMT_ENDwhile (0) |
6677 | #else |
6678 | #define CHECK_RESTUDY_GOTO_butfirst |
6679 | #endif |
6680 | |
6681 | /* |
6682 | * pregcomp - compile a regular expression into internal code |
6683 | * |
6684 | * Decides which engine's compiler to call based on the hint currently in |
6685 | * scope |
6686 | */ |
6687 | |
6688 | #ifndef PERL_IN_XSUB_RE |
6689 | |
6690 | /* return the currently in-scope regex engine (or the default if none) */ |
6691 | |
6692 | regexp_engine const * |
6693 | Perl_current_re_engine(pTHXvoid) |
6694 | { |
6695 | if (IN_PERL_COMPILETIME((PL_curcop == &PL_compiling) ? (_Bool)1 : (_Bool)0)) { |
6696 | HV * const table = GvHV(PL_hintgv)(((0+(*({GV *const _gvgp = (GV *) (PL_hintgv); ((((svtype)((_gvgp )->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)-> sv_flags & 0xff)) == SVt_PVLV) ? (void)0 : __assert2("re_comp.c" , 6696, __func__, "SvTYPE(_gvgp) == SVt_PVGV || SvTYPE(_gvgp) == SVt_PVLV" )); ((((((_gvgp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 6696, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) ))->gp_hv); |
6697 | SV **ptr; |
6698 | |
6699 | if (!table || !(PL_hintsPL_compiling.cop_hints & HINT_LOCALIZE_HH0x00020000)) |
6700 | return &PL_core_reg_engine; |
6701 | ptr = hv_fetchs(table, "regcomp", FALSE)((SV**) Perl_hv_common_key_len( ((table)),(("" "regcomp" "")) ,((sizeof("regcomp")-1)),(((0))) ? (0x20 | 0x10) : 0x20,((void *)0),0)); |
6702 | if ( !(ptr && SvIOK(*ptr)((*ptr)->sv_flags & 0x00000100) && SvIV(*ptr)((((*ptr)->sv_flags & (0x00000100|0x00200000)) == 0x00000100 ) ? (*({ const SV *const _svivx = (const SV *)(*ptr); ((PL_valid_types_IVX [((svtype)((_svivx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 6702, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 6702, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( *ptr,2)))) |
6703 | return &PL_core_reg_engine; |
6704 | return INT2PTR(regexp_engine*, SvIV(*ptr))(regexp_engine*)(((((*ptr)->sv_flags & (0x00000100|0x00200000 )) == 0x00000100) ? (*({ const SV *const _svivx = (const SV * )(*ptr); ((PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 6704, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 6704, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( *ptr,2))); |
6705 | } |
6706 | else { |
6707 | SV *ptr; |
6708 | if (!PL_curcop->cop_hints_hash) |
6709 | return &PL_core_reg_engine; |
6710 | ptr = cop_hints_fetch_pvs(PL_curcop, "regcomp", 0)Perl_refcounted_he_fetch_pvn( ((COPHH*)((PL_curcop)->cop_hints_hash )), ("" "regcomp" ""), (sizeof("regcomp")-1), 0, 0); |
6711 | if ( !(ptr && SvIOK(ptr)((ptr)->sv_flags & 0x00000100) && SvIV(ptr)((((ptr)->sv_flags & (0x00000100|0x00200000)) == 0x00000100 ) ? (*({ const SV *const _svivx = (const SV *)(ptr); ((PL_valid_types_IVX [((svtype)((_svivx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 6711, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 6711, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( ptr,2)))) |
6712 | return &PL_core_reg_engine; |
6713 | return INT2PTR(regexp_engine*, SvIV(ptr))(regexp_engine*)(((((ptr)->sv_flags & (0x00000100|0x00200000 )) == 0x00000100) ? (*({ const SV *const _svivx = (const SV * )(ptr); ((PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 6713, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 6713, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( ptr,2))); |
6714 | } |
6715 | } |
6716 | |
6717 | |
6718 | REGEXP * |
6719 | Perl_pregcomp(pTHX_ SV * const pattern, const U32 flags) |
6720 | { |
6721 | regexp_engine const *eng = current_re_engine()Perl_current_re_engine(); |
6722 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 6722, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 6722, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
6723 | |
6724 | PERL_ARGS_ASSERT_PREGCOMP((pattern) ? (void)0 : __assert2("re_comp.c", 6724, __func__, "pattern")); |
6725 | |
6726 | /* Dispatch a request to compile a regexp to correct regexp engine. */ |
6727 | DEBUG_COMPILE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { Perl_re_printf ( "Using engine %" "lx" "\n", (UV)(eng)); };} while (0) |
6728 | Perl_re_printf( aTHX_ "Using engine %" UVxf "\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { Perl_re_printf ( "Using engine %" "lx" "\n", (UV)(eng)); };} while (0) |
6729 | PTR2UV(eng));do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { Perl_re_printf ( "Using engine %" "lx" "\n", (UV)(eng)); };} while (0) |
6730 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { Perl_re_printf ( "Using engine %" "lx" "\n", (UV)(eng)); };} while (0); |
6731 | return CALLREGCOMP_ENG(eng, pattern, flags)(eng)->comp( pattern, flags); |
6732 | } |
6733 | #endif |
6734 | |
6735 | /* public(ish) entry point for the perl core's own regex compiling code. |
6736 | * It's actually a wrapper for Perl_re_op_compile that only takes an SV |
6737 | * pattern rather than a list of OPs, and uses the internal engine rather |
6738 | * than the current one */ |
6739 | |
6740 | REGEXP * |
6741 | Perl_re_compilemy_re_compile(pTHX_ SV * const pattern, U32 rx_flags) |
6742 | { |
6743 | SV *pat = pattern; /* defeat constness! */ |
6744 | |
6745 | PERL_ARGS_ASSERT_RE_COMPILE((pattern) ? (void)0 : __assert2("re_comp.c", 6745, __func__, "pattern")); |
6746 | |
6747 | return Perl_re_op_compilemy_re_op_compile(aTHX_ &pat, 1, NULL((void*)0), |
6748 | #ifdef PERL_IN_XSUB_RE |
6749 | &my_reg_engine, |
6750 | #else |
6751 | &PL_core_reg_engine, |
6752 | #endif |
6753 | NULL((void*)0), NULL((void*)0), rx_flags, 0); |
6754 | } |
6755 | |
6756 | static void |
6757 | S_free_codeblocks(pTHX_ struct reg_code_blocks *cbs) |
6758 | { |
6759 | int n; |
6760 | |
6761 | if (--cbs->refcnt > 0) |
6762 | return; |
6763 | for (n = 0; n < cbs->count; n++) { |
6764 | REGEXP *rx = cbs->cb[n].src_regex; |
6765 | if (rx) { |
6766 | cbs->cb[n].src_regex = NULL((void*)0); |
6767 | SvREFCNT_dec_NN(rx)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (rx); _p; }))); |
6768 | } |
6769 | } |
6770 | Safefree(cbs->cb)Perl_safesysfree(((void *)(cbs->cb))); |
6771 | Safefree(cbs)Perl_safesysfree(((void *)(cbs))); |
6772 | } |
6773 | |
6774 | |
6775 | static struct reg_code_blocks * |
6776 | S_alloc_code_blocks(pTHX_ int ncode) |
6777 | { |
6778 | struct reg_code_blocks *cbs; |
6779 | Newx(cbs, 1, struct reg_code_blocks)(cbs = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof (1) || sizeof(struct reg_code_blocks) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(1)))) ? (size_t)(1) : ((size_t)-1 )/sizeof(struct reg_code_blocks)) > ((size_t)-1)/sizeof(struct reg_code_blocks))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (struct reg_code_blocks*)(Perl_safesysmalloc((size_t) ((1)*sizeof(struct reg_code_blocks)))))); |
6780 | cbs->count = ncode; |
6781 | cbs->refcnt = 1; |
6782 | SAVEDESTRUCTOR_X(S_free_codeblocks, cbs)Perl_save_destructor_x( (DESTRUCTORFUNC_t)(S_free_codeblocks) ,(void*)(cbs)); |
6783 | if (ncode) |
6784 | Newx(cbs->cb, ncode, struct reg_code_block)(cbs->cb = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(ncode) || sizeof(struct reg_code_block) > ((size_t )1 << 8*(sizeof(size_t) - sizeof(ncode)))) ? (size_t)(ncode ) : ((size_t)-1)/sizeof(struct reg_code_block)) > ((size_t )-1)/sizeof(struct reg_code_block))) ? (_Bool)1 : (_Bool)0),( 0)) && (Perl_croak_memory_wrap(),0)), (struct reg_code_block *)(Perl_safesysmalloc((size_t)((ncode)*sizeof(struct reg_code_block )))))); |
6785 | else |
6786 | cbs->cb = NULL((void*)0); |
6787 | return cbs; |
6788 | } |
6789 | |
6790 | |
6791 | /* upgrade pattern pat_p of length plen_p to UTF8, and if there are code |
6792 | * blocks, recalculate the indices. Update pat_p and plen_p in-place to |
6793 | * point to the realloced string and length. |
6794 | * |
6795 | * This is essentially a copy of Perl_bytes_to_utf8() with the code index |
6796 | * stuff added */ |
6797 | |
6798 | static void |
6799 | S_pat_upgrade_to_utf8(pTHX_ RExC_state_t * const pRExC_state, |
6800 | char **pat_p, STRLEN *plen_p, int num_code_blocks) |
6801 | { |
6802 | U8 *const src = (U8*)*pat_p; |
6803 | U8 *dst, *d; |
6804 | int n=0; |
6805 | STRLEN s = 0; |
6806 | bool_Bool do_end = 0; |
6807 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 6807, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 6807, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
6808 | |
6809 | DEBUG_PARSE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) Perl_re_printf ( "UTF8 mismatch! Converting to utf8 for resizing and compile\n" );} while (0) |
6810 | "UTF8 mismatch! Converting to utf8 for resizing and compile\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) Perl_re_printf ( "UTF8 mismatch! Converting to utf8 for resizing and compile\n" );} while (0); |
6811 | |
6812 | /* 1 for each byte + 1 for each byte that expands to two, + trailing NUL */ |
6813 | Newx(dst, *plen_p + variant_under_utf8_count(src, src + *plen_p) + 1, U8)(dst = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof (*plen_p + S_variant_under_utf8_count(src, src + *plen_p) + 1 ) || sizeof(U8) > ((size_t)1 << 8*(sizeof(size_t) - sizeof (*plen_p + S_variant_under_utf8_count(src, src + *plen_p) + 1 )))) ? (size_t)(*plen_p + S_variant_under_utf8_count(src, src + *plen_p) + 1) : ((size_t)-1)/sizeof(U8)) > ((size_t)-1) /sizeof(U8))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (U8*)(Perl_safesysmalloc((size_t)((*plen_p + S_variant_under_utf8_count (src, src + *plen_p) + 1)*sizeof(U8)))))); |
6814 | d = dst; |
6815 | |
6816 | while (s < *plen_p) { |
6817 | append_utf8_from_native_bytePerl_append_utf8_from_native_byte(src[s], &d); |
6818 | |
6819 | if (n < num_code_blocks) { |
6820 | assert(pRExC_state->code_blocks)((pRExC_state->code_blocks) ? (void)0 : __assert2("re_comp.c" , 6820, __func__, "pRExC_state->code_blocks")); |
6821 | if (!do_end && pRExC_state->code_blocks->cb[n].start == s) { |
6822 | pRExC_state->code_blocks->cb[n].start = d - dst - 1; |
6823 | assert(*(d - 1) == '(')((*(d - 1) == '(') ? (void)0 : __assert2("re_comp.c", 6823, __func__ , "*(d - 1) == '('")); |
6824 | do_end = 1; |
6825 | } |
6826 | else if (do_end && pRExC_state->code_blocks->cb[n].end == s) { |
6827 | pRExC_state->code_blocks->cb[n].end = d - dst - 1; |
6828 | assert(*(d - 1) == ')')((*(d - 1) == ')') ? (void)0 : __assert2("re_comp.c", 6828, __func__ , "*(d - 1) == ')'")); |
6829 | do_end = 0; |
6830 | n++; |
6831 | } |
6832 | } |
6833 | s++; |
6834 | } |
6835 | *d = '\0'; |
6836 | *plen_p = d - dst; |
6837 | *pat_p = (char*) dst; |
6838 | SAVEFREEPV(*pat_p)Perl_save_pushptr( (void *)((char*)(*pat_p)),10); |
6839 | RExC_orig_utf8(pRExC_state->orig_utf8) = RExC_utf8(pRExC_state->utf8) = 1; |
6840 | } |
6841 | |
6842 | |
6843 | |
6844 | /* S_concat_pat(): concatenate a list of args to the pattern string pat, |
6845 | * while recording any code block indices, and handling overloading, |
6846 | * nested qr// objects etc. If pat is null, it will allocate a new |
6847 | * string, or just return the first arg, if there's only one. |
6848 | * |
6849 | * Returns the malloced/updated pat. |
6850 | * patternp and pat_count is the array of SVs to be concatted; |
6851 | * oplist is the optional list of ops that generated the SVs; |
6852 | * recompile_p is a pointer to a boolean that will be set if |
6853 | * the regex will need to be recompiled. |
6854 | * delim, if non-null is an SV that will be inserted between each element |
6855 | */ |
6856 | |
6857 | static SV* |
6858 | S_concat_pat(pTHX_ RExC_state_t * const pRExC_state, |
6859 | SV *pat, SV ** const patternp, int pat_count, |
6860 | OP *oplist, bool_Bool *recompile_p, SV *delim) |
6861 | { |
6862 | SV **svp; |
6863 | int n = 0; |
6864 | bool_Bool use_delim = FALSE(0); |
6865 | bool_Bool alloced = FALSE(0); |
6866 | |
6867 | /* if we know we have at least two args, create an empty string, |
6868 | * then concatenate args to that. For no args, return an empty string */ |
6869 | if (!pat && pat_count != 1) { |
6870 | pat = newSVpvs("")Perl_newSVpvn( ("" "" ""), (sizeof("")-1)); |
6871 | SAVEFREESV(pat)Perl_save_pushptr( (void *)(((SV *)({ void *_p = (pat); _p; } ))),11); |
6872 | alloced = TRUE(1); |
6873 | } |
6874 | |
6875 | for (svp = patternp; svp < patternp + pat_count; svp++) { |
6876 | SV *sv; |
6877 | SV *rx = NULL((void*)0); |
6878 | STRLEN orig_patlen = 0; |
6879 | bool_Bool code = 0; |
6880 | SV *msv = use_delim ? delim : *svp; |
6881 | if (!msv) msv = &PL_sv_undef(PL_sv_immortals[1]); |
6882 | |
6883 | /* if we've got a delimiter, we go round the loop twice for each |
6884 | * svp slot (except the last), using the delimiter the second |
6885 | * time round */ |
6886 | if (use_delim) { |
6887 | svp--; |
6888 | use_delim = FALSE(0); |
6889 | } |
6890 | else if (delim) |
6891 | use_delim = TRUE(1); |
6892 | |
6893 | if (SvTYPE(msv)((svtype)((msv)->sv_flags & 0xff)) == SVt_PVAV) { |
6894 | /* we've encountered an interpolated array within |
6895 | * the pattern, e.g. /...@a..../. Expand the list of elements, |
6896 | * then recursively append elements. |
6897 | * The code in this block is based on S_pushav() */ |
6898 | |
6899 | AV *const av = (AV*)msv; |
6900 | const SSize_tssize_t maxarg = AvFILL(av)(((((const SV *) (av))->sv_flags & 0x00800000)) ? Perl_mg_size ( ((SV *)({ void *_p = (av); _p; }))) : ((XPVAV*) (av)->sv_any )->xav_fill) + 1; |
6901 | SV **array; |
6902 | |
6903 | if (oplist) { |
6904 | assert(oplist->op_type == OP_PADAV((oplist->op_type == OP_PADAV || oplist->op_type == OP_RV2AV ) ? (void)0 : __assert2("re_comp.c", 6905, __func__, "oplist->op_type == OP_PADAV || oplist->op_type == OP_RV2AV" )) |
6905 | || oplist->op_type == OP_RV2AV)((oplist->op_type == OP_PADAV || oplist->op_type == OP_RV2AV ) ? (void)0 : __assert2("re_comp.c", 6905, __func__, "oplist->op_type == OP_PADAV || oplist->op_type == OP_RV2AV" )); |
6906 | oplist = OpSIBLING(oplist)(0 + (oplist)->op_moresib ? (oplist)->op_sibparent : (( void*)0)); |
6907 | } |
6908 | |
6909 | if (SvRMAGICAL(av)((av)->sv_flags & 0x00800000)) { |
6910 | SSize_tssize_t i; |
6911 | |
6912 | Newx(array, maxarg, SV*)(array = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof (maxarg) || sizeof(SV*) > ((size_t)1 << 8*(sizeof(size_t ) - sizeof(maxarg)))) ? (size_t)(maxarg) : ((size_t)-1)/sizeof (SV*)) > ((size_t)-1)/sizeof(SV*))) ? (_Bool)1 : (_Bool)0) ,(0)) && (Perl_croak_memory_wrap(),0)), (SV**)(Perl_safesysmalloc ((size_t)((maxarg)*sizeof(SV*)))))); |
6913 | SAVEFREEPV(array)Perl_save_pushptr( (void *)((char*)(array)),10); |
6914 | for (i=0; i < maxarg; i++) { |
6915 | SV ** const svp = av_fetch(av, i, FALSE)Perl_av_fetch( av,i,(0)); |
6916 | array[i] = svp ? *svp : &PL_sv_undef(PL_sv_immortals[1]); |
6917 | } |
6918 | } |
6919 | else |
6920 | array = AvARRAY(av)((av)->sv_u.svu_array); |
6921 | |
6922 | pat = S_concat_pat(aTHX_ pRExC_state, pat, |
6923 | array, maxarg, NULL((void*)0), recompile_p, |
6924 | /* $" */ |
6925 | GvSV((gv_fetchpvs("\"", GV_ADDMULTI, SVt_PV)))((0+(*({GV *const _gvgp = (GV *) ((Perl_gv_fetchpvn_flags( ("" "\"" ""), (sizeof("\"")-1), 0x02, SVt_PV))); ((((svtype)((_gvgp )->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)-> sv_flags & 0xff)) == SVt_PVLV) ? (void)0 : __assert2("re_comp.c" , 6925, __func__, "SvTYPE(_gvgp) == SVt_PVGV || SvTYPE(_gvgp) == SVt_PVLV" )); ((((((_gvgp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 6925, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_sv)); |
6926 | |
6927 | continue; |
6928 | } |
6929 | |
6930 | |
6931 | /* we make the assumption here that each op in the list of |
6932 | * op_siblings maps to one SV pushed onto the stack, |
6933 | * except for code blocks, with have both an OP_NULL and |
6934 | * an OP_CONST. |
6935 | * This allows us to match up the list of SVs against the |
6936 | * list of OPs to find the next code block. |
6937 | * |
6938 | * Note that PUSHMARK PADSV PADSV .. |
6939 | * is optimised to |
6940 | * PADRANGE PADSV PADSV .. |
6941 | * so the alignment still works. */ |
6942 | |
6943 | if (oplist) { |
6944 | if (oplist->op_type == OP_NULL |
6945 | && (oplist->op_flags & OPf_SPECIAL128)) |
6946 | { |
6947 | assert(n < pRExC_state->code_blocks->count)((n < pRExC_state->code_blocks->count) ? (void)0 : __assert2 ("re_comp.c", 6947, __func__, "n < pRExC_state->code_blocks->count" )); |
6948 | pRExC_state->code_blocks->cb[n].start = pat ? SvCUR(pat)(*({ const SV *const _svcur = (const SV *)(pat); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 6948, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 6948, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 6948, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) : 0; |
6949 | pRExC_state->code_blocks->cb[n].block = oplist; |
6950 | pRExC_state->code_blocks->cb[n].src_regex = NULL((void*)0); |
6951 | n++; |
6952 | code = 1; |
6953 | oplist = OpSIBLING(oplist)(0 + (oplist)->op_moresib ? (oplist)->op_sibparent : (( void*)0)); /* skip CONST */ |
6954 | assert(oplist)((oplist) ? (void)0 : __assert2("re_comp.c", 6954, __func__, "oplist" )); |
6955 | } |
6956 | oplist = OpSIBLING(oplist)(0 + (oplist)->op_moresib ? (oplist)->op_sibparent : (( void*)0));; |
6957 | } |
6958 | |
6959 | /* apply magic and QR overloading to arg */ |
6960 | |
6961 | SvGETMAGIC(msv)((void)(__builtin_expect(((((msv)->sv_flags & 0x00200000 )) ? (_Bool)1 : (_Bool)0),(0)) && Perl_mg_get( msv))); |
6962 | if (SvROK(msv)((msv)->sv_flags & 0x00000800) && SvAMAGIC(msv)(((msv)->sv_flags & 0x00000800) && (((*({ SV * const _svrv = ((SV *)({ void *_p = (msv); _p; })); ((PL_valid_types_RV [((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 6962, __func__, "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]" )); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 6962, __func__ , "!isGV_with_GP(_svrv)")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 6962, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); })))->sv_flags & 0x00100000 ) && (((*({ const SV *const _svstash = (const SV *)(( *({ SV *const _svrv = ((SV *)({ void *_p = (msv); _p; })); (( PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 6962, __func__ , "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]")); ((!((( (_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV)) ) ? (void)0 : __assert2("re_comp.c", 6962, __func__, "!isGV_with_GP(_svrv)" )); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 6962, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); }))); ((((svtype)((_svstash )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_comp.c", 6962, __func__, "SvTYPE(_svstash) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svstash)->sv_any); _p ; }))->xmg_stash); })))->sv_flags & 0x10000000))) { |
6963 | SV *sv = AMG_CALLunary(msv, regexp_amg)Perl_amagic_call( msv,&(PL_sv_immortals[1]),regexp_amg,1 | 8); |
6964 | if (sv) { |
6965 | if (SvROK(sv)((sv)->sv_flags & 0x00000800)) |
6966 | sv = SvRV(sv)(*({ SV *const _svrv = ((SV *)({ void *_p = (sv); _p; })); (( PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 6966, __func__ , "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]")); ((!((( (_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV)) ) ? (void)0 : __assert2("re_comp.c", 6966, __func__, "!isGV_with_GP(_svrv)" )); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 6966, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); })); |
6967 | if (SvTYPE(sv)((svtype)((sv)->sv_flags & 0xff)) != SVt_REGEXP) |
6968 | Perl_croak(aTHX_ "Overloaded qr did not return a REGEXP"); |
6969 | msv = sv; |
6970 | } |
6971 | } |
6972 | |
6973 | /* try concatenation overload ... */ |
6974 | if (pat && (SvAMAGIC(pat)(((pat)->sv_flags & 0x00000800) && (((*({ SV * const _svrv = ((SV *)({ void *_p = (pat); _p; })); ((PL_valid_types_RV [((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 6974, __func__, "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]" )); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 6974, __func__ , "!isGV_with_GP(_svrv)")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 6974, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); })))->sv_flags & 0x00100000 ) && (((*({ const SV *const _svstash = (const SV *)(( *({ SV *const _svrv = ((SV *)({ void *_p = (pat); _p; })); (( PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 6974, __func__ , "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]")); ((!((( (_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV)) ) ? (void)0 : __assert2("re_comp.c", 6974, __func__, "!isGV_with_GP(_svrv)" )); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 6974, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); }))); ((((svtype)((_svstash )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_comp.c", 6974, __func__, "SvTYPE(_svstash) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svstash)->sv_any); _p ; }))->xmg_stash); })))->sv_flags & 0x10000000)) || SvAMAGIC(msv)(((msv)->sv_flags & 0x00000800) && (((*({ SV * const _svrv = ((SV *)({ void *_p = (msv); _p; })); ((PL_valid_types_RV [((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 6974, __func__, "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]" )); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 6974, __func__ , "!isGV_with_GP(_svrv)")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 6974, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); })))->sv_flags & 0x00100000 ) && (((*({ const SV *const _svstash = (const SV *)(( *({ SV *const _svrv = ((SV *)({ void *_p = (msv); _p; })); (( PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 6974, __func__ , "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]")); ((!((( (_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV)) ) ? (void)0 : __assert2("re_comp.c", 6974, __func__, "!isGV_with_GP(_svrv)" )); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 6974, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); }))); ((((svtype)((_svstash )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_comp.c", 6974, __func__, "SvTYPE(_svstash) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svstash)->sv_any); _p ; }))->xmg_stash); })))->sv_flags & 0x10000000))) && |
6975 | (sv = amagic_call(pat, msv, concat_amg, AMGf_assign)Perl_amagic_call( pat,msv,concat_amg,4))) |
6976 | { |
6977 | sv_setsv(pat, sv)Perl_sv_setsv_flags( pat,sv,2|0); |
6978 | /* overloading involved: all bets are off over literal |
6979 | * code. Pretend we haven't seen it */ |
6980 | if (n) |
6981 | pRExC_state->code_blocks->count -= n; |
6982 | n = 0; |
6983 | } |
6984 | else { |
6985 | /* ... or failing that, try "" overload */ |
6986 | while (SvAMAGIC(msv)(((msv)->sv_flags & 0x00000800) && (((*({ SV * const _svrv = ((SV *)({ void *_p = (msv); _p; })); ((PL_valid_types_RV [((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 6986, __func__, "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]" )); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 6986, __func__ , "!isGV_with_GP(_svrv)")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 6986, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); })))->sv_flags & 0x00100000 ) && (((*({ const SV *const _svstash = (const SV *)(( *({ SV *const _svrv = ((SV *)({ void *_p = (msv); _p; })); (( PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 6986, __func__ , "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]")); ((!((( (_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV)) ) ? (void)0 : __assert2("re_comp.c", 6986, __func__, "!isGV_with_GP(_svrv)" )); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 6986, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); }))); ((((svtype)((_svstash )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_comp.c", 6986, __func__, "SvTYPE(_svstash) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svstash)->sv_any); _p ; }))->xmg_stash); })))->sv_flags & 0x10000000)) |
6987 | && (sv = AMG_CALLunary(msv, string_amg)Perl_amagic_call( msv,&(PL_sv_immortals[1]),string_amg,1 | 8)) |
6988 | && sv != msv |
6989 | && !( SvROK(msv)((msv)->sv_flags & 0x00000800) |
6990 | && SvROK(sv)((sv)->sv_flags & 0x00000800) |
6991 | && SvRV(msv)(*({ SV *const _svrv = ((SV *)({ void *_p = (msv); _p; })); ( (PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff) ) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 6991, __func__ , "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]")); ((!((( (_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV)) ) ? (void)0 : __assert2("re_comp.c", 6991, __func__, "!isGV_with_GP(_svrv)" )); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 6991, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); })) == SvRV(sv)(*({ SV *const _svrv = ((SV *)({ void *_p = (sv); _p; })); (( PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 6991, __func__ , "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]")); ((!((( (_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV)) ) ? (void)0 : __assert2("re_comp.c", 6991, __func__, "!isGV_with_GP(_svrv)" )); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 6991, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); }))) |
6992 | ) { |
6993 | msv = sv; |
6994 | SvGETMAGIC(msv)((void)(__builtin_expect(((((msv)->sv_flags & 0x00200000 )) ? (_Bool)1 : (_Bool)0),(0)) && Perl_mg_get( msv))); |
6995 | } |
6996 | if (SvROK(msv)((msv)->sv_flags & 0x00000800) && SvTYPE(SvRV(msv))((svtype)(((*({ SV *const _svrv = ((SV *)({ void *_p = (msv); _p; })); ((PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 6996, __func__, "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]") ); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 6996, __func__ , "!isGV_with_GP(_svrv)")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 6996, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); })))->sv_flags & 0xff )) == SVt_REGEXP) |
6997 | msv = SvRV(msv)(*({ SV *const _svrv = ((SV *)({ void *_p = (msv); _p; })); ( (PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff) ) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 6997, __func__ , "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]")); ((!((( (_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV)) ) ? (void)0 : __assert2("re_comp.c", 6997, __func__, "!isGV_with_GP(_svrv)" )); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 6997, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); })); |
6998 | |
6999 | if (pat) { |
7000 | /* this is a partially unrolled |
7001 | * sv_catsv_nomg(pat, msv); |
7002 | * that allows us to adjust code block indices if |
7003 | * needed */ |
7004 | STRLEN dlen; |
7005 | char *dst = SvPV_force_nomg(pat, dlen)((((pat)->sv_flags & (0x00000400|0x00000100|0x00000200 |0x00000800|0x00008000|(0x08000000|0x00010000|0x00000800|0x01000000 |0x00800000|0x10000000)|0x00200000)) == 0x00000400) ? ((dlen = (*({ const SV *const _svcur = (const SV *)(pat); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 7005, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7005, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 7005, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))), (*({ SV *const _svpvx = ((SV *)({ void * _p = (pat); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c" , 7005, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7005, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 7005, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))) : Perl_sv_pvn_force_flags ( pat,&dlen,0)); |
7006 | orig_patlen = dlen; |
7007 | if (SvUTF8(msv)((msv)->sv_flags & 0x20000000) && !SvUTF8(pat)((pat)->sv_flags & 0x20000000)) { |
7008 | S_pat_upgrade_to_utf8(aTHX_ pRExC_state, &dst, &dlen, n); |
7009 | sv_setpvn(pat, dst, dlen)Perl_sv_setpvn( pat,dst,dlen); |
7010 | SvUTF8_on(pat)((pat)->sv_flags |= (0x20000000)); |
7011 | } |
7012 | sv_catsv_nomg(pat, msv)Perl_sv_catsv_flags( pat,msv,0); |
7013 | rx = msv; |
7014 | } |
7015 | else { |
7016 | /* We have only one SV to process, but we need to verify |
7017 | * it is properly null terminated or we will fail asserts |
7018 | * later. In theory we probably shouldn't get such SV's, |
7019 | * but if we do we should handle it gracefully. */ |
7020 | if ( SvTYPE(msv)((svtype)((msv)->sv_flags & 0xff)) != SVt_PV || (SvLEN(msv)((XPV*) (msv)->sv_any)->xpv_len_u.xpvlenu_len > SvCUR(msv)(*({ const SV *const _svcur = (const SV *)(msv); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 7020, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7020, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 7020, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) && *(SvEND(msv)((msv)->sv_u.svu_pv + ((XPV*)(msv)->sv_any)->xpv_cur )) == 0) || SvIsCOW_shared_hash(msv)(((msv)->sv_flags & 0x10000000) && ((XPV*) (msv )->sv_any)->xpv_len_u.xpvlenu_len == 0) ) { |
7021 | /* not a string, or a string with a trailing null */ |
7022 | pat = msv; |
7023 | } else { |
7024 | /* a string with no trailing null, we need to copy it |
7025 | * so it has a trailing null */ |
7026 | pat = sv_2mortal(newSVsv(msv))Perl_sv_2mortal( Perl_newSVsv_flags( (msv),2|16)); |
7027 | } |
7028 | } |
7029 | |
7030 | if (code) |
7031 | pRExC_state->code_blocks->cb[n-1].end = SvCUR(pat)(*({ const SV *const _svcur = (const SV *)(pat); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 7031, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7031, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 7031, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))-1; |
7032 | } |
7033 | |
7034 | /* extract any code blocks within any embedded qr//'s */ |
7035 | if (rx && SvTYPE(rx)((svtype)((rx)->sv_flags & 0xff)) == SVt_REGEXP |
7036 | && RX_ENGINE((REGEXP*)rx)(((Perl_ReANY((const REGEXP *)((REGEXP*)rx)))->engine))->op_comp) |
7037 | { |
7038 | |
7039 | RXi_GET_DECL(ReANY((REGEXP *)rx), ri)regexp_internal *ri = ((regexp_internal *)((Perl_ReANY((const REGEXP *)((REGEXP *)rx)))->pprivate)); |
7040 | if (ri->code_blocks && ri->code_blocks->count) { |
7041 | int i; |
7042 | /* the presence of an embedded qr// with code means |
7043 | * we should always recompile: the text of the |
7044 | * qr// may not have changed, but it may be a |
7045 | * different closure than last time */ |
7046 | *recompile_p = 1; |
7047 | if (pRExC_state->code_blocks) { |
7048 | int new_count = pRExC_state->code_blocks->count |
7049 | + ri->code_blocks->count; |
7050 | Renew(pRExC_state->code_blocks->cb,(pRExC_state->code_blocks->cb = ((void)(__builtin_expect (((((( sizeof(size_t) < sizeof(new_count) || sizeof(struct reg_code_block) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(new_count)))) ? (size_t)(new_count) : ((size_t)-1)/sizeof (struct reg_code_block)) > ((size_t)-1)/sizeof(struct reg_code_block ))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (struct reg_code_block*)(Perl_safesysrealloc((void *) (pRExC_state->code_blocks->cb),(size_t)((new_count)*sizeof (struct reg_code_block)))))) |
7051 | new_count, struct reg_code_block)(pRExC_state->code_blocks->cb = ((void)(__builtin_expect (((((( sizeof(size_t) < sizeof(new_count) || sizeof(struct reg_code_block) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(new_count)))) ? (size_t)(new_count) : ((size_t)-1)/sizeof (struct reg_code_block)) > ((size_t)-1)/sizeof(struct reg_code_block ))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (struct reg_code_block*)(Perl_safesysrealloc((void *) (pRExC_state->code_blocks->cb),(size_t)((new_count)*sizeof (struct reg_code_block)))))); |
7052 | pRExC_state->code_blocks->count = new_count; |
7053 | } |
7054 | else |
7055 | pRExC_state->code_blocks = S_alloc_code_blocks(aTHX_ |
7056 | ri->code_blocks->count); |
7057 | |
7058 | for (i=0; i < ri->code_blocks->count; i++) { |
7059 | struct reg_code_block *src, *dst; |
7060 | STRLEN offset = orig_patlen |
7061 | + ReANY((REGEXP *)rx)Perl_ReANY((const REGEXP *)((REGEXP *)rx))->pre_prefix; |
7062 | assert(n < pRExC_state->code_blocks->count)((n < pRExC_state->code_blocks->count) ? (void)0 : __assert2 ("re_comp.c", 7062, __func__, "n < pRExC_state->code_blocks->count" )); |
7063 | src = &ri->code_blocks->cb[i]; |
7064 | dst = &pRExC_state->code_blocks->cb[n]; |
7065 | dst->start = src->start + offset; |
7066 | dst->end = src->end + offset; |
7067 | dst->block = src->block; |
7068 | dst->src_regex = (REGEXP*) SvREFCNT_inc( (SV*)Perl_SvREFCNT_inc(((SV *)({ void *_p = ((SV*) src->src_regex ? src->src_regex : (REGEXP*)rx); _p; }))) |
7069 | src->src_regexPerl_SvREFCNT_inc(((SV *)({ void *_p = ((SV*) src->src_regex ? src->src_regex : (REGEXP*)rx); _p; }))) |
7070 | ? src->src_regexPerl_SvREFCNT_inc(((SV *)({ void *_p = ((SV*) src->src_regex ? src->src_regex : (REGEXP*)rx); _p; }))) |
7071 | : (REGEXP*)rx)Perl_SvREFCNT_inc(((SV *)({ void *_p = ((SV*) src->src_regex ? src->src_regex : (REGEXP*)rx); _p; }))); |
7072 | n++; |
7073 | } |
7074 | } |
7075 | } |
7076 | } |
7077 | /* avoid calling magic multiple times on a single element e.g. =~ $qr */ |
7078 | if (alloced) |
7079 | SvSETMAGIC(pat)do { if (__builtin_expect(((((pat)->sv_flags & 0x00400000 )) ? (_Bool)1 : (_Bool)0),(0))) Perl_mg_set( pat); } while (0 ); |
7080 | |
7081 | return pat; |
7082 | } |
7083 | |
7084 | |
7085 | |
7086 | /* see if there are any run-time code blocks in the pattern. |
7087 | * False positives are allowed */ |
7088 | |
7089 | static bool_Bool |
7090 | S_has_runtime_code(pTHX_ RExC_state_t * const pRExC_state, |
7091 | char *pat, STRLEN plen) |
7092 | { |
7093 | int n = 0; |
7094 | STRLEN s; |
7095 | |
7096 | PERL_UNUSED_CONTEXT; |
7097 | |
7098 | for (s = 0; s < plen; s++) { |
7099 | if ( pRExC_state->code_blocks |
7100 | && n < pRExC_state->code_blocks->count |
7101 | && s == pRExC_state->code_blocks->cb[n].start) |
7102 | { |
7103 | s = pRExC_state->code_blocks->cb[n].end; |
7104 | n++; |
7105 | continue; |
7106 | } |
7107 | /* TODO ideally should handle [..], (#..), /#.../x to reduce false |
7108 | * positives here */ |
7109 | if (pat[s] == '(' && s+2 <= plen && pat[s+1] == '?' && |
7110 | (pat[s+2] == '{' |
7111 | || (s + 2 <= plen && pat[s+2] == '?' && pat[s+3] == '{')) |
7112 | ) |
7113 | return 1; |
7114 | } |
7115 | return 0; |
7116 | } |
7117 | |
7118 | /* Handle run-time code blocks. We will already have compiled any direct |
7119 | * or indirect literal code blocks. Now, take the pattern 'pat' and make a |
7120 | * copy of it, but with any literal code blocks blanked out and |
7121 | * appropriate chars escaped; then feed it into |
7122 | * |
7123 | * eval "qr'modified_pattern'" |
7124 | * |
7125 | * For example, |
7126 | * |
7127 | * a\bc(?{"this was literal"})def'ghi\\jkl(?{"this is runtime"})mno |
7128 | * |
7129 | * becomes |
7130 | * |
7131 | * qr'a\\bc_______________________def\'ghi\\\\jkl(?{"this is runtime"})mno' |
7132 | * |
7133 | * After eval_sv()-ing that, grab any new code blocks from the returned qr |
7134 | * and merge them with any code blocks of the original regexp. |
7135 | * |
7136 | * If the pat is non-UTF8, while the evalled qr is UTF8, don't merge; |
7137 | * instead, just save the qr and return FALSE; this tells our caller that |
7138 | * the original pattern needs upgrading to utf8. |
7139 | */ |
7140 | |
7141 | static bool_Bool |
7142 | S_compile_runtime_code(pTHX_ RExC_state_t * const pRExC_state, |
7143 | char *pat, STRLEN plen) |
7144 | { |
7145 | SV *qr; |
7146 | |
7147 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 7147, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 7147, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
7148 | |
7149 | if (pRExC_state->runtime_code_qr) { |
7150 | /* this is the second time we've been called; this should |
7151 | * only happen if the main pattern got upgraded to utf8 |
7152 | * during compilation; re-use the qr we compiled first time |
7153 | * round (which should be utf8 too) |
7154 | */ |
7155 | qr = pRExC_state->runtime_code_qr; |
7156 | pRExC_state->runtime_code_qr = NULL((void*)0); |
7157 | assert(RExC_utf8 && SvUTF8(qr))(((pRExC_state->utf8) && ((qr)->sv_flags & 0x20000000 )) ? (void)0 : __assert2("re_comp.c", 7157, __func__, "RExC_utf8 && SvUTF8(qr)" )); |
7158 | } |
7159 | else { |
7160 | int n = 0; |
7161 | STRLEN s; |
7162 | char *p, *newpat; |
7163 | int newlen = plen + 7; /* allow for "qr''xx\0" extra chars */ |
7164 | SV *sv, *qr_ref; |
7165 | dSPSV **sp = PL_stack_sp; |
7166 | |
7167 | /* determine how many extra chars we need for ' and \ escaping */ |
7168 | for (s = 0; s < plen; s++) { |
7169 | if (pat[s] == '\'' || pat[s] == '\\') |
7170 | newlen++; |
7171 | } |
7172 | |
7173 | Newx(newpat, newlen, char)(newpat = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof (newlen) || sizeof(char) > ((size_t)1 << 8*(sizeof(size_t ) - sizeof(newlen)))) ? (size_t)(newlen) : ((size_t)-1)/sizeof (char)) > ((size_t)-1)/sizeof(char))) ? (_Bool)1 : (_Bool) 0),(0)) && (Perl_croak_memory_wrap(),0)), (char*)(Perl_safesysmalloc ((size_t)((newlen)*sizeof(char)))))); |
7174 | p = newpat; |
7175 | *p++ = 'q'; *p++ = 'r'; *p++ = '\''; |
7176 | |
7177 | for (s = 0; s < plen; s++) { |
7178 | if ( pRExC_state->code_blocks |
7179 | && n < pRExC_state->code_blocks->count |
7180 | && s == pRExC_state->code_blocks->cb[n].start) |
7181 | { |
7182 | /* blank out literal code block so that they aren't |
7183 | * recompiled: eg change from/to: |
7184 | * /(?{xyz})/ |
7185 | * /(?=====)/ |
7186 | * and |
7187 | * /(??{xyz})/ |
7188 | * /(?======)/ |
7189 | * and |
7190 | * /(?(?{xyz}))/ |
7191 | * /(?(?=====))/ |
7192 | */ |
7193 | assert(pat[s] == '(')((pat[s] == '(') ? (void)0 : __assert2("re_comp.c", 7193, __func__ , "pat[s] == '('")); |
7194 | assert(pat[s+1] == '?')((pat[s+1] == '?') ? (void)0 : __assert2("re_comp.c", 7194, __func__ , "pat[s+1] == '?'")); |
7195 | *p++ = '('; |
7196 | *p++ = '?'; |
7197 | s += 2; |
7198 | while (s < pRExC_state->code_blocks->cb[n].end) { |
7199 | *p++ = '='; |
7200 | s++; |
7201 | } |
7202 | *p++ = ')'; |
7203 | n++; |
7204 | continue; |
7205 | } |
7206 | if (pat[s] == '\'' || pat[s] == '\\') |
7207 | *p++ = '\\'; |
7208 | *p++ = pat[s]; |
7209 | } |
7210 | *p++ = '\''; |
7211 | if (pRExC_state->pm_flags & RXf_PMf_EXTENDED(1U << (0 +3))) { |
7212 | *p++ = 'x'; |
7213 | if (pRExC_state->pm_flags & RXf_PMf_EXTENDED_MORE(1U << (0 +4))) { |
7214 | *p++ = 'x'; |
7215 | } |
7216 | } |
7217 | *p++ = '\0'; |
7218 | DEBUG_COMPILE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { Perl_re_printf ( "%sre-parsing pattern for runtime code:%s %s\n", PL_colors[ 4], PL_colors[5], newpat); };} while (0) |
7219 | Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { Perl_re_printf ( "%sre-parsing pattern for runtime code:%s %s\n", PL_colors[ 4], PL_colors[5], newpat); };} while (0) |
7220 | "%sre-parsing pattern for runtime code:%s %s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { Perl_re_printf ( "%sre-parsing pattern for runtime code:%s %s\n", PL_colors[ 4], PL_colors[5], newpat); };} while (0) |
7221 | PL_colors[4], PL_colors[5], newpat);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { Perl_re_printf ( "%sre-parsing pattern for runtime code:%s %s\n", PL_colors[ 4], PL_colors[5], newpat); };} while (0) |
7222 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { Perl_re_printf ( "%sre-parsing pattern for runtime code:%s %s\n", PL_colors[ 4], PL_colors[5], newpat); };} while (0); |
7223 | |
7224 | sv = newSVpvn_flags(newpat, p-newpat-1, RExC_utf8 ? SVf_UTF8 : 0)Perl_newSVpvn_flags( newpat,p-newpat-1,(pRExC_state->utf8) ? 0x20000000 : 0); |
7225 | Safefree(newpat)Perl_safesysfree(((void *)(newpat))); |
7226 | |
7227 | ENTERdo { Perl_push_scope(); if (__builtin_expect(((PL_debug & 0x00000004) ? (_Bool)1 : (_Bool)0),(0))) Perl_deb( "%s scope %ld (savestack=%ld) at %s:%d\n" , "ENTER", (long)PL_scopestack_ix, (long)PL_savestack_ix, "re_comp.c" , 7227); } while (0); |
7228 | SAVETMPSPerl_savetmps(); |
7229 | save_re_context()Perl_save_re_context(); |
7230 | PUSHSTACKi(PERLSI_REQUIRE)do { PERL_SI *next = PL_curstackinfo->si_next; if (__builtin_expect (((PL_debug & 0x00000004) ? (_Bool)1 : (_Bool)0),(0))) { int i = 0; PERL_SI *p = PL_curstackinfo; while (p) { i++; p = p-> si_prev; } Perl_deb( "push STACKINFO %d at %s:%d\n", i, "re_comp.c" , 7230);} if (!next) { next = Perl_new_stackinfo( 32,2048/sizeof (PERL_CONTEXT) - 1); next->si_prev = PL_curstackinfo; PL_curstackinfo ->si_next = next; } next->si_type = 9; next->si_cxix = -1; next->si_cxsubix = -1; (void)0; ((XPVAV*) (next-> si_stack)->sv_any)->xav_fill = 0; do { ((XPVAV*) (PL_curstack )->sv_any)->xav_fill = sp - PL_stack_base; PL_stack_base = ((next->si_stack)->sv_u.svu_array); PL_stack_max = PL_stack_base + ((XPVAV*) (next->si_stack)->sv_any)->xav_max; sp = PL_stack_sp = PL_stack_base + ((XPVAV*) (next->si_stack)-> sv_any)->xav_fill; PL_curstack = next->si_stack; } while (0); PL_curstackinfo = next; PL_curstackinfo->si_markoff = PL_markstack_ptr - PL_markstack; } while (0); |
7231 | /* G_RE_REPARSING causes the toker to collapse \\ into \ when |
7232 | * parsing qr''; normally only q'' does this. It also alters |
7233 | * hints handling */ |
7234 | eval_sv(sv, G_SCALAR|G_RE_REPARSING)Perl_eval_sv( sv,2|0x800); |
7235 | SvREFCNT_dec_NN(sv)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (sv); _p; }))); |
7236 | SPAGAINsp = PL_stack_sp; |
7237 | qr_ref = POPs(*sp--); |
7238 | PUTBACKPL_stack_sp = sp; |
7239 | { |
7240 | SV * const errsv = ERRSV(*((0+(*({GV *const _gvgp = (GV *) (PL_errgv); ((((svtype)((_gvgp )->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)-> sv_flags & 0xff)) == SVt_PVLV) ? (void)0 : __assert2("re_comp.c" , 7240, __func__, "SvTYPE(_gvgp) == SVt_PVGV || SvTYPE(_gvgp) == SVt_PVLV" )); ((((((_gvgp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7240, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_sv ? &((0+(*({GV *const _gvgp = (GV *) (PL_errgv ); ((((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVLV) ? ( void)0 : __assert2("re_comp.c", 7240, __func__, "SvTYPE(_gvgp) == SVt_PVGV || SvTYPE(_gvgp) == SVt_PVLV" )); ((((((_gvgp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7240, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_sv) : &((0+(*({GV *const _gvgp = (GV *) (Perl_gv_add_by_type ( (PL_errgv),SVt_NULL)); ((((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff )) == SVt_PVLV) ? (void)0 : __assert2("re_comp.c", 7240, __func__ , "SvTYPE(_gvgp) == SVt_PVGV || SvTYPE(_gvgp) == SVt_PVLV")); ((((((_gvgp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVLV)) ) ? (void)0 : __assert2("re_comp.c", 7240, __func__, "isGV_with_GP(_gvgp)" )); &((_gvgp)->sv_u.svu_gp);})))->gp_sv))); |
7241 | if (SvTRUE_NN(errsv)(((void)(__builtin_expect(((((errsv)->sv_flags & 0x00200000 )) ? (_Bool)1 : (_Bool)0),(0)) && Perl_mg_get( errsv) )), (( ((size_t)((errsv) - &(PL_sv_immortals[0])) < 4) ? ((errsv) == &(PL_sv_immortals[0])) : !((errsv)->sv_flags & (0x00000100|0x00000200|0x00000400|0x00000800| 0x00001000 |0x00002000|0x00004000|0x00008000)) ? 0 : ((errsv)->sv_flags & 0x00000400) ? ( ((XPV*)((errsv))->sv_any) && ( ((XPV*)((errsv))->sv_any)->xpv_cur > 1 || ( ((XPV *)((errsv))->sv_any)->xpv_cur && *(errsv)->sv_u .svu_pv != '0' ) ) ) : ((errsv)->sv_flags & 0x00000100 ) ? ((*({ const SV *const _svivx = (const SV *)(errsv); ((PL_valid_types_IVX [((svtype)((_svivx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 7241, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7241, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) != 0 ) : (((errsv)->sv_flags & 0x00000800) && !( (((*( { SV *const _svrv = ((SV *)({ void *_p = (errsv); _p; })); (( PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 7241, __func__ , "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]")); ((!((( (_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV)) ) ? (void)0 : __assert2("re_comp.c", 7241, __func__, "!isGV_with_GP(_svrv)" )); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 7241, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); })))->sv_flags & 0x00100000 ) && (((*({ const SV *const _svstash = (const SV *)(( *({ SV *const _svrv = ((SV *)({ void *_p = (errsv); _p; })); ( (PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff) ) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 7241, __func__ , "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]")); ((!((( (_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV)) ) ? (void)0 : __assert2("re_comp.c", 7241, __func__, "!isGV_with_GP(_svrv)" )); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 7241, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); }))); ((((svtype)((_svstash )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_comp.c", 7241, __func__, "SvTYPE(_svstash) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svstash)->sv_any); _p ; }))->xmg_stash); })))->sv_flags & 0x10000000))) ? (1) : (Perl_sv_2bool_flags( errsv,0)))))) |
7242 | /* use croak_sv ? */ |
7243 | Perl_croak_nocontextPerl_croak("%" SVf"-p", SVfARG(errsv)((void*)(errsv))); |
7244 | } |
7245 | assert(SvROK(qr_ref))((((qr_ref)->sv_flags & 0x00000800)) ? (void)0 : __assert2 ("re_comp.c", 7245, __func__, "SvROK(qr_ref)")); |
7246 | qr = SvRV(qr_ref)(*({ SV *const _svrv = ((SV *)({ void *_p = (qr_ref); _p; })) ; ((PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 7246, __func__ , "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]")); ((!((( (_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV)) ) ? (void)0 : __assert2("re_comp.c", 7246, __func__, "!isGV_with_GP(_svrv)" )); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 7246, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); })); |
7247 | assert(SvTYPE(qr) == SVt_REGEXP && RX_ENGINE((REGEXP*)qr)->op_comp)((((svtype)((qr)->sv_flags & 0xff)) == SVt_REGEXP && (((Perl_ReANY((const REGEXP *)((REGEXP*)qr)))->engine))-> op_comp) ? (void)0 : __assert2("re_comp.c", 7247, __func__, "SvTYPE(qr) == SVt_REGEXP && RX_ENGINE((REGEXP*)qr)->op_comp" )); |
7248 | /* the leaving below frees the tmp qr_ref. |
7249 | * Give qr a life of its own */ |
7250 | SvREFCNT_inc(qr)Perl_SvREFCNT_inc(((SV *)({ void *_p = (qr); _p; }))); |
7251 | POPSTACKdo { SV **sp = PL_stack_sp; PERL_SI * const prev = PL_curstackinfo ->si_prev; if (__builtin_expect(((PL_debug & 0x00000004 ) ? (_Bool)1 : (_Bool)0),(0))) { int i = -1; PERL_SI *p = PL_curstackinfo ; while (p) { i++; p = p->si_prev; } Perl_deb( "pop STACKINFO %d at %s:%d\n" , i, "re_comp.c", 7251);} if (!prev) { Perl_croak_popstack(); } do { ((XPVAV*) (PL_curstack)->sv_any)->xav_fill = sp - PL_stack_base; PL_stack_base = ((prev->si_stack)->sv_u .svu_array); PL_stack_max = PL_stack_base + ((XPVAV*) (prev-> si_stack)->sv_any)->xav_max; sp = PL_stack_sp = PL_stack_base + ((XPVAV*) (prev->si_stack)->sv_any)->xav_fill; PL_curstack = prev->si_stack; } while (0); PL_curstackinfo = prev; } while (0); |
7252 | FREETMPSif (PL_tmps_ix > PL_tmps_floor) Perl_free_tmps(); |
7253 | LEAVEdo { if (__builtin_expect(((PL_debug & 0x00000004) ? (_Bool )1 : (_Bool)0),(0))) Perl_deb( "%s scope %ld (savestack=%ld) at %s:%d\n" , "LEAVE", (long)PL_scopestack_ix, (long)PL_savestack_ix, "re_comp.c" , 7253); Perl_pop_scope(); } while (0); |
7254 | |
7255 | } |
7256 | |
7257 | if (!RExC_utf8(pRExC_state->utf8) && SvUTF8(qr)((qr)->sv_flags & 0x20000000)) { |
7258 | /* first time through; the pattern got upgraded; save the |
7259 | * qr for the next time through */ |
7260 | assert(!pRExC_state->runtime_code_qr)((!pRExC_state->runtime_code_qr) ? (void)0 : __assert2("re_comp.c" , 7260, __func__, "!pRExC_state->runtime_code_qr")); |
7261 | pRExC_state->runtime_code_qr = qr; |
7262 | return 0; |
7263 | } |
7264 | |
7265 | |
7266 | /* extract any code blocks within the returned qr// */ |
7267 | |
7268 | |
7269 | /* merge the main (r1) and run-time (r2) code blocks into one */ |
7270 | { |
7271 | RXi_GET_DECL(ReANY((REGEXP *)qr), r2)regexp_internal *r2 = ((regexp_internal *)((Perl_ReANY((const REGEXP *)((REGEXP *)qr)))->pprivate)); |
7272 | struct reg_code_block *new_block, *dst; |
7273 | RExC_state_t * const r1 = pRExC_state; /* convenient alias */ |
7274 | int i1 = 0, i2 = 0; |
7275 | int r1c, r2c; |
7276 | |
7277 | if (!r2->code_blocks || !r2->code_blocks->count) /* we guessed wrong */ |
7278 | { |
7279 | SvREFCNT_dec_NN(qr)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (qr); _p; }))); |
7280 | return 1; |
7281 | } |
7282 | |
7283 | if (!r1->code_blocks) |
7284 | r1->code_blocks = S_alloc_code_blocks(aTHX_ 0); |
7285 | |
7286 | r1c = r1->code_blocks->count; |
7287 | r2c = r2->code_blocks->count; |
7288 | |
7289 | Newx(new_block, r1c + r2c, struct reg_code_block)(new_block = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(r1c + r2c) || sizeof(struct reg_code_block) > ((size_t )1 << 8*(sizeof(size_t) - sizeof(r1c + r2c)))) ? (size_t )(r1c + r2c) : ((size_t)-1)/sizeof(struct reg_code_block)) > ((size_t)-1)/sizeof(struct reg_code_block))) ? (_Bool)1 : (_Bool )0),(0)) && (Perl_croak_memory_wrap(),0)), (struct reg_code_block *)(Perl_safesysmalloc((size_t)((r1c + r2c)*sizeof(struct reg_code_block )))))); |
7290 | |
7291 | dst = new_block; |
7292 | |
7293 | while (i1 < r1c || i2 < r2c) { |
7294 | struct reg_code_block *src; |
7295 | bool_Bool is_qr = 0; |
7296 | |
7297 | if (i1 == r1c) { |
7298 | src = &r2->code_blocks->cb[i2++]; |
7299 | is_qr = 1; |
7300 | } |
7301 | else if (i2 == r2c) |
7302 | src = &r1->code_blocks->cb[i1++]; |
7303 | else if ( r1->code_blocks->cb[i1].start |
7304 | < r2->code_blocks->cb[i2].start) |
7305 | { |
7306 | src = &r1->code_blocks->cb[i1++]; |
7307 | assert(src->end < r2->code_blocks->cb[i2].start)((src->end < r2->code_blocks->cb[i2].start) ? (void )0 : __assert2("re_comp.c", 7307, __func__, "src->end < r2->code_blocks->cb[i2].start" )); |
7308 | } |
7309 | else { |
7310 | assert( r1->code_blocks->cb[i1].start((r1->code_blocks->cb[i1].start > r2->code_blocks ->cb[i2].start) ? (void)0 : __assert2("re_comp.c", 7311, __func__ , "r1->code_blocks->cb[i1].start > r2->code_blocks->cb[i2].start" )) |
7311 | > r2->code_blocks->cb[i2].start)((r1->code_blocks->cb[i1].start > r2->code_blocks ->cb[i2].start) ? (void)0 : __assert2("re_comp.c", 7311, __func__ , "r1->code_blocks->cb[i1].start > r2->code_blocks->cb[i2].start" )); |
7312 | src = &r2->code_blocks->cb[i2++]; |
7313 | is_qr = 1; |
7314 | assert(src->end < r1->code_blocks->cb[i1].start)((src->end < r1->code_blocks->cb[i1].start) ? (void )0 : __assert2("re_comp.c", 7314, __func__, "src->end < r1->code_blocks->cb[i1].start" )); |
7315 | } |
7316 | |
7317 | assert(pat[src->start] == '(')((pat[src->start] == '(') ? (void)0 : __assert2("re_comp.c" , 7317, __func__, "pat[src->start] == '('")); |
7318 | assert(pat[src->end] == ')')((pat[src->end] == ')') ? (void)0 : __assert2("re_comp.c", 7318, __func__, "pat[src->end] == ')'")); |
7319 | dst->start = src->start; |
7320 | dst->end = src->end; |
7321 | dst->block = src->block; |
7322 | dst->src_regex = is_qr ? (REGEXP*) SvREFCNT_inc( (SV*) qr)Perl_SvREFCNT_inc(((SV *)({ void *_p = ((SV*) qr); _p; }))) |
7323 | : src->src_regex; |
7324 | dst++; |
7325 | } |
7326 | r1->code_blocks->count += r2c; |
7327 | Safefree(r1->code_blocks->cb)Perl_safesysfree(((void *)(r1->code_blocks->cb))); |
7328 | r1->code_blocks->cb = new_block; |
7329 | } |
7330 | |
7331 | SvREFCNT_dec_NN(qr)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (qr); _p; }))); |
7332 | return 1; |
7333 | } |
7334 | |
7335 | |
7336 | STATICstatic bool_Bool |
7337 | S_setup_longest(pTHX_ RExC_state_t *pRExC_state, |
7338 | struct reg_substr_datum *rsd, |
7339 | struct scan_data_substrs *sub, |
7340 | STRLEN longest_length) |
7341 | { |
7342 | /* This is the common code for setting up the floating and fixed length |
7343 | * string data extracted from Perl_re_op_compile() below. Returns a boolean |
7344 | * as to whether succeeded or not */ |
7345 | |
7346 | I32 t; |
7347 | SSize_tssize_t ml; |
7348 | bool_Bool eol = cBOOL(sub->flags & SF_BEFORE_EOL)((sub->flags & (0x0001|0x0002)) ? (_Bool)1 : (_Bool)0); |
7349 | bool_Bool meol = cBOOL(sub->flags & SF_BEFORE_MEOL)((sub->flags & 0x0002) ? (_Bool)1 : (_Bool)0); |
7350 | |
7351 | if (! (longest_length |
7352 | || (eol /* Can't have SEOL and MULTI */ |
7353 | && (! meol || (RExC_flags(pRExC_state->flags) & RXf_PMf_MULTILINE(1U << (0 +0))))) |
7354 | ) |
7355 | /* See comments for join_exact for why REG_UNFOLDED_MULTI_SEEN */ |
7356 | || (RExC_seen(pRExC_state->seen) & REG_UNFOLDED_MULTI_SEEN0x00000400)) |
7357 | { |
7358 | return FALSE(0); |
7359 | } |
7360 | |
7361 | /* copy the information about the longest from the reg_scan_data |
7362 | over to the program. */ |
7363 | if (SvUTF8(sub->str)((sub->str)->sv_flags & 0x20000000)) { |
7364 | rsd->substr = NULL((void*)0); |
7365 | rsd->utf8_substr = sub->str; |
7366 | } else { |
7367 | rsd->substr = sub->str; |
7368 | rsd->utf8_substr = NULL((void*)0); |
7369 | } |
7370 | /* end_shift is how many chars that must be matched that |
7371 | follow this item. We calculate it ahead of time as once the |
7372 | lookbehind offset is added in we lose the ability to correctly |
7373 | calculate it.*/ |
7374 | ml = sub->minlenp ? *(sub->minlenp) : (SSize_tssize_t)longest_length; |
7375 | rsd->end_shift = ml - sub->min_offset |
7376 | - longest_length |
7377 | /* XXX SvTAIL is always false here - did you mean FBMcf_TAIL |
7378 | * intead? - DAPM |
7379 | + (SvTAIL(sub->str) != 0) |
7380 | */ |
7381 | + sub->lookbehind; |
7382 | |
7383 | t = (eol/* Can't have SEOL and MULTI */ |
7384 | && (! meol || (RExC_flags(pRExC_state->flags) & RXf_PMf_MULTILINE(1U << (0 +0))))); |
7385 | fbm_compile(sub->str, t ? FBMcf_TAIL : 0)Perl_fbm_compile( sub->str,t ? (1|2|4|8) : 0); |
7386 | |
7387 | return TRUE(1); |
7388 | } |
7389 | |
7390 | STATICstatic void |
7391 | S_set_regex_pv(pTHX_ RExC_state_t *pRExC_state, REGEXP *Rx) |
7392 | { |
7393 | /* Calculates and sets in the compiled pattern 'Rx' the string to compile, |
7394 | * properly wrapped with the right modifiers */ |
7395 | |
7396 | bool_Bool has_p = ((RExC_rx(pRExC_state->rx)->extflags & RXf_PMf_KEEPCOPY(1U << (0 +6))) == RXf_PMf_KEEPCOPY(1U << (0 +6))); |
7397 | bool_Bool has_charset = RExC_utf8(pRExC_state->utf8) || (get_regex_charset(RExC_rx(pRExC_state->rx)->extflags) |
7398 | != REGEX_DEPENDS_CHARSET); |
7399 | |
7400 | /* The caret is output if there are any defaults: if not all the STD |
7401 | * flags are set, or if no character set specifier is needed */ |
7402 | bool_Bool has_default = |
7403 | (((RExC_rx(pRExC_state->rx)->extflags & RXf_PMf_STD_PMMOD((1U << (0 +0))|(1U << (0 +1))|(1U << (0 +2 ))|(1U << (0 +3))|(1U << (0 +4))|(1U << (0 + 5)))) != RXf_PMf_STD_PMMOD((1U << (0 +0))|(1U << (0 +1))|(1U << (0 +2 ))|(1U << (0 +3))|(1U << (0 +4))|(1U << (0 + 5)))) |
7404 | || ! has_charset); |
7405 | bool_Bool has_runon = ((RExC_seen(pRExC_state->seen) & REG_RUN_ON_COMMENT_SEEN0x00000200) |
7406 | == REG_RUN_ON_COMMENT_SEEN0x00000200); |
7407 | U8 reganch = (U8)((RExC_rx(pRExC_state->rx)->extflags & RXf_PMf_STD_PMMOD((1U << (0 +0))|(1U << (0 +1))|(1U << (0 +2 ))|(1U << (0 +3))|(1U << (0 +4))|(1U << (0 + 5)))) |
7408 | >> RXf_PMf_STD_PMMOD_SHIFT0); |
7409 | const char *fptr = STD_PAT_MODS"msixxn"; /*"msixxn"*/ |
7410 | char *p; |
7411 | STRLEN pat_len = RExC_precomp_end(pRExC_state->precomp_end) - RExC_precomp(pRExC_state->precomp); |
7412 | |
7413 | /* We output all the necessary flags; we never output a minus, as all |
7414 | * those are defaults, so are |
7415 | * covered by the caret */ |
7416 | const STRLEN wraplen = pat_len + has_p + has_runon |
7417 | + has_default /* If needs a caret */ |
7418 | + PL_bitcount[reganch] /* 1 char for each set standard flag */ |
7419 | |
7420 | /* If needs a character set specifier */ |
7421 | + ((has_charset) ? MAX_CHARSET_NAME_LENGTH2 : 0) |
7422 | + (sizeof("(?:)") - 1); |
7423 | |
7424 | PERL_ARGS_ASSERT_SET_REGEX_PV((pRExC_state) ? (void)0 : __assert2("re_comp.c", 7424, __func__ , "pRExC_state")); ((Rx) ? (void)0 : __assert2("re_comp.c", 7424 , __func__, "Rx")); |
7425 | |
7426 | /* make sure PL_bitcount bounds not exceeded */ |
7427 | assert(sizeof(STD_PAT_MODS) <= 8)((sizeof("msixxn") <= 8) ? (void)0 : __assert2("re_comp.c" , 7427, __func__, "sizeof(STD_PAT_MODS) <= 8")); |
7428 | |
7429 | p = sv_grow(MUTABLE_SV(Rx), wraplen + 1)Perl_sv_grow( ((SV *)({ void *_p = (Rx); _p; })),wraplen + 1); /* +1 for the ending NUL */ |
7430 | SvPOK_on(Rx)(((!((Rx)->sv_flags & 0x00000800) || !(*({ SV *const _svrv = ((SV *)({ void *_p = (Rx); _p; })); ((PL_valid_types_RV[(( svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? (void )0 : __assert2("re_comp.c", 7430, __func__, "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]" )); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7430, __func__ , "!isGV_with_GP(_svrv)")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 7430, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); }))) ? (void)0 : __assert2 ("re_comp.c", 7430, __func__, "!((Rx)->sv_flags & 0x00000800) || !(*({ SV *const _svrv = ((SV *)({ void *_p = (Rx); _p; })); ((PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2(\"re_comp.c\", 7430, __func__, \"PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]\")); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2(\"re_comp.c\", 7430, __func__, \"!isGV_with_GP(_svrv)\")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2(\"re_comp.c\", 7430, __func__, \"!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))\")); &((_svrv)->sv_u.svu_rv); }))" )), ((!((((Rx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((Rx)->sv_flags & 0xff )) == SVt_PVGV || ((svtype)((Rx)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7430, __func__ , "!((((Rx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((Rx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((Rx)->sv_flags & 0xff)) == SVt_PVLV))" )), (Rx)->sv_flags |= (0x00000400|0x00004000)); |
7431 | if (RExC_utf8(pRExC_state->utf8)) |
7432 | SvFLAGS(Rx)(Rx)->sv_flags |= SVf_UTF80x20000000; |
7433 | *p++='('; *p++='?'; |
7434 | |
7435 | /* If a default, cover it using the caret */ |
7436 | if (has_default) { |
7437 | *p++= DEFAULT_PAT_MOD'^'; |
7438 | } |
7439 | if (has_charset) { |
7440 | STRLEN len; |
7441 | const char* name; |
7442 | |
7443 | name = get_regex_charset_nameS_get_regex_charset_name(RExC_rx(pRExC_state->rx)->extflags, &len); |
7444 | if (strEQ(name, DEPENDS_PAT_MODS)(strcmp(name,"d") == 0)) { /* /d under UTF-8 => /u */ |
7445 | assert(RExC_utf8)(((pRExC_state->utf8)) ? (void)0 : __assert2("re_comp.c", 7445 , __func__, "RExC_utf8")); |
7446 | name = UNICODE_PAT_MODS"u"; |
7447 | len = sizeof(UNICODE_PAT_MODS"u") - 1; |
7448 | } |
7449 | Copy(name, p, len, char)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(len ) || sizeof(char) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(len)))) ? (size_t)(len) : ((size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof(char))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), ((((void*)(p)) != 0) ? (void) 0 : __assert2("re_comp.c", 7449, __func__, "((void*)(p)) != 0" )), ((((void*)(name)) != 0) ? (void)0 : __assert2("re_comp.c" , 7449, __func__, "((void*)(name)) != 0")), (void)memcpy((char *)(p),(const char*)(name), (len) * sizeof(char))); |
7450 | p += len; |
7451 | } |
7452 | if (has_p) |
7453 | *p++ = KEEPCOPY_PAT_MOD'p'; /*'p'*/ |
7454 | { |
7455 | char ch; |
7456 | while((ch = *fptr++)) { |
7457 | if(reganch & 1) |
7458 | *p++ = ch; |
7459 | reganch >>= 1; |
7460 | } |
7461 | } |
7462 | |
7463 | *p++ = ':'; |
7464 | Copy(RExC_precomp, p, pat_len, char)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(pat_len ) || sizeof(char) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(pat_len)))) ? (size_t)(pat_len) : ((size_t)-1)/sizeof (char)) > ((size_t)-1)/sizeof(char))) ? (_Bool)1 : (_Bool) 0),(0)) && (Perl_croak_memory_wrap(),0)), ((((void*)( p)) != 0) ? (void)0 : __assert2("re_comp.c", 7464, __func__, "((void*)(p)) != 0" )), ((((void*)((pRExC_state->precomp))) != 0) ? (void)0 : __assert2 ("re_comp.c", 7464, __func__, "((void*)((pRExC_state->precomp))) != 0" )), (void)memcpy((char*)(p),(const char*)((pRExC_state->precomp )), (pat_len) * sizeof(char))); |
7465 | assert ((RX_WRAPPED(Rx) - p) < 16)((((*({ SV *const _svpvx = ((SV *)({ void *_p = (Rx); _p; })) ; ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 7465, __func__ , "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]")); ((!( (((_svpvx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 7465, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 7465, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) - p) < 16) ? (void )0 : __assert2("re_comp.c", 7465, __func__, "(RX_WRAPPED(Rx) - p) < 16" )); |
7466 | RExC_rx(pRExC_state->rx)->pre_prefix = p - RX_WRAPPED(Rx)(*({ SV *const _svpvx = ((SV *)({ void *_p = (Rx); _p; })); ( (PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 7466, __func__ , "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]")); ((!( (((_svpvx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 7466, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 7466, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })); |
7467 | p += pat_len; |
7468 | |
7469 | /* Adding a trailing \n causes this to compile properly: |
7470 | my $R = qr / A B C # D E/x; /($R)/ |
7471 | Otherwise the parens are considered part of the comment */ |
7472 | if (has_runon) |
7473 | *p++ = '\n'; |
7474 | *p++ = ')'; |
7475 | *p = 0; |
7476 | SvCUR_set(Rx, p - RX_WRAPPED(Rx))do { ((PL_valid_types_PVX[((svtype)((Rx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 7476, __func__ , "PL_valid_types_PVX[SvTYPE(Rx) & SVt_MASK]")); ((!((((Rx )->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((Rx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype )((Rx)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2 ("re_comp.c", 7476, __func__, "!isGV_with_GP(Rx)")); ((!(((svtype )((Rx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO *) (Rx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2 ("re_comp.c", 7476, __func__, "!(SvTYPE(Rx) == SVt_PVIO && !(IoFLAGS(Rx) & IOf_FAKE_DIRP))" )); (((XPV*) (Rx)->sv_any)->xpv_cur = (p - (*({ SV *const _svpvx = ((SV *)({ void *_p = (Rx); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 7476, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7476, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 7476, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })))); } while (0); |
7477 | } |
7478 | |
7479 | /* |
7480 | * Perl_re_op_compile - the perl internal RE engine's function to compile a |
7481 | * regular expression into internal code. |
7482 | * The pattern may be passed either as: |
7483 | * a list of SVs (patternp plus pat_count) |
7484 | * a list of OPs (expr) |
7485 | * If both are passed, the SV list is used, but the OP list indicates |
7486 | * which SVs are actually pre-compiled code blocks |
7487 | * |
7488 | * The SVs in the list have magic and qr overloading applied to them (and |
7489 | * the list may be modified in-place with replacement SVs in the latter |
7490 | * case). |
7491 | * |
7492 | * If the pattern hasn't changed from old_re, then old_re will be |
7493 | * returned. |
7494 | * |
7495 | * eng is the current engine. If that engine has an op_comp method, then |
7496 | * handle directly (i.e. we assume that op_comp was us); otherwise, just |
7497 | * do the initial concatenation of arguments and pass on to the external |
7498 | * engine. |
7499 | * |
7500 | * If is_bare_re is not null, set it to a boolean indicating whether the |
7501 | * arg list reduced (after overloading) to a single bare regex which has |
7502 | * been returned (i.e. /$qr/). |
7503 | * |
7504 | * orig_rx_flags contains RXf_* flags. See perlreapi.pod for more details. |
7505 | * |
7506 | * pm_flags contains the PMf_* flags, typically based on those from the |
7507 | * pm_flags field of the related PMOP. Currently we're only interested in |
7508 | * PMf_HAS_CV, PMf_IS_QR, PMf_USE_RE_EVAL, PMf_WILDCARD. |
7509 | * |
7510 | * For many years this code had an initial sizing pass that calculated |
7511 | * (sometimes incorrectly, leading to security holes) the size needed for the |
7512 | * compiled pattern. That was changed by commit |
7513 | * 7c932d07cab18751bfc7515b4320436273a459e2 in 5.29, which reallocs the size, a |
7514 | * node at a time, as parsing goes along. Patches welcome to fix any obsolete |
7515 | * references to this sizing pass. |
7516 | * |
7517 | * Now, an initial crude guess as to the size needed is made, based on the |
7518 | * length of the pattern. Patches welcome to improve that guess. That amount |
7519 | * of space is malloc'd and then immediately freed, and then clawed back node |
7520 | * by node. This design is to minimze, to the extent possible, memory churn |
7521 | * when doing the reallocs. |
7522 | * |
7523 | * A separate parentheses counting pass may be needed in some cases. |
7524 | * (Previously the sizing pass did this.) Patches welcome to reduce the number |
7525 | * of these cases. |
7526 | * |
7527 | * The existence of a sizing pass necessitated design decisions that are no |
7528 | * longer needed. There are potential areas of simplification. |
7529 | * |
7530 | * Beware that the optimization-preparation code in here knows about some |
7531 | * of the structure of the compiled regexp. [I'll say.] |
7532 | */ |
7533 | |
7534 | REGEXP * |
7535 | Perl_re_op_compilemy_re_op_compile(pTHX_ SV ** const patternp, int pat_count, |
7536 | OP *expr, const regexp_engine* eng, REGEXP *old_re, |
7537 | bool_Bool *is_bare_re, const U32 orig_rx_flags, const U32 pm_flags) |
7538 | { |
7539 | dVARstruct Perl___notused_struct; |
7540 | REGEXP *Rx; /* Capital 'R' means points to a REGEXP */ |
7541 | STRLEN plen; |
7542 | char *exp; |
7543 | regnode *scan; |
7544 | I32 flags; |
7545 | SSize_tssize_t minlen = 0; |
7546 | U32 rx_flags; |
7547 | SV *pat; |
7548 | SV** new_patternp = patternp; |
7549 | |
7550 | /* these are all flags - maybe they should be turned |
7551 | * into a single int with different bit masks */ |
7552 | I32 sawlookahead = 0; |
7553 | I32 sawplus = 0; |
7554 | I32 sawopen = 0; |
7555 | I32 sawminmod = 0; |
7556 | |
7557 | regex_charset initial_charset = get_regex_charset(orig_rx_flags); |
7558 | bool_Bool recompile = 0; |
7559 | bool_Bool runtime_code = 0; |
7560 | scan_data_t data; |
7561 | RExC_state_t RExC_state; |
7562 | RExC_state_t * const pRExC_state = &RExC_state; |
7563 | #ifdef TRIE_STUDY_OPT |
7564 | int restudied = 0; |
7565 | RExC_state_t copyRExC_state; |
7566 | #endif |
7567 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 7567, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 7567, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
7568 | |
7569 | PERL_ARGS_ASSERT_RE_OP_COMPILE((eng) ? (void)0 : __assert2("re_comp.c", 7569, __func__, "eng" )); |
7570 | |
7571 | DEBUG_r(if (!PL_colorset) reginitcolors())do {if (!PL_colorset) Perl_reginitcolors();} while (0); |
7572 | |
7573 | |
7574 | pRExC_state->warn_text = NULL((void*)0); |
7575 | pRExC_state->unlexed_names = NULL((void*)0); |
7576 | pRExC_state->code_blocks = NULL((void*)0); |
7577 | |
7578 | if (is_bare_re) |
7579 | *is_bare_re = FALSE(0); |
7580 | |
7581 | if (expr && (expr->op_type == OP_LIST || |
7582 | (expr->op_type == OP_NULL && expr->op_targ == OP_LIST))) { |
7583 | /* allocate code_blocks if needed */ |
7584 | OP *o; |
7585 | int ncode = 0; |
7586 | |
7587 | for (o = cLISTOPx(expr)((LISTOP*)(expr))->op_first; o; o = OpSIBLING(o)(0 + (o)->op_moresib ? (o)->op_sibparent : ((void*)0))) |
7588 | if (o->op_type == OP_NULL && (o->op_flags & OPf_SPECIAL128)) |
7589 | ncode++; /* count of DO blocks */ |
7590 | |
7591 | if (ncode) |
7592 | pRExC_state->code_blocks = S_alloc_code_blocks(aTHX_ ncode); |
7593 | } |
7594 | |
7595 | if (!pat_count) { |
7596 | /* compile-time pattern with just OP_CONSTs and DO blocks */ |
7597 | |
7598 | int n; |
7599 | OP *o; |
7600 | |
7601 | /* find how many CONSTs there are */ |
7602 | assert(expr)((expr) ? (void)0 : __assert2("re_comp.c", 7602, __func__, "expr" )); |
7603 | n = 0; |
7604 | if (expr->op_type == OP_CONST) |
7605 | n = 1; |
7606 | else |
7607 | for (o = cLISTOPx(expr)((LISTOP*)(expr))->op_first; o; o = OpSIBLING(o)(0 + (o)->op_moresib ? (o)->op_sibparent : ((void*)0))) { |
7608 | if (o->op_type == OP_CONST) |
7609 | n++; |
7610 | } |
7611 | |
7612 | /* fake up an SV array */ |
7613 | |
7614 | assert(!new_patternp)((!new_patternp) ? (void)0 : __assert2("re_comp.c", 7614, __func__ , "!new_patternp")); |
7615 | Newx(new_patternp, n, SV*)(new_patternp = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(n) || sizeof(SV*) > ((size_t)1 << 8*(sizeof (size_t) - sizeof(n)))) ? (size_t)(n) : ((size_t)-1)/sizeof(SV *)) > ((size_t)-1)/sizeof(SV*))) ? (_Bool)1 : (_Bool)0),(0 )) && (Perl_croak_memory_wrap(),0)), (SV**)(Perl_safesysmalloc ((size_t)((n)*sizeof(SV*)))))); |
7616 | SAVEFREEPV(new_patternp)Perl_save_pushptr( (void *)((char*)(new_patternp)),10); |
7617 | pat_count = n; |
7618 | |
7619 | n = 0; |
7620 | if (expr->op_type == OP_CONST) |
7621 | new_patternp[n] = cSVOPx_sv(expr)(((SVOP*)(expr))->op_sv); |
7622 | else |
7623 | for (o = cLISTOPx(expr)((LISTOP*)(expr))->op_first; o; o = OpSIBLING(o)(0 + (o)->op_moresib ? (o)->op_sibparent : ((void*)0))) { |
7624 | if (o->op_type == OP_CONST) |
7625 | new_patternp[n++] = cSVOPo_sv(((SVOP*)(o))->op_sv); |
7626 | } |
7627 | |
7628 | } |
7629 | |
7630 | DEBUG_PARSE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) Perl_re_printf ( "Assembling pattern from %d elements%s\n", pat_count, orig_rx_flags & (1U<<(0 +11)) ? " for split" : "");} while (0) |
7631 | "Assembling pattern from %d elements%s\n", pat_count,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) Perl_re_printf ( "Assembling pattern from %d elements%s\n", pat_count, orig_rx_flags & (1U<<(0 +11)) ? " for split" : "");} while (0) |
7632 | orig_rx_flags & RXf_SPLIT ? " for split" : ""))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) Perl_re_printf ( "Assembling pattern from %d elements%s\n", pat_count, orig_rx_flags & (1U<<(0 +11)) ? " for split" : "");} while (0); |
7633 | |
7634 | /* set expr to the first arg op */ |
7635 | |
7636 | if (pRExC_state->code_blocks && pRExC_state->code_blocks->count |
7637 | && expr->op_type != OP_CONST) |
7638 | { |
7639 | expr = cLISTOPx(expr)((LISTOP*)(expr))->op_first; |
7640 | assert( expr->op_type == OP_PUSHMARK((expr->op_type == OP_PUSHMARK || (expr->op_type == OP_NULL && expr->op_targ == OP_PUSHMARK) || expr->op_type == OP_PADRANGE) ? (void)0 : __assert2("re_comp.c", 7642, __func__ , "expr->op_type == OP_PUSHMARK || (expr->op_type == OP_NULL && expr->op_targ == OP_PUSHMARK) || expr->op_type == OP_PADRANGE" )) |
7641 | || (expr->op_type == OP_NULL && expr->op_targ == OP_PUSHMARK)((expr->op_type == OP_PUSHMARK || (expr->op_type == OP_NULL && expr->op_targ == OP_PUSHMARK) || expr->op_type == OP_PADRANGE) ? (void)0 : __assert2("re_comp.c", 7642, __func__ , "expr->op_type == OP_PUSHMARK || (expr->op_type == OP_NULL && expr->op_targ == OP_PUSHMARK) || expr->op_type == OP_PADRANGE" )) |
7642 | || expr->op_type == OP_PADRANGE)((expr->op_type == OP_PUSHMARK || (expr->op_type == OP_NULL && expr->op_targ == OP_PUSHMARK) || expr->op_type == OP_PADRANGE) ? (void)0 : __assert2("re_comp.c", 7642, __func__ , "expr->op_type == OP_PUSHMARK || (expr->op_type == OP_NULL && expr->op_targ == OP_PUSHMARK) || expr->op_type == OP_PADRANGE" )); |
7643 | expr = OpSIBLING(expr)(0 + (expr)->op_moresib ? (expr)->op_sibparent : ((void *)0)); |
7644 | } |
7645 | |
7646 | pat = S_concat_pat(aTHX_ pRExC_state, NULL((void*)0), new_patternp, pat_count, |
7647 | expr, &recompile, NULL((void*)0)); |
7648 | |
7649 | /* handle bare (possibly after overloading) regex: foo =~ $re */ |
7650 | { |
7651 | SV *re = pat; |
7652 | if (SvROK(re)((re)->sv_flags & 0x00000800)) |
7653 | re = SvRV(re)(*({ SV *const _svrv = ((SV *)({ void *_p = (re); _p; })); (( PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 7653, __func__ , "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]")); ((!((( (_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV)) ) ? (void)0 : __assert2("re_comp.c", 7653, __func__, "!isGV_with_GP(_svrv)" )); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 7653, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); })); |
7654 | if (SvTYPE(re)((svtype)((re)->sv_flags & 0xff)) == SVt_REGEXP) { |
7655 | if (is_bare_re) |
7656 | *is_bare_re = TRUE(1); |
7657 | SvREFCNT_inc(re)Perl_SvREFCNT_inc(((SV *)({ void *_p = (re); _p; }))); |
7658 | DEBUG_PARSE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) Perl_re_printf ( "Precompiled pattern%s\n", orig_rx_flags & (1U<<( 0 +11)) ? " for split" : "");} while (0) |
7659 | "Precompiled pattern%s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) Perl_re_printf ( "Precompiled pattern%s\n", orig_rx_flags & (1U<<( 0 +11)) ? " for split" : "");} while (0) |
7660 | orig_rx_flags & RXf_SPLIT ? " for split" : ""))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) Perl_re_printf ( "Precompiled pattern%s\n", orig_rx_flags & (1U<<( 0 +11)) ? " for split" : "");} while (0); |
7661 | |
7662 | return (REGEXP*)re; |
7663 | } |
7664 | } |
7665 | |
7666 | exp = SvPV_nomg(pat, plen)((((pat)->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((plen = (*({ const SV *const _svcur = (const SV *)(pat); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 7666, __func__ , "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]")); ((!( (((_svcur)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 7666, __func__, "!isGV_with_GP(_svcur)" )); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 7666, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))), (*({ SV *const _svpvx = ((SV *)({ void * _p = (pat); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c" , 7666, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7666, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 7666, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))) : Perl_sv_2pv_flags ( pat,&plen,0)); |
7667 | |
7668 | if (!eng->op_comp) { |
7669 | if ((SvUTF8(pat)((pat)->sv_flags & 0x20000000) && IN_BYTES__builtin_expect(((((PL_curcop)->cop_hints + 0) & 0x00000008 ) ? (_Bool)1 : (_Bool)0),(0))) |
7670 | || SvGMAGICAL(pat)((pat)->sv_flags & 0x00200000) || SvAMAGIC(pat)(((pat)->sv_flags & 0x00000800) && (((*({ SV * const _svrv = ((SV *)({ void *_p = (pat); _p; })); ((PL_valid_types_RV [((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 7670, __func__, "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]" )); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7670, __func__ , "!isGV_with_GP(_svrv)")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 7670, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); })))->sv_flags & 0x00100000 ) && (((*({ const SV *const _svstash = (const SV *)(( *({ SV *const _svrv = ((SV *)({ void *_p = (pat); _p; })); (( PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 7670, __func__ , "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]")); ((!((( (_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV)) ) ? (void)0 : __assert2("re_comp.c", 7670, __func__, "!isGV_with_GP(_svrv)" )); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 7670, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); }))); ((((svtype)((_svstash )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_comp.c", 7670, __func__, "SvTYPE(_svstash) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svstash)->sv_any); _p ; }))->xmg_stash); })))->sv_flags & 0x10000000))) |
7671 | { |
7672 | /* make a temporary copy; either to convert to bytes, |
7673 | * or to avoid repeating get-magic / overloaded stringify */ |
7674 | pat = newSVpvn_flags(exp, plen, SVs_TEMP |Perl_newSVpvn_flags( exp,plen,0x00080000 | (__builtin_expect( ((((PL_curcop)->cop_hints + 0) & 0x00000008) ? (_Bool) 1 : (_Bool)0),(0)) ? 0 : ((pat)->sv_flags & 0x20000000 ))) |
7675 | (IN_BYTES ? 0 : SvUTF8(pat)))Perl_newSVpvn_flags( exp,plen,0x00080000 | (__builtin_expect( ((((PL_curcop)->cop_hints + 0) & 0x00000008) ? (_Bool) 1 : (_Bool)0),(0)) ? 0 : ((pat)->sv_flags & 0x20000000 ))); |
7676 | } |
7677 | return CALLREGCOMP_ENG(eng, pat, orig_rx_flags)(eng)->comp( pat, orig_rx_flags); |
7678 | } |
7679 | |
7680 | /* ignore the utf8ness if the pattern is 0 length */ |
7681 | RExC_utf8(pRExC_state->utf8) = RExC_orig_utf8(pRExC_state->orig_utf8) = (plen == 0 || IN_BYTES__builtin_expect(((((PL_curcop)->cop_hints + 0) & 0x00000008 ) ? (_Bool)1 : (_Bool)0),(0))) ? 0 : SvUTF8(pat)((pat)->sv_flags & 0x20000000); |
7682 | RExC_uni_semantics(pRExC_state->uni_semantics) = 0; |
7683 | RExC_contains_locale(pRExC_state->contains_locale) = 0; |
7684 | RExC_strict(pRExC_state->strict) = cBOOL(pm_flags & RXf_PMf_STRICT)((pm_flags & (1U<<(0 +10))) ? (_Bool)1 : (_Bool)0); |
7685 | RExC_in_script_run(pRExC_state->in_script_run) = 0; |
7686 | RExC_study_started(pRExC_state->study_started) = 0; |
7687 | pRExC_state->runtime_code_qr = NULL((void*)0); |
7688 | RExC_frame_head(pRExC_state->frame_head)= NULL((void*)0); |
7689 | RExC_frame_last(pRExC_state->frame_last)= NULL((void*)0); |
7690 | RExC_frame_count(pRExC_state->frame_count)= 0; |
7691 | RExC_latest_warn_offset(pRExC_state->latest_warn_offset ) = 0; |
7692 | RExC_use_BRANCHJ(pRExC_state->use_BRANCHJ) = 0; |
7693 | RExC_warned_WARN_EXPERIMENTAL__VLB(pRExC_state->sWARN_EXPERIMENTAL__VLB) = 0; |
7694 | RExC_warned_WARN_EXPERIMENTAL__REGEX_SETS(pRExC_state->sWARN_EXPERIMENTAL__REGEX_SETS) = 0; |
7695 | RExC_total_parens(pRExC_state->total_par) = 0; |
7696 | RExC_open_parens(pRExC_state->open_parens) = NULL((void*)0); |
7697 | RExC_close_parens(pRExC_state->close_parens) = NULL((void*)0); |
7698 | RExC_paren_names(pRExC_state->paren_names) = NULL((void*)0); |
7699 | RExC_size(pRExC_state->size) = 0; |
7700 | RExC_seen_d_op(pRExC_state->seen_d_op) = FALSE(0); |
7701 | #ifdef DEBUGGING |
7702 | RExC_paren_name_list(pRExC_state->paren_name_list) = NULL((void*)0); |
7703 | #endif |
7704 | |
7705 | DEBUG_r({do {{ (pRExC_state->mysv1)= Perl_sv_newmortal(); (pRExC_state ->mysv2)= Perl_sv_newmortal(); };} while (0) |
7706 | RExC_mysv1= sv_newmortal();do {{ (pRExC_state->mysv1)= Perl_sv_newmortal(); (pRExC_state ->mysv2)= Perl_sv_newmortal(); };} while (0) |
7707 | RExC_mysv2= sv_newmortal();do {{ (pRExC_state->mysv1)= Perl_sv_newmortal(); (pRExC_state ->mysv2)= Perl_sv_newmortal(); };} while (0) |
7708 | })do {{ (pRExC_state->mysv1)= Perl_sv_newmortal(); (pRExC_state ->mysv2)= Perl_sv_newmortal(); };} while (0); |
7709 | |
7710 | DEBUG_COMPILE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { SV *dsv= Perl_sv_newmortal(); const char * const s = Perl_pv_pretty ( (dsv),(exp),(plen),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | (((pRExC_state ->utf8)) ? 0x000100 : 0))); Perl_re_printf( "%sCompiling REx%s %s\n" , PL_colors[4], PL_colors[5], s); };} while (0) |
7711 | SV *dsv= sv_newmortal();do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { SV *dsv= Perl_sv_newmortal(); const char * const s = Perl_pv_pretty ( (dsv),(exp),(plen),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | (((pRExC_state ->utf8)) ? 0x000100 : 0))); Perl_re_printf( "%sCompiling REx%s %s\n" , PL_colors[4], PL_colors[5], s); };} while (0) |
7712 | RE_PV_QUOTED_DECL(s, RExC_utf8, dsv, exp, plen, PL_dump_re_max_len);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { SV *dsv= Perl_sv_newmortal(); const char * const s = Perl_pv_pretty ( (dsv),(exp),(plen),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | (((pRExC_state ->utf8)) ? 0x000100 : 0))); Perl_re_printf( "%sCompiling REx%s %s\n" , PL_colors[4], PL_colors[5], s); };} while (0) |
7713 | Perl_re_printf( aTHX_ "%sCompiling REx%s %s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { SV *dsv= Perl_sv_newmortal(); const char * const s = Perl_pv_pretty ( (dsv),(exp),(plen),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | (((pRExC_state ->utf8)) ? 0x000100 : 0))); Perl_re_printf( "%sCompiling REx%s %s\n" , PL_colors[4], PL_colors[5], s); };} while (0) |
7714 | PL_colors[4], PL_colors[5], s);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { SV *dsv= Perl_sv_newmortal(); const char * const s = Perl_pv_pretty ( (dsv),(exp),(plen),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | (((pRExC_state ->utf8)) ? 0x000100 : 0))); Perl_re_printf( "%sCompiling REx%s %s\n" , PL_colors[4], PL_colors[5], s); };} while (0) |
7715 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { SV *dsv= Perl_sv_newmortal(); const char * const s = Perl_pv_pretty ( (dsv),(exp),(plen),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | (((pRExC_state ->utf8)) ? 0x000100 : 0))); Perl_re_printf( "%sCompiling REx%s %s\n" , PL_colors[4], PL_colors[5], s); };} while (0); |
7716 | |
7717 | /* we jump here if we have to recompile, e.g., from upgrading the pattern |
7718 | * to utf8 */ |
7719 | |
7720 | if ((pm_flags & PMf_USE_RE_EVAL(1U<<(((0 +12)+2)+16))) |
7721 | /* this second condition covers the non-regex literal case, |
7722 | * i.e. $foo =~ '(?{})'. */ |
7723 | || (IN_PERL_COMPILETIME((PL_curcop == &PL_compiling) ? (_Bool)1 : (_Bool)0) && (PL_hintsPL_compiling.cop_hints & HINT_RE_EVAL0x00200000)) |
7724 | ) |
7725 | runtime_code = S_has_runtime_code(aTHX_ pRExC_state, exp, plen); |
7726 | |
7727 | redo_parse: |
7728 | /* return old regex if pattern hasn't changed */ |
7729 | /* XXX: note in the below we have to check the flags as well as the |
7730 | * pattern. |
7731 | * |
7732 | * Things get a touch tricky as we have to compare the utf8 flag |
7733 | * independently from the compile flags. */ |
7734 | |
7735 | if ( old_re |
7736 | && !recompile |
7737 | && !!RX_UTF8(old_re)((old_re)->sv_flags & 0x20000000) == !!RExC_utf8(pRExC_state->utf8) |
7738 | && ( RX_COMPFLAGS(old_re)((Perl_ReANY((const REGEXP *)(old_re)))->compflags) == ( orig_rx_flags & RXf_PMf_FLAGCOPYMASK(((1U << (0 +0))|(1U << (0 +1))|(1U << (0 + 2))|(1U << (0 +3))|(1U << (0 +4))|(1U << (0 +6))|(1U << (0 +5))|(7U << (((0)+7)))|(1U<< (0 +10)))|(1U<<(0 +11))) ) ) |
7739 | && RX_PRECOMP(old_re)((*({ SV *const _svpvx = ((SV *)({ void *_p = (old_re); _p; } )); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 7739, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7739, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 7739, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) + Perl_ReANY((const REGEXP *)(old_re))->pre_prefix) |
7740 | && RX_PRELEN(old_re)((*({ const SV *const _svcur = (const SV *)(old_re); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 7740, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7740, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 7740, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - Perl_ReANY((const REGEXP *)(old_re))-> pre_prefix - 1) == plen |
7741 | && memEQ(RX_PRECOMP(old_re), exp, plen)(memcmp(((const void *) (((*({ SV *const _svpvx = ((SV *)({ void *_p = (old_re); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 7741, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7741, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 7741, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) + Perl_ReANY((const REGEXP *)(old_re))->pre_prefix))), ((const void *) (exp)), plen) == 0) |
7742 | && !runtime_code /* with runtime code, always recompile */ ) |
7743 | { |
7744 | DEBUG_COMPILE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { SV *dsv= Perl_sv_newmortal(); const char * const s = Perl_pv_pretty ( (dsv),(exp),(plen),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | (((pRExC_state ->utf8)) ? 0x000100 : 0))); Perl_re_printf( "%sSkipping recompilation of unchanged REx%s %s\n" , PL_colors[4], PL_colors[5], s); };} while (0) |
7745 | SV *dsv= sv_newmortal();do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { SV *dsv= Perl_sv_newmortal(); const char * const s = Perl_pv_pretty ( (dsv),(exp),(plen),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | (((pRExC_state ->utf8)) ? 0x000100 : 0))); Perl_re_printf( "%sSkipping recompilation of unchanged REx%s %s\n" , PL_colors[4], PL_colors[5], s); };} while (0) |
7746 | RE_PV_QUOTED_DECL(s, RExC_utf8, dsv, exp, plen, PL_dump_re_max_len);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { SV *dsv= Perl_sv_newmortal(); const char * const s = Perl_pv_pretty ( (dsv),(exp),(plen),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | (((pRExC_state ->utf8)) ? 0x000100 : 0))); Perl_re_printf( "%sSkipping recompilation of unchanged REx%s %s\n" , PL_colors[4], PL_colors[5], s); };} while (0) |
7747 | Perl_re_printf( aTHX_ "%sSkipping recompilation of unchanged REx%s %s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { SV *dsv= Perl_sv_newmortal(); const char * const s = Perl_pv_pretty ( (dsv),(exp),(plen),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | (((pRExC_state ->utf8)) ? 0x000100 : 0))); Perl_re_printf( "%sSkipping recompilation of unchanged REx%s %s\n" , PL_colors[4], PL_colors[5], s); };} while (0) |
7748 | PL_colors[4], PL_colors[5], s);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { SV *dsv= Perl_sv_newmortal(); const char * const s = Perl_pv_pretty ( (dsv),(exp),(plen),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | (((pRExC_state ->utf8)) ? 0x000100 : 0))); Perl_re_printf( "%sSkipping recompilation of unchanged REx%s %s\n" , PL_colors[4], PL_colors[5], s); };} while (0) |
7749 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { SV *dsv= Perl_sv_newmortal(); const char * const s = Perl_pv_pretty ( (dsv),(exp),(plen),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | (((pRExC_state ->utf8)) ? 0x000100 : 0))); Perl_re_printf( "%sSkipping recompilation of unchanged REx%s %s\n" , PL_colors[4], PL_colors[5], s); };} while (0); |
7750 | return old_re; |
7751 | } |
7752 | |
7753 | /* Allocate the pattern's SV */ |
7754 | RExC_rx_sv(pRExC_state->rx_sv) = Rx = (REGEXP*) newSV_type(SVt_REGEXP)Perl_newSV_type( SVt_REGEXP); |
7755 | RExC_rx(pRExC_state->rx) = ReANY(Rx)Perl_ReANY((const REGEXP *)(Rx)); |
7756 | if ( RExC_rx(pRExC_state->rx) == NULL((void*)0) ) |
7757 | FAIL("Regexp out of space")do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "%s in regex m/%" "d%" "lu" "%4p" "%s/", "Regexp out of space" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp )), ellipses); } while (0); |
7758 | |
7759 | rx_flags = orig_rx_flags; |
7760 | |
7761 | if ( toUSE_UNI_CHARSET_NOT_DEPENDS((pRExC_state->uni_semantics) || (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
7762 | && initial_charset == REGEX_DEPENDS_CHARSET) |
7763 | { |
7764 | |
7765 | /* Set to use unicode semantics if the pattern is in utf8 and has the |
7766 | * 'depends' charset specified, as it means unicode when utf8 */ |
7767 | set_regex_charset(&rx_flags, REGEX_UNICODE_CHARSET); |
7768 | RExC_uni_semantics(pRExC_state->uni_semantics) = 1; |
7769 | } |
7770 | |
7771 | RExC_pm_flags(pRExC_state->pm_flags) = pm_flags; |
7772 | |
7773 | if (runtime_code) { |
7774 | assert(TAINTING_get || !TAINT_get)(((((__builtin_expect(((PL_tainting) ? (_Bool)1 : (_Bool)0),( 0))) ? (_Bool)1 : (_Bool)0)) || !(((__builtin_expect(((PL_tainted ) ? (_Bool)1 : (_Bool)0),(0))) ? (_Bool)1 : (_Bool)0))) ? (void )0 : __assert2("re_comp.c", 7774, __func__, "TAINTING_get || !TAINT_get" )); |
7775 | if (TAINT_get(((__builtin_expect(((PL_tainted) ? (_Bool)1 : (_Bool)0),(0)) ) ? (_Bool)1 : (_Bool)0))) |
7776 | Perl_croak(aTHX_ "Eval-group in insecure regular expression"); |
7777 | |
7778 | if (!S_compile_runtime_code(aTHX_ pRExC_state, exp, plen)) { |
7779 | /* whoops, we have a non-utf8 pattern, whilst run-time code |
7780 | * got compiled as utf8. Try again with a utf8 pattern */ |
7781 | S_pat_upgrade_to_utf8(aTHX_ pRExC_state, &exp, &plen, |
7782 | pRExC_state->code_blocks ? pRExC_state->code_blocks->count : 0); |
7783 | goto redo_parse; |
7784 | } |
7785 | } |
7786 | assert(!pRExC_state->runtime_code_qr)((!pRExC_state->runtime_code_qr) ? (void)0 : __assert2("re_comp.c" , 7786, __func__, "!pRExC_state->runtime_code_qr")); |
7787 | |
7788 | RExC_sawback(pRExC_state->sawback) = 0; |
7789 | |
7790 | RExC_seen(pRExC_state->seen) = 0; |
7791 | RExC_maxlen(pRExC_state->maxlen) = 0; |
7792 | RExC_in_lookaround(pRExC_state->in_lookaround) = 0; |
7793 | RExC_seen_zerolen(pRExC_state->seen_zerolen) = *exp == '^' ? -1 : 0; |
7794 | RExC_recode_x_to_native(pRExC_state->recode_x_to_native) = 0; |
7795 | RExC_in_multi_char_class(pRExC_state->in_multi_char_class) = 0; |
7796 | |
7797 | RExC_start(pRExC_state->start) = RExC_copy_start_in_constructed(pRExC_state->copy_start) = RExC_copy_start_in_input(pRExC_state->copy_start_in_input) = RExC_precomp(pRExC_state->precomp) = exp; |
7798 | RExC_precomp_end(pRExC_state->precomp_end) = RExC_end(pRExC_state->end) = exp + plen; |
7799 | RExC_nestroot(pRExC_state->nestroot) = 0; |
7800 | RExC_whilem_seen(pRExC_state->whilem_seen) = 0; |
7801 | RExC_end_op(pRExC_state->end_op) = NULL((void*)0); |
7802 | RExC_recurse(pRExC_state->recurse) = NULL((void*)0); |
7803 | RExC_study_chunk_recursed(pRExC_state->study_chunk_recursed) = NULL((void*)0); |
7804 | RExC_study_chunk_recursed_bytes(pRExC_state->study_chunk_recursed_bytes)= 0; |
7805 | RExC_recurse_count(pRExC_state->recurse_count) = 0; |
7806 | RExC_sets_depth(pRExC_state->sets_depth) = 0; |
7807 | pRExC_state->code_index = 0; |
7808 | |
7809 | /* Initialize the string in the compiled pattern. This is so that there is |
7810 | * something to output if necessary */ |
7811 | set_regex_pv(pRExC_state, Rx)S_set_regex_pv( pRExC_state,Rx); |
7812 | |
7813 | DEBUG_PARSE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { Perl_re_printf ( "Starting parse and generation\n"); (pRExC_state->lastnum )=0; (pRExC_state->lastparse)=((void*)0); };} while (0) |
7814 | Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { Perl_re_printf ( "Starting parse and generation\n"); (pRExC_state->lastnum )=0; (pRExC_state->lastparse)=((void*)0); };} while (0) |
7815 | "Starting parse and generation\n");do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { Perl_re_printf ( "Starting parse and generation\n"); (pRExC_state->lastnum )=0; (pRExC_state->lastparse)=((void*)0); };} while (0) |
7816 | RExC_lastnum=0;do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { Perl_re_printf ( "Starting parse and generation\n"); (pRExC_state->lastnum )=0; (pRExC_state->lastparse)=((void*)0); };} while (0) |
7817 | RExC_lastparse=NULL;do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { Perl_re_printf ( "Starting parse and generation\n"); (pRExC_state->lastnum )=0; (pRExC_state->lastparse)=((void*)0); };} while (0) |
7818 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { Perl_re_printf ( "Starting parse and generation\n"); (pRExC_state->lastnum )=0; (pRExC_state->lastparse)=((void*)0); };} while (0); |
7819 | |
7820 | /* Allocate space and zero-initialize. Note, the two step process |
7821 | of zeroing when in debug mode, thus anything assigned has to |
7822 | happen after that */ |
7823 | if (! RExC_size(pRExC_state->size)) { |
7824 | |
7825 | /* On the first pass of the parse, we guess how big this will be. Then |
7826 | * we grow in one operation to that amount and then give it back. As |
7827 | * we go along, we re-allocate what we need. |
7828 | * |
7829 | * XXX Currently the guess is essentially that the pattern will be an |
7830 | * EXACT node with one byte input, one byte output. This is crude, and |
7831 | * better heuristics are welcome. |
7832 | * |
7833 | * On any subsequent passes, we guess what we actually computed in the |
7834 | * latest earlier pass. Such a pass probably didn't complete so is |
7835 | * missing stuff. We could improve those guesses by knowing where the |
7836 | * parse stopped, and use the length so far plus apply the above |
7837 | * assumption to what's left. */ |
7838 | RExC_size(pRExC_state->size) = STR_SZ(RExC_end - RExC_start)((((pRExC_state->end) - (pRExC_state->start)) + sizeof( regnode) - 1) / sizeof(regnode)); |
7839 | } |
7840 | |
7841 | Newxc(RExC_rxi, sizeof(regexp_internal) + RExC_size, char, regexp_internal)((pRExC_state->rxi) = ((void)(__builtin_expect(((((( sizeof (size_t) < sizeof(sizeof(regexp_internal) + (pRExC_state-> size)) || sizeof(char) > ((size_t)1 << 8*(sizeof(size_t ) - sizeof(sizeof(regexp_internal) + (pRExC_state->size))) )) ? (size_t)(sizeof(regexp_internal) + (pRExC_state->size )) : ((size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof(char ))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (regexp_internal*)(Perl_safesysmalloc((size_t)((sizeof (regexp_internal) + (pRExC_state->size))*sizeof(char)))))); |
7842 | if ( RExC_rxi(pRExC_state->rxi) == NULL((void*)0) ) |
7843 | FAIL("Regexp out of space")do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "%s in regex m/%" "d%" "lu" "%4p" "%s/", "Regexp out of space" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp )), ellipses); } while (0); |
7844 | |
7845 | Zero(RExC_rxi, sizeof(regexp_internal) + RExC_size, char)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(sizeof (regexp_internal) + (pRExC_state->size)) || sizeof(char) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(sizeof(regexp_internal ) + (pRExC_state->size))))) ? (size_t)(sizeof(regexp_internal ) + (pRExC_state->size)) : ((size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof(char))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), ((((void*)((pRExC_state->rxi ))) != 0) ? (void)0 : __assert2("re_comp.c", 7845, __func__, "((void*)((pRExC_state->rxi))) != 0" )), (void)memset((char*)((pRExC_state->rxi)),0,(sizeof(regexp_internal ) + (pRExC_state->size)) * sizeof(char))); |
7846 | RXi_SET( RExC_rx, RExC_rxi )((pRExC_state->rx))->pprivate = (void*)((pRExC_state-> rxi)); |
7847 | |
7848 | /* We start from 0 (over from 0 in the case this is a reparse. The first |
7849 | * node parsed will give back any excess memory we have allocated so far). |
7850 | * */ |
7851 | RExC_size(pRExC_state->size) = 0; |
7852 | |
7853 | /* non-zero initialization begins here */ |
7854 | RExC_rx(pRExC_state->rx)->engine= eng; |
7855 | RExC_rx(pRExC_state->rx)->extflags = rx_flags; |
7856 | RXp_COMPFLAGS(RExC_rx)(((pRExC_state->rx))->compflags) = orig_rx_flags & RXf_PMf_FLAGCOPYMASK(((1U << (0 +0))|(1U << (0 +1))|(1U << (0 + 2))|(1U << (0 +3))|(1U << (0 +4))|(1U << (0 +6))|(1U << (0 +5))|(7U << (((0)+7)))|(1U<< (0 +10)))|(1U<<(0 +11))); |
7857 | |
7858 | if (pm_flags & PMf_IS_QR(1U<<(((0 +12)+2)+15))) { |
7859 | RExC_rxi(pRExC_state->rxi)->code_blocks = pRExC_state->code_blocks; |
7860 | if (RExC_rxi(pRExC_state->rxi)->code_blocks) { |
7861 | RExC_rxi(pRExC_state->rxi)->code_blocks->refcnt++; |
7862 | } |
7863 | } |
7864 | |
7865 | RExC_rx(pRExC_state->rx)->intflags = 0; |
7866 | |
7867 | RExC_flags(pRExC_state->flags) = rx_flags; /* don't let top level (?i) bleed */ |
7868 | RExC_parse(pRExC_state->parse) = exp; |
7869 | |
7870 | /* This NUL is guaranteed because the pattern comes from an SV*, and the sv |
7871 | * code makes sure the final byte is an uncounted NUL. But should this |
7872 | * ever not be the case, lots of things could read beyond the end of the |
7873 | * buffer: loops like |
7874 | * while(isFOO(*RExC_parse)) RExC_parse++; |
7875 | * strchr(RExC_parse, "foo"); |
7876 | * etc. So it is worth noting. */ |
7877 | assert(*RExC_end == '\0')((*(pRExC_state->end) == '\0') ? (void)0 : __assert2("re_comp.c" , 7877, __func__, "*RExC_end == '\\0'")); |
7878 | |
7879 | RExC_naughty(pRExC_state->naughty) = 0; |
7880 | RExC_npar(pRExC_state->npar) = 1; |
7881 | RExC_parens_buf_size(pRExC_state->parens_buf_size) = 0; |
7882 | RExC_emit_start(pRExC_state->emit_start) = RExC_rxi(pRExC_state->rxi)->program; |
7883 | pRExC_state->code_index = 0; |
7884 | |
7885 | *((char*) RExC_emit_start(pRExC_state->emit_start)) = (char) REG_MAGIC0234; |
7886 | RExC_emit(pRExC_state->emit) = 1; |
7887 | |
7888 | /* Do the parse */ |
7889 | if (reg(pRExC_state, 0, &flags, 1)S_reg( pRExC_state,0,&flags,1)) { |
7890 | |
7891 | /* Success!, But we may need to redo the parse knowing how many parens |
7892 | * there actually are */ |
7893 | if (IN_PARENS_PASS((pRExC_state->total_par) < 0)) { |
7894 | flags |= RESTART_PARSE0x20; |
7895 | } |
7896 | |
7897 | /* We have that number in RExC_npar */ |
7898 | RExC_total_parens(pRExC_state->total_par) = RExC_npar(pRExC_state->npar); |
7899 | |
7900 | /* XXX For backporting, use long jumps if there is any possibility of |
7901 | * overflow */ |
7902 | if (RExC_size(pRExC_state->size) > U16_MAX0xffff && ! RExC_use_BRANCHJ(pRExC_state->use_BRANCHJ)) { |
7903 | RExC_use_BRANCHJ(pRExC_state->use_BRANCHJ) = TRUE(1); |
7904 | flags |= RESTART_PARSE0x20; |
7905 | } |
7906 | } |
7907 | else if (! MUST_RESTART(flags)((flags) & (0x20))) { |
7908 | ReREFCNT_dec(Rx)({ REGEXP *const _rerefcnt_dec = (Rx); Perl_SvREFCNT_dec( ((SV *)({ void *_p = (_rerefcnt_dec); _p; }))); }); |
7909 | Perl_croak(aTHX_ "panic: reg returned failure to re_op_compile, flags=%#" UVxf"lx", (UV) flags); |
7910 | } |
7911 | |
7912 | /* Here, we either have success, or we have to redo the parse for some reason */ |
7913 | if (MUST_RESTART(flags)((flags) & (0x20))) { |
7914 | |
7915 | /* It's possible to write a regexp in ascii that represents Unicode |
7916 | codepoints outside of the byte range, such as via \x{100}. If we |
7917 | detect such a sequence we have to convert the entire pattern to utf8 |
7918 | and then recompile, as our sizing calculation will have been based |
7919 | on 1 byte == 1 character, but we will need to use utf8 to encode |
7920 | at least some part of the pattern, and therefore must convert the whole |
7921 | thing. |
7922 | -- dmq */ |
7923 | if (flags & NEED_UTF80x40) { |
7924 | |
7925 | /* We have stored the offset of the final warning output so far. |
7926 | * That must be adjusted. Any variant characters between the start |
7927 | * of the pattern and this warning count for 2 bytes in the final, |
7928 | * so just add them again */ |
7929 | if (UNLIKELY(RExC_latest_warn_offset > 0)__builtin_expect((((pRExC_state->latest_warn_offset ) > 0) ? (_Bool)1 : (_Bool)0),(0))) { |
7930 | RExC_latest_warn_offset(pRExC_state->latest_warn_offset ) += |
7931 | variant_under_utf8_countS_variant_under_utf8_count((U8 *) exp, (U8 *) exp |
7932 | + RExC_latest_warn_offset(pRExC_state->latest_warn_offset )); |
7933 | } |
7934 | S_pat_upgrade_to_utf8(aTHX_ pRExC_state, &exp, &plen, |
7935 | pRExC_state->code_blocks ? pRExC_state->code_blocks->count : 0); |
7936 | DEBUG_PARSE_r(Perl_re_printf( aTHX_ "Need to redo parse after upgrade\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) Perl_re_printf ( "Need to redo parse after upgrade\n");} while (0); |
7937 | } |
7938 | else { |
7939 | DEBUG_PARSE_r(Perl_re_printf( aTHX_ "Need to redo parse\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) Perl_re_printf ( "Need to redo parse\n");} while (0); |
7940 | } |
7941 | |
7942 | if (ALL_PARENS_COUNTED((pRExC_state->total_par) > 0)) { |
7943 | /* Make enough room for all the known parens, and zero it */ |
7944 | Renew(RExC_open_parens, RExC_total_parens, regnode_offset)((pRExC_state->open_parens) = ((void)(__builtin_expect(((( (( sizeof(size_t) < sizeof((pRExC_state->total_par)) || sizeof(regnode_offset) > ((size_t)1 << 8*(sizeof(size_t ) - sizeof((pRExC_state->total_par))))) ? (size_t)((pRExC_state ->total_par)) : ((size_t)-1)/sizeof(regnode_offset)) > ( (size_t)-1)/sizeof(regnode_offset))) ? (_Bool)1 : (_Bool)0),( 0)) && (Perl_croak_memory_wrap(),0)), (regnode_offset *)(Perl_safesysrealloc((void *)((pRExC_state->open_parens) ),(size_t)(((pRExC_state->total_par))*sizeof(regnode_offset )))))); |
7945 | Zero(RExC_open_parens, RExC_total_parens, regnode_offset)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof((pRExC_state ->total_par)) || sizeof(regnode_offset) > ((size_t)1 << 8*(sizeof(size_t) - sizeof((pRExC_state->total_par))))) ? (size_t)((pRExC_state->total_par)) : ((size_t)-1)/sizeof( regnode_offset)) > ((size_t)-1)/sizeof(regnode_offset))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)((pRExC_state->open_parens))) != 0) ? (void )0 : __assert2("re_comp.c", 7945, __func__, "((void*)((pRExC_state->open_parens))) != 0" )), (void)memset((char*)((pRExC_state->open_parens)),0,((pRExC_state ->total_par)) * sizeof(regnode_offset))); |
7946 | RExC_open_parens(pRExC_state->open_parens)[0] = 1; /* +1 for REG_MAGIC */ |
7947 | |
7948 | Renew(RExC_close_parens, RExC_total_parens, regnode_offset)((pRExC_state->close_parens) = ((void)(__builtin_expect((( ((( sizeof(size_t) < sizeof((pRExC_state->total_par)) || sizeof(regnode_offset) > ((size_t)1 << 8*(sizeof(size_t ) - sizeof((pRExC_state->total_par))))) ? (size_t)((pRExC_state ->total_par)) : ((size_t)-1)/sizeof(regnode_offset)) > ( (size_t)-1)/sizeof(regnode_offset))) ? (_Bool)1 : (_Bool)0),( 0)) && (Perl_croak_memory_wrap(),0)), (regnode_offset *)(Perl_safesysrealloc((void *)((pRExC_state->close_parens )),(size_t)(((pRExC_state->total_par))*sizeof(regnode_offset )))))); |
7949 | Zero(RExC_close_parens, RExC_total_parens, regnode_offset)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof((pRExC_state ->total_par)) || sizeof(regnode_offset) > ((size_t)1 << 8*(sizeof(size_t) - sizeof((pRExC_state->total_par))))) ? (size_t)((pRExC_state->total_par)) : ((size_t)-1)/sizeof( regnode_offset)) > ((size_t)-1)/sizeof(regnode_offset))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)((pRExC_state->close_parens))) != 0) ? ( void)0 : __assert2("re_comp.c", 7949, __func__, "((void*)((pRExC_state->close_parens))) != 0" )), (void)memset((char*)((pRExC_state->close_parens)),0,(( pRExC_state->total_par)) * sizeof(regnode_offset))); |
7950 | } |
7951 | else { /* Parse did not complete. Reinitialize the parentheses |
7952 | structures */ |
7953 | RExC_total_parens(pRExC_state->total_par) = 0; |
7954 | if (RExC_open_parens(pRExC_state->open_parens)) { |
7955 | Safefree(RExC_open_parens)Perl_safesysfree(((void *)((pRExC_state->open_parens)))); |
7956 | RExC_open_parens(pRExC_state->open_parens) = NULL((void*)0); |
7957 | } |
7958 | if (RExC_close_parens(pRExC_state->close_parens)) { |
7959 | Safefree(RExC_close_parens)Perl_safesysfree(((void *)((pRExC_state->close_parens)))); |
7960 | RExC_close_parens(pRExC_state->close_parens) = NULL((void*)0); |
7961 | } |
7962 | } |
7963 | |
7964 | /* Clean up what we did in this parse */ |
7965 | SvREFCNT_dec_NN(RExC_rx_sv)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = ((pRExC_state-> rx_sv)); _p; }))); |
7966 | |
7967 | goto redo_parse; |
7968 | } |
7969 | |
7970 | /* Here, we have successfully parsed and generated the pattern's program |
7971 | * for the regex engine. We are ready to finish things up and look for |
7972 | * optimizations. */ |
7973 | |
7974 | /* Update the string to compile, with correct modifiers, etc */ |
7975 | set_regex_pv(pRExC_state, Rx)S_set_regex_pv( pRExC_state,Rx); |
7976 | |
7977 | RExC_rx(pRExC_state->rx)->nparens = RExC_total_parens(pRExC_state->total_par) - 1; |
7978 | |
7979 | /* Uses the upper 4 bits of the FLAGS field, so keep within that size */ |
7980 | if (RExC_whilem_seen(pRExC_state->whilem_seen) > 15) |
7981 | RExC_whilem_seen(pRExC_state->whilem_seen) = 15; |
7982 | |
7983 | DEBUG_PARSE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { Perl_re_printf ( "Required size %" "ld" " nodes\n", (IV)(pRExC_state->size )); (pRExC_state->lastnum)=0; (pRExC_state->lastparse)= ((void*)0); };} while (0) |
7984 | Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { Perl_re_printf ( "Required size %" "ld" " nodes\n", (IV)(pRExC_state->size )); (pRExC_state->lastnum)=0; (pRExC_state->lastparse)= ((void*)0); };} while (0) |
7985 | "Required size %" IVdf " nodes\n", (IV)RExC_size);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { Perl_re_printf ( "Required size %" "ld" " nodes\n", (IV)(pRExC_state->size )); (pRExC_state->lastnum)=0; (pRExC_state->lastparse)= ((void*)0); };} while (0) |
7986 | RExC_lastnum=0;do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { Perl_re_printf ( "Required size %" "ld" " nodes\n", (IV)(pRExC_state->size )); (pRExC_state->lastnum)=0; (pRExC_state->lastparse)= ((void*)0); };} while (0) |
7987 | RExC_lastparse=NULL;do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { Perl_re_printf ( "Required size %" "ld" " nodes\n", (IV)(pRExC_state->size )); (pRExC_state->lastnum)=0; (pRExC_state->lastparse)= ((void*)0); };} while (0) |
7988 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { Perl_re_printf ( "Required size %" "ld" " nodes\n", (IV)(pRExC_state->size )); (pRExC_state->lastnum)=0; (pRExC_state->lastparse)= ((void*)0); };} while (0); |
7989 | |
7990 | #ifdef RE_TRACK_PATTERN_OFFSETS |
7991 | DEBUG_OFFSETS_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0020000))) Perl_re_printf ( "%s %" "lu" " bytes for offset annotations.\n", ((pRExC_state ->rxi)->u.offsets) ? "Got" : "Couldn't get", (UV)((((pRExC_state ->rxi)->u.offsets)[0] * 2 + 1)));} while (0) |
7992 | "%s %" UVuf " bytes for offset annotations.\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0020000))) Perl_re_printf ( "%s %" "lu" " bytes for offset annotations.\n", ((pRExC_state ->rxi)->u.offsets) ? "Got" : "Couldn't get", (UV)((((pRExC_state ->rxi)->u.offsets)[0] * 2 + 1)));} while (0) |
7993 | RExC_offsets ? "Got" : "Couldn't get",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0020000))) Perl_re_printf ( "%s %" "lu" " bytes for offset annotations.\n", ((pRExC_state ->rxi)->u.offsets) ? "Got" : "Couldn't get", (UV)((((pRExC_state ->rxi)->u.offsets)[0] * 2 + 1)));} while (0) |
7994 | (UV)((RExC_offsets[0] * 2 + 1))))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0020000))) Perl_re_printf ( "%s %" "lu" " bytes for offset annotations.\n", ((pRExC_state ->rxi)->u.offsets) ? "Got" : "Couldn't get", (UV)((((pRExC_state ->rxi)->u.offsets)[0] * 2 + 1)));} while (0); |
7995 | DEBUG_OFFSETS_r(if (RExC_offsets) {do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0020000))) if (((pRExC_state->rxi)->u.offsets)) { const STRLEN len = ((pRExC_state->rxi)->u.offsets)[0]; STRLEN i; volatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags)); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void*)0); if (re_debug_flags_sv ) { if (!((re_debug_flags_sv)->sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv,0x000008 | 0x00FF00); re_debug_flags =((((re_debug_flags_sv)->sv_flags & (0x00000100|0x00200000 )) == 0x00000100) ? (*({ const SV *const _svivx = (const SV * )(re_debug_flags_sv); ((PL_valid_types_IVX[((svtype)((_svivx) ->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 7998, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7998, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( re_debug_flags_sv,2)); } } while (0); Perl_re_printf( "Offsets: [%" "lu" "]\n\t", (UV)((pRExC_state->rxi)->u.offsets)[0]); for (i = 1; i <= len; i++) { if (((pRExC_state->rxi)-> u.offsets)[i*2-1] || ((pRExC_state->rxi)->u.offsets)[i* 2]) Perl_re_printf( "%" "lu" ":%" "lu" "[%" "lu" "] ", (UV)i, (UV)((pRExC_state->rxi)->u.offsets)[i*2-1], (UV)((pRExC_state ->rxi)->u.offsets)[i*2]); } Perl_re_printf( "\n"); };} while (0) |
7996 | const STRLEN len = RExC_offsets[0];do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0020000))) if (((pRExC_state->rxi)->u.offsets)) { const STRLEN len = ((pRExC_state->rxi)->u.offsets)[0]; STRLEN i; volatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags)); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void*)0); if (re_debug_flags_sv ) { if (!((re_debug_flags_sv)->sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv,0x000008 | 0x00FF00); re_debug_flags =((((re_debug_flags_sv)->sv_flags & (0x00000100|0x00200000 )) == 0x00000100) ? (*({ const SV *const _svivx = (const SV * )(re_debug_flags_sv); ((PL_valid_types_IVX[((svtype)((_svivx) ->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 7998, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7998, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( re_debug_flags_sv,2)); } } while (0); Perl_re_printf( "Offsets: [%" "lu" "]\n\t", (UV)((pRExC_state->rxi)->u.offsets)[0]); for (i = 1; i <= len; i++) { if (((pRExC_state->rxi)-> u.offsets)[i*2-1] || ((pRExC_state->rxi)->u.offsets)[i* 2]) Perl_re_printf( "%" "lu" ":%" "lu" "[%" "lu" "] ", (UV)i, (UV)((pRExC_state->rxi)->u.offsets)[i*2-1], (UV)((pRExC_state ->rxi)->u.offsets)[i*2]); } Perl_re_printf( "\n"); };} while (0) |
7997 | STRLEN i;do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0020000))) if (((pRExC_state->rxi)->u.offsets)) { const STRLEN len = ((pRExC_state->rxi)->u.offsets)[0]; STRLEN i; volatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags)); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void*)0); if (re_debug_flags_sv ) { if (!((re_debug_flags_sv)->sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv,0x000008 | 0x00FF00); re_debug_flags =((((re_debug_flags_sv)->sv_flags & (0x00000100|0x00200000 )) == 0x00000100) ? (*({ const SV *const _svivx = (const SV * )(re_debug_flags_sv); ((PL_valid_types_IVX[((svtype)((_svivx) ->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 7998, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7998, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( re_debug_flags_sv,2)); } } while (0); Perl_re_printf( "Offsets: [%" "lu" "]\n\t", (UV)((pRExC_state->rxi)->u.offsets)[0]); for (i = 1; i <= len; i++) { if (((pRExC_state->rxi)-> u.offsets)[i*2-1] || ((pRExC_state->rxi)->u.offsets)[i* 2]) Perl_re_printf( "%" "lu" ":%" "lu" "[%" "lu" "] ", (UV)i, (UV)((pRExC_state->rxi)->u.offsets)[i*2-1], (UV)((pRExC_state ->rxi)->u.offsets)[i*2]); } Perl_re_printf( "\n"); };} while (0) |
7998 | DECLARE_AND_GET_RE_DEBUG_FLAGS;do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0020000))) if (((pRExC_state->rxi)->u.offsets)) { const STRLEN len = ((pRExC_state->rxi)->u.offsets)[0]; STRLEN i; volatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags)); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void*)0); if (re_debug_flags_sv ) { if (!((re_debug_flags_sv)->sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv,0x000008 | 0x00FF00); re_debug_flags =((((re_debug_flags_sv)->sv_flags & (0x00000100|0x00200000 )) == 0x00000100) ? (*({ const SV *const _svivx = (const SV * )(re_debug_flags_sv); ((PL_valid_types_IVX[((svtype)((_svivx) ->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 7998, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7998, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( re_debug_flags_sv,2)); } } while (0); Perl_re_printf( "Offsets: [%" "lu" "]\n\t", (UV)((pRExC_state->rxi)->u.offsets)[0]); for (i = 1; i <= len; i++) { if (((pRExC_state->rxi)-> u.offsets)[i*2-1] || ((pRExC_state->rxi)->u.offsets)[i* 2]) Perl_re_printf( "%" "lu" ":%" "lu" "[%" "lu" "] ", (UV)i, (UV)((pRExC_state->rxi)->u.offsets)[i*2-1], (UV)((pRExC_state ->rxi)->u.offsets)[i*2]); } Perl_re_printf( "\n"); };} while (0) |
7999 | Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0020000))) if (((pRExC_state->rxi)->u.offsets)) { const STRLEN len = ((pRExC_state->rxi)->u.offsets)[0]; STRLEN i; volatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags)); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void*)0); if (re_debug_flags_sv ) { if (!((re_debug_flags_sv)->sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv,0x000008 | 0x00FF00); re_debug_flags =((((re_debug_flags_sv)->sv_flags & (0x00000100|0x00200000 )) == 0x00000100) ? (*({ const SV *const _svivx = (const SV * )(re_debug_flags_sv); ((PL_valid_types_IVX[((svtype)((_svivx) ->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 7998, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7998, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( re_debug_flags_sv,2)); } } while (0); Perl_re_printf( "Offsets: [%" "lu" "]\n\t", (UV)((pRExC_state->rxi)->u.offsets)[0]); for (i = 1; i <= len; i++) { if (((pRExC_state->rxi)-> u.offsets)[i*2-1] || ((pRExC_state->rxi)->u.offsets)[i* 2]) Perl_re_printf( "%" "lu" ":%" "lu" "[%" "lu" "] ", (UV)i, (UV)((pRExC_state->rxi)->u.offsets)[i*2-1], (UV)((pRExC_state ->rxi)->u.offsets)[i*2]); } Perl_re_printf( "\n"); };} while (0) |
8000 | "Offsets: [%" UVuf "]\n\t", (UV)RExC_offsets[0]);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0020000))) if (((pRExC_state->rxi)->u.offsets)) { const STRLEN len = ((pRExC_state->rxi)->u.offsets)[0]; STRLEN i; volatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags)); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void*)0); if (re_debug_flags_sv ) { if (!((re_debug_flags_sv)->sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv,0x000008 | 0x00FF00); re_debug_flags =((((re_debug_flags_sv)->sv_flags & (0x00000100|0x00200000 )) == 0x00000100) ? (*({ const SV *const _svivx = (const SV * )(re_debug_flags_sv); ((PL_valid_types_IVX[((svtype)((_svivx) ->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 7998, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7998, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( re_debug_flags_sv,2)); } } while (0); Perl_re_printf( "Offsets: [%" "lu" "]\n\t", (UV)((pRExC_state->rxi)->u.offsets)[0]); for (i = 1; i <= len; i++) { if (((pRExC_state->rxi)-> u.offsets)[i*2-1] || ((pRExC_state->rxi)->u.offsets)[i* 2]) Perl_re_printf( "%" "lu" ":%" "lu" "[%" "lu" "] ", (UV)i, (UV)((pRExC_state->rxi)->u.offsets)[i*2-1], (UV)((pRExC_state ->rxi)->u.offsets)[i*2]); } Perl_re_printf( "\n"); };} while (0) |
8001 | for (i = 1; i <= len; i++) {do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0020000))) if (((pRExC_state->rxi)->u.offsets)) { const STRLEN len = ((pRExC_state->rxi)->u.offsets)[0]; STRLEN i; volatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags)); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void*)0); if (re_debug_flags_sv ) { if (!((re_debug_flags_sv)->sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv,0x000008 | 0x00FF00); re_debug_flags =((((re_debug_flags_sv)->sv_flags & (0x00000100|0x00200000 )) == 0x00000100) ? (*({ const SV *const _svivx = (const SV * )(re_debug_flags_sv); ((PL_valid_types_IVX[((svtype)((_svivx) ->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 7998, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7998, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( re_debug_flags_sv,2)); } } while (0); Perl_re_printf( "Offsets: [%" "lu" "]\n\t", (UV)((pRExC_state->rxi)->u.offsets)[0]); for (i = 1; i <= len; i++) { if (((pRExC_state->rxi)-> u.offsets)[i*2-1] || ((pRExC_state->rxi)->u.offsets)[i* 2]) Perl_re_printf( "%" "lu" ":%" "lu" "[%" "lu" "] ", (UV)i, (UV)((pRExC_state->rxi)->u.offsets)[i*2-1], (UV)((pRExC_state ->rxi)->u.offsets)[i*2]); } Perl_re_printf( "\n"); };} while (0) |
8002 | if (RExC_offsets[i*2-1] || RExC_offsets[i*2])do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0020000))) if (((pRExC_state->rxi)->u.offsets)) { const STRLEN len = ((pRExC_state->rxi)->u.offsets)[0]; STRLEN i; volatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags)); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void*)0); if (re_debug_flags_sv ) { if (!((re_debug_flags_sv)->sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv,0x000008 | 0x00FF00); re_debug_flags =((((re_debug_flags_sv)->sv_flags & (0x00000100|0x00200000 )) == 0x00000100) ? (*({ const SV *const _svivx = (const SV * )(re_debug_flags_sv); ((PL_valid_types_IVX[((svtype)((_svivx) ->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 7998, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7998, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( re_debug_flags_sv,2)); } } while (0); Perl_re_printf( "Offsets: [%" "lu" "]\n\t", (UV)((pRExC_state->rxi)->u.offsets)[0]); for (i = 1; i <= len; i++) { if (((pRExC_state->rxi)-> u.offsets)[i*2-1] || ((pRExC_state->rxi)->u.offsets)[i* 2]) Perl_re_printf( "%" "lu" ":%" "lu" "[%" "lu" "] ", (UV)i, (UV)((pRExC_state->rxi)->u.offsets)[i*2-1], (UV)((pRExC_state ->rxi)->u.offsets)[i*2]); } Perl_re_printf( "\n"); };} while (0) |
8003 | Perl_re_printf( aTHX_ "%" UVuf ":%" UVuf "[%" UVuf "] ",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0020000))) if (((pRExC_state->rxi)->u.offsets)) { const STRLEN len = ((pRExC_state->rxi)->u.offsets)[0]; STRLEN i; volatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags)); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void*)0); if (re_debug_flags_sv ) { if (!((re_debug_flags_sv)->sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv,0x000008 | 0x00FF00); re_debug_flags =((((re_debug_flags_sv)->sv_flags & (0x00000100|0x00200000 )) == 0x00000100) ? (*({ const SV *const _svivx = (const SV * )(re_debug_flags_sv); ((PL_valid_types_IVX[((svtype)((_svivx) ->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 7998, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7998, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( re_debug_flags_sv,2)); } } while (0); Perl_re_printf( "Offsets: [%" "lu" "]\n\t", (UV)((pRExC_state->rxi)->u.offsets)[0]); for (i = 1; i <= len; i++) { if (((pRExC_state->rxi)-> u.offsets)[i*2-1] || ((pRExC_state->rxi)->u.offsets)[i* 2]) Perl_re_printf( "%" "lu" ":%" "lu" "[%" "lu" "] ", (UV)i, (UV)((pRExC_state->rxi)->u.offsets)[i*2-1], (UV)((pRExC_state ->rxi)->u.offsets)[i*2]); } Perl_re_printf( "\n"); };} while (0) |
8004 | (UV)i, (UV)RExC_offsets[i*2-1], (UV)RExC_offsets[i*2]);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0020000))) if (((pRExC_state->rxi)->u.offsets)) { const STRLEN len = ((pRExC_state->rxi)->u.offsets)[0]; STRLEN i; volatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags)); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void*)0); if (re_debug_flags_sv ) { if (!((re_debug_flags_sv)->sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv,0x000008 | 0x00FF00); re_debug_flags =((((re_debug_flags_sv)->sv_flags & (0x00000100|0x00200000 )) == 0x00000100) ? (*({ const SV *const _svivx = (const SV * )(re_debug_flags_sv); ((PL_valid_types_IVX[((svtype)((_svivx) ->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 7998, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7998, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( re_debug_flags_sv,2)); } } while (0); Perl_re_printf( "Offsets: [%" "lu" "]\n\t", (UV)((pRExC_state->rxi)->u.offsets)[0]); for (i = 1; i <= len; i++) { if (((pRExC_state->rxi)-> u.offsets)[i*2-1] || ((pRExC_state->rxi)->u.offsets)[i* 2]) Perl_re_printf( "%" "lu" ":%" "lu" "[%" "lu" "] ", (UV)i, (UV)((pRExC_state->rxi)->u.offsets)[i*2-1], (UV)((pRExC_state ->rxi)->u.offsets)[i*2]); } Perl_re_printf( "\n"); };} while (0) |
8005 | }do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0020000))) if (((pRExC_state->rxi)->u.offsets)) { const STRLEN len = ((pRExC_state->rxi)->u.offsets)[0]; STRLEN i; volatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags)); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void*)0); if (re_debug_flags_sv ) { if (!((re_debug_flags_sv)->sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv,0x000008 | 0x00FF00); re_debug_flags =((((re_debug_flags_sv)->sv_flags & (0x00000100|0x00200000 )) == 0x00000100) ? (*({ const SV *const _svivx = (const SV * )(re_debug_flags_sv); ((PL_valid_types_IVX[((svtype)((_svivx) ->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 7998, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7998, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( re_debug_flags_sv,2)); } } while (0); Perl_re_printf( "Offsets: [%" "lu" "]\n\t", (UV)((pRExC_state->rxi)->u.offsets)[0]); for (i = 1; i <= len; i++) { if (((pRExC_state->rxi)-> u.offsets)[i*2-1] || ((pRExC_state->rxi)->u.offsets)[i* 2]) Perl_re_printf( "%" "lu" ":%" "lu" "[%" "lu" "] ", (UV)i, (UV)((pRExC_state->rxi)->u.offsets)[i*2-1], (UV)((pRExC_state ->rxi)->u.offsets)[i*2]); } Perl_re_printf( "\n"); };} while (0) |
8006 | Perl_re_printf( aTHX_ "\n");do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0020000))) if (((pRExC_state->rxi)->u.offsets)) { const STRLEN len = ((pRExC_state->rxi)->u.offsets)[0]; STRLEN i; volatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags)); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void*)0); if (re_debug_flags_sv ) { if (!((re_debug_flags_sv)->sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv,0x000008 | 0x00FF00); re_debug_flags =((((re_debug_flags_sv)->sv_flags & (0x00000100|0x00200000 )) == 0x00000100) ? (*({ const SV *const _svivx = (const SV * )(re_debug_flags_sv); ((PL_valid_types_IVX[((svtype)((_svivx) ->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 7998, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7998, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( re_debug_flags_sv,2)); } } while (0); Perl_re_printf( "Offsets: [%" "lu" "]\n\t", (UV)((pRExC_state->rxi)->u.offsets)[0]); for (i = 1; i <= len; i++) { if (((pRExC_state->rxi)-> u.offsets)[i*2-1] || ((pRExC_state->rxi)->u.offsets)[i* 2]) Perl_re_printf( "%" "lu" ":%" "lu" "[%" "lu" "] ", (UV)i, (UV)((pRExC_state->rxi)->u.offsets)[i*2-1], (UV)((pRExC_state ->rxi)->u.offsets)[i*2]); } Perl_re_printf( "\n"); };} while (0) |
8007 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0020000))) if (((pRExC_state->rxi)->u.offsets)) { const STRLEN len = ((pRExC_state->rxi)->u.offsets)[0]; STRLEN i; volatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags)); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void*)0); if (re_debug_flags_sv ) { if (!((re_debug_flags_sv)->sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv,0x000008 | 0x00FF00); re_debug_flags =((((re_debug_flags_sv)->sv_flags & (0x00000100|0x00200000 )) == 0x00000100) ? (*({ const SV *const _svivx = (const SV * )(re_debug_flags_sv); ((PL_valid_types_IVX[((svtype)((_svivx) ->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 7998, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 7998, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( re_debug_flags_sv,2)); } } while (0); Perl_re_printf( "Offsets: [%" "lu" "]\n\t", (UV)((pRExC_state->rxi)->u.offsets)[0]); for (i = 1; i <= len; i++) { if (((pRExC_state->rxi)-> u.offsets)[i*2-1] || ((pRExC_state->rxi)->u.offsets)[i* 2]) Perl_re_printf( "%" "lu" ":%" "lu" "[%" "lu" "] ", (UV)i, (UV)((pRExC_state->rxi)->u.offsets)[i*2-1], (UV)((pRExC_state ->rxi)->u.offsets)[i*2]); } Perl_re_printf( "\n"); };} while (0); |
8008 | |
8009 | #else |
8010 | SetProgLen(RExC_rxi,RExC_size)(pRExC_state->rxi)->u.offsets[0] = (pRExC_state->size ); |
8011 | #endif |
8012 | |
8013 | DEBUG_DUMP_PRE_OPTIMIZE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x1000000))) { SV * const sv = Perl_sv_newmortal(); regexp_internal *ri = ((regexp_internal *)(((pRExC_state->rx))->pprivate)); do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( (0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002 )))) { Perl_re_printf( "RExC_seen: "); if ((pRExC_state->seen ) & 0x00000001) Perl_re_printf( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002) Perl_re_printf( "REG_LOOKBEHIND_SEEN " ); if ((pRExC_state->seen) & 0x00000004) Perl_re_printf ( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020 ) Perl_re_printf( "REG_RECURSE_SEEN "); if ((pRExC_state-> seen) & 0x00000040) Perl_re_printf( "REG_TOP_LEVEL_BRANCHES_SEEN " ); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf ( "REG_VERBARG_SEEN "); if ((pRExC_state->seen) & 0x00000100 ) Perl_re_printf( "REG_CUTGROUP_SEEN "); if ((pRExC_state-> seen) & 0x00000200) Perl_re_printf( "REG_RUN_ON_COMMENT_SEEN " ); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf ( "REG_UNFOLDED_MULTI_SEEN "); if ((pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0);; Perl_re_printf( "Program before optimization:\n" ); (void)S_dumpuntil( (pRExC_state->rx),ri->program,ri-> program + 1,((void*)0),((void*)0),sv,0,0); };} while (0) |
8014 | SV * const sv = sv_newmortal();do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x1000000))) { SV * const sv = Perl_sv_newmortal(); regexp_internal *ri = ((regexp_internal *)(((pRExC_state->rx))->pprivate)); do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( (0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002 )))) { Perl_re_printf( "RExC_seen: "); if ((pRExC_state->seen ) & 0x00000001) Perl_re_printf( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002) Perl_re_printf( "REG_LOOKBEHIND_SEEN " ); if ((pRExC_state->seen) & 0x00000004) Perl_re_printf ( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020 ) Perl_re_printf( "REG_RECURSE_SEEN "); if ((pRExC_state-> seen) & 0x00000040) Perl_re_printf( "REG_TOP_LEVEL_BRANCHES_SEEN " ); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf ( "REG_VERBARG_SEEN "); if ((pRExC_state->seen) & 0x00000100 ) Perl_re_printf( "REG_CUTGROUP_SEEN "); if ((pRExC_state-> seen) & 0x00000200) Perl_re_printf( "REG_RUN_ON_COMMENT_SEEN " ); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf ( "REG_UNFOLDED_MULTI_SEEN "); if ((pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0);; Perl_re_printf( "Program before optimization:\n" ); (void)S_dumpuntil( (pRExC_state->rx),ri->program,ri-> program + 1,((void*)0),((void*)0),sv,0,0); };} while (0) |
8015 | RXi_GET_DECL(RExC_rx, ri);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x1000000))) { SV * const sv = Perl_sv_newmortal(); regexp_internal *ri = ((regexp_internal *)(((pRExC_state->rx))->pprivate)); do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( (0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002 )))) { Perl_re_printf( "RExC_seen: "); if ((pRExC_state->seen ) & 0x00000001) Perl_re_printf( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002) Perl_re_printf( "REG_LOOKBEHIND_SEEN " ); if ((pRExC_state->seen) & 0x00000004) Perl_re_printf ( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020 ) Perl_re_printf( "REG_RECURSE_SEEN "); if ((pRExC_state-> seen) & 0x00000040) Perl_re_printf( "REG_TOP_LEVEL_BRANCHES_SEEN " ); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf ( "REG_VERBARG_SEEN "); if ((pRExC_state->seen) & 0x00000100 ) Perl_re_printf( "REG_CUTGROUP_SEEN "); if ((pRExC_state-> seen) & 0x00000200) Perl_re_printf( "REG_RUN_ON_COMMENT_SEEN " ); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf ( "REG_UNFOLDED_MULTI_SEEN "); if ((pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0);; Perl_re_printf( "Program before optimization:\n" ); (void)S_dumpuntil( (pRExC_state->rx),ri->program,ri-> program + 1,((void*)0),((void*)0),sv,0,0); };} while (0) |
8016 | DEBUG_RExC_seen();do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x1000000))) { SV * const sv = Perl_sv_newmortal(); regexp_internal *ri = ((regexp_internal *)(((pRExC_state->rx))->pprivate)); do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( (0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002 )))) { Perl_re_printf( "RExC_seen: "); if ((pRExC_state->seen ) & 0x00000001) Perl_re_printf( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002) Perl_re_printf( "REG_LOOKBEHIND_SEEN " ); if ((pRExC_state->seen) & 0x00000004) Perl_re_printf ( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020 ) Perl_re_printf( "REG_RECURSE_SEEN "); if ((pRExC_state-> seen) & 0x00000040) Perl_re_printf( "REG_TOP_LEVEL_BRANCHES_SEEN " ); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf ( "REG_VERBARG_SEEN "); if ((pRExC_state->seen) & 0x00000100 ) Perl_re_printf( "REG_CUTGROUP_SEEN "); if ((pRExC_state-> seen) & 0x00000200) Perl_re_printf( "REG_RUN_ON_COMMENT_SEEN " ); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf ( "REG_UNFOLDED_MULTI_SEEN "); if ((pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0);; Perl_re_printf( "Program before optimization:\n" ); (void)S_dumpuntil( (pRExC_state->rx),ri->program,ri-> program + 1,((void*)0),((void*)0),sv,0,0); };} while (0) |
8017 | Perl_re_printf( aTHX_ "Program before optimization:\n");do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x1000000))) { SV * const sv = Perl_sv_newmortal(); regexp_internal *ri = ((regexp_internal *)(((pRExC_state->rx))->pprivate)); do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( (0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002 )))) { Perl_re_printf( "RExC_seen: "); if ((pRExC_state->seen ) & 0x00000001) Perl_re_printf( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002) Perl_re_printf( "REG_LOOKBEHIND_SEEN " ); if ((pRExC_state->seen) & 0x00000004) Perl_re_printf ( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020 ) Perl_re_printf( "REG_RECURSE_SEEN "); if ((pRExC_state-> seen) & 0x00000040) Perl_re_printf( "REG_TOP_LEVEL_BRANCHES_SEEN " ); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf ( "REG_VERBARG_SEEN "); if ((pRExC_state->seen) & 0x00000100 ) Perl_re_printf( "REG_CUTGROUP_SEEN "); if ((pRExC_state-> seen) & 0x00000200) Perl_re_printf( "REG_RUN_ON_COMMENT_SEEN " ); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf ( "REG_UNFOLDED_MULTI_SEEN "); if ((pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0);; Perl_re_printf( "Program before optimization:\n" ); (void)S_dumpuntil( (pRExC_state->rx),ri->program,ri-> program + 1,((void*)0),((void*)0),sv,0,0); };} while (0) |
8018 | |
8019 | (void)dumpuntil(RExC_rx, ri->program, ri->program + 1, NULL, NULL,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x1000000))) { SV * const sv = Perl_sv_newmortal(); regexp_internal *ri = ((regexp_internal *)(((pRExC_state->rx))->pprivate)); do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( (0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002 )))) { Perl_re_printf( "RExC_seen: "); if ((pRExC_state->seen ) & 0x00000001) Perl_re_printf( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002) Perl_re_printf( "REG_LOOKBEHIND_SEEN " ); if ((pRExC_state->seen) & 0x00000004) Perl_re_printf ( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020 ) Perl_re_printf( "REG_RECURSE_SEEN "); if ((pRExC_state-> seen) & 0x00000040) Perl_re_printf( "REG_TOP_LEVEL_BRANCHES_SEEN " ); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf ( "REG_VERBARG_SEEN "); if ((pRExC_state->seen) & 0x00000100 ) Perl_re_printf( "REG_CUTGROUP_SEEN "); if ((pRExC_state-> seen) & 0x00000200) Perl_re_printf( "REG_RUN_ON_COMMENT_SEEN " ); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf ( "REG_UNFOLDED_MULTI_SEEN "); if ((pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0);; Perl_re_printf( "Program before optimization:\n" ); (void)S_dumpuntil( (pRExC_state->rx),ri->program,ri-> program + 1,((void*)0),((void*)0),sv,0,0); };} while (0) |
8020 | sv, 0, 0);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x1000000))) { SV * const sv = Perl_sv_newmortal(); regexp_internal *ri = ((regexp_internal *)(((pRExC_state->rx))->pprivate)); do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( (0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002 )))) { Perl_re_printf( "RExC_seen: "); if ((pRExC_state->seen ) & 0x00000001) Perl_re_printf( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002) Perl_re_printf( "REG_LOOKBEHIND_SEEN " ); if ((pRExC_state->seen) & 0x00000004) Perl_re_printf ( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020 ) Perl_re_printf( "REG_RECURSE_SEEN "); if ((pRExC_state-> seen) & 0x00000040) Perl_re_printf( "REG_TOP_LEVEL_BRANCHES_SEEN " ); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf ( "REG_VERBARG_SEEN "); if ((pRExC_state->seen) & 0x00000100 ) Perl_re_printf( "REG_CUTGROUP_SEEN "); if ((pRExC_state-> seen) & 0x00000200) Perl_re_printf( "REG_RUN_ON_COMMENT_SEEN " ); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf ( "REG_UNFOLDED_MULTI_SEEN "); if ((pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0);; Perl_re_printf( "Program before optimization:\n" ); (void)S_dumpuntil( (pRExC_state->rx),ri->program,ri-> program + 1,((void*)0),((void*)0),sv,0,0); };} while (0) |
8021 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x1000000))) { SV * const sv = Perl_sv_newmortal(); regexp_internal *ri = ((regexp_internal *)(((pRExC_state->rx))->pprivate)); do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( (0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002 )))) { Perl_re_printf( "RExC_seen: "); if ((pRExC_state->seen ) & 0x00000001) Perl_re_printf( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002) Perl_re_printf( "REG_LOOKBEHIND_SEEN " ); if ((pRExC_state->seen) & 0x00000004) Perl_re_printf ( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020 ) Perl_re_printf( "REG_RECURSE_SEEN "); if ((pRExC_state-> seen) & 0x00000040) Perl_re_printf( "REG_TOP_LEVEL_BRANCHES_SEEN " ); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf ( "REG_VERBARG_SEEN "); if ((pRExC_state->seen) & 0x00000100 ) Perl_re_printf( "REG_CUTGROUP_SEEN "); if ((pRExC_state-> seen) & 0x00000200) Perl_re_printf( "REG_RUN_ON_COMMENT_SEEN " ); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf ( "REG_UNFOLDED_MULTI_SEEN "); if ((pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0);; Perl_re_printf( "Program before optimization:\n" ); (void)S_dumpuntil( (pRExC_state->rx),ri->program,ri-> program + 1,((void*)0),((void*)0),sv,0,0); };} while (0); |
8022 | |
8023 | DEBUG_OPTIMISE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_printf ( "Starting post parse optimization\n");;} while (0) |
8024 | Perl_re_printf( aTHX_ "Starting post parse optimization\n");do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_printf ( "Starting post parse optimization\n");;} while (0) |
8025 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_printf ( "Starting post parse optimization\n");;} while (0); |
8026 | |
8027 | /* XXXX To minimize changes to RE engine we always allocate |
8028 | 3-units-long substrs field. */ |
8029 | Newx(RExC_rx->substrs, 1, struct reg_substr_data)((pRExC_state->rx)->substrs = ((void)(__builtin_expect( ((((( sizeof(size_t) < sizeof(1) || sizeof(struct reg_substr_data ) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(1)))) ? (size_t)(1) : ((size_t)-1)/sizeof(struct reg_substr_data)) > ((size_t)-1)/sizeof(struct reg_substr_data))) ? (_Bool)1 : ( _Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), (struct reg_substr_data*)(Perl_safesysmalloc((size_t)((1)*sizeof(struct reg_substr_data)))))); |
8030 | if (RExC_recurse_count(pRExC_state->recurse_count)) { |
8031 | Newx(RExC_recurse, RExC_recurse_count, regnode *)((pRExC_state->recurse) = ((void)(__builtin_expect(((((( sizeof (size_t) < sizeof((pRExC_state->recurse_count)) || sizeof (regnode *) > ((size_t)1 << 8*(sizeof(size_t) - sizeof ((pRExC_state->recurse_count))))) ? (size_t)((pRExC_state-> recurse_count)) : ((size_t)-1)/sizeof(regnode *)) > ((size_t )-1)/sizeof(regnode *))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), (regnode **)(Perl_safesysmalloc ((size_t)(((pRExC_state->recurse_count))*sizeof(regnode *) ))))); |
8032 | SAVEFREEPV(RExC_recurse)Perl_save_pushptr( (void *)((char*)((pRExC_state->recurse) )),10); |
8033 | } |
8034 | |
8035 | if (RExC_seen(pRExC_state->seen) & REG_RECURSE_SEEN0x00000020) { |
8036 | /* Note, RExC_total_parens is 1 + the number of parens in a pattern. |
8037 | * So its 1 if there are no parens. */ |
8038 | RExC_study_chunk_recursed_bytes(pRExC_state->study_chunk_recursed_bytes)= (RExC_total_parens(pRExC_state->total_par) >> 3) + |
8039 | ((RExC_total_parens(pRExC_state->total_par) & 0x07) != 0); |
8040 | Newx(RExC_study_chunk_recursed,((pRExC_state->study_chunk_recursed) = ((void)(__builtin_expect (((((( sizeof(size_t) < sizeof((pRExC_state->study_chunk_recursed_bytes ) * (pRExC_state->total_par)) || sizeof(U8) > ((size_t) 1 << 8*(sizeof(size_t) - sizeof((pRExC_state->study_chunk_recursed_bytes ) * (pRExC_state->total_par))))) ? (size_t)((pRExC_state-> study_chunk_recursed_bytes) * (pRExC_state->total_par)) : ( (size_t)-1)/sizeof(U8)) > ((size_t)-1)/sizeof(U8))) ? (_Bool )1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), (U8*)(Perl_safesysmalloc((size_t)(((pRExC_state->study_chunk_recursed_bytes ) * (pRExC_state->total_par))*sizeof(U8)))))) |
8041 | RExC_study_chunk_recursed_bytes * RExC_total_parens, U8)((pRExC_state->study_chunk_recursed) = ((void)(__builtin_expect (((((( sizeof(size_t) < sizeof((pRExC_state->study_chunk_recursed_bytes ) * (pRExC_state->total_par)) || sizeof(U8) > ((size_t) 1 << 8*(sizeof(size_t) - sizeof((pRExC_state->study_chunk_recursed_bytes ) * (pRExC_state->total_par))))) ? (size_t)((pRExC_state-> study_chunk_recursed_bytes) * (pRExC_state->total_par)) : ( (size_t)-1)/sizeof(U8)) > ((size_t)-1)/sizeof(U8))) ? (_Bool )1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), (U8*)(Perl_safesysmalloc((size_t)(((pRExC_state->study_chunk_recursed_bytes ) * (pRExC_state->total_par))*sizeof(U8)))))); |
8042 | SAVEFREEPV(RExC_study_chunk_recursed)Perl_save_pushptr( (void *)((char*)((pRExC_state->study_chunk_recursed ))),10); |
8043 | } |
8044 | |
8045 | reStudy: |
8046 | RExC_rx(pRExC_state->rx)->minlen = minlen = sawlookahead = sawplus = sawopen = sawminmod = 0; |
8047 | DEBUG_r(do {(pRExC_state->study_chunk_recursed_count)= 0;;} while ( 0) |
8048 | RExC_study_chunk_recursed_count= 0;do {(pRExC_state->study_chunk_recursed_count)= 0;;} while ( 0) |
8049 | )do {(pRExC_state->study_chunk_recursed_count)= 0;;} while ( 0); |
8050 | Zero(RExC_rx->substrs, 1, struct reg_substr_data)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(1) || sizeof(struct reg_substr_data) > ((size_t)1 << 8*(sizeof (size_t) - sizeof(1)))) ? (size_t)(1) : ((size_t)-1)/sizeof(struct reg_substr_data)) > ((size_t)-1)/sizeof(struct reg_substr_data ))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)((pRExC_state->rx)->substrs)) != 0) ? (void)0 : __assert2("re_comp.c", 8050, __func__, "((void*)((pRExC_state->rx)->substrs)) != 0" )), (void)memset((char*)((pRExC_state->rx)->substrs),0, (1) * sizeof(struct reg_substr_data))); |
8051 | if (RExC_study_chunk_recursed(pRExC_state->study_chunk_recursed)) { |
8052 | Zero(RExC_study_chunk_recursed,((void)(__builtin_expect(((((( sizeof(size_t) < sizeof((pRExC_state ->study_chunk_recursed_bytes) * (pRExC_state->total_par )) || sizeof(U8) > ((size_t)1 << 8*(sizeof(size_t) - sizeof((pRExC_state->study_chunk_recursed_bytes) * (pRExC_state ->total_par))))) ? (size_t)((pRExC_state->study_chunk_recursed_bytes ) * (pRExC_state->total_par)) : ((size_t)-1)/sizeof(U8)) > ((size_t)-1)/sizeof(U8))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), ((((void*)((pRExC_state->study_chunk_recursed ))) != 0) ? (void)0 : __assert2("re_comp.c", 8053, __func__, "((void*)((pRExC_state->study_chunk_recursed))) != 0" )), (void)memset((char*)((pRExC_state->study_chunk_recursed )),0,((pRExC_state->study_chunk_recursed_bytes) * (pRExC_state ->total_par)) * sizeof(U8))) |
8053 | RExC_study_chunk_recursed_bytes * RExC_total_parens, U8)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof((pRExC_state ->study_chunk_recursed_bytes) * (pRExC_state->total_par )) || sizeof(U8) > ((size_t)1 << 8*(sizeof(size_t) - sizeof((pRExC_state->study_chunk_recursed_bytes) * (pRExC_state ->total_par))))) ? (size_t)((pRExC_state->study_chunk_recursed_bytes ) * (pRExC_state->total_par)) : ((size_t)-1)/sizeof(U8)) > ((size_t)-1)/sizeof(U8))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), ((((void*)((pRExC_state->study_chunk_recursed ))) != 0) ? (void)0 : __assert2("re_comp.c", 8053, __func__, "((void*)((pRExC_state->study_chunk_recursed))) != 0" )), (void)memset((char*)((pRExC_state->study_chunk_recursed )),0,((pRExC_state->study_chunk_recursed_bytes) * (pRExC_state ->total_par)) * sizeof(U8))); |
8054 | } |
8055 | |
8056 | |
8057 | #ifdef TRIE_STUDY_OPT |
8058 | if (!restudied) { |
8059 | StructCopy(&zero_scan_data, &data, scan_data_t)(*((scan_data_t*)(&data)) = *((scan_data_t*)(&zero_scan_data ))); |
8060 | copyRExC_state = RExC_state; |
8061 | } else { |
8062 | U32 seen=RExC_seen(pRExC_state->seen); |
8063 | DEBUG_OPTIMISE_r(Perl_re_printf( aTHX_ "Restudying\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_printf ( "Restudying\n");} while (0); |
8064 | |
8065 | RExC_state = copyRExC_state; |
8066 | if (seen & REG_TOP_LEVEL_BRANCHES_SEEN0x00000040) |
8067 | RExC_seen(pRExC_state->seen) |= REG_TOP_LEVEL_BRANCHES_SEEN0x00000040; |
8068 | else |
8069 | RExC_seen(pRExC_state->seen) &= ~REG_TOP_LEVEL_BRANCHES_SEEN0x00000040; |
8070 | StructCopy(&zero_scan_data, &data, scan_data_t)(*((scan_data_t*)(&data)) = *((scan_data_t*)(&zero_scan_data ))); |
8071 | } |
8072 | #else |
8073 | StructCopy(&zero_scan_data, &data, scan_data_t)(*((scan_data_t*)(&data)) = *((scan_data_t*)(&zero_scan_data ))); |
8074 | #endif |
8075 | |
8076 | /* Dig out information for optimizations. */ |
8077 | RExC_rx(pRExC_state->rx)->extflags = RExC_flags(pRExC_state->flags); /* was pm_op */ |
8078 | /*dmq: removed as part of de-PMOP: pm->op_pmflags = RExC_flags; */ |
8079 | |
8080 | if (UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
8081 | SvUTF8_on(Rx)((Rx)->sv_flags |= (0x20000000)); /* Unicode in it? */ |
8082 | RExC_rxi(pRExC_state->rxi)->regstclass = NULL((void*)0); |
8083 | if (RExC_naughty(pRExC_state->naughty) >= TOO_NAUGHTY(10)) /* Probably an expensive pattern. */ |
8084 | RExC_rx(pRExC_state->rx)->intflags |= PREGf_NAUGHTY0x00000004; |
8085 | scan = RExC_rxi(pRExC_state->rxi)->program + 1; /* First BRANCH. */ |
8086 | |
8087 | /* testing for BRANCH here tells us whether there is "must appear" |
8088 | data in the pattern. If there is then we can use it for optimisations */ |
8089 | if (!(RExC_seen(pRExC_state->seen) & REG_TOP_LEVEL_BRANCHES_SEEN0x00000040)) { /* Only one top-level choice. |
8090 | */ |
8091 | SSize_tssize_t fake; |
8092 | STRLEN longest_length[2]; |
8093 | regnode_ssc ch_class; /* pointed to by data */ |
8094 | int stclass_flag; |
8095 | SSize_tssize_t last_close = 0; /* pointed to by data */ |
8096 | regnode *first= scan; |
8097 | regnode *first_next= regnext(first)Perl_regnext( first); |
8098 | int i; |
8099 | |
8100 | /* |
8101 | * Skip introductions and multiplicators >= 1 |
8102 | * so that we can extract the 'meat' of the pattern that must |
8103 | * match in the large if() sequence following. |
8104 | * NOTE that EXACT is NOT covered here, as it is normally |
8105 | * picked up by the optimiser separately. |
8106 | * |
8107 | * This is unfortunate as the optimiser isnt handling lookahead |
8108 | * properly currently. |
8109 | * |
8110 | */ |
8111 | while ((OP(first)((first)->type) == OPEN63 && (sawopen = 1)) || |
8112 | /* An OR of *one* alternative - should not happen now. */ |
8113 | (OP(first)((first)->type) == BRANCH39 && OP(first_next)((first_next)->type) != BRANCH39) || |
8114 | /* for now we can't handle lookbehind IFMATCH*/ |
8115 | (OP(first)((first)->type) == IFMATCH79 && !first->flags && (sawlookahead = 1)) || |
8116 | (OP(first)((first)->type) == PLUS57) || |
8117 | (OP(first)((first)->type) == MINMOD85) || |
8118 | /* An {n,m} with n>0 */ |
8119 | (PL_regkind[OP(first)((first)->type)] == CURLY58 && ARG1(first)((((struct regnode_2 *)first)->arg1)) > 0) || |
8120 | (OP(first)((first)->type) == NOTHING54 && PL_regkind[OP(first_next)((first_next)->type)] != END0 )) |
8121 | { |
8122 | /* |
8123 | * the only op that could be a regnode is PLUS, all the rest |
8124 | * will be regnode_1 or regnode_2. |
8125 | * |
8126 | * (yves doesn't think this is true) |
8127 | */ |
8128 | if (OP(first)((first)->type) == PLUS57) |
8129 | sawplus = 1; |
8130 | else { |
8131 | if (OP(first)((first)->type) == MINMOD85) |
8132 | sawminmod = 1; |
8133 | first += regarglen[OP(first)((first)->type)]; |
8134 | } |
8135 | first = NEXTOPER(first)((first) + 1); |
8136 | first_next= regnext(first)Perl_regnext( first); |
8137 | } |
8138 | |
8139 | /* Starting-point info. */ |
8140 | again: |
8141 | DEBUG_PEEP("first:", first, 0, 0)S_debug_peep( "first:", pRExC_state, first, 0, 0); |
8142 | /* Ignore EXACT as we deal with it later. */ |
8143 | if (PL_regkind[OP(first)((first)->type)] == EXACT40) { |
8144 | if ( OP(first)((first)->type) == EXACT40 |
8145 | || OP(first)((first)->type) == LEXACT41 |
8146 | || OP(first)((first)->type) == EXACT_REQ850 |
8147 | || OP(first)((first)->type) == LEXACT_REQ851 |
8148 | || OP(first)((first)->type) == EXACTL42) |
8149 | { |
8150 | NOOP(void)0; /* Empty, get anchored substr later. */ |
8151 | } |
8152 | else |
8153 | RExC_rxi(pRExC_state->rxi)->regstclass = first; |
8154 | } |
8155 | #ifdef TRIE_STCLASS |
8156 | else if (PL_regkind[OP(first)((first)->type)] == TRIE88 && |
8157 | ((reg_trie_data *)RExC_rxi(pRExC_state->rxi)->data->data[ ARG(first)((((struct regnode_1 *)first)->arg1)) ])->minlen>0) |
8158 | { |
8159 | /* this can happen only on restudy */ |
8160 | RExC_rxi(pRExC_state->rxi)->regstclass = construct_ahocorasick_from_trie(pRExC_state, (regnode *)first, 0)S_construct_ahocorasick_from_trie( pRExC_state,(regnode *)first ,0); |
8161 | } |
8162 | #endif |
8163 | else if (REGNODE_SIMPLE(OP(first))(PL_simple_bitmask[(((first)->type)) >> 3] & (1 << ((((first)->type)) & 7)))) |
8164 | RExC_rxi(pRExC_state->rxi)->regstclass = first; |
8165 | else if (PL_regkind[OP(first)((first)->type)] == BOUND8 || |
8166 | PL_regkind[OP(first)((first)->type)] == NBOUND12) |
8167 | RExC_rxi(pRExC_state->rxi)->regstclass = first; |
8168 | else if (PL_regkind[OP(first)((first)->type)] == BOL2) { |
8169 | RExC_rx(pRExC_state->rx)->intflags |= (OP(first)((first)->type) == MBOL3 |
8170 | ? PREGf_ANCH_MBOL0x00000400 |
8171 | : PREGf_ANCH_SBOL0x00000800); |
8172 | first = NEXTOPER(first)((first) + 1); |
8173 | goto again; |
8174 | } |
8175 | else if (OP(first)((first)->type) == GPOS7) { |
8176 | RExC_rx(pRExC_state->rx)->intflags |= PREGf_ANCH_GPOS0x00001000; |
8177 | first = NEXTOPER(first)((first) + 1); |
8178 | goto again; |
8179 | } |
8180 | else if ((!sawopen || !RExC_sawback(pRExC_state->sawback)) && |
8181 | !sawlookahead && |
8182 | (OP(first)((first)->type) == STAR56 && |
8183 | PL_regkind[OP(NEXTOPER(first))((((first) + 1))->type)] == REG_ANY16) && |
8184 | !(RExC_rx(pRExC_state->rx)->intflags & PREGf_ANCH( 0x00000800 | 0x00001000 | 0x00000400 )) && !pRExC_state->code_blocks) |
8185 | { |
8186 | /* turn .* into ^.* with an implied $*=1 */ |
8187 | const int type = |
8188 | (OP(NEXTOPER(first))((((first) + 1))->type) == REG_ANY16) |
8189 | ? PREGf_ANCH_MBOL0x00000400 |
8190 | : PREGf_ANCH_SBOL0x00000800; |
8191 | RExC_rx(pRExC_state->rx)->intflags |= (type | PREGf_IMPLICIT0x00000002); |
8192 | first = NEXTOPER(first)((first) + 1); |
8193 | goto again; |
8194 | } |
8195 | if (sawplus && !sawminmod && !sawlookahead |
8196 | && (!sawopen || !RExC_sawback(pRExC_state->sawback)) |
8197 | && !pRExC_state->code_blocks) /* May examine pos and $& */ |
8198 | /* x+ must match at the 1st pos of run of x's */ |
8199 | RExC_rx(pRExC_state->rx)->intflags |= PREGf_SKIP0x00000001; |
8200 | |
8201 | /* Scan is after the zeroth branch, first is atomic matcher. */ |
8202 | #ifdef TRIE_STUDY_OPT |
8203 | DEBUG_PARSE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) if ( !restudied) Perl_re_printf( "first at %" "ld" "\n", (IV)(first - scan + 1));} while (0) |
8204 | if (!restudied)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) if ( !restudied) Perl_re_printf( "first at %" "ld" "\n", (IV)(first - scan + 1));} while (0) |
8205 | Perl_re_printf( aTHX_ "first at %" IVdf "\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) if ( !restudied) Perl_re_printf( "first at %" "ld" "\n", (IV)(first - scan + 1));} while (0) |
8206 | (IV)(first - scan + 1))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) if ( !restudied) Perl_re_printf( "first at %" "ld" "\n", (IV)(first - scan + 1));} while (0) |
8207 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) if ( !restudied) Perl_re_printf( "first at %" "ld" "\n", (IV)(first - scan + 1));} while (0); |
8208 | #else |
8209 | DEBUG_PARSE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) Perl_re_printf ( "first at %" "ld" "\n", (IV)(first - scan + 1));} while (0) |
8210 | Perl_re_printf( aTHX_ "first at %" IVdf "\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) Perl_re_printf ( "first at %" "ld" "\n", (IV)(first - scan + 1));} while (0) |
8211 | (IV)(first - scan + 1))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) Perl_re_printf ( "first at %" "ld" "\n", (IV)(first - scan + 1));} while (0) |
8212 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) Perl_re_printf ( "first at %" "ld" "\n", (IV)(first - scan + 1));} while (0); |
8213 | #endif |
8214 | |
8215 | |
8216 | /* |
8217 | * If there's something expensive in the r.e., find the |
8218 | * longest literal string that must appear and make it the |
8219 | * regmust. Resolve ties in favor of later strings, since |
8220 | * the regstart check works with the beginning of the r.e. |
8221 | * and avoiding duplication strengthens checking. Not a |
8222 | * strong reason, but sufficient in the absence of others. |
8223 | * [Now we resolve ties in favor of the earlier string if |
8224 | * it happens that c_offset_min has been invalidated, since the |
8225 | * earlier string may buy us something the later one won't.] |
8226 | */ |
8227 | |
8228 | data.substrs[0].str = newSVpvs("")Perl_newSVpvn( ("" "" ""), (sizeof("")-1)); |
8229 | data.substrs[1].str = newSVpvs("")Perl_newSVpvn( ("" "" ""), (sizeof("")-1)); |
8230 | data.last_found = newSVpvs("")Perl_newSVpvn( ("" "" ""), (sizeof("")-1)); |
8231 | data.cur_is_floating = 0; /* initially any found substring is fixed */ |
8232 | ENTER_with_name("study_chunk")do { Perl_push_scope(); if (PL_scopestack_name) PL_scopestack_name [PL_scopestack_ix-1] = "study_chunk"; if (__builtin_expect((( PL_debug & 0x00000004) ? (_Bool)1 : (_Bool)0),(0))) Perl_deb ( "%s scope %ld (savestack=%ld) at %s:%d\n", "ENTER \"" "study_chunk" "\"", (long)PL_scopestack_ix, (long)PL_savestack_ix, "re_comp.c" , 8232); } while (0); |
8233 | SAVEFREESV(data.substrs[0].str)Perl_save_pushptr( (void *)(((SV *)({ void *_p = (data.substrs [0].str); _p; }))),11); |
8234 | SAVEFREESV(data.substrs[1].str)Perl_save_pushptr( (void *)(((SV *)({ void *_p = (data.substrs [1].str); _p; }))),11); |
8235 | SAVEFREESV(data.last_found)Perl_save_pushptr( (void *)(((SV *)({ void *_p = (data.last_found ); _p; }))),11); |
8236 | first = scan; |
8237 | if (!RExC_rxi(pRExC_state->rxi)->regstclass) { |
8238 | ssc_init(pRExC_state, &ch_class)S_ssc_init( pRExC_state,&ch_class); |
8239 | data.start_class = &ch_class; |
8240 | stclass_flag = SCF_DO_STCLASS_AND0x0800; |
8241 | } else /* XXXX Check for BOUND? */ |
8242 | stclass_flag = 0; |
8243 | data.last_closep = &last_close; |
8244 | |
8245 | DEBUG_RExC_seen()do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0);; |
8246 | /* |
8247 | * MAIN ENTRY FOR study_chunk() FOR m/PATTERN/ |
8248 | * (NO top level branches) |
8249 | */ |
8250 | minlen = study_chunk(pRExC_state, &first, &minlen, &fake,S_study_chunk( pRExC_state,&first,&minlen,&fake,scan + (pRExC_state->size),&data,-1,0,((void*)0),0x0400 | 0x2000 | stclass_flag | (restudied ? 0x10000 : 0),0,(1)) |
8251 | scan + RExC_size, /* Up to end */S_study_chunk( pRExC_state,&first,&minlen,&fake,scan + (pRExC_state->size),&data,-1,0,((void*)0),0x0400 | 0x2000 | stclass_flag | (restudied ? 0x10000 : 0),0,(1)) |
8252 | &data, -1, 0, NULL,S_study_chunk( pRExC_state,&first,&minlen,&fake,scan + (pRExC_state->size),&data,-1,0,((void*)0),0x0400 | 0x2000 | stclass_flag | (restudied ? 0x10000 : 0),0,(1)) |
8253 | SCF_DO_SUBSTR | SCF_WHILEM_VISITED_POS | stclass_flagS_study_chunk( pRExC_state,&first,&minlen,&fake,scan + (pRExC_state->size),&data,-1,0,((void*)0),0x0400 | 0x2000 | stclass_flag | (restudied ? 0x10000 : 0),0,(1)) |
8254 | | (restudied ? SCF_TRIE_DOING_RESTUDY : 0),S_study_chunk( pRExC_state,&first,&minlen,&fake,scan + (pRExC_state->size),&data,-1,0,((void*)0),0x0400 | 0x2000 | stclass_flag | (restudied ? 0x10000 : 0),0,(1)) |
8255 | 0, TRUE)S_study_chunk( pRExC_state,&first,&minlen,&fake,scan + (pRExC_state->size),&data,-1,0,((void*)0),0x0400 | 0x2000 | stclass_flag | (restudied ? 0x10000 : 0),0,(1)); |
8256 | |
8257 | |
8258 | CHECK_RESTUDY_GOTO_butfirst(LEAVE_with_name("study_chunk"))do { if ( (data.flags & 0x4000) && ! restudied++ ) { do { if (__builtin_expect(((PL_debug & 0x00000004) ? ( _Bool)1 : (_Bool)0),(0))) Perl_deb( "%s scope %ld (savestack=%ld) at %s:%d\n" , "LEAVE \"" "study_chunk" "\"", (long)PL_scopestack_ix, (long )PL_savestack_ix, "re_comp.c", 8258); if (PL_scopestack_name) { ((((char*)PL_scopestack_name[PL_scopestack_ix-1] == (char* )"study_chunk") || (strcmp(PL_scopestack_name[PL_scopestack_ix -1],"study_chunk") == 0)) ? (void)0 : __assert2("re_comp.c", 8258 , __func__, "((char*)PL_scopestack_name[PL_scopestack_ix-1] == (char*)\"study_chunk\") || strEQ(PL_scopestack_name[PL_scopestack_ix-1], \"study_chunk\")" )); } Perl_pop_scope(); } while (0); goto reStudy; } } while ( 0); |
8259 | |
8260 | |
8261 | if ( RExC_total_parens(pRExC_state->total_par) == 1 && !data.cur_is_floating |
8262 | && data.last_start_min == 0 && data.last_end > 0 |
8263 | && !RExC_seen_zerolen(pRExC_state->seen_zerolen) |
8264 | && !(RExC_seen(pRExC_state->seen) & REG_VERBARG_SEEN0x00000080) |
8265 | && !(RExC_seen(pRExC_state->seen) & REG_GPOS_SEEN0x00000004) |
8266 | ){ |
8267 | RExC_rx(pRExC_state->rx)->extflags |= RXf_CHECK_ALL(1U<<(((0 +12) + 2)+5)); |
8268 | } |
8269 | scan_commit(pRExC_state, &data,&minlen, 0)S_scan_commit( pRExC_state,&data,&minlen,0); |
8270 | |
8271 | |
8272 | /* XXX this is done in reverse order because that's the way the |
8273 | * code was before it was parameterised. Don't know whether it |
8274 | * actually needs doing in reverse order. DAPM */ |
8275 | for (i = 1; i >= 0; i--) { |
8276 | longest_length[i] = CHR_SVLEN(data.substrs[i].str)((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ? Perl_sv_len_utf8 ( data.substrs[i].str) : (*({ const SV *const _svcur = (const SV *)(data.substrs[i].str); ((PL_valid_types_PVX[((svtype)(( _svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 8276, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 8276, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 8276, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))); |
8277 | |
8278 | if ( !( i |
8279 | && SvCUR(data.substrs[0].str)(*({ const SV *const _svcur = (const SV *)(data.substrs[0].str ); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 8279, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 8279, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 8279, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) /* ok to leave SvCUR */ |
8280 | && data.substrs[0].min_offset |
8281 | == data.substrs[1].min_offset |
8282 | && SvCUR(data.substrs[0].str)(*({ const SV *const _svcur = (const SV *)(data.substrs[0].str ); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 8282, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 8282, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 8282, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) |
8283 | == SvCUR(data.substrs[1].str)(*({ const SV *const _svcur = (const SV *)(data.substrs[1].str ); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 8283, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 8283, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 8283, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) |
8284 | ) |
8285 | && S_setup_longest (aTHX_ pRExC_state, |
8286 | &(RExC_rx(pRExC_state->rx)->substrs->data[i]), |
8287 | &(data.substrs[i]), |
8288 | longest_length[i])) |
8289 | { |
8290 | RExC_rx(pRExC_state->rx)->substrs->data[i].min_offset = |
8291 | data.substrs[i].min_offset - data.substrs[i].lookbehind; |
8292 | |
8293 | RExC_rx(pRExC_state->rx)->substrs->data[i].max_offset = data.substrs[i].max_offset; |
8294 | /* Don't offset infinity */ |
8295 | if (data.substrs[i].max_offset < OPTIMIZE_INFTY(ssize_t)(~(size_t)0 >> 1)) |
8296 | RExC_rx(pRExC_state->rx)->substrs->data[i].max_offset -= data.substrs[i].lookbehind; |
8297 | SvREFCNT_inc_simple_void_NN(data.substrs[i].str)(void)(++(((SV *)({ void *_p = (data.substrs[i].str); _p; })) )->sv_refcnt); |
8298 | } |
8299 | else { |
8300 | RExC_rx(pRExC_state->rx)->substrs->data[i].substr = NULL((void*)0); |
8301 | RExC_rx(pRExC_state->rx)->substrs->data[i].utf8_substr = NULL((void*)0); |
8302 | longest_length[i] = 0; |
8303 | } |
8304 | } |
8305 | |
8306 | LEAVE_with_name("study_chunk")do { if (__builtin_expect(((PL_debug & 0x00000004) ? (_Bool )1 : (_Bool)0),(0))) Perl_deb( "%s scope %ld (savestack=%ld) at %s:%d\n" , "LEAVE \"" "study_chunk" "\"", (long)PL_scopestack_ix, (long )PL_savestack_ix, "re_comp.c", 8306); if (PL_scopestack_name) { ((((char*)PL_scopestack_name[PL_scopestack_ix-1] == (char* )"study_chunk") || (strcmp(PL_scopestack_name[PL_scopestack_ix -1],"study_chunk") == 0)) ? (void)0 : __assert2("re_comp.c", 8306 , __func__, "((char*)PL_scopestack_name[PL_scopestack_ix-1] == (char*)\"study_chunk\") || strEQ(PL_scopestack_name[PL_scopestack_ix-1], \"study_chunk\")" )); } Perl_pop_scope(); } while (0); |
8307 | |
8308 | if (RExC_rxi(pRExC_state->rxi)->regstclass |
8309 | && (OP(RExC_rxi->regstclass)(((pRExC_state->rxi)->regstclass)->type) == REG_ANY16 || OP(RExC_rxi->regstclass)(((pRExC_state->rxi)->regstclass)->type) == SANY17)) |
8310 | RExC_rxi(pRExC_state->rxi)->regstclass = NULL((void*)0); |
8311 | |
8312 | if ((!(RExC_rx(pRExC_state->rx)->substrs->data[0].substr || RExC_rx(pRExC_state->rx)->substrs->data[0].utf8_substr) |
8313 | || RExC_rx(pRExC_state->rx)->substrs->data[0].min_offset) |
8314 | && stclass_flag |
8315 | && ! (ANYOF_FLAGS(data.start_class)((data.start_class)->flags) & SSC_MATCHES_EMPTY_STRING0x01) |
8316 | && is_ssc_worth_itS_is_ssc_worth_it(pRExC_state, data.start_class)) |
8317 | { |
8318 | const U32 n = add_dataS_add_data(pRExC_state, STR_WITH_LEN("f")("" "f" ""), (sizeof("f")-1)); |
8319 | |
8320 | ssc_finalize(pRExC_state, data.start_class)S_ssc_finalize( pRExC_state,data.start_class); |
8321 | |
8322 | Newx(RExC_rxi->data->data[n], 1, regnode_ssc)((pRExC_state->rxi)->data->data[n] = ((void)(__builtin_expect (((((( sizeof(size_t) < sizeof(1) || sizeof(regnode_ssc) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(1)))) ? (size_t )(1) : ((size_t)-1)/sizeof(regnode_ssc)) > ((size_t)-1)/sizeof (regnode_ssc))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (regnode_ssc*)(Perl_safesysmalloc((size_t)((1)*sizeof (regnode_ssc)))))); |
8323 | StructCopy(data.start_class,(*((regnode_ssc*)((regnode_ssc*)(pRExC_state->rxi)->data ->data[n])) = *((regnode_ssc*)(data.start_class))) |
8324 | (regnode_ssc*)RExC_rxi->data->data[n],(*((regnode_ssc*)((regnode_ssc*)(pRExC_state->rxi)->data ->data[n])) = *((regnode_ssc*)(data.start_class))) |
8325 | regnode_ssc)(*((regnode_ssc*)((regnode_ssc*)(pRExC_state->rxi)->data ->data[n])) = *((regnode_ssc*)(data.start_class))); |
8326 | RExC_rxi(pRExC_state->rxi)->regstclass = (regnode*)RExC_rxi(pRExC_state->rxi)->data->data[n]; |
8327 | RExC_rx(pRExC_state->rx)->intflags &= ~PREGf_SKIP0x00000001; /* Used in find_byclass(). */ |
8328 | DEBUG_COMPILE_r({ SV *sv = sv_newmortal();do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { SV *sv = Perl_sv_newmortal(); my_regprop( (pRExC_state->rx), sv,(regnode*)data.start_class,((void*)0),pRExC_state); Perl_re_printf ( "synthetic stclass \"%s\".\n", ((const char*)(0 + (sv)-> sv_u.svu_pv)));};} while (0) |
8329 | regprop(RExC_rx, sv, (regnode*)data.start_class, NULL, pRExC_state);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { SV *sv = Perl_sv_newmortal(); my_regprop( (pRExC_state->rx), sv,(regnode*)data.start_class,((void*)0),pRExC_state); Perl_re_printf ( "synthetic stclass \"%s\".\n", ((const char*)(0 + (sv)-> sv_u.svu_pv)));};} while (0) |
8330 | Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { SV *sv = Perl_sv_newmortal(); my_regprop( (pRExC_state->rx), sv,(regnode*)data.start_class,((void*)0),pRExC_state); Perl_re_printf ( "synthetic stclass \"%s\".\n", ((const char*)(0 + (sv)-> sv_u.svu_pv)));};} while (0) |
8331 | "synthetic stclass \"%s\".\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { SV *sv = Perl_sv_newmortal(); my_regprop( (pRExC_state->rx), sv,(regnode*)data.start_class,((void*)0),pRExC_state); Perl_re_printf ( "synthetic stclass \"%s\".\n", ((const char*)(0 + (sv)-> sv_u.svu_pv)));};} while (0) |
8332 | SvPVX_const(sv));})do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { SV *sv = Perl_sv_newmortal(); my_regprop( (pRExC_state->rx), sv,(regnode*)data.start_class,((void*)0),pRExC_state); Perl_re_printf ( "synthetic stclass \"%s\".\n", ((const char*)(0 + (sv)-> sv_u.svu_pv)));};} while (0); |
8333 | data.start_class = NULL((void*)0); |
8334 | } |
8335 | |
8336 | /* A temporary algorithm prefers floated substr to fixed one of |
8337 | * same length to dig more info. */ |
8338 | i = (longest_length[0] <= longest_length[1]); |
8339 | RExC_rx(pRExC_state->rx)->substrs->check_ix = i; |
8340 | RExC_rx(pRExC_state->rx)->check_end_shiftsubstrs->data[2].end_shift = RExC_rx(pRExC_state->rx)->substrs->data[i].end_shift; |
8341 | RExC_rx(pRExC_state->rx)->check_substrsubstrs->data[2].substr = RExC_rx(pRExC_state->rx)->substrs->data[i].substr; |
8342 | RExC_rx(pRExC_state->rx)->check_utf8substrs->data[2].utf8_substr = RExC_rx(pRExC_state->rx)->substrs->data[i].utf8_substr; |
8343 | RExC_rx(pRExC_state->rx)->check_offset_minsubstrs->data[2].min_offset = RExC_rx(pRExC_state->rx)->substrs->data[i].min_offset; |
8344 | RExC_rx(pRExC_state->rx)->check_offset_maxsubstrs->data[2].max_offset = RExC_rx(pRExC_state->rx)->substrs->data[i].max_offset; |
8345 | if (!i && (RExC_rx(pRExC_state->rx)->intflags & (PREGf_ANCH_SBOL0x00000800|PREGf_ANCH_GPOS0x00001000))) |
8346 | RExC_rx(pRExC_state->rx)->intflags |= PREGf_NOSCAN0x00000040; |
8347 | |
8348 | if ((RExC_rx(pRExC_state->rx)->check_substrsubstrs->data[2].substr || RExC_rx(pRExC_state->rx)->check_utf8substrs->data[2].utf8_substr) ) { |
8349 | RExC_rx(pRExC_state->rx)->extflags |= RXf_USE_INTUIT((1U<<(((0 +12) + 2)+7))|(1U<<(((0 +12) + 2)+8))); |
8350 | if (SvTAIL(RExC_rx->check_substr ? RExC_rx->check_substr : RExC_rx->check_utf8)({ const SV *const _svtail = (const SV *)((pRExC_state->rx )->substrs->data[2].substr ? (pRExC_state->rx)->substrs ->data[2].substr : (pRExC_state->rx)->substrs->data [2].utf8_substr); ((((svtype)((_svtail)->sv_flags & 0xff )) != SVt_PVAV) ? (void)0 : __assert2("re_comp.c", 8350, __func__ , "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)-> sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_comp.c" , 8350, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_comp.c", 8350, __func__, "!(SvFLAGS(_svtail) & (SVf_NOK|SVp_NOK))" )); ((( ((_svtail)->sv_flags & 0x00004000) && ( (_svtail)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_svtail); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_comp.c", 8350, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_svtail); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_comp.c" , 8350, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &( ((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))-> xmg_u.xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_svtail , 'B')) )) ? (void)0 : __assert2("re_comp.c", 8350, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })) |
8351 | RExC_rx(pRExC_state->rx)->extflags |= RXf_INTUIT_TAIL(1U<<(((0 +12) + 2)+9)); |
8352 | } |
8353 | |
8354 | /* XXX Unneeded? dmq (shouldn't as this is handled elsewhere) |
8355 | if ( (STRLEN)minlen < longest_length[1] ) |
8356 | minlen= longest_length[1]; |
8357 | if ( (STRLEN)minlen < longest_length[0] ) |
8358 | minlen= longest_length[0]; |
8359 | */ |
8360 | } |
8361 | else { |
8362 | /* Several toplevels. Best we can is to set minlen. */ |
8363 | SSize_tssize_t fake; |
8364 | regnode_ssc ch_class; |
8365 | SSize_tssize_t last_close = 0; |
8366 | |
8367 | DEBUG_PARSE_r(Perl_re_printf( aTHX_ "\nMulti Top Level\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) Perl_re_printf ( "\nMulti Top Level\n");} while (0); |
8368 | |
8369 | scan = RExC_rxi(pRExC_state->rxi)->program + 1; |
8370 | ssc_init(pRExC_state, &ch_class)S_ssc_init( pRExC_state,&ch_class); |
8371 | data.start_class = &ch_class; |
8372 | data.last_closep = &last_close; |
8373 | |
8374 | DEBUG_RExC_seen()do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0);; |
8375 | /* |
8376 | * MAIN ENTRY FOR study_chunk() FOR m/P1|P2|.../ |
8377 | * (patterns WITH top level branches) |
8378 | */ |
8379 | minlen = study_chunk(pRExC_state,S_study_chunk( pRExC_state,&scan,&minlen,&fake,scan + (pRExC_state->size),&data,-1,0,((void*)0),0x0800|0x2000 |(restudied ? 0x10000 : 0),0,(1)) |
8380 | &scan, &minlen, &fake, scan + RExC_size, &data, -1, 0, NULL,S_study_chunk( pRExC_state,&scan,&minlen,&fake,scan + (pRExC_state->size),&data,-1,0,((void*)0),0x0800|0x2000 |(restudied ? 0x10000 : 0),0,(1)) |
8381 | SCF_DO_STCLASS_AND|SCF_WHILEM_VISITED_POS|(restudiedS_study_chunk( pRExC_state,&scan,&minlen,&fake,scan + (pRExC_state->size),&data,-1,0,((void*)0),0x0800|0x2000 |(restudied ? 0x10000 : 0),0,(1)) |
8382 | ? SCF_TRIE_DOING_RESTUDYS_study_chunk( pRExC_state,&scan,&minlen,&fake,scan + (pRExC_state->size),&data,-1,0,((void*)0),0x0800|0x2000 |(restudied ? 0x10000 : 0),0,(1)) |
8383 | : 0),S_study_chunk( pRExC_state,&scan,&minlen,&fake,scan + (pRExC_state->size),&data,-1,0,((void*)0),0x0800|0x2000 |(restudied ? 0x10000 : 0),0,(1)) |
8384 | 0, TRUE)S_study_chunk( pRExC_state,&scan,&minlen,&fake,scan + (pRExC_state->size),&data,-1,0,((void*)0),0x0800|0x2000 |(restudied ? 0x10000 : 0),0,(1)); |
8385 | |
8386 | CHECK_RESTUDY_GOTO_butfirst(NOOP)do { if ( (data.flags & 0x4000) && ! restudied++ ) { (void)0; goto reStudy; } } while (0); |
8387 | |
8388 | RExC_rx(pRExC_state->rx)->check_substrsubstrs->data[2].substr = NULL((void*)0); |
8389 | RExC_rx(pRExC_state->rx)->check_utf8substrs->data[2].utf8_substr = NULL((void*)0); |
8390 | RExC_rx(pRExC_state->rx)->substrs->data[0].substr = NULL((void*)0); |
8391 | RExC_rx(pRExC_state->rx)->substrs->data[0].utf8_substr = NULL((void*)0); |
8392 | RExC_rx(pRExC_state->rx)->substrs->data[1].substr = NULL((void*)0); |
8393 | RExC_rx(pRExC_state->rx)->substrs->data[1].utf8_substr = NULL((void*)0); |
8394 | |
8395 | if (! (ANYOF_FLAGS(data.start_class)((data.start_class)->flags) & SSC_MATCHES_EMPTY_STRING0x01) |
8396 | && is_ssc_worth_itS_is_ssc_worth_it(pRExC_state, data.start_class)) |
8397 | { |
8398 | const U32 n = add_dataS_add_data(pRExC_state, STR_WITH_LEN("f")("" "f" ""), (sizeof("f")-1)); |
8399 | |
8400 | ssc_finalize(pRExC_state, data.start_class)S_ssc_finalize( pRExC_state,data.start_class); |
8401 | |
8402 | Newx(RExC_rxi->data->data[n], 1, regnode_ssc)((pRExC_state->rxi)->data->data[n] = ((void)(__builtin_expect (((((( sizeof(size_t) < sizeof(1) || sizeof(regnode_ssc) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(1)))) ? (size_t )(1) : ((size_t)-1)/sizeof(regnode_ssc)) > ((size_t)-1)/sizeof (regnode_ssc))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (regnode_ssc*)(Perl_safesysmalloc((size_t)((1)*sizeof (regnode_ssc)))))); |
8403 | StructCopy(data.start_class,(*((regnode_ssc*)((regnode_ssc*)(pRExC_state->rxi)->data ->data[n])) = *((regnode_ssc*)(data.start_class))) |
8404 | (regnode_ssc*)RExC_rxi->data->data[n],(*((regnode_ssc*)((regnode_ssc*)(pRExC_state->rxi)->data ->data[n])) = *((regnode_ssc*)(data.start_class))) |
8405 | regnode_ssc)(*((regnode_ssc*)((regnode_ssc*)(pRExC_state->rxi)->data ->data[n])) = *((regnode_ssc*)(data.start_class))); |
8406 | RExC_rxi(pRExC_state->rxi)->regstclass = (regnode*)RExC_rxi(pRExC_state->rxi)->data->data[n]; |
8407 | RExC_rx(pRExC_state->rx)->intflags &= ~PREGf_SKIP0x00000001; /* Used in find_byclass(). */ |
8408 | DEBUG_COMPILE_r({ SV* sv = sv_newmortal();do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { SV * sv = Perl_sv_newmortal(); my_regprop( (pRExC_state->rx), sv,(regnode*)data.start_class,((void*)0),pRExC_state); Perl_re_printf ( "synthetic stclass \"%s\".\n", ((const char*)(0 + (sv)-> sv_u.svu_pv)));};} while (0) |
8409 | regprop(RExC_rx, sv, (regnode*)data.start_class, NULL, pRExC_state);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { SV * sv = Perl_sv_newmortal(); my_regprop( (pRExC_state->rx), sv,(regnode*)data.start_class,((void*)0),pRExC_state); Perl_re_printf ( "synthetic stclass \"%s\".\n", ((const char*)(0 + (sv)-> sv_u.svu_pv)));};} while (0) |
8410 | Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { SV * sv = Perl_sv_newmortal(); my_regprop( (pRExC_state->rx), sv,(regnode*)data.start_class,((void*)0),pRExC_state); Perl_re_printf ( "synthetic stclass \"%s\".\n", ((const char*)(0 + (sv)-> sv_u.svu_pv)));};} while (0) |
8411 | "synthetic stclass \"%s\".\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { SV * sv = Perl_sv_newmortal(); my_regprop( (pRExC_state->rx), sv,(regnode*)data.start_class,((void*)0),pRExC_state); Perl_re_printf ( "synthetic stclass \"%s\".\n", ((const char*)(0 + (sv)-> sv_u.svu_pv)));};} while (0) |
8412 | SvPVX_const(sv));})do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { SV * sv = Perl_sv_newmortal(); my_regprop( (pRExC_state->rx), sv,(regnode*)data.start_class,((void*)0),pRExC_state); Perl_re_printf ( "synthetic stclass \"%s\".\n", ((const char*)(0 + (sv)-> sv_u.svu_pv)));};} while (0); |
8413 | data.start_class = NULL((void*)0); |
8414 | } |
8415 | } |
8416 | |
8417 | if (RExC_seen(pRExC_state->seen) & REG_UNBOUNDED_QUANTIFIER_SEEN0x00001000) { |
8418 | RExC_rx(pRExC_state->rx)->extflags |= RXf_UNBOUNDED_QUANTIFIER_SEEN(1U<<(((0 +12) + 2)+4)); |
8419 | RExC_rx(pRExC_state->rx)->maxlen = REG_INFTY0xffff; |
8420 | } |
8421 | else { |
8422 | RExC_rx(pRExC_state->rx)->maxlen = RExC_maxlen(pRExC_state->maxlen); |
8423 | } |
8424 | |
8425 | /* Guard against an embedded (?=) or (?<=) with a longer minlen than |
8426 | the "real" pattern. */ |
8427 | DEBUG_OPTIMISE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { Perl_re_printf ( "minlen: %" "ld" " RExC_rx->minlen:%" "ld" " maxlen:%" "ld" "\n", (IV)minlen, (IV)(pRExC_state->rx)->minlen, (IV)( pRExC_state->maxlen)); };} while (0) |
8428 | Perl_re_printf( aTHX_ "minlen: %" IVdf " RExC_rx->minlen:%" IVdf " maxlen:%" IVdf "\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { Perl_re_printf ( "minlen: %" "ld" " RExC_rx->minlen:%" "ld" " maxlen:%" "ld" "\n", (IV)minlen, (IV)(pRExC_state->rx)->minlen, (IV)( pRExC_state->maxlen)); };} while (0) |
8429 | (IV)minlen, (IV)RExC_rx->minlen, (IV)RExC_maxlen);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { Perl_re_printf ( "minlen: %" "ld" " RExC_rx->minlen:%" "ld" " maxlen:%" "ld" "\n", (IV)minlen, (IV)(pRExC_state->rx)->minlen, (IV)( pRExC_state->maxlen)); };} while (0) |
8430 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) { Perl_re_printf ( "minlen: %" "ld" " RExC_rx->minlen:%" "ld" " maxlen:%" "ld" "\n", (IV)minlen, (IV)(pRExC_state->rx)->minlen, (IV)( pRExC_state->maxlen)); };} while (0); |
8431 | RExC_rx(pRExC_state->rx)->minlenret = minlen; |
8432 | if (RExC_rx(pRExC_state->rx)->minlen < minlen) |
8433 | RExC_rx(pRExC_state->rx)->minlen = minlen; |
8434 | |
8435 | if (RExC_seen(pRExC_state->seen) & REG_RECURSE_SEEN0x00000020 ) { |
8436 | RExC_rx(pRExC_state->rx)->intflags |= PREGf_RECURSE_SEEN0x00002000; |
8437 | Newx(RExC_rx->recurse_locinput, RExC_rx->nparens + 1, char *)((pRExC_state->rx)->recurse_locinput = ((void)(__builtin_expect (((((( sizeof(size_t) < sizeof((pRExC_state->rx)->nparens + 1) || sizeof(char *) > ((size_t)1 << 8*(sizeof(size_t ) - sizeof((pRExC_state->rx)->nparens + 1)))) ? (size_t )((pRExC_state->rx)->nparens + 1) : ((size_t)-1)/sizeof (char *)) > ((size_t)-1)/sizeof(char *))) ? (_Bool)1 : (_Bool )0),(0)) && (Perl_croak_memory_wrap(),0)), (char **)( Perl_safesysmalloc((size_t)(((pRExC_state->rx)->nparens + 1)*sizeof(char *)))))); |
8438 | } |
8439 | if (RExC_seen(pRExC_state->seen) & REG_GPOS_SEEN0x00000004) |
8440 | RExC_rx(pRExC_state->rx)->intflags |= PREGf_GPOS_SEEN0x00000100; |
8441 | if (RExC_seen(pRExC_state->seen) & REG_LOOKBEHIND_SEEN0x00000002) |
8442 | RExC_rx(pRExC_state->rx)->extflags |= RXf_NO_INPLACE_SUBST(1U<<(((0 +12) + 2)+2)); /* inplace might break the |
8443 | lookbehind */ |
8444 | if (pRExC_state->code_blocks) |
8445 | RExC_rx(pRExC_state->rx)->extflags |= RXf_EVAL_SEEN(1U<<(((0 +12) + 2)+3)); |
8446 | if (RExC_seen(pRExC_state->seen) & REG_VERBARG_SEEN0x00000080) |
8447 | { |
8448 | RExC_rx(pRExC_state->rx)->intflags |= PREGf_VERBARG_SEEN0x00000008; |
8449 | RExC_rx(pRExC_state->rx)->extflags |= RXf_NO_INPLACE_SUBST(1U<<(((0 +12) + 2)+2)); /* don't understand this! Yves */ |
8450 | } |
8451 | if (RExC_seen(pRExC_state->seen) & REG_CUTGROUP_SEEN0x00000100) |
8452 | RExC_rx(pRExC_state->rx)->intflags |= PREGf_CUTGROUP_SEEN0x00000010; |
8453 | if (pm_flags & PMf_USE_RE_EVAL(1U<<(((0 +12)+2)+16))) |
8454 | RExC_rx(pRExC_state->rx)->intflags |= PREGf_USE_RE_EVAL0x00000020; |
8455 | if (RExC_paren_names(pRExC_state->paren_names)) |
8456 | RXp_PAREN_NAMES(RExC_rx)(((pRExC_state->rx))->paren_names) = MUTABLE_HV(SvREFCNT_inc(RExC_paren_names))((HV *)({ void *_p = (Perl_SvREFCNT_inc(((SV *)({ void *_p = ( (pRExC_state->paren_names)); _p; })))); _p; })); |
8457 | else |
8458 | RXp_PAREN_NAMES(RExC_rx)(((pRExC_state->rx))->paren_names) = NULL((void*)0); |
8459 | |
8460 | /* If we have seen an anchor in our pattern then we set the extflag RXf_IS_ANCHORED |
8461 | * so it can be used in pp.c */ |
8462 | if (RExC_rx(pRExC_state->rx)->intflags & PREGf_ANCH( 0x00000800 | 0x00001000 | 0x00000400 )) |
8463 | RExC_rx(pRExC_state->rx)->extflags |= RXf_IS_ANCHORED(1U<<(((0 +12) + 2)+10)); |
8464 | |
8465 | |
8466 | { |
8467 | /* this is used to identify "special" patterns that might result |
8468 | * in Perl NOT calling the regex engine and instead doing the match "itself", |
8469 | * particularly special cases in split//. By having the regex compiler |
8470 | * do this pattern matching at a regop level (instead of by inspecting the pattern) |
8471 | * we avoid weird issues with equivalent patterns resulting in different behavior, |
8472 | * AND we allow non Perl engines to get the same optimizations by the setting the |
8473 | * flags appropriately - Yves */ |
8474 | regnode *first = RExC_rxi(pRExC_state->rxi)->program + 1; |
8475 | U8 fop = OP(first)((first)->type); |
8476 | regnode *next = regnext(first)Perl_regnext( first); |
8477 | U8 nop = OP(next)((next)->type); |
8478 | |
8479 | if (PL_regkind[fop] == NOTHING54 && nop == END0) |
8480 | RExC_rx(pRExC_state->rx)->extflags |= RXf_NULL(1U<<(((0 +12) + 2)+17)); |
8481 | else if ((fop == MBOL3 || (fop == SBOL2 && !first->flags)) && nop == END0) |
8482 | /* when fop is SBOL first->flags will be true only when it was |
8483 | * produced by parsing /\A/, and not when parsing /^/. This is |
8484 | * very important for the split code as there we want to |
8485 | * treat /^/ as /^/m, but we do not want to treat /\A/ as /^/m. |
8486 | * See rt #122761 for more details. -- Yves */ |
8487 | RExC_rx(pRExC_state->rx)->extflags |= RXf_START_ONLY(1U<<(((0 +12) + 2)+14)); |
8488 | else if (fop == PLUS57 |
8489 | && PL_regkind[nop] == POSIXD30 && FLAGS(next)((next)->flags) == _CC_SPACE10 |
8490 | && nop == END0) |
8491 | RExC_rx(pRExC_state->rx)->extflags |= RXf_WHITE(1U<<(((0 +12) + 2)+16)); |
8492 | else if ( RExC_rx(pRExC_state->rx)->extflags & RXf_SPLIT(1U<<(0 +11)) |
8493 | && ( fop == EXACT40 || fop == LEXACT41 |
8494 | || fop == EXACT_REQ850 || fop == LEXACT_REQ851 |
8495 | || fop == EXACTL42) |
8496 | && STR_LEN(first)((((first)->type) == 41 || ((first)->type) == 51) ? ((( ((first)->type) == 41 || ((first)->type) == 51) ? (void )0 : __assert2("re_comp.c", 8496, __func__, "((first)->type) == 41 || ((first)->type) == 51" )), (((struct regnode_lstring *)first)->str_len)) : (((((first )->type) != 41 && ((first)->type) != 51) ? (void )0 : __assert2("re_comp.c", 8496, __func__, "((first)->type) != 41 && ((first)->type) != 51" )), ((struct regnode_string *)first)->str_len)) == 1 |
8497 | && *(STRING(first)((((first)->type) == 41 || ((first)->type) == 51) ? ((( ((first)->type) == 41 || ((first)->type) == 51) ? (void )0 : __assert2("re_comp.c", 8497, __func__, "((first)->type) == 41 || ((first)->type) == 51" )), (((struct regnode_lstring *)first)->string)) : (((((first )->type) != 41 && ((first)->type) != 51) ? (void )0 : __assert2("re_comp.c", 8497, __func__, "((first)->type) != 41 && ((first)->type) != 51" )), ((struct regnode_string *)first)->string))) == ' ' |
8498 | && nop == END0 ) |
8499 | RExC_rx(pRExC_state->rx)->extflags |= (RXf_SKIPWHITE(1U<<(((0 +12) + 2)+15))|RXf_WHITE(1U<<(((0 +12) + 2)+16))); |
8500 | |
8501 | } |
8502 | |
8503 | if (RExC_contains_locale(pRExC_state->contains_locale)) { |
8504 | RXp_EXTFLAGS(RExC_rx)(((pRExC_state->rx))->extflags) |= RXf_TAINTED(1U<<(((0 +12) + 2)+13)); |
8505 | } |
8506 | |
8507 | #ifdef DEBUGGING |
8508 | if (RExC_paren_names(pRExC_state->paren_names)) { |
8509 | RExC_rxi(pRExC_state->rxi)->name_list_idx = add_dataS_add_data( pRExC_state, STR_WITH_LEN("a")("" "a" ""), (sizeof("a")-1)); |
8510 | RExC_rxi(pRExC_state->rxi)->data->data[RExC_rxi(pRExC_state->rxi)->name_list_idx] |
8511 | = (void*)SvREFCNT_inc(RExC_paren_name_list)Perl_SvREFCNT_inc(((SV *)({ void *_p = ((pRExC_state->paren_name_list )); _p; }))); |
8512 | } else |
8513 | #endif |
8514 | RExC_rxi(pRExC_state->rxi)->name_list_idx = 0; |
8515 | |
8516 | while ( RExC_recurse_count(pRExC_state->recurse_count) > 0 ) { |
8517 | const regnode *scan = RExC_recurse(pRExC_state->recurse)[ --RExC_recurse_count(pRExC_state->recurse_count) ]; |
8518 | /* |
8519 | * This data structure is set up in study_chunk() and is used |
8520 | * to calculate the distance between a GOSUB regopcode and |
8521 | * the OPEN/CURLYM (CURLYM's are special and can act like OPEN's) |
8522 | * it refers to. |
8523 | * |
8524 | * If for some reason someone writes code that optimises |
8525 | * away a GOSUB opcode then the assert should be changed to |
8526 | * an if(scan) to guard the ARG2L_SET() - Yves |
8527 | * |
8528 | */ |
8529 | assert(scan && OP(scan) == GOSUB)((scan && ((scan)->type) == 92) ? (void)0 : __assert2 ("re_comp.c", 8529, __func__, "scan && OP(scan) == GOSUB" )); |
8530 | ARG2L_SET( scan, RExC_open_parens[ARG(scan)] - REGNODE_OFFSET(scan))(((((struct regnode_2L *)scan)->arg2)) = (((pRExC_state-> open_parens)[((((struct regnode_1 *)scan)->arg1))] - ((scan ) - (pRExC_state->emit_start))))); |
8531 | } |
8532 | |
8533 | Newxz(RExC_rx->offs, RExC_total_parens, regexp_paren_pair)((pRExC_state->rx)->offs = ((void)(__builtin_expect(((( (( sizeof(size_t) < sizeof((pRExC_state->total_par)) || sizeof(regexp_paren_pair) > ((size_t)1 << 8*(sizeof (size_t) - sizeof((pRExC_state->total_par))))) ? (size_t)( (pRExC_state->total_par)) : ((size_t)-1)/sizeof(regexp_paren_pair )) > ((size_t)-1)/sizeof(regexp_paren_pair))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), (regexp_paren_pair *)(Perl_safesyscalloc(((pRExC_state->total_par)),sizeof(regexp_paren_pair ))))); |
8534 | /* assume we don't need to swap parens around before we match */ |
8535 | DEBUG_TEST_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000020))) { Perl_re_printf ( "study_chunk_recursed_count: %lu\n", (unsigned long)(pRExC_state ->study_chunk_recursed_count)); };} while (0) |
8536 | Perl_re_printf( aTHX_ "study_chunk_recursed_count: %lu\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000020))) { Perl_re_printf ( "study_chunk_recursed_count: %lu\n", (unsigned long)(pRExC_state ->study_chunk_recursed_count)); };} while (0) |
8537 | (unsigned long)RExC_study_chunk_recursed_count);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000020))) { Perl_re_printf ( "study_chunk_recursed_count: %lu\n", (unsigned long)(pRExC_state ->study_chunk_recursed_count)); };} while (0) |
8538 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000020))) { Perl_re_printf ( "study_chunk_recursed_count: %lu\n", (unsigned long)(pRExC_state ->study_chunk_recursed_count)); };} while (0); |
8539 | DEBUG_DUMP_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000008))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0);; Perl_re_printf( "Final program:\n" ); my_regdump( (pRExC_state->rx)); };} while (0) |
8540 | DEBUG_RExC_seen();do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000008))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0);; Perl_re_printf( "Final program:\n" ); my_regdump( (pRExC_state->rx)); };} while (0) |
8541 | Perl_re_printf( aTHX_ "Final program:\n");do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000008))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0);; Perl_re_printf( "Final program:\n" ); my_regdump( (pRExC_state->rx)); };} while (0) |
8542 | regdump(RExC_rx);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000008))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0);; Perl_re_printf( "Final program:\n" ); my_regdump( (pRExC_state->rx)); };} while (0) |
8543 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000008))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( "RExC_seen: " ); if ((pRExC_state->seen) & 0x00000001) Perl_re_printf ( "REG_ZERO_LEN_SEEN "); if ((pRExC_state->seen) & 0x00000002 ) Perl_re_printf( "REG_LOOKBEHIND_SEEN "); if ((pRExC_state-> seen) & 0x00000004) Perl_re_printf( "REG_GPOS_SEEN "); if ((pRExC_state->seen) & 0x00000020) Perl_re_printf( "REG_RECURSE_SEEN " ); if ((pRExC_state->seen) & 0x00000040) Perl_re_printf ( "REG_TOP_LEVEL_BRANCHES_SEEN "); if ((pRExC_state->seen) & 0x00000080) Perl_re_printf( "REG_VERBARG_SEEN "); if ( (pRExC_state->seen) & 0x00000100) Perl_re_printf( "REG_CUTGROUP_SEEN " ); if ((pRExC_state->seen) & 0x00000200) Perl_re_printf ( "REG_RUN_ON_COMMENT_SEEN "); if ((pRExC_state->seen) & 0x00000400) Perl_re_printf( "REG_UNFOLDED_MULTI_SEEN "); if ( (pRExC_state->seen) & 0x00001000) Perl_re_printf( "REG_UNBOUNDED_QUANTIFIER_SEEN " ); Perl_re_printf( "\n"); };} while (0);; Perl_re_printf( "Final program:\n" ); my_regdump( (pRExC_state->rx)); };} while (0); |
8544 | |
8545 | if (RExC_open_parens(pRExC_state->open_parens)) { |
8546 | Safefree(RExC_open_parens)Perl_safesysfree(((void *)((pRExC_state->open_parens)))); |
8547 | RExC_open_parens(pRExC_state->open_parens) = NULL((void*)0); |
8548 | } |
8549 | if (RExC_close_parens(pRExC_state->close_parens)) { |
8550 | Safefree(RExC_close_parens)Perl_safesysfree(((void *)((pRExC_state->close_parens)))); |
8551 | RExC_close_parens(pRExC_state->close_parens) = NULL((void*)0); |
8552 | } |
8553 | |
8554 | #ifdef USE_ITHREADS |
8555 | /* under ithreads the ?pat? PMf_USED flag on the pmop is simulated |
8556 | * by setting the regexp SV to readonly-only instead. If the |
8557 | * pattern's been recompiled, the USEDness should remain. */ |
8558 | if (old_re && SvREADONLY(old_re)((old_re)->sv_flags & (0x08000000|0x00010000))) |
8559 | SvREADONLY_on(Rx)((Rx)->sv_flags |= 0x08000000); |
8560 | #endif |
8561 | return Rx; |
8562 | } |
8563 | |
8564 | |
8565 | SV* |
8566 | Perl_reg_named_buffmy_reg_named_buff(pTHX_ REGEXP * const rx, SV * const key, SV * const value, |
8567 | const U32 flags) |
8568 | { |
8569 | PERL_ARGS_ASSERT_REG_NAMED_BUFF((rx) ? (void)0 : __assert2("re_comp.c", 8569, __func__, "rx" )); |
8570 | |
8571 | PERL_UNUSED_ARG(value)((void)sizeof(value)); |
8572 | |
8573 | if (flags & RXapif_FETCH0x0001) { |
8574 | return reg_named_buff_fetch(rx, key, flags)my_reg_named_buff_fetch( rx,key,flags); |
8575 | } else if (flags & (RXapif_STORE0x0002 | RXapif_DELETE0x0004 | RXapif_CLEAR0x0008)) { |
8576 | Perl_croak_no_modify(); |
8577 | return NULL((void*)0); |
8578 | } else if (flags & RXapif_EXISTS0x0010) { |
8579 | return reg_named_buff_exists(rx, key, flags)my_reg_named_buff_exists( rx,key,flags) |
8580 | ? &PL_sv_yes(PL_sv_immortals[0]) |
8581 | : &PL_sv_no(PL_sv_immortals[2]); |
8582 | } else if (flags & RXapif_REGNAMES0x0800) { |
8583 | return reg_named_buff_all(rx, flags)my_reg_named_buff_all( rx,flags); |
8584 | } else if (flags & (RXapif_SCALAR0x0020 | RXapif_REGNAMES_COUNT0x1000)) { |
8585 | return reg_named_buff_scalar(rx, flags)my_reg_named_buff_scalar( rx,flags); |
8586 | } else { |
8587 | Perl_croak(aTHX_ "panic: Unknown flags %d in named_buff", (int)flags); |
8588 | return NULL((void*)0); |
8589 | } |
8590 | } |
8591 | |
8592 | SV* |
8593 | Perl_reg_named_buff_itermy_reg_named_buff_iter(pTHX_ REGEXP * const rx, const SV * const lastkey, |
8594 | const U32 flags) |
8595 | { |
8596 | PERL_ARGS_ASSERT_REG_NAMED_BUFF_ITER((rx) ? (void)0 : __assert2("re_comp.c", 8596, __func__, "rx" )); |
8597 | PERL_UNUSED_ARG(lastkey)((void)sizeof(lastkey)); |
8598 | |
8599 | if (flags & RXapif_FIRSTKEY0x0040) |
8600 | return reg_named_buff_firstkey(rx, flags)my_reg_named_buff_firstkey( rx,flags); |
8601 | else if (flags & RXapif_NEXTKEY0x0080) |
8602 | return reg_named_buff_nextkey(rx, flags)my_reg_named_buff_nextkey( rx,flags); |
8603 | else { |
8604 | Perl_croak(aTHX_ "panic: Unknown flags %d in named_buff_iter", |
8605 | (int)flags); |
8606 | return NULL((void*)0); |
8607 | } |
8608 | } |
8609 | |
8610 | SV* |
8611 | Perl_reg_named_buff_fetchmy_reg_named_buff_fetch(pTHX_ REGEXP * const r, SV * const namesv, |
8612 | const U32 flags) |
8613 | { |
8614 | SV *ret; |
8615 | struct regexp *const rx = ReANY(r)Perl_ReANY((const REGEXP *)(r)); |
8616 | |
8617 | PERL_ARGS_ASSERT_REG_NAMED_BUFF_FETCH((rx) ? (void)0 : __assert2("re_comp.c", 8617, __func__, "rx" )); ((namesv) ? (void)0 : __assert2("re_comp.c", 8617, __func__ , "namesv")); |
8618 | |
8619 | if (rx && RXp_PAREN_NAMES(rx)((rx)->paren_names)) { |
8620 | HE *he_str = hv_fetch_ent( RXp_PAREN_NAMES(rx), namesv, 0, 0 )((HE *) Perl_hv_common( (((rx)->paren_names)),(namesv),((void *)0),0,0,((0) ? 0x10 : 0),((void*)0),(0))); |
8621 | if (he_str) { |
8622 | IV i; |
8623 | SV* sv_dat=HeVAL(he_str)(he_str)->he_valu.hent_val; |
8624 | I32 *nums=(I32*)SvPVX(sv_dat)(*({ SV *const _svpvx = ((SV *)({ void *_p = (sv_dat); _p; }) ); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 8624, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 8624, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 8624, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })); |
8625 | AV * const retarray = (flags & RXapif_ALL0x0200) ? newAV()((AV *)({ void *_p = (Perl_newSV_type( SVt_PVAV)); _p; })) : NULL((void*)0); |
8626 | for ( i=0; i<SvIVX(sv_dat)(*({ const SV *const _svivx = (const SV *)(sv_dat); ((PL_valid_types_IVX [((svtype)((_svivx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 8626, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 8626, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })); i++ ) { |
8627 | if ((I32)(rx->nparens) >= nums[i] |
8628 | && rx->offs[nums[i]].start != -1 |
8629 | && rx->offs[nums[i]].end != -1) |
8630 | { |
8631 | ret = newSVpvs("")Perl_newSVpvn( ("" "" ""), (sizeof("")-1)); |
8632 | CALLREG_NUMBUF_FETCH(r, nums[i], ret)(((Perl_ReANY((const REGEXP *)(r)))->engine))->numbered_buff_FETCH ( (r),(nums[i]),(ret)); |
8633 | if (!retarray) |
8634 | return ret; |
8635 | } else { |
8636 | if (retarray) |
8637 | ret = newSVsv(&PL_sv_undef)Perl_newSVsv_flags( (&(PL_sv_immortals[1])),2|16); |
8638 | } |
8639 | if (retarray) |
8640 | av_push(retarray, ret)Perl_av_push( retarray,ret); |
8641 | } |
8642 | if (retarray) |
8643 | return newRV_noinc(MUTABLE_SV(retarray))Perl_newRV_noinc( ((SV *)({ void *_p = (retarray); _p; }))); |
8644 | } |
8645 | } |
8646 | return NULL((void*)0); |
8647 | } |
8648 | |
8649 | bool_Bool |
8650 | Perl_reg_named_buff_existsmy_reg_named_buff_exists(pTHX_ REGEXP * const r, SV * const key, |
8651 | const U32 flags) |
8652 | { |
8653 | struct regexp *const rx = ReANY(r)Perl_ReANY((const REGEXP *)(r)); |
8654 | |
8655 | PERL_ARGS_ASSERT_REG_NAMED_BUFF_EXISTS((rx) ? (void)0 : __assert2("re_comp.c", 8655, __func__, "rx" )); ((key) ? (void)0 : __assert2("re_comp.c", 8655, __func__, "key")); |
8656 | |
8657 | if (rx && RXp_PAREN_NAMES(rx)((rx)->paren_names)) { |
8658 | if (flags & RXapif_ALL0x0200) { |
8659 | return hv_exists_ent(RXp_PAREN_NAMES(rx), key, 0)((Perl_hv_common( (((rx)->paren_names)),(key),((void*)0),0 ,0,0x08,0,(0))) ? (_Bool)1 : (_Bool)0); |
8660 | } else { |
8661 | SV *sv = CALLREG_NAMED_BUFF_FETCH(r, key, flags)(((Perl_ReANY((const REGEXP *)(r)))->engine))->named_buff ( (r), (key), ((void*)0), ((flags) | 0x0001)); |
8662 | if (sv) { |
8663 | SvREFCNT_dec_NN(sv)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (sv); _p; }))); |
8664 | return TRUE(1); |
8665 | } else { |
8666 | return FALSE(0); |
8667 | } |
8668 | } |
8669 | } else { |
8670 | return FALSE(0); |
8671 | } |
8672 | } |
8673 | |
8674 | SV* |
8675 | Perl_reg_named_buff_firstkeymy_reg_named_buff_firstkey(pTHX_ REGEXP * const r, const U32 flags) |
8676 | { |
8677 | struct regexp *const rx = ReANY(r)Perl_ReANY((const REGEXP *)(r)); |
8678 | |
8679 | PERL_ARGS_ASSERT_REG_NAMED_BUFF_FIRSTKEY((rx) ? (void)0 : __assert2("re_comp.c", 8679, __func__, "rx" )); |
8680 | |
8681 | if ( rx && RXp_PAREN_NAMES(rx)((rx)->paren_names) ) { |
8682 | (void)hv_iterinit(RXp_PAREN_NAMES(rx))Perl_hv_iterinit( ((rx)->paren_names)); |
8683 | |
8684 | return CALLREG_NAMED_BUFF_NEXTKEY(r, NULL, flags & ~RXapif_FIRSTKEY)(((Perl_ReANY((const REGEXP *)(r)))->engine))->named_buff_iter ( (r), (((void*)0)), ((flags & ~0x0040) | 0x0080)); |
8685 | } else { |
8686 | return FALSE(0); |
8687 | } |
8688 | } |
8689 | |
8690 | SV* |
8691 | Perl_reg_named_buff_nextkeymy_reg_named_buff_nextkey(pTHX_ REGEXP * const r, const U32 flags) |
8692 | { |
8693 | struct regexp *const rx = ReANY(r)Perl_ReANY((const REGEXP *)(r)); |
8694 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 8694, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 8694, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
8695 | |
8696 | PERL_ARGS_ASSERT_REG_NAMED_BUFF_NEXTKEY((rx) ? (void)0 : __assert2("re_comp.c", 8696, __func__, "rx" )); |
8697 | |
8698 | if (rx && RXp_PAREN_NAMES(rx)((rx)->paren_names)) { |
8699 | HV *hv = RXp_PAREN_NAMES(rx)((rx)->paren_names); |
8700 | HE *temphe; |
8701 | while ( (temphe = hv_iternext_flags(hv, 0)Perl_hv_iternext_flags( hv,0)) ) { |
8702 | IV i; |
8703 | IV parno = 0; |
8704 | SV* sv_dat = HeVAL(temphe)(temphe)->he_valu.hent_val; |
8705 | I32 *nums = (I32*)SvPVX(sv_dat)(*({ SV *const _svpvx = ((SV *)({ void *_p = (sv_dat); _p; }) ); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 8705, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 8705, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 8705, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })); |
8706 | for ( i = 0; i < SvIVX(sv_dat)(*({ const SV *const _svivx = (const SV *)(sv_dat); ((PL_valid_types_IVX [((svtype)((_svivx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 8706, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 8706, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })); i++ ) { |
8707 | if ((I32)(rx->lastparen) >= nums[i] && |
8708 | rx->offs[nums[i]].start != -1 && |
8709 | rx->offs[nums[i]].end != -1) |
8710 | { |
8711 | parno = nums[i]; |
8712 | break; |
8713 | } |
8714 | } |
8715 | if (parno || flags & RXapif_ALL0x0200) { |
8716 | return newSVhek(HeKEY_hek(temphe))Perl_newSVhek( (temphe)->hent_hek); |
8717 | } |
8718 | } |
8719 | } |
8720 | return NULL((void*)0); |
8721 | } |
8722 | |
8723 | SV* |
8724 | Perl_reg_named_buff_scalarmy_reg_named_buff_scalar(pTHX_ REGEXP * const r, const U32 flags) |
8725 | { |
8726 | SV *ret; |
8727 | AV *av; |
8728 | SSize_tssize_t length; |
8729 | struct regexp *const rx = ReANY(r)Perl_ReANY((const REGEXP *)(r)); |
8730 | |
8731 | PERL_ARGS_ASSERT_REG_NAMED_BUFF_SCALAR((rx) ? (void)0 : __assert2("re_comp.c", 8731, __func__, "rx" )); |
8732 | |
8733 | if (rx && RXp_PAREN_NAMES(rx)((rx)->paren_names)) { |
8734 | if (flags & (RXapif_ALL0x0200 | RXapif_REGNAMES_COUNT0x1000)) { |
8735 | return newSViv(HvTOTALKEYS(RXp_PAREN_NAMES(rx)))Perl_newSViv( (((XPVHV*) (((rx)->paren_names))->sv_any) ->xhv_keys)); |
8736 | } else if (flags & RXapif_ONE0x0100) { |
8737 | ret = CALLREG_NAMED_BUFF_ALL(r, (flags | RXapif_REGNAMES))(((Perl_ReANY((const REGEXP *)(r)))->engine))->named_buff ( (r), ((void*)0), ((void*)0), (flags | 0x0800)); |
8738 | av = MUTABLE_AV(SvRV(ret))((AV *)({ void *_p = ((*({ SV *const _svrv = ((SV *)({ void * _p = (ret); _p; })); ((PL_valid_types_RV[((svtype)((_svrv)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c" , 8738, __func__, "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]" )); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 8738, __func__ , "!isGV_with_GP(_svrv)")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 8738, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); }))); _p; })); |
8739 | length = av_tindex(av)Perl_av_top_index( av); |
8740 | SvREFCNT_dec_NN(ret)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (ret); _p; }))); |
8741 | return newSViv(length + 1)Perl_newSViv( length + 1); |
8742 | } else { |
8743 | Perl_croak(aTHX_ "panic: Unknown flags %d in named_buff_scalar", |
8744 | (int)flags); |
8745 | return NULL((void*)0); |
8746 | } |
8747 | } |
8748 | return &PL_sv_undef(PL_sv_immortals[1]); |
8749 | } |
8750 | |
8751 | SV* |
8752 | Perl_reg_named_buff_allmy_reg_named_buff_all(pTHX_ REGEXP * const r, const U32 flags) |
8753 | { |
8754 | struct regexp *const rx = ReANY(r)Perl_ReANY((const REGEXP *)(r)); |
8755 | AV *av = newAV()((AV *)({ void *_p = (Perl_newSV_type( SVt_PVAV)); _p; })); |
8756 | |
8757 | PERL_ARGS_ASSERT_REG_NAMED_BUFF_ALL((rx) ? (void)0 : __assert2("re_comp.c", 8757, __func__, "rx" )); |
8758 | |
8759 | if (rx && RXp_PAREN_NAMES(rx)((rx)->paren_names)) { |
8760 | HV *hv= RXp_PAREN_NAMES(rx)((rx)->paren_names); |
8761 | HE *temphe; |
8762 | (void)hv_iterinit(hv)Perl_hv_iterinit( hv); |
8763 | while ( (temphe = hv_iternext_flags(hv, 0)Perl_hv_iternext_flags( hv,0)) ) { |
8764 | IV i; |
8765 | IV parno = 0; |
8766 | SV* sv_dat = HeVAL(temphe)(temphe)->he_valu.hent_val; |
8767 | I32 *nums = (I32*)SvPVX(sv_dat)(*({ SV *const _svpvx = ((SV *)({ void *_p = (sv_dat); _p; }) ); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 8767, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 8767, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 8767, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })); |
8768 | for ( i = 0; i < SvIVX(sv_dat)(*({ const SV *const _svivx = (const SV *)(sv_dat); ((PL_valid_types_IVX [((svtype)((_svivx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 8768, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 8768, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })); i++ ) { |
8769 | if ((I32)(rx->lastparen) >= nums[i] && |
8770 | rx->offs[nums[i]].start != -1 && |
8771 | rx->offs[nums[i]].end != -1) |
8772 | { |
8773 | parno = nums[i]; |
8774 | break; |
8775 | } |
8776 | } |
8777 | if (parno || flags & RXapif_ALL0x0200) { |
8778 | av_push(av, newSVhek(HeKEY_hek(temphe)))Perl_av_push( av,Perl_newSVhek( (temphe)->hent_hek)); |
8779 | } |
8780 | } |
8781 | } |
8782 | |
8783 | return newRV_noinc(MUTABLE_SV(av))Perl_newRV_noinc( ((SV *)({ void *_p = (av); _p; }))); |
8784 | } |
8785 | |
8786 | void |
8787 | Perl_reg_numbered_buff_fetchmy_reg_numbered_buff_fetch(pTHX_ REGEXP * const r, const I32 paren, |
8788 | SV * const sv) |
8789 | { |
8790 | struct regexp *const rx = ReANY(r)Perl_ReANY((const REGEXP *)(r)); |
8791 | char *s = NULL((void*)0); |
8792 | SSize_tssize_t i = 0; |
8793 | SSize_tssize_t s1, t1; |
8794 | I32 n = paren; |
8795 | |
8796 | PERL_ARGS_ASSERT_REG_NUMBERED_BUFF_FETCH((rx) ? (void)0 : __assert2("re_comp.c", 8796, __func__, "rx" )); |
8797 | |
8798 | if ( n == RX_BUFF_IDX_CARET_PREMATCH-5 |
8799 | || n == RX_BUFF_IDX_CARET_FULLMATCH-3 |
8800 | || n == RX_BUFF_IDX_CARET_POSTMATCH-4 |
8801 | ) |
8802 | { |
8803 | bool_Bool keepcopy = cBOOL(rx->extflags & RXf_PMf_KEEPCOPY)((rx->extflags & (1U << (0 +6))) ? (_Bool)1 : (_Bool )0); |
8804 | if (!keepcopy) { |
8805 | /* on something like |
8806 | * $r = qr/.../; |
8807 | * /$qr/p; |
8808 | * the KEEPCOPY is set on the PMOP rather than the regex */ |
8809 | if (PL_curpm && r == PM_GETRE(PL_curpm)((PL_curpm)->op_pmregexp)) |
8810 | keepcopy = cBOOL(PL_curpm->op_pmflags & PMf_KEEPCOPY)((PL_curpm->op_pmflags & (1U<<6)) ? (_Bool)1 : ( _Bool)0); |
8811 | } |
8812 | if (!keepcopy) |
8813 | goto ret_undef; |
8814 | } |
8815 | |
8816 | if (!rx->subbeg) |
8817 | goto ret_undef; |
8818 | |
8819 | if (n == RX_BUFF_IDX_CARET_FULLMATCH-3) |
8820 | /* no need to distinguish between them any more */ |
8821 | n = RX_BUFF_IDX_FULLMATCH0; |
8822 | |
8823 | if ((n == RX_BUFF_IDX_PREMATCH-2 || n == RX_BUFF_IDX_CARET_PREMATCH-5) |
8824 | && rx->offs[0].start != -1) |
8825 | { |
8826 | /* $`, ${^PREMATCH} */ |
8827 | i = rx->offs[0].start; |
8828 | s = rx->subbeg; |
8829 | } |
8830 | else |
8831 | if ((n == RX_BUFF_IDX_POSTMATCH-1 || n == RX_BUFF_IDX_CARET_POSTMATCH-4) |
8832 | && rx->offs[0].end != -1) |
8833 | { |
8834 | /* $', ${^POSTMATCH} */ |
8835 | s = rx->subbeg - rx->suboffset + rx->offs[0].end; |
8836 | i = rx->sublen + rx->suboffset - rx->offs[0].end; |
8837 | } |
8838 | else |
8839 | if (inRANGE(n, 0, (I32)rx->nparens)(((((I32)rx->nparens) >= (0)) ? (void)0 : __assert2("re_comp.c" , 8839, __func__, "((I32)rx->nparens) >= (0)")), ( (sizeof (n) == sizeof(U8)) ? ((((NV) ((0)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 8839, __func__, "(NV) ((0)) >= 0")), (((NV) ( (((I32)rx->nparens) - (0))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 8839, __func__, "(NV) ((((I32)rx->nparens) - (0))) >= 0" )), (((U64) (((((U8) (n)))) - (((0)) | 0))) <= (((U64) ((( ((I32)rx->nparens) - (0))) | 0))))) : (sizeof(n) == sizeof (U32)) ? ((((NV) ((0)) >= 0) ? (void)0 : __assert2("re_comp.c" , 8839, __func__, "(NV) ((0)) >= 0")), (((NV) ((((I32)rx-> nparens) - (0))) >= 0) ? (void)0 : __assert2("re_comp.c", 8839 , __func__, "(NV) ((((I32)rx->nparens) - (0))) >= 0")), (((U64) (((((U32) (n)))) - (((0)) | 0))) <= (((U64) ((((( I32)rx->nparens) - (0))) | 0))))) : (((sizeof(n) == sizeof (U64)) ? (void)0 : __assert2("re_comp.c", 8839, __func__, "sizeof(n) == sizeof(U64)" )), ((((NV) ((0)) >= 0) ? (void)0 : __assert2("re_comp.c", 8839, __func__, "(NV) ((0)) >= 0")), (((NV) ((((I32)rx-> nparens) - (0))) >= 0) ? (void)0 : __assert2("re_comp.c", 8839 , __func__, "(NV) ((((I32)rx->nparens) - (0))) >= 0")), (((U64) (((((U64) (n)))) - (((0)) | 0))) <= (((U64) ((((( I32)rx->nparens) - (0))) | 0)))))))) && |
8840 | (s1 = rx->offs[n].start) != -1 && |
8841 | (t1 = rx->offs[n].end) != -1) |
8842 | { |
8843 | /* $&, ${^MATCH}, $1 ... */ |
8844 | i = t1 - s1; |
8845 | s = rx->subbeg + s1 - rx->suboffset; |
8846 | } else { |
8847 | goto ret_undef; |
8848 | } |
8849 | |
8850 | assert(s >= rx->subbeg)((s >= rx->subbeg) ? (void)0 : __assert2("re_comp.c", 8850 , __func__, "s >= rx->subbeg")); |
8851 | assert((STRLEN)rx->sublen >= (STRLEN)((s - rx->subbeg) + i) )(((STRLEN)rx->sublen >= (STRLEN)((s - rx->subbeg) + i )) ? (void)0 : __assert2("re_comp.c", 8851, __func__, "(STRLEN)rx->sublen >= (STRLEN)((s - rx->subbeg) + i)" )); |
8852 | if (i >= 0) { |
8853 | #ifdef NO_TAINT_SUPPORT |
8854 | sv_setpvn(sv, s, i)Perl_sv_setpvn( sv,s,i); |
8855 | #else |
8856 | const int oldtainted = TAINT_get(((__builtin_expect(((PL_tainted) ? (_Bool)1 : (_Bool)0),(0)) ) ? (_Bool)1 : (_Bool)0)); |
8857 | TAINT_NOT(PL_tainted = (0)); |
8858 | sv_setpvn(sv, s, i)Perl_sv_setpvn( sv,s,i); |
8859 | TAINT_set(oldtainted)(PL_tainted = (oldtainted)); |
8860 | #endif |
8861 | if (RXp_MATCH_UTF8(rx)(((rx)->extflags) & (1U<<(((0 +12) + 2)+6)))) |
8862 | SvUTF8_on(sv)((sv)->sv_flags |= (0x20000000)); |
8863 | else |
8864 | SvUTF8_off(sv)((sv)->sv_flags &= ~(0x20000000)); |
8865 | if (TAINTING_get(((__builtin_expect(((PL_tainting) ? (_Bool)1 : (_Bool)0),(0) )) ? (_Bool)1 : (_Bool)0))) { |
8866 | if (RXp_MATCH_TAINTED(rx)(((rx)->extflags) & (1U<<(((0 +12) + 2)+12)))) { |
8867 | if (SvTYPE(sv)((svtype)((sv)->sv_flags & 0xff)) >= SVt_PVMG) { |
8868 | MAGIC* const mg = SvMAGIC(sv)(*({ const SV *const _svmagic = (const SV *)(sv); ((((svtype) ((_svmagic)->sv_flags & 0xff)) >= SVt_PVMG) ? (void )0 : __assert2("re_comp.c", 8868, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })); |
8869 | MAGIC* mgt; |
8870 | TAINT(PL_tainted = PL_tainting); |
8871 | SvMAGIC_set(sv, mg->mg_moremagic)do { ((((svtype)((sv)->sv_flags & 0xff)) >= SVt_PVMG ) ? (void)0 : __assert2("re_comp.c", 8871, __func__, "SvTYPE(sv) >= SVt_PVMG" )); (((XPVMG*)(sv)->sv_any)->xmg_u.xmg_magic = (mg-> mg_moremagic)); } while (0); |
8872 | SvTAINT(sv)do { (((((__builtin_expect(((PL_tainting) ? (_Bool)1 : (_Bool )0),(0))) ? (_Bool)1 : (_Bool)0)) || !(((__builtin_expect(((PL_tainted ) ? (_Bool)1 : (_Bool)0),(0))) ? (_Bool)1 : (_Bool)0))) ? (void )0 : __assert2("re_comp.c", 8872, __func__, "TAINTING_get || !TAINT_get" )); if (__builtin_expect((((((__builtin_expect(((PL_tainted) ? (_Bool)1 : (_Bool)0),(0))) ? (_Bool)1 : (_Bool)0))) ? (_Bool )1 : (_Bool)0),(0))) do{ if(__builtin_expect((((((__builtin_expect (((PL_tainting) ? (_Bool)1 : (_Bool)0),(0))) ? (_Bool)1 : (_Bool )0))) ? (_Bool)1 : (_Bool)0),(0))){Perl_sv_magic( (sv),((void *)0),'t',((void*)0),0);} }while (0); } while (0); |
8873 | if ((mgt = SvMAGIC(sv)(*({ const SV *const _svmagic = (const SV *)(sv); ((((svtype) ((_svmagic)->sv_flags & 0xff)) >= SVt_PVMG) ? (void )0 : __assert2("re_comp.c", 8873, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })))) { |
8874 | mg->mg_moremagic = mgt; |
8875 | SvMAGIC_set(sv, mg)do { ((((svtype)((sv)->sv_flags & 0xff)) >= SVt_PVMG ) ? (void)0 : __assert2("re_comp.c", 8875, __func__, "SvTYPE(sv) >= SVt_PVMG" )); (((XPVMG*)(sv)->sv_any)->xmg_u.xmg_magic = (mg)); } while (0); |
8876 | } |
8877 | } else { |
8878 | TAINT(PL_tainted = PL_tainting); |
8879 | SvTAINT(sv)do { (((((__builtin_expect(((PL_tainting) ? (_Bool)1 : (_Bool )0),(0))) ? (_Bool)1 : (_Bool)0)) || !(((__builtin_expect(((PL_tainted ) ? (_Bool)1 : (_Bool)0),(0))) ? (_Bool)1 : (_Bool)0))) ? (void )0 : __assert2("re_comp.c", 8879, __func__, "TAINTING_get || !TAINT_get" )); if (__builtin_expect((((((__builtin_expect(((PL_tainted) ? (_Bool)1 : (_Bool)0),(0))) ? (_Bool)1 : (_Bool)0))) ? (_Bool )1 : (_Bool)0),(0))) do{ if(__builtin_expect((((((__builtin_expect (((PL_tainting) ? (_Bool)1 : (_Bool)0),(0))) ? (_Bool)1 : (_Bool )0))) ? (_Bool)1 : (_Bool)0),(0))){Perl_sv_magic( (sv),((void *)0),'t',((void*)0),0);} }while (0); } while (0); |
8880 | } |
8881 | } else |
8882 | SvTAINTED_off(sv)do{ if(__builtin_expect((((((__builtin_expect(((PL_tainting) ? (_Bool)1 : (_Bool)0),(0))) ? (_Bool)1 : (_Bool)0))) ? (_Bool )1 : (_Bool)0),(0))){Perl_sv_untaint( sv);} }while (0); |
8883 | } |
8884 | } else { |
8885 | ret_undef: |
8886 | sv_set_undef(sv)Perl_sv_set_undef( sv); |
8887 | return; |
8888 | } |
8889 | } |
8890 | |
8891 | void |
8892 | Perl_reg_numbered_buff_storemy_reg_numbered_buff_store(pTHX_ REGEXP * const rx, const I32 paren, |
8893 | SV const * const value) |
8894 | { |
8895 | PERL_ARGS_ASSERT_REG_NUMBERED_BUFF_STORE((rx) ? (void)0 : __assert2("re_comp.c", 8895, __func__, "rx" )); |
8896 | |
8897 | PERL_UNUSED_ARG(rx)((void)sizeof(rx)); |
8898 | PERL_UNUSED_ARG(paren)((void)sizeof(paren)); |
8899 | PERL_UNUSED_ARG(value)((void)sizeof(value)); |
8900 | |
8901 | if (!PL_localizing) |
8902 | Perl_croak_no_modify(); |
8903 | } |
8904 | |
8905 | I32 |
8906 | Perl_reg_numbered_buff_lengthmy_reg_numbered_buff_length(pTHX_ REGEXP * const r, const SV * const sv, |
8907 | const I32 paren) |
8908 | { |
8909 | struct regexp *const rx = ReANY(r)Perl_ReANY((const REGEXP *)(r)); |
8910 | I32 i; |
8911 | I32 s1, t1; |
8912 | |
8913 | PERL_ARGS_ASSERT_REG_NUMBERED_BUFF_LENGTH((rx) ? (void)0 : __assert2("re_comp.c", 8913, __func__, "rx" )); ((sv) ? (void)0 : __assert2("re_comp.c", 8913, __func__, "sv" )); |
8914 | |
8915 | if ( paren == RX_BUFF_IDX_CARET_PREMATCH-5 |
8916 | || paren == RX_BUFF_IDX_CARET_FULLMATCH-3 |
8917 | || paren == RX_BUFF_IDX_CARET_POSTMATCH-4 |
8918 | ) |
8919 | { |
8920 | bool_Bool keepcopy = cBOOL(rx->extflags & RXf_PMf_KEEPCOPY)((rx->extflags & (1U << (0 +6))) ? (_Bool)1 : (_Bool )0); |
8921 | if (!keepcopy) { |
8922 | /* on something like |
8923 | * $r = qr/.../; |
8924 | * /$qr/p; |
8925 | * the KEEPCOPY is set on the PMOP rather than the regex */ |
8926 | if (PL_curpm && r == PM_GETRE(PL_curpm)((PL_curpm)->op_pmregexp)) |
8927 | keepcopy = cBOOL(PL_curpm->op_pmflags & PMf_KEEPCOPY)((PL_curpm->op_pmflags & (1U<<6)) ? (_Bool)1 : ( _Bool)0); |
8928 | } |
8929 | if (!keepcopy) |
8930 | goto warn_undef; |
8931 | } |
8932 | |
8933 | /* Some of this code was originally in C<Perl_magic_len> in F<mg.c> */ |
8934 | switch (paren) { |
8935 | case RX_BUFF_IDX_CARET_PREMATCH-5: /* ${^PREMATCH} */ |
8936 | case RX_BUFF_IDX_PREMATCH-2: /* $` */ |
8937 | if (rx->offs[0].start != -1) { |
8938 | i = rx->offs[0].start; |
8939 | if (i > 0) { |
8940 | s1 = 0; |
8941 | t1 = i; |
8942 | goto getlen; |
8943 | } |
8944 | } |
8945 | return 0; |
8946 | |
8947 | case RX_BUFF_IDX_CARET_POSTMATCH-4: /* ${^POSTMATCH} */ |
8948 | case RX_BUFF_IDX_POSTMATCH-1: /* $' */ |
8949 | if (rx->offs[0].end != -1) { |
8950 | i = rx->sublen - rx->offs[0].end; |
8951 | if (i > 0) { |
8952 | s1 = rx->offs[0].end; |
8953 | t1 = rx->sublen; |
8954 | goto getlen; |
8955 | } |
8956 | } |
8957 | return 0; |
8958 | |
8959 | default: /* $& / ${^MATCH}, $1, $2, ... */ |
8960 | if (paren <= (I32)rx->nparens && |
8961 | (s1 = rx->offs[paren].start) != -1 && |
8962 | (t1 = rx->offs[paren].end) != -1) |
8963 | { |
8964 | i = t1 - s1; |
8965 | goto getlen; |
8966 | } else { |
8967 | warn_undef: |
8968 | if (ckWARN(WARN_UNINITIALIZED)Perl_ckwarn( (41 ))) |
8969 | report_uninit((const SV *)sv)Perl_report_uninit( (const SV *)sv); |
8970 | return 0; |
8971 | } |
8972 | } |
8973 | getlen: |
8974 | if (i > 0 && RXp_MATCH_UTF8(rx)(((rx)->extflags) & (1U<<(((0 +12) + 2)+6)))) { |
8975 | const char * const s = rx->subbeg - rx->suboffset + s1; |
8976 | const U8 *ep; |
8977 | STRLEN el; |
8978 | |
8979 | i = t1 - s1; |
8980 | if (is_utf8_string_loclenPerl_is_utf8_string_loclen((U8*)s, i, &ep, &el)) |
8981 | i = el; |
8982 | } |
8983 | return i; |
8984 | } |
8985 | |
8986 | SV* |
8987 | Perl_reg_qr_packagemy_reg_qr_package(pTHX_ REGEXP * const rx) |
8988 | { |
8989 | PERL_ARGS_ASSERT_REG_QR_PACKAGE((rx) ? (void)0 : __assert2("re_comp.c", 8989, __func__, "rx" )); |
8990 | PERL_UNUSED_ARG(rx)((void)sizeof(rx)); |
8991 | if (0) |
8992 | return NULL((void*)0); |
8993 | else |
8994 | return newSVpvs("Regexp")Perl_newSVpvn( ("" "Regexp" ""), (sizeof("Regexp")-1)); |
8995 | } |
8996 | |
8997 | /* Scans the name of a named buffer from the pattern. |
8998 | * If flags is REG_RSN_RETURN_NULL returns null. |
8999 | * If flags is REG_RSN_RETURN_NAME returns an SV* containing the name |
9000 | * If flags is REG_RSN_RETURN_DATA returns the data SV* corresponding |
9001 | * to the parsed name as looked up in the RExC_paren_names hash. |
9002 | * If there is an error throws a vFAIL().. type exception. |
9003 | */ |
9004 | |
9005 | #define REG_RSN_RETURN_NULL0 0 |
9006 | #define REG_RSN_RETURN_NAME1 1 |
9007 | #define REG_RSN_RETURN_DATA2 2 |
9008 | |
9009 | STATICstatic SV* |
9010 | S_reg_scan_name(pTHX_ RExC_state_t *pRExC_state, U32 flags) |
9011 | { |
9012 | char *name_start = RExC_parse(pRExC_state->parse); |
9013 | SV* sv_name; |
9014 | |
9015 | PERL_ARGS_ASSERT_REG_SCAN_NAME((pRExC_state) ? (void)0 : __assert2("re_comp.c", 9015, __func__ , "pRExC_state")); |
9016 | |
9017 | assert (RExC_parse <= RExC_end)(((pRExC_state->parse) <= (pRExC_state->end)) ? (void )0 : __assert2("re_comp.c", 9017, __func__, "RExC_parse <= RExC_end" )); |
9018 | if (RExC_parse(pRExC_state->parse) == RExC_end(pRExC_state->end)) NOOP(void)0; |
9019 | else if (isIDFIRST_lazy_if_safe(RExC_parse, RExC_end, UTF)((__builtin_expect(((((PL_curcop)->cop_hints + 0) & 0x00000008 ) ? (_Bool)1 : (_Bool)0),(0)) || !(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (( (sizeof(*((pRExC_state->parse) )) == 1) || !(((U64)((*((pRExC_state->parse))) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*((pRExC_state->parse )))] & ((1U << (16)) | (1U << (14)))) == ((1U << (16)) | (1U << (14))))) : ((! (((U8 *) ((pRExC_state ->end))) > ((U8 *) ((pRExC_state->parse))))) ? (Perl__force_out_malformed_utf8_message ( (U8 *) ((U8 *) ((pRExC_state->parse))),(U8 *) ((U8 *) (( pRExC_state->end))),0,1), 0) : (((((U64)(((UV) (((*((U8 *) ((pRExC_state->parse)))) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? ((( (sizeof(*((U8 *) ((pRExC_state-> parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse )))) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*((U8 *) ((pRExC_state->parse))))] & (1U << (16)))) ? (_Bool)1 : (_Bool)0) : ((((( (sizeof(*((U8 *) ((pRExC_state-> parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse )))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "(((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))" )), ( (sizeof((((( (sizeof(*((U8 *) ((pRExC_state->parse)) )) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019, __func__ , "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof (U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_comp.c", 9019, __func__ , "(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0" )), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : (( U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2("re_comp.c" , 9019, __func__, "(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0" )), (((U64) (((((U8) ((((( (sizeof(*((U8 *) ((pRExC_state-> parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse )))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) | 0))))) : (sizeof((((( (sizeof( *((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void) 0 : __assert2("re_comp.c", 9019, __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof (U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_comp.c", 9019, __func__ , "(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0" )), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : (( U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2("re_comp.c" , 9019, __func__, "(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0" )), (((U64) (((((U32) ((((( (sizeof(*((U8 *) ((pRExC_state-> parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse )))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) | 0))))) : (((sizeof((((( (sizeof (*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void) 0 : __assert2("re_comp.c", 9019, __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof (U64)) ? (void)0 : __assert2("re_comp.c", 9019, __func__, "sizeof((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_comp.c", 9019, __func__ , "(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0" )), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : (( U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2("re_comp.c" , 9019, __func__, "(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0" )), (((U64) (((((U64) ((((( (sizeof(*((U8 *) ((pRExC_state-> parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse )))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) | 0))))))))) ? ((__builtin_expect (((((U8 *) ((pRExC_state->end))) - ((U8 *) ((pRExC_state-> parse))) > 1 && (((( (sizeof(*(((U8 *) ((pRExC_state ->parse)))+1)) == 1) || !(((U64)((*(((U8 *) ((pRExC_state-> parse)))+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c" , 9019, __func__, "( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1)) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1)) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019, __func__ , "( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1)) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) ((pRExC_state->parse)))+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : (_Bool)0),(1))) ? ((( (sizeof(( ((((( ( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64 )((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019, __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "(((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))" )), ( (sizeof((((( (sizeof(*((U8 *) ((pRExC_state->parse)) )) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019, __func__ , "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof (U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_comp.c", 9019, __func__ , "(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0" )), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : (( U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2("re_comp.c" , 9019, __func__, "(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0" )), (((U64) (((((U8) ((((( (sizeof(*((U8 *) ((pRExC_state-> parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse )))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) | 0))))) : (sizeof((((( (sizeof( *((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void) 0 : __assert2("re_comp.c", 9019, __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof (U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_comp.c", 9019, __func__ , "(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0" )), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : (( U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2("re_comp.c" , 9019, __func__, "(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0" )), (((U64) (((((U32) ((((( (sizeof(*((U8 *) ((pRExC_state-> parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse )))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) | 0))))) : (((sizeof((((( (sizeof (*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void) 0 : __assert2("re_comp.c", 9019, __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof (U64)) ? (void)0 : __assert2("re_comp.c", 9019, __func__, "sizeof((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_comp.c", 9019, __func__ , "(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0" )), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : (( U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2("re_comp.c" , 9019, __func__, "(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0" )), (((U64) (((((U64) ((((( (sizeof(*((U8 *) ((pRExC_state-> parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse )))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) | 0)))))))))) ? (void)0 : __assert2 ("re_comp.c", 9019, __func__, "(((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"(((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))\")), ( (sizeof((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0\")), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0\")), (((U64) (((((U8) ((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0))))) : (sizeof((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0\")), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0\")), (((U64) (((((U32) ((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0))))) : (((sizeof((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"sizeof((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_comp.c\\\", 9019, __func__, \\\"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0\")), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0\")), (((U64) (((((U64) ((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0)))))))))" )), (((((( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1 )) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019, __func__ , "( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1 )) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1 )) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1 )) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_comp.c", 9019, __func__, "(((( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1 )) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1 )) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1 )) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1 )) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0)) & ~0xFF))\")), ((U8) ((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8 *) ((pRExC_state->parse )))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse )))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c" , 9019, __func__, "( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1 ) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019, __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6 ) | (((((( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 )) ) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ) )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) )) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)((( ((( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019, __func__ , "( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1 ) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019, __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6 ) | (((((( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 )) ) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ) )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) )) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019, __func__, "( (sizeof((((( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8 *) ((pRExC_state->parse)) )+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse )))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c" , 9019, __func__, "( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1 ) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019, __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6 ) | (((((( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 )) ) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ) )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) )) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !( ((U64)((( (((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0) ) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019, __func__ , "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "(((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))" )), ( (sizeof((((( (sizeof(*((U8 *) ((pRExC_state->parse)) )) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019, __func__ , "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof (U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_comp.c", 9019, __func__ , "(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0" )), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : (( U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2("re_comp.c" , 9019, __func__, "(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0" )), (((U64) (((((U8) ((((( (sizeof(*((U8 *) ((pRExC_state-> parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse )))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) | 0))))) : (sizeof((((( (sizeof( *((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void) 0 : __assert2("re_comp.c", 9019, __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof (U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_comp.c", 9019, __func__ , "(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0" )), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : (( U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2("re_comp.c" , 9019, __func__, "(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0" )), (((U64) (((((U32) ((((( (sizeof(*((U8 *) ((pRExC_state-> parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse )))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) | 0))))) : (((sizeof((((( (sizeof (*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void) 0 : __assert2("re_comp.c", 9019, __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof (U64)) ? (void)0 : __assert2("re_comp.c", 9019, __func__, "sizeof((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_comp.c", 9019, __func__ , "(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0" )), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : (( U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2("re_comp.c" , 9019, __func__, "(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0" )), (((U64) (((((U64) ((((( (sizeof(*((U8 *) ((pRExC_state-> parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse )))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) | 0)))))))))) ? (void)0 : __assert2 ("re_comp.c", 9019, __func__, "(((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"(((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))\")), ( (sizeof((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0\")), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0\")), (((U64) (((((U8) ((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0))))) : (sizeof((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0\")), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0\")), (((U64) (((((U32) ((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0))))) : (((sizeof((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"sizeof((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_comp.c\\\", 9019, __func__, \\\"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0\")), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0\")), (((U64) (((((U64) ((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0)))))))))" )), (((((( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1 )) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019, __func__ , "( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1 )) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1 )) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1 )) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_comp.c", 9019, __func__, "(((( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1 )) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1 )) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1 )) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1 )) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0)) & ~0xFF))\")), ((U8) ((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8 *) ((pRExC_state->parse )))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse )))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c" , 9019, __func__, "( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1 ) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019, __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6 ) | (((((( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 )) ) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ) )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) )) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)((( ((( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019, __func__ , "( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1 ) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019, __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6 ) | (((((( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 )) ) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ) )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) )) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019, __func__, "( (sizeof((((( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8 *) ((pRExC_state->parse)) )+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse )))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c" , 9019, __func__, "( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1 ) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019, __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6 ) | (((((( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 )) ) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ) )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) )) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) && (PL_charclass[(U8) (( (((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ( (pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_comp.c", 9019, __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "(((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))" )), ( (sizeof((((( (sizeof(*((U8 *) ((pRExC_state->parse)) )) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019, __func__ , "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof (U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_comp.c", 9019, __func__ , "(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0" )), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : (( U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2("re_comp.c" , 9019, __func__, "(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0" )), (((U64) (((((U8) ((((( (sizeof(*((U8 *) ((pRExC_state-> parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse )))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) | 0))))) : (sizeof((((( (sizeof( *((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void) 0 : __assert2("re_comp.c", 9019, __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof (U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_comp.c", 9019, __func__ , "(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0" )), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : (( U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2("re_comp.c" , 9019, __func__, "(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0" )), (((U64) (((((U32) ((((( (sizeof(*((U8 *) ((pRExC_state-> parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse )))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) | 0))))) : (((sizeof((((( (sizeof (*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void) 0 : __assert2("re_comp.c", 9019, __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof (U64)) ? (void)0 : __assert2("re_comp.c", 9019, __func__, "sizeof((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_comp.c", 9019, __func__ , "(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0" )), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : (( U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2("re_comp.c" , 9019, __func__, "(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0" )), (((U64) (((((U64) ((((( (sizeof(*((U8 *) ((pRExC_state-> parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse )))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) | 0)))))))))) ? (void)0 : __assert2 ("re_comp.c", 9019, __func__, "(((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"(((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))\")), ( (sizeof((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0\")), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0\")), (((U64) (((((U8) ((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0))))) : (sizeof((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0\")), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0\")), (((U64) (((((U32) ((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0))))) : (((sizeof((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"sizeof((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_comp.c\\\", 9019, __func__, \\\"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0\")), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0\")), (((U64) (((((U64) ((((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0)))))))))" )), (((((( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1 )) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019, __func__ , "( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1 )) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1 )) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1 )) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_comp.c", 9019, __func__, "(((( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1 )) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1 )) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1 )) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*(((U8 *) ((pRExC_state->parse)))+1 )) == 1) || !(((U64)((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0)) & ~0xFF))\")), ((U8) ((*(((U8 *) ((pRExC_state->parse)))+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8 *) ((pRExC_state->parse )))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse )))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c" , 9019, __func__, "( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1 ) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019, __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6 ) | (((((( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 )) ) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ) )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) )) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)((( ((( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019, __func__ , "( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1 ) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019, __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6 ) | (((((( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 )) ) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ) )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) )) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019, __func__, "( (sizeof((((( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9019, __func__, \"( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8 *) ((pRExC_state->parse)) )+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse )))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c" , 9019, __func__, "( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1 ) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019, __func__, "( (sizeof(*((U8 *) ((pRExC_state->parse)))) == 1) || !(((U64)((*((U8 *) ((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) ((pRExC_state->parse)))) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6 ) | (((((( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 )) ) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ) )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9019 , __func__, "( (sizeof((*(((U8 *) ((pRExC_state->parse)))+1 ))) == 1) || !(((U64)(((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) ((pRExC_state->parse)))+1 ))) | 0)) )) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (16)))) ? (_Bool)1 : (_Bool)0) : (Perl__force_out_malformed_utf8_message ( (U8 *) ((U8 *) ((pRExC_state->parse))),(U8 *) ((U8 *) (( pRExC_state->end))),0,1), 0)) : Perl__is_utf8_perl_idstart ( (U8 *) ((pRExC_state->parse)),(U8 *) ((pRExC_state->end ))))))) { |
9020 | /* Note that the code here assumes well-formed UTF-8. Skip IDFIRST by |
9021 | * using do...while */ |
9022 | if (UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
9023 | do { |
9024 | RExC_parse(pRExC_state->parse) += UTF8SKIP(RExC_parse)PL_utf8skip[*(const U8*)((pRExC_state->parse))]; |
9025 | } while ( RExC_parse(pRExC_state->parse) < RExC_end(pRExC_state->end) |
9026 | && isWORDCHAR_utf8_safe((U8*)RExC_parse, (U8*) RExC_end)((! (((U8*) (pRExC_state->end)) > ((U8*)(pRExC_state-> parse)))) ? (Perl__force_out_malformed_utf8_message( (U8 *) ( (U8*)(pRExC_state->parse)),(U8 *) ((U8*) (pRExC_state-> end)),0,1), 0) : (((((U64)(((UV) (((*((U8*)(pRExC_state->parse ))) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0))) ) ? ((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(( (U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*((U8*)(pRExC_state->parse)))] & ( 1U << (0)))) ? (_Bool)1 : (_Bool)0) : ((((( (sizeof(*(( U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state ->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c" , 9026, __func__, "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) ? (void)0 : __assert2("re_comp.c", 9026 , __func__, "(((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))" )), ( (sizeof((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof (U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_comp.c", 9026, __func__ , "(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0" )), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : (( U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2("re_comp.c" , 9026, __func__, "(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0" )), (((U64) (((((U8) ((((( (sizeof(*((U8*)(pRExC_state->parse ))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__ , "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))))))) - ((( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= ( ((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6 )) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0))))) : (sizeof((((( (sizeof(*((U8 *)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state ->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c" , 9026, __func__, "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof (U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_comp.c", 9026, __func__ , "(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0" )), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : (( U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2("re_comp.c" , 9026, __func__, "(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0" )), (((U64) (((((U32) ((((( (sizeof(*((U8*)(pRExC_state->parse ))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__ , "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))))))) - ((( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= ( ((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6 )) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0))))) : (((sizeof((((( (sizeof(*( (U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state ->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c" , 9026, __func__, "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof (U64)) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "sizeof((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_comp.c", 9026, __func__ , "(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0" )), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : (( U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2("re_comp.c" , 9026, __func__, "(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0" )), (((U64) (((((U64) ((((( (sizeof(*((U8*)(pRExC_state->parse ))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__ , "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))))))) - ((( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= ( ((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6 )) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0))))))))) ? ((__builtin_expect((( ((U8*) (pRExC_state->end)) - ((U8*)(pRExC_state->parse) ) > 1 && (((( (sizeof(*(((U8*)(pRExC_state->parse ))+1)) == 1) || !(((U64)((*(((U8*)(pRExC_state->parse))+1) ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026 , __func__, "( (sizeof(*(((U8*)(pRExC_state->parse))+1)) == 1) || !(((U64)((*(((U8*)(pRExC_state->parse))+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8*)(pRExC_state->parse))+1)) == 1 ) || !(((U64)((*(((U8*)(pRExC_state->parse))+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof(*(((U8*)(pRExC_state->parse))+1)) == 1) || !(((U64)((*(((U8*)(pRExC_state->parse))+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8*)(pRExC_state->parse))+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : (_Bool)0),(1))) ? ((( (sizeof(( ((((( ( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)( (*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) ? (void)0 : __assert2("re_comp.c", 9026 , __func__, "(((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))" )), ( (sizeof((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof (U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_comp.c", 9026, __func__ , "(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0" )), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : (( U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2("re_comp.c" , 9026, __func__, "(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0" )), (((U64) (((((U8) ((((( (sizeof(*((U8*)(pRExC_state->parse ))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__ , "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))))))) - ((( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= ( ((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6 )) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0))))) : (sizeof((((( (sizeof(*((U8 *)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state ->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c" , 9026, __func__, "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof (U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_comp.c", 9026, __func__ , "(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0" )), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : (( U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2("re_comp.c" , 9026, __func__, "(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0" )), (((U64) (((((U32) ((((( (sizeof(*((U8*)(pRExC_state->parse ))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__ , "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))))))) - ((( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= ( ((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6 )) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0))))) : (((sizeof((((( (sizeof(*( (U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state ->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c" , 9026, __func__, "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof (U64)) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "sizeof((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_comp.c", 9026, __func__ , "(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0" )), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : (( U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2("re_comp.c" , 9026, __func__, "(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0" )), (((U64) (((((U64) ((((( (sizeof(*((U8*)(pRExC_state->parse ))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__ , "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))))))) - ((( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= ( ((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6 )) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0)))))))))) ? (void)0 : __assert2( "re_comp.c", 9026, __func__, "(((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"(((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))\")), ( (sizeof((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0\")), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0\")), (((U64) (((((U8) ((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0))))) : (sizeof((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0\")), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0\")), (((U64) (((((U32) ((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0))))) : (((sizeof((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"sizeof((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_comp.c\\\", 9026, __func__, \\\"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0\")), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0\")), (((U64) (((((U64) ((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0)))))))))" )), (((((( (sizeof(*(((U8*)(pRExC_state->parse))+1 )) == 1 ) || !(((U64)((*(((U8*)(pRExC_state->parse))+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof(*(((U8*)(pRExC_state->parse))+1 )) == 1) || !(((U64)((*(((U8*)(pRExC_state->parse))+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8*)(pRExC_state->parse))+1 )) == 1 ) || !(((U64)((*(((U8*)(pRExC_state->parse))+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof(*(((U8*)(pRExC_state->parse))+1 )) == 1) || !(((U64)((*(((U8*)(pRExC_state->parse))+1 )) | 0)) & ~0xFF))" )), ((U8) ((*(((U8*)(pRExC_state->parse))+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "(((( (sizeof(*(((U8*)(pRExC_state->parse))+1 )) == 1) || !(((U64)((*(((U8*)(pRExC_state->parse))+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*(((U8*)(pRExC_state->parse))+1 )) == 1) || !(((U64)((*(((U8*)(pRExC_state->parse))+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8*)(pRExC_state->parse))+1 )) == 1) || !(((U64)((*(((U8*)(pRExC_state->parse))+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*(((U8*)(pRExC_state->parse))+1 )) == 1) || !(((U64)((*(((U8*)(pRExC_state->parse))+1 )) | 0)) & ~0xFF))\")), ((U8) ((*(((U8*)(pRExC_state->parse))+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8*)(pRExC_state->parse ))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse)) +1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c" , 9026, __func__, "( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))) & ((( 2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)(pRExC_state->parse))+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof ((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)((( *(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))) & ((( 2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)(pRExC_state->parse))+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof((((( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*)(pRExC_state->parse))+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*)(pRExC_state->parse))+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8*)(pRExC_state->parse))+1 ) )) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026 , __func__, "( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))) & ((( 2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)(pRExC_state->parse))+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)(( ( (((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !( ((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) ? (void)0 : __assert2("re_comp.c", 9026 , __func__, "(((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))" )), ( (sizeof((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof (U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_comp.c", 9026, __func__ , "(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0" )), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : (( U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2("re_comp.c" , 9026, __func__, "(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0" )), (((U64) (((((U8) ((((( (sizeof(*((U8*)(pRExC_state->parse ))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__ , "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))))))) - ((( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= ( ((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6 )) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0))))) : (sizeof((((( (sizeof(*((U8 *)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state ->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c" , 9026, __func__, "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof (U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_comp.c", 9026, __func__ , "(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0" )), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : (( U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2("re_comp.c" , 9026, __func__, "(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0" )), (((U64) (((((U32) ((((( (sizeof(*((U8*)(pRExC_state->parse ))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__ , "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))))))) - ((( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= ( ((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6 )) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0))))) : (((sizeof((((( (sizeof(*( (U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state ->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c" , 9026, __func__, "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof (U64)) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "sizeof((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_comp.c", 9026, __func__ , "(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0" )), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : (( U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2("re_comp.c" , 9026, __func__, "(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0" )), (((U64) (((((U64) ((((( (sizeof(*((U8*)(pRExC_state->parse ))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__ , "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))))))) - ((( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= ( ((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6 )) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0)))))))))) ? (void)0 : __assert2( "re_comp.c", 9026, __func__, "(((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"(((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))\")), ( (sizeof((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0\")), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0\")), (((U64) (((((U8) ((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0))))) : (sizeof((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0\")), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0\")), (((U64) (((((U32) ((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0))))) : (((sizeof((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"sizeof((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_comp.c\\\", 9026, __func__, \\\"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0\")), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0\")), (((U64) (((((U64) ((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0)))))))))" )), (((((( (sizeof(*(((U8*)(pRExC_state->parse))+1 )) == 1 ) || !(((U64)((*(((U8*)(pRExC_state->parse))+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof(*(((U8*)(pRExC_state->parse))+1 )) == 1) || !(((U64)((*(((U8*)(pRExC_state->parse))+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8*)(pRExC_state->parse))+1 )) == 1 ) || !(((U64)((*(((U8*)(pRExC_state->parse))+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof(*(((U8*)(pRExC_state->parse))+1 )) == 1) || !(((U64)((*(((U8*)(pRExC_state->parse))+1 )) | 0)) & ~0xFF))" )), ((U8) ((*(((U8*)(pRExC_state->parse))+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "(((( (sizeof(*(((U8*)(pRExC_state->parse))+1 )) == 1) || !(((U64)((*(((U8*)(pRExC_state->parse))+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*(((U8*)(pRExC_state->parse))+1 )) == 1) || !(((U64)((*(((U8*)(pRExC_state->parse))+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8*)(pRExC_state->parse))+1 )) == 1) || !(((U64)((*(((U8*)(pRExC_state->parse))+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*(((U8*)(pRExC_state->parse))+1 )) == 1) || !(((U64)((*(((U8*)(pRExC_state->parse))+1 )) | 0)) & ~0xFF))\")), ((U8) ((*(((U8*)(pRExC_state->parse))+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8*)(pRExC_state->parse ))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse)) +1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c" , 9026, __func__, "( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))) & ((( 2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)(pRExC_state->parse))+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof ((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)((( *(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))) & ((( 2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)(pRExC_state->parse))+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof((((( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*)(pRExC_state->parse))+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*)(pRExC_state->parse))+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8*)(pRExC_state->parse))+1 ) )) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026 , __func__, "( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))) & ((( 2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)(pRExC_state->parse))+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) && (PL_charclass[(U8) (( (((((( (sizeof(*((U8*)(pRExC_state ->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026 , __func__, "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) ? (void)0 : __assert2("re_comp.c", 9026 , __func__, "(((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))" )), ( (sizeof((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof (U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_comp.c", 9026, __func__ , "(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0" )), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : (( U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2("re_comp.c" , 9026, __func__, "(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0" )), (((U64) (((((U8) ((((( (sizeof(*((U8*)(pRExC_state->parse ))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__ , "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))))))) - ((( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= ( ((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6 )) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0))))) : (sizeof((((( (sizeof(*((U8 *)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state ->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c" , 9026, __func__, "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof (U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_comp.c", 9026, __func__ , "(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0" )), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : (( U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2("re_comp.c" , 9026, __func__, "(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0" )), (((U64) (((((U32) ((((( (sizeof(*((U8*)(pRExC_state->parse ))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__ , "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))))))) - ((( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= ( ((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6 )) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0))))) : (((sizeof((((( (sizeof(*( (U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state ->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c" , 9026, __func__, "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof (U64)) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "sizeof((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_comp.c", 9026, __func__ , "(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0" )), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : (( U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) ( 0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2("re_comp.c" , 9026, __func__, "(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0" )), (((U64) (((((U64) ((((( (sizeof(*((U8*)(pRExC_state->parse ))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__ , "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))))))) - ((( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= ( ((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6 )) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0)))))))))) ? (void)0 : __assert2( "re_comp.c", 9026, __func__, "(((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"(((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) >= ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))\")), ( (sizeof((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0\")), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0\")), (((U64) (((((U8) ((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0))))) : (sizeof((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0\")), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0\")), (((U64) (((((U32) ((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0))))) : (((sizeof((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"sizeof((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_comp.c\\\", 9026, __func__, \\\"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"(NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0\")), (((NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"(NV) (((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) >= 0\")), (((U64) (((((U64) ((((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))))))) - ((((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) | 0))) <= (((U64) ((((((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) - 1) - ((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) | 0)))))))))" )), (((((( (sizeof(*(((U8*)(pRExC_state->parse))+1 )) == 1 ) || !(((U64)((*(((U8*)(pRExC_state->parse))+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof(*(((U8*)(pRExC_state->parse))+1 )) == 1) || !(((U64)((*(((U8*)(pRExC_state->parse))+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8*)(pRExC_state->parse))+1 )) == 1 ) || !(((U64)((*(((U8*)(pRExC_state->parse))+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof(*(((U8*)(pRExC_state->parse))+1 )) == 1) || !(((U64)((*(((U8*)(pRExC_state->parse))+1 )) | 0)) & ~0xFF))" )), ((U8) ((*(((U8*)(pRExC_state->parse))+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "(((( (sizeof(*(((U8*)(pRExC_state->parse))+1 )) == 1) || !(((U64)((*(((U8*)(pRExC_state->parse))+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*(((U8*)(pRExC_state->parse))+1 )) == 1) || !(((U64)((*(((U8*)(pRExC_state->parse))+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8*)(pRExC_state->parse))+1 )) == 1) || !(((U64)((*(((U8*)(pRExC_state->parse))+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*(((U8*)(pRExC_state->parse))+1 )) == 1) || !(((U64)((*(((U8*)(pRExC_state->parse))+1 )) | 0)) & ~0xFF))\")), ((U8) ((*(((U8*)(pRExC_state->parse))+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8*)(pRExC_state->parse ))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse)) +1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c" , 9026, __func__, "( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))) & ((( 2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)(pRExC_state->parse))+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof ((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)((( *(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))) & ((( 2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)(pRExC_state->parse))+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof((((( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*)(pRExC_state->parse))+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_comp.c\", 9026, __func__, \"( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*)(pRExC_state->parse))+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8*)(pRExC_state->parse))+1 ) )) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026 , __func__, "( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof(*((U8*)(pRExC_state->parse))) == 1) || !(((U64)((*((U8*)(pRExC_state->parse))) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)(pRExC_state->parse))) | 0))) & ((( 2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 9026, __func__, "( (sizeof((*(((U8*)(pRExC_state->parse))+1 ))) == 1) || !(((U64)(((*(((U8*)(pRExC_state->parse))+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)(pRExC_state->parse))+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (0)))) ? (_Bool)1 : (_Bool)0) : (Perl__force_out_malformed_utf8_message ( (U8 *) ((U8*)(pRExC_state->parse)),(U8 *) ((U8*) (pRExC_state ->end)),0,1), 0)) : Perl__is_utf8_FOO( 0,(U8*)(pRExC_state ->parse),(U8*) (pRExC_state->end))))); |
9027 | else |
9028 | do { |
9029 | RExC_parse(pRExC_state->parse)++; |
9030 | } while (RExC_parse(pRExC_state->parse) < RExC_end(pRExC_state->end) && isWORDCHAR(*RExC_parse)(( (sizeof(*(pRExC_state->parse)) == 1) || !(((U64)((*(pRExC_state ->parse)) | 0)) & ~0xFF)) && ((PL_charclass[(U8 ) (*(pRExC_state->parse))] & ((1U << (0)) | (1U << (14)))) == ((1U << (0)) | (1U << (14)))))); |
9031 | } else { |
9032 | RExC_parse(pRExC_state->parse)++; /* so the <- from the vFAIL is after the offending |
9033 | character */ |
9034 | vFAIL("Group name must start with a non-digit word character")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Group name must start with a non-digit word character" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 9034, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
9035 | } |
9036 | sv_name = newSVpvn_flags(name_start, (int)(RExC_parse - name_start),Perl_newSVpvn_flags( name_start,(int)((pRExC_state->parse) - name_start),0x00080000 | ((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0) ? 0x20000000 : 0)) |
9037 | SVs_TEMP | (UTF ? SVf_UTF8 : 0))Perl_newSVpvn_flags( name_start,(int)((pRExC_state->parse) - name_start),0x00080000 | ((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0) ? 0x20000000 : 0)); |
9038 | if ( flags == REG_RSN_RETURN_NAME1) |
9039 | return sv_name; |
9040 | else if (flags==REG_RSN_RETURN_DATA2) { |
9041 | HE *he_str = NULL((void*)0); |
9042 | SV *sv_dat = NULL((void*)0); |
9043 | if ( ! sv_name ) /* should not happen*/ |
9044 | Perl_croak(aTHX_ "panic: no svname in reg_scan_name"); |
9045 | if (RExC_paren_names(pRExC_state->paren_names)) |
9046 | he_str = hv_fetch_ent( RExC_paren_names, sv_name, 0, 0 )((HE *) Perl_hv_common( ((pRExC_state->paren_names)),(sv_name ),((void*)0),0,0,((0) ? 0x10 : 0),((void*)0),(0))); |
9047 | if ( he_str ) |
9048 | sv_dat = HeVAL(he_str)(he_str)->he_valu.hent_val; |
9049 | if ( ! sv_dat ) { /* Didn't find group */ |
9050 | |
9051 | /* It might be a forward reference; we can't fail until we |
9052 | * know, by completing the parse to get all the groups, and |
9053 | * then reparsing */ |
9054 | if (ALL_PARENS_COUNTED((pRExC_state->total_par) > 0)) { |
9055 | vFAIL("Reference to nonexistent named group")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Reference to nonexistent named group", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 9055, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
9056 | } |
9057 | else { |
9058 | REQUIRE_PARENS_PASSdo { if (! ((pRExC_state->total_par) > 0)) (pRExC_state ->total_par) = -1; } while (0); |
9059 | } |
9060 | } |
9061 | return sv_dat; |
9062 | } |
9063 | |
9064 | Perl_croak(aTHX_ "panic: bad flag %lx in reg_scan_name", |
9065 | (unsigned long) flags); |
9066 | } |
9067 | |
9068 | #define DEBUG_PARSE_MSG(funcname)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) DEBUG_PARSE_r({ \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9069 | if (RExC_lastparse!=RExC_parse) { \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9070 | Perl_re_printf( aTHX_ "%s", \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9071 | Perl_pv_pretty(aTHX_ RExC_mysv1, RExC_parse, \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9072 | RExC_end - RExC_parse, 16, \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9073 | "", "", \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9074 | PERL_PV_ESCAPE_UNI_DETECT | \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9075 | PERL_PV_PRETTY_ELLIPSES | \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9076 | PERL_PV_PRETTY_LTGT | \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9077 | PERL_PV_ESCAPE_RE | \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9078 | PERL_PV_PRETTY_EXACTSIZE \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9079 | ) \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9080 | ); \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9081 | } else \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9082 | Perl_re_printf( aTHX_ "%16s",""); \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9083 | \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9084 | if (RExC_lastnum!=RExC_emit) \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9085 | Perl_re_printf( aTHX_ "|%4zu", RExC_emit); \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9086 | else \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9087 | Perl_re_printf( aTHX_ "|%4s",""); \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9088 | Perl_re_printf( aTHX_ "|%*s%-4s", \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9089 | (int)((depth*2)), "", \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9090 | (funcname) \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9091 | ); \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9092 | RExC_lastnum=RExC_emit; \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9093 | RExC_lastparse=RExC_parse; \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9094 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (funcname) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0) |
9095 | |
9096 | |
9097 | |
9098 | #define DEBUG_PARSE(funcname)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((funcname)) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0); Perl_re_printf( "%4s" ,"\n"); };} while (0) DEBUG_PARSE_r({ \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((funcname)) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0); Perl_re_printf( "%4s" ,"\n"); };} while (0) |
9099 | DEBUG_PARSE_MSG((funcname)); \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((funcname)) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0); Perl_re_printf( "%4s" ,"\n"); };} while (0) |
9100 | Perl_re_printf( aTHX_ "%4s","\n"); \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((funcname)) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0); Perl_re_printf( "%4s" ,"\n"); };} while (0) |
9101 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((funcname)) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0); Perl_re_printf( "%4s" ,"\n"); };} while (0) |
9102 | #define DEBUG_PARSE_FMT(funcname,fmt,args)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((funcname)) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0); Perl_re_printf( fmt "\n",args); };} while (0) DEBUG_PARSE_r({\do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((funcname)) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0); Perl_re_printf( fmt "\n",args); };} while (0) |
9103 | DEBUG_PARSE_MSG((funcname)); \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((funcname)) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0); Perl_re_printf( fmt "\n",args); };} while (0) |
9104 | Perl_re_printf( aTHX_ fmt "\n",args); \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((funcname)) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0); Perl_re_printf( fmt "\n",args); };} while (0) |
9105 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((funcname)) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0); Perl_re_printf( fmt "\n",args); };} while (0) |
9106 | |
9107 | /* This section of code defines the inversion list object and its methods. The |
9108 | * interfaces are highly subject to change, so as much as possible is static to |
9109 | * this file. An inversion list is here implemented as a malloc'd C UV array |
9110 | * as an SVt_INVLIST scalar. |
9111 | * |
9112 | * An inversion list for Unicode is an array of code points, sorted by ordinal |
9113 | * number. Each element gives the code point that begins a range that extends |
9114 | * up-to but not including the code point given by the next element. The final |
9115 | * element gives the first code point of a range that extends to the platform's |
9116 | * infinity. The even-numbered elements (invlist[0], invlist[2], invlist[4], |
9117 | * ...) give ranges whose code points are all in the inversion list. We say |
9118 | * that those ranges are in the set. The odd-numbered elements give ranges |
9119 | * whose code points are not in the inversion list, and hence not in the set. |
9120 | * Thus, element [0] is the first code point in the list. Element [1] |
9121 | * is the first code point beyond that not in the list; and element [2] is the |
9122 | * first code point beyond that that is in the list. In other words, the first |
9123 | * range is invlist[0]..(invlist[1]-1), and all code points in that range are |
9124 | * in the inversion list. The second range is invlist[1]..(invlist[2]-1), and |
9125 | * all code points in that range are not in the inversion list. The third |
9126 | * range invlist[2]..(invlist[3]-1) gives code points that are in the inversion |
9127 | * list, and so forth. Thus every element whose index is divisible by two |
9128 | * gives the beginning of a range that is in the list, and every element whose |
9129 | * index is not divisible by two gives the beginning of a range not in the |
9130 | * list. If the final element's index is divisible by two, the inversion list |
9131 | * extends to the platform's infinity; otherwise the highest code point in the |
9132 | * inversion list is the contents of that element minus 1. |
9133 | * |
9134 | * A range that contains just a single code point N will look like |
9135 | * invlist[i] == N |
9136 | * invlist[i+1] == N+1 |
9137 | * |
9138 | * If N is UV_MAX (the highest representable code point on the machine), N+1 is |
9139 | * impossible to represent, so element [i+1] is omitted. The single element |
9140 | * inversion list |
9141 | * invlist[0] == UV_MAX |
9142 | * contains just UV_MAX, but is interpreted as matching to infinity. |
9143 | * |
9144 | * Taking the complement (inverting) an inversion list is quite simple, if the |
9145 | * first element is 0, remove it; otherwise add a 0 element at the beginning. |
9146 | * This implementation reserves an element at the beginning of each inversion |
9147 | * list to always contain 0; there is an additional flag in the header which |
9148 | * indicates if the list begins at the 0, or is offset to begin at the next |
9149 | * element. This means that the inversion list can be inverted without any |
9150 | * copying; just flip the flag. |
9151 | * |
9152 | * More about inversion lists can be found in "Unicode Demystified" |
9153 | * Chapter 13 by Richard Gillam, published by Addison-Wesley. |
9154 | * |
9155 | * The inversion list data structure is currently implemented as an SV pointing |
9156 | * to an array of UVs that the SV thinks are bytes. This allows us to have an |
9157 | * array of UV whose memory management is automatically handled by the existing |
9158 | * facilities for SV's. |
9159 | * |
9160 | * Some of the methods should always be private to the implementation, and some |
9161 | * should eventually be made public */ |
9162 | |
9163 | /* The header definitions are in F<invlist_inline.h> */ |
9164 | |
9165 | #ifndef PERL_IN_XSUB_RE |
9166 | |
9167 | PERL_STATIC_INLINEstatic __inline__ UV* |
9168 | S__invlist_array_init(SV* const invlist, const bool_Bool will_have_0) |
9169 | { |
9170 | /* Returns a pointer to the first element in the inversion list's array. |
9171 | * This is called upon initialization of an inversion list. Where the |
9172 | * array begins depends on whether the list has the code point U+0000 in it |
9173 | * or not. The other parameter tells it whether the code that follows this |
9174 | * call is about to put a 0 in the inversion list or not. The first |
9175 | * element is either the element reserved for 0, if TRUE, or the element |
9176 | * after it, if FALSE */ |
9177 | |
9178 | bool_Bool* offset = get_invlist_offset_addrS_get_invlist_offset_addr(invlist); |
9179 | UV* zero_addr = (UV *) SvPVX(invlist)(*({ SV *const _svpvx = ((SV *)({ void *_p = (invlist); _p; } )); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 9179, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 9179, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 9179, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })); |
9180 | |
9181 | PERL_ARGS_ASSERT__INVLIST_ARRAY_INIT; |
9182 | |
9183 | /* Must be empty */ |
9184 | assert(! _invlist_len(invlist))((! S__invlist_len(invlist)) ? (void)0 : __assert2("re_comp.c" , 9184, __func__, "! _invlist_len(invlist)")); |
9185 | |
9186 | *zero_addr = 0; |
9187 | |
9188 | /* 1^1 = 0; 1^0 = 1 */ |
9189 | *offset = 1 ^ will_have_0; |
9190 | return zero_addr + *offset; |
9191 | } |
9192 | |
9193 | STATICstatic void |
9194 | S_invlist_replace_list_destroys_src(pTHX_ SV * dest, SV * src) |
9195 | { |
9196 | /* Replaces the inversion list in 'dest' with the one from 'src'. It |
9197 | * steals the list from 'src', so 'src' is made to have a NULL list. This |
9198 | * is similar to what SvSetMagicSV() would do, if it were implemented on |
9199 | * inversion lists, though this routine avoids a copy */ |
9200 | |
9201 | const UV src_len = _invlist_lenS__invlist_len(src); |
9202 | const bool_Bool src_offset = *get_invlist_offset_addrS_get_invlist_offset_addr(src); |
9203 | const STRLEN src_byte_len = SvLEN(src)((XPV*) (src)->sv_any)->xpv_len_u.xpvlenu_len; |
9204 | char * array = SvPVX(src)(*({ SV *const _svpvx = ((SV *)({ void *_p = (src); _p; })); ( (PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 9204, __func__ , "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]")); ((!( (((_svpvx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 9204, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 9204, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })); |
9205 | |
9206 | const int oldtainted = TAINT_get(((__builtin_expect(((PL_tainted) ? (_Bool)1 : (_Bool)0),(0)) ) ? (_Bool)1 : (_Bool)0)); |
9207 | |
9208 | PERL_ARGS_ASSERT_INVLIST_REPLACE_LIST_DESTROYS_SRC; |
9209 | |
9210 | assert(is_invlist(src))((S_is_invlist(src)) ? (void)0 : __assert2("re_comp.c", 9210, __func__, "is_invlist(src)")); |
9211 | assert(is_invlist(dest))((S_is_invlist(dest)) ? (void)0 : __assert2("re_comp.c", 9211 , __func__, "is_invlist(dest)")); |
9212 | assert(! invlist_is_iterating(src))((! S_invlist_is_iterating(src)) ? (void)0 : __assert2("re_comp.c" , 9212, __func__, "! invlist_is_iterating(src)")); |
9213 | assert(SvCUR(src) == 0 || SvCUR(src) < SvLEN(src))(((*({ const SV *const _svcur = (const SV *)(src); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 9213, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 9213, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 9213, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) == 0 || (*({ const SV *const _svcur = (const SV *)(src); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 9213, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 9213, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 9213, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) < ((XPV*) (src)->sv_any)->xpv_len_u .xpvlenu_len) ? (void)0 : __assert2("re_comp.c", 9213, __func__ , "SvCUR(src) == 0 || SvCUR(src) < SvLEN(src)")); |
9214 | |
9215 | /* Make sure it ends in the right place with a NUL, as our inversion list |
9216 | * manipulations aren't careful to keep this true, but sv_usepvn_flags() |
9217 | * asserts it */ |
9218 | array[src_byte_len - 1] = '\0'; |
9219 | |
9220 | TAINT_NOT(PL_tainted = (0)); /* Otherwise it breaks */ |
9221 | sv_usepvn_flags(dest,Perl_sv_usepvn_flags( dest,(char *) array,src_byte_len - 1,256 ) |
9222 | (char *) array,Perl_sv_usepvn_flags( dest,(char *) array,src_byte_len - 1,256 ) |
9223 | src_byte_len - 1,Perl_sv_usepvn_flags( dest,(char *) array,src_byte_len - 1,256 ) |
9224 | |
9225 | /* This flag is documented to cause a copy to be avoided */Perl_sv_usepvn_flags( dest,(char *) array,src_byte_len - 1,256 ) |
9226 | SV_HAS_TRAILING_NUL)Perl_sv_usepvn_flags( dest,(char *) array,src_byte_len - 1,256 ); |
9227 | TAINT_set(oldtainted)(PL_tainted = (oldtainted)); |
9228 | SvPV_set(src, 0)do { ((PL_valid_types_PVX[((svtype)((src)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 9228, __func__ , "PL_valid_types_PVX[SvTYPE(src) & SVt_MASK]")); ((!(((( src)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((src)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((src)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 9228, __func__, "!isGV_with_GP(src)" )); ((!(((svtype)((src)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (src)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 9228, __func__, "!(SvTYPE(src) == SVt_PVIO && !(IoFLAGS(src) & IOf_FAKE_DIRP))" )); ((src)->sv_u.svu_pv = (0)); } while (0); |
9229 | SvLEN_set(src, 0)do { ((PL_valid_types_PVX[((svtype)((src)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 9229, __func__ , "PL_valid_types_PVX[SvTYPE(src) & SVt_MASK]")); ((!(((( src)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((src)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((src)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 9229, __func__, "!isGV_with_GP(src)" )); ((!(((svtype)((src)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (src)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 9229, __func__, "!(SvTYPE(src) == SVt_PVIO && !(IoFLAGS(src) & IOf_FAKE_DIRP))" )); (((XPV*) (src)->sv_any)->xpv_len_u.xpvlenu_len = (0 )); } while (0); |
9230 | SvCUR_set(src, 0)do { ((PL_valid_types_PVX[((svtype)((src)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 9230, __func__ , "PL_valid_types_PVX[SvTYPE(src) & SVt_MASK]")); ((!(((( src)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((src)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((src)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 9230, __func__, "!isGV_with_GP(src)" )); ((!(((svtype)((src)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (src)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 9230, __func__, "!(SvTYPE(src) == SVt_PVIO && !(IoFLAGS(src) & IOf_FAKE_DIRP))" )); (((XPV*) (src)->sv_any)->xpv_cur = (0)); } while (0 ); |
9231 | |
9232 | /* Finish up copying over the other fields in an inversion list */ |
9233 | *get_invlist_offset_addrS_get_invlist_offset_addr(dest) = src_offset; |
9234 | invlist_set_len(dest, src_len, src_offset)S_invlist_set_len( dest,src_len,src_offset); |
9235 | *get_invlist_previous_index_addr(dest) = 0; |
9236 | invlist_iterfinishS_invlist_iterfinish(dest); |
9237 | } |
9238 | |
9239 | PERL_STATIC_INLINEstatic __inline__ IV* |
9240 | S_get_invlist_previous_index_addr(SV* invlist) |
9241 | { |
9242 | /* Return the address of the IV that is reserved to hold the cached index |
9243 | * */ |
9244 | PERL_ARGS_ASSERT_GET_INVLIST_PREVIOUS_INDEX_ADDR; |
9245 | |
9246 | assert(is_invlist(invlist))((S_is_invlist(invlist)) ? (void)0 : __assert2("re_comp.c", 9246 , __func__, "is_invlist(invlist)")); |
9247 | |
9248 | return &(((XINVLIST*) SvANY(invlist)(invlist)->sv_any)->prev_index); |
9249 | } |
9250 | |
9251 | PERL_STATIC_INLINEstatic __inline__ IV |
9252 | S_invlist_previous_index(SV* const invlist) |
9253 | { |
9254 | /* Returns cached index of previous search */ |
9255 | |
9256 | PERL_ARGS_ASSERT_INVLIST_PREVIOUS_INDEX; |
9257 | |
9258 | return *get_invlist_previous_index_addr(invlist); |
9259 | } |
9260 | |
9261 | PERL_STATIC_INLINEstatic __inline__ void |
9262 | S_invlist_set_previous_index(SV* const invlist, const IV index) |
9263 | { |
9264 | /* Caches <index> for later retrieval */ |
9265 | |
9266 | PERL_ARGS_ASSERT_INVLIST_SET_PREVIOUS_INDEX; |
9267 | |
9268 | assert(index == 0 || index < (int) _invlist_len(invlist))((index == 0 || index < (int) S__invlist_len(invlist)) ? ( void)0 : __assert2("re_comp.c", 9268, __func__, "index == 0 || index < (int) _invlist_len(invlist)" )); |
9269 | |
9270 | *get_invlist_previous_index_addr(invlist) = index; |
9271 | } |
9272 | |
9273 | PERL_STATIC_INLINEstatic __inline__ void |
9274 | S_invlist_trim(SV* invlist) |
9275 | { |
9276 | /* Free the not currently-being-used space in an inversion list */ |
9277 | |
9278 | /* But don't free up the space needed for the 0 UV that is always at the |
9279 | * beginning of the list, nor the trailing NUL */ |
9280 | const UV min_size = TO_INTERNAL_SIZE(1) + 1; |
9281 | |
9282 | PERL_ARGS_ASSERT_INVLIST_TRIM; |
9283 | |
9284 | assert(is_invlist(invlist))((S_is_invlist(invlist)) ? (void)0 : __assert2("re_comp.c", 9284 , __func__, "is_invlist(invlist)")); |
9285 | |
9286 | SvPV_renew(invlist, MAX(min_size, SvCUR(invlist) + 1))do { do { ((PL_valid_types_PVX[((svtype)((invlist)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 9286, __func__, "PL_valid_types_PVX[SvTYPE(invlist) & SVt_MASK]" )); ((!((((invlist)->sv_flags & (0x00004000|0x00008000 )) == 0x00008000) && (((svtype)((invlist)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((invlist)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c" , 9286, __func__, "!isGV_with_GP(invlist)")); ((!(((svtype)(( invlist)->sv_flags & 0xff)) == SVt_PVIO && !(( (XPVIO*) (invlist)->sv_any)->xio_flags & 64))) ? (void )0 : __assert2("re_comp.c", 9286, __func__, "!(SvTYPE(invlist) == SVt_PVIO && !(IoFLAGS(invlist) & IOf_FAKE_DIRP))" )); (((XPV*) (invlist)->sv_any)->xpv_len_u.xpvlenu_len = ((((min_size)>((*({ const SV *const _svcur = (const SV *) (invlist); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 9286, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 9286, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 9286, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) + 1))?(min_size):((*({ const SV *const _svcur = (const SV *)(invlist); ((PL_valid_types_PVX[((svtype)((_svcur )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 9286, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 9286, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 9286, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) + 1)))); } while (0); do { ((PL_valid_types_PVX [((svtype)(((invlist))->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 9286, __func__, "PL_valid_types_PVX[SvTYPE((invlist)) & SVt_MASK]" )); ((!(((((invlist))->sv_flags & (0x00004000|0x00008000 )) == 0x00008000) && (((svtype)(((invlist))->sv_flags & 0xff)) == SVt_PVGV || ((svtype)(((invlist))->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c" , 9286, __func__, "!isGV_with_GP((invlist))")); ((!(((svtype) (((invlist))->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) ((invlist))->sv_any)->xio_flags & 64)) ) ? (void)0 : __assert2("re_comp.c", 9286, __func__, "!(SvTYPE((invlist)) == SVt_PVIO && !(IoFLAGS((invlist)) & IOf_FAKE_DIRP))" )); (((invlist))->sv_u.svu_pv = (((void)(__builtin_expect( ((((( sizeof(size_t) < sizeof((((min_size)>((*({ const SV *const _svcur = (const SV *)(invlist); ((PL_valid_types_PVX[ ((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 9286, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 9286, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 9286, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) + 1))?(min_size):((*({ const SV *const _svcur = (const SV *)(invlist); ((PL_valid_types_PVX[((svtype)((_svcur )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 9286, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 9286, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 9286, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) + 1))) || sizeof(char) > ((size_t)1 << 8*(sizeof(size_t) - sizeof((((min_size)>((*({ const SV *const _svcur = (const SV *)(invlist); ((PL_valid_types_PVX[((svtype )((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 9286, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 9286, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 9286, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) + 1))?(min_size):((*({ const SV *const _svcur = (const SV *)(invlist); ((PL_valid_types_PVX[((svtype)((_svcur )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 9286, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 9286, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 9286, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) + 1)))))) ? (size_t)((((min_size)>((*( { const SV *const _svcur = (const SV *)(invlist); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 9286, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 9286, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 9286, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) + 1))?(min_size):((*({ const SV *const _svcur = (const SV *)(invlist); ((PL_valid_types_PVX[((svtype)((_svcur )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 9286, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 9286, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 9286, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) + 1))) : ((size_t)-1)/sizeof(char)) > ( (size_t)-1)/sizeof(char))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), (char*)Perl_safesysrealloc((void *)(*({ SV *const _svpvx = ((SV *)({ void *_p = (invlist); _p ; })); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 9286, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 9286, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 9286, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })), (size_t)(((((min_size )>((*({ const SV *const _svcur = (const SV *)(invlist); (( PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 9286, __func__ , "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]")); ((!( (((_svcur)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 9286, __func__, "!isGV_with_GP(_svcur)" )); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 9286, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) + 1))?(min_size):((*({ const SV *const _svcur = (const SV *)(invlist); ((PL_valid_types_PVX[((svtype)((_svcur )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 9286, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 9286, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 9286, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) + 1)))))))); } while (0); } while (0); |
9287 | } |
9288 | |
9289 | PERL_STATIC_INLINEstatic __inline__ void |
9290 | S_invlist_clear(pTHX_ SV* invlist) /* Empty the inversion list */ |
9291 | { |
9292 | PERL_ARGS_ASSERT_INVLIST_CLEAR; |
9293 | |
9294 | assert(is_invlist(invlist))((S_is_invlist(invlist)) ? (void)0 : __assert2("re_comp.c", 9294 , __func__, "is_invlist(invlist)")); |
9295 | |
9296 | invlist_set_len(invlist, 0, 0)S_invlist_set_len( invlist,0,0); |
9297 | invlist_trim(invlist); |
9298 | } |
9299 | |
9300 | #endif /* ifndef PERL_IN_XSUB_RE */ |
9301 | |
9302 | PERL_STATIC_INLINEstatic __inline__ bool_Bool |
9303 | S_invlist_is_iterating(SV* const invlist) |
9304 | { |
9305 | PERL_ARGS_ASSERT_INVLIST_IS_ITERATING((invlist) ? (void)0 : __assert2("re_comp.c", 9305, __func__, "invlist")); |
9306 | |
9307 | return *(get_invlist_iter_addrS_get_invlist_iter_addr(invlist)) < (STRLEN) UV_MAX(~(UV)0); |
9308 | } |
9309 | |
9310 | #ifndef PERL_IN_XSUB_RE |
9311 | |
9312 | PERL_STATIC_INLINEstatic __inline__ UV |
9313 | S_invlist_max(SV* const invlist) |
9314 | { |
9315 | /* Returns the maximum number of elements storable in the inversion list's |
9316 | * array, without having to realloc() */ |
9317 | |
9318 | PERL_ARGS_ASSERT_INVLIST_MAX; |
9319 | |
9320 | assert(is_invlist(invlist))((S_is_invlist(invlist)) ? (void)0 : __assert2("re_comp.c", 9320 , __func__, "is_invlist(invlist)")); |
9321 | |
9322 | /* Assumes worst case, in which the 0 element is not counted in the |
9323 | * inversion list, so subtracts 1 for that */ |
9324 | return SvLEN(invlist)((XPV*) (invlist)->sv_any)->xpv_len_u.xpvlenu_len == 0 /* This happens under _new_invlist_C_array */ |
9325 | ? FROM_INTERNAL_SIZE(SvCUR(invlist)(*({ const SV *const _svcur = (const SV *)(invlist); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 9325, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 9325, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 9325, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))) - 1 |
9326 | : FROM_INTERNAL_SIZE(SvLEN(invlist)((XPV*) (invlist)->sv_any)->xpv_len_u.xpvlenu_len) - 1; |
9327 | } |
9328 | |
9329 | STATICstatic void |
9330 | S_initialize_invlist_guts(pTHX_ SV* invlist, const Size_tsize_t initial_size) |
9331 | { |
9332 | PERL_ARGS_ASSERT_INITIALIZE_INVLIST_GUTS; |
9333 | |
9334 | /* First 1 is in case the zero element isn't in the list; second 1 is for |
9335 | * trailing NUL */ |
9336 | SvGROW(invlist, TO_INTERNAL_SIZE(initial_size + 1) + 1)(((invlist)->sv_flags & 0x10000000) || ((XPV*) (invlist )->sv_any)->xpv_len_u.xpvlenu_len < (TO_INTERNAL_SIZE (initial_size + 1) + 1) ? Perl_sv_grow( invlist,TO_INTERNAL_SIZE (initial_size + 1) + 1) : (*({ SV *const _svpvx = ((SV *)({ void *_p = (invlist); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 9336, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 9336, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 9336, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))); |
9337 | invlist_set_len(invlist, 0, 0)S_invlist_set_len( invlist,0,0); |
9338 | |
9339 | /* Force iterinit() to be used to get iteration to work */ |
9340 | invlist_iterfinishS_invlist_iterfinish(invlist); |
9341 | |
9342 | *get_invlist_previous_index_addr(invlist) = 0; |
9343 | SvPOK_on(invlist)(((!((invlist)->sv_flags & 0x00000800) || !(*({ SV *const _svrv = ((SV *)({ void *_p = (invlist); _p; })); ((PL_valid_types_RV [((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 9343, __func__, "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]" )); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 9343, __func__ , "!isGV_with_GP(_svrv)")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 9343, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); }))) ? (void)0 : __assert2 ("re_comp.c", 9343, __func__, "!((invlist)->sv_flags & 0x00000800) || !(*({ SV *const _svrv = ((SV *)({ void *_p = (invlist); _p; })); ((PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2(\"re_comp.c\", 9343, __func__, \"PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]\")); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2(\"re_comp.c\", 9343, __func__, \"!isGV_with_GP(_svrv)\")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2(\"re_comp.c\", 9343, __func__, \"!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))\")); &((_svrv)->sv_u.svu_rv); }))" )), ((!((((invlist)->sv_flags & (0x00004000|0x00008000 )) == 0x00008000) && (((svtype)((invlist)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((invlist)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c" , 9343, __func__, "!((((invlist)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((invlist)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((invlist)->sv_flags & 0xff)) == SVt_PVLV))" )), (invlist)->sv_flags |= (0x00000400|0x00004000)); /* This allows B to extract the PV */ |
9344 | } |
9345 | |
9346 | SV* |
9347 | Perl__new_invlist(pTHX_ IV initial_size) |
9348 | { |
9349 | |
9350 | /* Return a pointer to a newly constructed inversion list, with enough |
9351 | * space to store 'initial_size' elements. If that number is negative, a |
9352 | * system default is used instead */ |
9353 | |
9354 | SV* new_list; |
9355 | |
9356 | if (initial_size < 0) { |
9357 | initial_size = 10; |
9358 | } |
9359 | |
9360 | new_list = newSV_type(SVt_INVLIST)Perl_newSV_type( SVt_INVLIST); |
9361 | initialize_invlist_guts(new_list, initial_size); |
9362 | |
9363 | return new_list; |
9364 | } |
9365 | |
9366 | SV* |
9367 | Perl__new_invlist_C_array(pTHX_ const UV* const list) |
9368 | { |
9369 | /* Return a pointer to a newly constructed inversion list, initialized to |
9370 | * point to <list>, which has to be in the exact correct inversion list |
9371 | * form, including internal fields. Thus this is a dangerous routine that |
9372 | * should not be used in the wrong hands. The passed in 'list' contains |
9373 | * several header fields at the beginning that are not part of the |
9374 | * inversion list body proper */ |
9375 | |
9376 | const STRLEN length = (STRLEN) list[0]; |
9377 | const UV version_id = list[1]; |
9378 | const bool_Bool offset = cBOOL(list[2])((list[2]) ? (_Bool)1 : (_Bool)0); |
9379 | #define HEADER_LENGTH 3 |
9380 | /* If any of the above changes in any way, you must change HEADER_LENGTH |
9381 | * (if appropriate) and regenerate INVLIST_VERSION_ID by running |
9382 | * perl -E 'say int(rand 2**31-1)' |
9383 | */ |
9384 | #define INVLIST_VERSION_ID 148565664 /* This is a combination of a version and |
9385 | data structure type, so that one being |
9386 | passed in can be validated to be an |
9387 | inversion list of the correct vintage. |
9388 | */ |
9389 | |
9390 | SV* invlist = newSV_type(SVt_INVLIST)Perl_newSV_type( SVt_INVLIST); |
9391 | |
9392 | PERL_ARGS_ASSERT__NEW_INVLIST_C_ARRAY((list) ? (void)0 : __assert2("re_comp.c", 9392, __func__, "list" )); |
9393 | |
9394 | if (version_id != INVLIST_VERSION_ID) { |
9395 | Perl_croak(aTHX_ "panic: Incorrect version for previously generated inversion list"); |
9396 | } |
9397 | |
9398 | /* The generated array passed in includes header elements that aren't part |
9399 | * of the list proper, so start it just after them */ |
9400 | SvPV_set(invlist, (char *) (list + HEADER_LENGTH))do { ((PL_valid_types_PVX[((svtype)((invlist)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 9400, __func__, "PL_valid_types_PVX[SvTYPE(invlist) & SVt_MASK]" )); ((!((((invlist)->sv_flags & (0x00004000|0x00008000 )) == 0x00008000) && (((svtype)((invlist)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((invlist)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c" , 9400, __func__, "!isGV_with_GP(invlist)")); ((!(((svtype)(( invlist)->sv_flags & 0xff)) == SVt_PVIO && !(( (XPVIO*) (invlist)->sv_any)->xio_flags & 64))) ? (void )0 : __assert2("re_comp.c", 9400, __func__, "!(SvTYPE(invlist) == SVt_PVIO && !(IoFLAGS(invlist) & IOf_FAKE_DIRP))" )); ((invlist)->sv_u.svu_pv = ((char *) (list + HEADER_LENGTH ))); } while (0); |
9401 | |
9402 | SvLEN_set(invlist, 0)do { ((PL_valid_types_PVX[((svtype)((invlist)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 9402, __func__, "PL_valid_types_PVX[SvTYPE(invlist) & SVt_MASK]" )); ((!((((invlist)->sv_flags & (0x00004000|0x00008000 )) == 0x00008000) && (((svtype)((invlist)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((invlist)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c" , 9402, __func__, "!isGV_with_GP(invlist)")); ((!(((svtype)(( invlist)->sv_flags & 0xff)) == SVt_PVIO && !(( (XPVIO*) (invlist)->sv_any)->xio_flags & 64))) ? (void )0 : __assert2("re_comp.c", 9402, __func__, "!(SvTYPE(invlist) == SVt_PVIO && !(IoFLAGS(invlist) & IOf_FAKE_DIRP))" )); (((XPV*) (invlist)->sv_any)->xpv_len_u.xpvlenu_len = (0)); } while (0); /* Means we own the contents, and the system |
9403 | shouldn't touch it */ |
9404 | |
9405 | *(get_invlist_offset_addrS_get_invlist_offset_addr(invlist)) = offset; |
9406 | |
9407 | /* The 'length' passed to us is the physical number of elements in the |
9408 | * inversion list. But if there is an offset the logical number is one |
9409 | * less than that */ |
9410 | invlist_set_len(invlist, length - offset, offset)S_invlist_set_len( invlist,length - offset,offset); |
9411 | |
9412 | invlist_set_previous_index(invlist, 0); |
9413 | |
9414 | /* Initialize the iteration pointer. */ |
9415 | invlist_iterfinishS_invlist_iterfinish(invlist); |
9416 | |
9417 | SvREADONLY_on(invlist)((invlist)->sv_flags |= 0x08000000); |
9418 | SvPOK_on(invlist)(((!((invlist)->sv_flags & 0x00000800) || !(*({ SV *const _svrv = ((SV *)({ void *_p = (invlist); _p; })); ((PL_valid_types_RV [((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 9418, __func__, "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]" )); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 9418, __func__ , "!isGV_with_GP(_svrv)")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 9418, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); }))) ? (void)0 : __assert2 ("re_comp.c", 9418, __func__, "!((invlist)->sv_flags & 0x00000800) || !(*({ SV *const _svrv = ((SV *)({ void *_p = (invlist); _p; })); ((PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2(\"re_comp.c\", 9418, __func__, \"PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]\")); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2(\"re_comp.c\", 9418, __func__, \"!isGV_with_GP(_svrv)\")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2(\"re_comp.c\", 9418, __func__, \"!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))\")); &((_svrv)->sv_u.svu_rv); }))" )), ((!((((invlist)->sv_flags & (0x00004000|0x00008000 )) == 0x00008000) && (((svtype)((invlist)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((invlist)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c" , 9418, __func__, "!((((invlist)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((invlist)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((invlist)->sv_flags & 0xff)) == SVt_PVLV))" )), (invlist)->sv_flags |= (0x00000400|0x00004000)); |
9419 | |
9420 | return invlist; |
9421 | } |
9422 | |
9423 | STATICstatic void |
9424 | S__append_range_to_invlist(pTHX_ SV* const invlist, |
9425 | const UV start, const UV end) |
9426 | { |
9427 | /* Subject to change or removal. Append the range from 'start' to 'end' at |
9428 | * the end of the inversion list. The range must be above any existing |
9429 | * ones. */ |
9430 | |
9431 | UV* array; |
9432 | UV max = invlist_max(invlist); |
9433 | UV len = _invlist_lenS__invlist_len(invlist); |
9434 | bool_Bool offset; |
9435 | |
9436 | PERL_ARGS_ASSERT__APPEND_RANGE_TO_INVLIST; |
9437 | |
9438 | if (len == 0) { /* Empty lists must be initialized */ |
9439 | offset = start != 0; |
9440 | array = _invlist_array_init(invlist, ! offset); |
9441 | } |
9442 | else { |
9443 | /* Here, the existing list is non-empty. The current max entry in the |
9444 | * list is generally the first value not in the set, except when the |
9445 | * set extends to the end of permissible values, in which case it is |
9446 | * the first entry in that final set, and so this call is an attempt to |
9447 | * append out-of-order */ |
9448 | |
9449 | UV final_element = len - 1; |
9450 | array = invlist_arrayS_invlist_array(invlist); |
9451 | if ( array[final_element] > start |
9452 | || ELEMENT_RANGE_MATCHES_INVLIST(final_element)(! ((final_element) & 1))) |
9453 | { |
9454 | Perl_croak(aTHX_ "panic: attempting to append to an inversion list, but wasn't at the end of the list, final=%" UVuf"lu" ", start=%" UVuf"lu" ", match=%c", |
9455 | array[final_element], start, |
9456 | ELEMENT_RANGE_MATCHES_INVLIST(final_element)(! ((final_element) & 1)) ? 't' : 'f'); |
9457 | } |
9458 | |
9459 | /* Here, it is a legal append. If the new range begins 1 above the end |
9460 | * of the range below it, it is extending the range below it, so the |
9461 | * new first value not in the set is one greater than the newly |
9462 | * extended range. */ |
9463 | offset = *get_invlist_offset_addrS_get_invlist_offset_addr(invlist); |
9464 | if (array[final_element] == start) { |
9465 | if (end != UV_MAX(~(UV)0)) { |
9466 | array[final_element] = end + 1; |
9467 | } |
9468 | else { |
9469 | /* But if the end is the maximum representable on the machine, |
9470 | * assume that infinity was actually what was meant. Just let |
9471 | * the range that this would extend to have no end */ |
9472 | invlist_set_len(invlist, len - 1, offset)S_invlist_set_len( invlist,len - 1,offset); |
9473 | } |
9474 | return; |
9475 | } |
9476 | } |
9477 | |
9478 | /* Here the new range doesn't extend any existing set. Add it */ |
9479 | |
9480 | len += 2; /* Includes an element each for the start and end of range */ |
9481 | |
9482 | /* If wll overflow the existing space, extend, which may cause the array to |
9483 | * be moved */ |
9484 | if (max < len) { |
9485 | invlist_extend(invlist, len)S_invlist_extend( invlist,len); |
9486 | |
9487 | /* Have to set len here to avoid assert failure in invlist_array() */ |
9488 | invlist_set_len(invlist, len, offset)S_invlist_set_len( invlist,len,offset); |
9489 | |
9490 | array = invlist_arrayS_invlist_array(invlist); |
9491 | } |
9492 | else { |
9493 | invlist_set_len(invlist, len, offset)S_invlist_set_len( invlist,len,offset); |
9494 | } |
9495 | |
9496 | /* The next item on the list starts the range, the one after that is |
9497 | * one past the new range. */ |
9498 | array[len - 2] = start; |
9499 | if (end != UV_MAX(~(UV)0)) { |
9500 | array[len - 1] = end + 1; |
9501 | } |
9502 | else { |
9503 | /* But if the end is the maximum representable on the machine, just let |
9504 | * the range have no end */ |
9505 | invlist_set_len(invlist, len - 1, offset)S_invlist_set_len( invlist,len - 1,offset); |
9506 | } |
9507 | } |
9508 | |
9509 | SSize_tssize_t |
9510 | Perl__invlist_search(SV* const invlist, const UV cp) |
9511 | { |
9512 | /* Searches the inversion list for the entry that contains the input code |
9513 | * point <cp>. If <cp> is not in the list, -1 is returned. Otherwise, the |
9514 | * return value is the index into the list's array of the range that |
9515 | * contains <cp>, that is, 'i' such that |
9516 | * array[i] <= cp < array[i+1] |
9517 | */ |
9518 | |
9519 | IV low = 0; |
9520 | IV mid; |
9521 | IV high = _invlist_lenS__invlist_len(invlist); |
9522 | const IV highest_element = high - 1; |
9523 | const UV* array; |
9524 | |
9525 | PERL_ARGS_ASSERT__INVLIST_SEARCH((invlist) ? (void)0 : __assert2("re_comp.c", 9525, __func__, "invlist")); |
9526 | |
9527 | /* If list is empty, return failure. */ |
9528 | if (high == 0) { |
9529 | return -1; |
9530 | } |
9531 | |
9532 | /* (We can't get the array unless we know the list is non-empty) */ |
9533 | array = invlist_arrayS_invlist_array(invlist); |
9534 | |
9535 | mid = invlist_previous_index(invlist); |
9536 | assert(mid >=0)((mid >=0) ? (void)0 : __assert2("re_comp.c", 9536, __func__ , "mid >=0")); |
9537 | if (mid > highest_element) { |
9538 | mid = highest_element; |
9539 | } |
9540 | |
9541 | /* <mid> contains the cache of the result of the previous call to this |
9542 | * function (0 the first time). See if this call is for the same result, |
9543 | * or if it is for mid-1. This is under the theory that calls to this |
9544 | * function will often be for related code points that are near each other. |
9545 | * And benchmarks show that caching gives better results. We also test |
9546 | * here if the code point is within the bounds of the list. These tests |
9547 | * replace others that would have had to be made anyway to make sure that |
9548 | * the array bounds were not exceeded, and these give us extra information |
9549 | * at the same time */ |
9550 | if (cp >= array[mid]) { |
9551 | if (cp >= array[highest_element]) { |
9552 | return highest_element; |
9553 | } |
9554 | |
9555 | /* Here, array[mid] <= cp < array[highest_element]. This means that |
9556 | * the final element is not the answer, so can exclude it; it also |
9557 | * means that <mid> is not the final element, so can refer to 'mid + 1' |
9558 | * safely */ |
9559 | if (cp < array[mid + 1]) { |
9560 | return mid; |
9561 | } |
9562 | high--; |
9563 | low = mid + 1; |
9564 | } |
9565 | else { /* cp < aray[mid] */ |
9566 | if (cp < array[0]) { /* Fail if outside the array */ |
9567 | return -1; |
9568 | } |
9569 | high = mid; |
9570 | if (cp >= array[mid - 1]) { |
9571 | goto found_entry; |
9572 | } |
9573 | } |
9574 | |
9575 | /* Binary search. What we are looking for is <i> such that |
9576 | * array[i] <= cp < array[i+1] |
9577 | * The loop below converges on the i+1. Note that there may not be an |
9578 | * (i+1)th element in the array, and things work nonetheless */ |
9579 | while (low < high) { |
9580 | mid = (low + high) / 2; |
9581 | assert(mid <= highest_element)((mid <= highest_element) ? (void)0 : __assert2("re_comp.c" , 9581, __func__, "mid <= highest_element")); |
9582 | if (array[mid] <= cp) { /* cp >= array[mid] */ |
9583 | low = mid + 1; |
9584 | |
9585 | /* We could do this extra test to exit the loop early. |
9586 | if (cp < array[low]) { |
9587 | return mid; |
9588 | } |
9589 | */ |
9590 | } |
9591 | else { /* cp < array[mid] */ |
9592 | high = mid; |
9593 | } |
9594 | } |
9595 | |
9596 | found_entry: |
9597 | high--; |
9598 | invlist_set_previous_index(invlist, high); |
9599 | return high; |
9600 | } |
9601 | |
9602 | void |
9603 | Perl__invlist_union_maybe_complement_2nd(pTHX_ SV* const a, SV* const b, |
9604 | const bool_Bool complement_b, SV** output) |
9605 | { |
9606 | /* Take the union of two inversion lists and point '*output' to it. On |
9607 | * input, '*output' MUST POINT TO NULL OR TO AN SV* INVERSION LIST (possibly |
9608 | * even 'a' or 'b'). If to an inversion list, the contents of the original |
9609 | * list will be replaced by the union. The first list, 'a', may be |
9610 | * NULL, in which case a copy of the second list is placed in '*output'. |
9611 | * If 'complement_b' is TRUE, the union is taken of the complement |
9612 | * (inversion) of 'b' instead of b itself. |
9613 | * |
9614 | * The basis for this comes from "Unicode Demystified" Chapter 13 by |
9615 | * Richard Gillam, published by Addison-Wesley, and explained at some |
9616 | * length there. The preface says to incorporate its examples into your |
9617 | * code at your own risk. |
9618 | * |
9619 | * The algorithm is like a merge sort. */ |
9620 | |
9621 | const UV* array_a; /* a's array */ |
9622 | const UV* array_b; |
9623 | UV len_a; /* length of a's array */ |
9624 | UV len_b; |
9625 | |
9626 | SV* u; /* the resulting union */ |
9627 | UV* array_u; |
9628 | UV len_u = 0; |
9629 | |
9630 | UV i_a = 0; /* current index into a's array */ |
9631 | UV i_b = 0; |
9632 | UV i_u = 0; |
9633 | |
9634 | /* running count, as explained in the algorithm source book; items are |
9635 | * stopped accumulating and are output when the count changes to/from 0. |
9636 | * The count is incremented when we start a range that's in an input's set, |
9637 | * and decremented when we start a range that's not in a set. So this |
9638 | * variable can be 0, 1, or 2. When it is 0 neither input is in their set, |
9639 | * and hence nothing goes into the union; 1, just one of the inputs is in |
9640 | * its set (and its current range gets added to the union); and 2 when both |
9641 | * inputs are in their sets. */ |
9642 | UV count = 0; |
9643 | |
9644 | PERL_ARGS_ASSERT__INVLIST_UNION_MAYBE_COMPLEMENT_2ND((b) ? (void)0 : __assert2("re_comp.c", 9644, __func__, "b")) ; ((output) ? (void)0 : __assert2("re_comp.c", 9644, __func__ , "output")); |
9645 | assert(a != b)((a != b) ? (void)0 : __assert2("re_comp.c", 9645, __func__, "a != b" )); |
9646 | assert(*output == NULL || is_invlist(*output))((*output == ((void*)0) || S_is_invlist(*output)) ? (void)0 : __assert2("re_comp.c", 9646, __func__, "*output == NULL || is_invlist(*output)" )); |
9647 | |
9648 | len_b = _invlist_lenS__invlist_len(b); |
9649 | if (len_b == 0) { |
9650 | |
9651 | /* Here, 'b' is empty, hence it's complement is all possible code |
9652 | * points. So if the union includes the complement of 'b', it includes |
9653 | * everything, and we need not even look at 'a'. It's easiest to |
9654 | * create a new inversion list that matches everything. */ |
9655 | if (complement_b) { |
9656 | SV* everything = _add_range_to_invlist(NULL, 0, UV_MAX)Perl__add_range_to_invlist( ((void*)0),0,(~(UV)0)); |
9657 | |
9658 | if (*output == NULL((void*)0)) { /* If the output didn't exist, just point it |
9659 | at the new list */ |
9660 | *output = everything; |
9661 | } |
9662 | else { /* Otherwise, replace its contents with the new list */ |
9663 | invlist_replace_list_destroys_src(*output, everything); |
9664 | SvREFCNT_dec_NN(everything)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (everything); _p; } ))); |
9665 | } |
9666 | |
9667 | return; |
9668 | } |
9669 | |
9670 | /* Here, we don't want the complement of 'b', and since 'b' is empty, |
9671 | * the union will come entirely from 'a'. If 'a' is NULL or empty, the |
9672 | * output will be empty */ |
9673 | |
9674 | if (a == NULL((void*)0) || _invlist_lenS__invlist_len(a) == 0) { |
9675 | if (*output == NULL((void*)0)) { |
9676 | *output = _new_invlist(0)Perl__new_invlist( 0); |
9677 | } |
9678 | else { |
9679 | invlist_clear(*output); |
9680 | } |
9681 | return; |
9682 | } |
9683 | |
9684 | /* Here, 'a' is not empty, but 'b' is, so 'a' entirely determines the |
9685 | * union. We can just return a copy of 'a' if '*output' doesn't point |
9686 | * to an existing list */ |
9687 | if (*output == NULL((void*)0)) { |
9688 | *output = invlist_clone(a, NULL)Perl_invlist_clone( a,((void*)0)); |
9689 | return; |
9690 | } |
9691 | |
9692 | /* If the output is to overwrite 'a', we have a no-op, as it's |
9693 | * already in 'a' */ |
9694 | if (*output == a) { |
9695 | return; |
9696 | } |
9697 | |
9698 | /* Here, '*output' is to be overwritten by 'a' */ |
9699 | u = invlist_clone(a, NULL)Perl_invlist_clone( a,((void*)0)); |
9700 | invlist_replace_list_destroys_src(*output, u); |
9701 | SvREFCNT_dec_NN(u)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (u); _p; }))); |
9702 | |
9703 | return; |
9704 | } |
9705 | |
9706 | /* Here 'b' is not empty. See about 'a' */ |
9707 | |
9708 | if (a == NULL((void*)0) || ((len_a = _invlist_lenS__invlist_len(a)) == 0)) { |
9709 | |
9710 | /* Here, 'a' is empty (and b is not). That means the union will come |
9711 | * entirely from 'b'. If '*output' is NULL, we can directly return a |
9712 | * clone of 'b'. Otherwise, we replace the contents of '*output' with |
9713 | * the clone */ |
9714 | |
9715 | SV ** dest = (*output == NULL((void*)0)) ? output : &u; |
9716 | *dest = invlist_clone(b, NULL)Perl_invlist_clone( b,((void*)0)); |
9717 | if (complement_b) { |
9718 | _invlist_invert(*dest)Perl__invlist_invert( *dest); |
9719 | } |
9720 | |
9721 | if (dest == &u) { |
9722 | invlist_replace_list_destroys_src(*output, u); |
9723 | SvREFCNT_dec_NN(u)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (u); _p; }))); |
9724 | } |
9725 | |
9726 | return; |
9727 | } |
9728 | |
9729 | /* Here both lists exist and are non-empty */ |
9730 | array_a = invlist_arrayS_invlist_array(a); |
9731 | array_b = invlist_arrayS_invlist_array(b); |
9732 | |
9733 | /* If are to take the union of 'a' with the complement of b, set it |
9734 | * up so are looking at b's complement. */ |
9735 | if (complement_b) { |
9736 | |
9737 | /* To complement, we invert: if the first element is 0, remove it. To |
9738 | * do this, we just pretend the array starts one later */ |
9739 | if (array_b[0] == 0) { |
9740 | array_b++; |
9741 | len_b--; |
9742 | } |
9743 | else { |
9744 | |
9745 | /* But if the first element is not zero, we pretend the list starts |
9746 | * at the 0 that is always stored immediately before the array. */ |
9747 | array_b--; |
9748 | len_b++; |
9749 | } |
9750 | } |
9751 | |
9752 | /* Size the union for the worst case: that the sets are completely |
9753 | * disjoint */ |
9754 | u = _new_invlist(len_a + len_b)Perl__new_invlist( len_a + len_b); |
9755 | |
9756 | /* Will contain U+0000 if either component does */ |
9757 | array_u = _invlist_array_init(u, ( len_a > 0 && array_a[0] == 0) |
9758 | || (len_b > 0 && array_b[0] == 0)); |
9759 | |
9760 | /* Go through each input list item by item, stopping when have exhausted |
9761 | * one of them */ |
9762 | while (i_a < len_a && i_b < len_b) { |
9763 | UV cp; /* The element to potentially add to the union's array */ |
9764 | bool_Bool cp_in_set; /* is it in the input list's set or not */ |
9765 | |
9766 | /* We need to take one or the other of the two inputs for the union. |
9767 | * Since we are merging two sorted lists, we take the smaller of the |
9768 | * next items. In case of a tie, we take first the one that is in its |
9769 | * set. If we first took the one not in its set, it would decrement |
9770 | * the count, possibly to 0 which would cause it to be output as ending |
9771 | * the range, and the next time through we would take the same number, |
9772 | * and output it again as beginning the next range. By doing it the |
9773 | * opposite way, there is no possibility that the count will be |
9774 | * momentarily decremented to 0, and thus the two adjoining ranges will |
9775 | * be seamlessly merged. (In a tie and both are in the set or both not |
9776 | * in the set, it doesn't matter which we take first.) */ |
9777 | if ( array_a[i_a] < array_b[i_b] |
9778 | || ( array_a[i_a] == array_b[i_b] |
9779 | && ELEMENT_RANGE_MATCHES_INVLIST(i_a)(! ((i_a) & 1)))) |
9780 | { |
9781 | cp_in_set = ELEMENT_RANGE_MATCHES_INVLIST(i_a)(! ((i_a) & 1)); |
9782 | cp = array_a[i_a++]; |
9783 | } |
9784 | else { |
9785 | cp_in_set = ELEMENT_RANGE_MATCHES_INVLIST(i_b)(! ((i_b) & 1)); |
9786 | cp = array_b[i_b++]; |
9787 | } |
9788 | |
9789 | /* Here, have chosen which of the two inputs to look at. Only output |
9790 | * if the running count changes to/from 0, which marks the |
9791 | * beginning/end of a range that's in the set */ |
9792 | if (cp_in_set) { |
9793 | if (count == 0) { |
9794 | array_u[i_u++] = cp; |
9795 | } |
9796 | count++; |
9797 | } |
9798 | else { |
9799 | count--; |
9800 | if (count == 0) { |
9801 | array_u[i_u++] = cp; |
9802 | } |
9803 | } |
9804 | } |
9805 | |
9806 | |
9807 | /* The loop above increments the index into exactly one of the input lists |
9808 | * each iteration, and ends when either index gets to its list end. That |
9809 | * means the other index is lower than its end, and so something is |
9810 | * remaining in that one. We decrement 'count', as explained below, if |
9811 | * that list is in its set. (i_a and i_b each currently index the element |
9812 | * beyond the one we care about.) */ |
9813 | if ( (i_a != len_a && PREV_RANGE_MATCHES_INVLIST(i_a)(! (! ((i_a) & 1)))) |
9814 | || (i_b != len_b && PREV_RANGE_MATCHES_INVLIST(i_b)(! (! ((i_b) & 1))))) |
9815 | { |
9816 | count--; |
9817 | } |
9818 | |
9819 | /* Above we decremented 'count' if the list that had unexamined elements in |
9820 | * it was in its set. This has made it so that 'count' being non-zero |
9821 | * means there isn't anything left to output; and 'count' equal to 0 means |
9822 | * that what is left to output is precisely that which is left in the |
9823 | * non-exhausted input list. |
9824 | * |
9825 | * To see why, note first that the exhausted input obviously has nothing |
9826 | * left to add to the union. If it was in its set at its end, that means |
9827 | * the set extends from here to the platform's infinity, and hence so does |
9828 | * the union and the non-exhausted set is irrelevant. The exhausted set |
9829 | * also contributed 1 to 'count'. If 'count' was 2, it got decremented to |
9830 | * 1, but if it was 1, the non-exhausted set wasn't in its set, and so |
9831 | * 'count' remains at 1. This is consistent with the decremented 'count' |
9832 | * != 0 meaning there's nothing left to add to the union. |
9833 | * |
9834 | * But if the exhausted input wasn't in its set, it contributed 0 to |
9835 | * 'count', and the rest of the union will be whatever the other input is. |
9836 | * If 'count' was 0, neither list was in its set, and 'count' remains 0; |
9837 | * otherwise it gets decremented to 0. This is consistent with 'count' |
9838 | * == 0 meaning the remainder of the union is whatever is left in the |
9839 | * non-exhausted list. */ |
9840 | if (count != 0) { |
9841 | len_u = i_u; |
9842 | } |
9843 | else { |
9844 | IV copy_count = len_a - i_a; |
9845 | if (copy_count > 0) { /* The non-exhausted input is 'a' */ |
9846 | Copy(array_a + i_a, array_u + i_u, copy_count, UV)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(copy_count ) || sizeof(UV) > ((size_t)1 << 8*(sizeof(size_t) - sizeof (copy_count)))) ? (size_t)(copy_count) : ((size_t)-1)/sizeof( UV)) > ((size_t)-1)/sizeof(UV))) ? (_Bool)1 : (_Bool)0),(0 )) && (Perl_croak_memory_wrap(),0)), ((((void*)(array_u + i_u)) != 0) ? (void)0 : __assert2("re_comp.c", 9846, __func__ , "((void*)(array_u + i_u)) != 0")), ((((void*)(array_a + i_a )) != 0) ? (void)0 : __assert2("re_comp.c", 9846, __func__, "((void*)(array_a + i_a)) != 0" )), (void)memcpy((char*)(array_u + i_u),(const char*)(array_a + i_a), (copy_count) * sizeof(UV))); |
9847 | } |
9848 | else { /* The non-exhausted input is b */ |
9849 | copy_count = len_b - i_b; |
9850 | Copy(array_b + i_b, array_u + i_u, copy_count, UV)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(copy_count ) || sizeof(UV) > ((size_t)1 << 8*(sizeof(size_t) - sizeof (copy_count)))) ? (size_t)(copy_count) : ((size_t)-1)/sizeof( UV)) > ((size_t)-1)/sizeof(UV))) ? (_Bool)1 : (_Bool)0),(0 )) && (Perl_croak_memory_wrap(),0)), ((((void*)(array_u + i_u)) != 0) ? (void)0 : __assert2("re_comp.c", 9850, __func__ , "((void*)(array_u + i_u)) != 0")), ((((void*)(array_b + i_b )) != 0) ? (void)0 : __assert2("re_comp.c", 9850, __func__, "((void*)(array_b + i_b)) != 0" )), (void)memcpy((char*)(array_u + i_u),(const char*)(array_b + i_b), (copy_count) * sizeof(UV))); |
9851 | } |
9852 | len_u = i_u + copy_count; |
9853 | } |
9854 | |
9855 | /* Set the result to the final length, which can change the pointer to |
9856 | * array_u, so re-find it. (Note that it is unlikely that this will |
9857 | * change, as we are shrinking the space, not enlarging it) */ |
9858 | if (len_u != _invlist_lenS__invlist_len(u)) { |
9859 | invlist_set_len(u, len_u, *get_invlist_offset_addr(u))S_invlist_set_len( u,len_u,*S_get_invlist_offset_addr(u)); |
9860 | invlist_trim(u); |
9861 | array_u = invlist_arrayS_invlist_array(u); |
9862 | } |
9863 | |
9864 | if (*output == NULL((void*)0)) { /* Simply return the new inversion list */ |
9865 | *output = u; |
9866 | } |
9867 | else { |
9868 | /* Otherwise, overwrite the inversion list that was in '*output'. We |
9869 | * could instead free '*output', and then set it to 'u', but experience |
9870 | * has shown [perl #127392] that if the input is a mortal, we can get a |
9871 | * huge build-up of these during regex compilation before they get |
9872 | * freed. */ |
9873 | invlist_replace_list_destroys_src(*output, u); |
9874 | SvREFCNT_dec_NN(u)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (u); _p; }))); |
9875 | } |
9876 | |
9877 | return; |
9878 | } |
9879 | |
9880 | void |
9881 | Perl__invlist_intersection_maybe_complement_2nd(pTHX_ SV* const a, SV* const b, |
9882 | const bool_Bool complement_b, SV** i) |
9883 | { |
9884 | /* Take the intersection of two inversion lists and point '*i' to it. On |
9885 | * input, '*i' MUST POINT TO NULL OR TO AN SV* INVERSION LIST (possibly |
9886 | * even 'a' or 'b'). If to an inversion list, the contents of the original |
9887 | * list will be replaced by the intersection. The first list, 'a', may be |
9888 | * NULL, in which case '*i' will be an empty list. If 'complement_b' is |
9889 | * TRUE, the result will be the intersection of 'a' and the complement (or |
9890 | * inversion) of 'b' instead of 'b' directly. |
9891 | * |
9892 | * The basis for this comes from "Unicode Demystified" Chapter 13 by |
9893 | * Richard Gillam, published by Addison-Wesley, and explained at some |
9894 | * length there. The preface says to incorporate its examples into your |
9895 | * code at your own risk. In fact, it had bugs |
9896 | * |
9897 | * The algorithm is like a merge sort, and is essentially the same as the |
9898 | * union above |
9899 | */ |
9900 | |
9901 | const UV* array_a; /* a's array */ |
9902 | const UV* array_b; |
9903 | UV len_a; /* length of a's array */ |
9904 | UV len_b; |
9905 | |
9906 | SV* r; /* the resulting intersection */ |
9907 | UV* array_r; |
9908 | UV len_r = 0; |
9909 | |
9910 | UV i_a = 0; /* current index into a's array */ |
9911 | UV i_b = 0; |
9912 | UV i_r = 0; |
9913 | |
9914 | /* running count of how many of the two inputs are postitioned at ranges |
9915 | * that are in their sets. As explained in the algorithm source book, |
9916 | * items are stopped accumulating and are output when the count changes |
9917 | * to/from 2. The count is incremented when we start a range that's in an |
9918 | * input's set, and decremented when we start a range that's not in a set. |
9919 | * Only when it is 2 are we in the intersection. */ |
9920 | UV count = 0; |
9921 | |
9922 | PERL_ARGS_ASSERT__INVLIST_INTERSECTION_MAYBE_COMPLEMENT_2ND((b) ? (void)0 : __assert2("re_comp.c", 9922, __func__, "b")) ; ((i) ? (void)0 : __assert2("re_comp.c", 9922, __func__, "i" )); |
9923 | assert(a != b)((a != b) ? (void)0 : __assert2("re_comp.c", 9923, __func__, "a != b" )); |
9924 | assert(*i == NULL || is_invlist(*i))((*i == ((void*)0) || S_is_invlist(*i)) ? (void)0 : __assert2 ("re_comp.c", 9924, __func__, "*i == NULL || is_invlist(*i)") ); |
9925 | |
9926 | /* Special case if either one is empty */ |
9927 | len_a = (a == NULL((void*)0)) ? 0 : _invlist_lenS__invlist_len(a); |
9928 | if ((len_a == 0) || ((len_b = _invlist_lenS__invlist_len(b)) == 0)) { |
9929 | if (len_a != 0 && complement_b) { |
9930 | |
9931 | /* Here, 'a' is not empty, therefore from the enclosing 'if', 'b' |
9932 | * must be empty. Here, also we are using 'b's complement, which |
9933 | * hence must be every possible code point. Thus the intersection |
9934 | * is simply 'a'. */ |
9935 | |
9936 | if (*i == a) { /* No-op */ |
9937 | return; |
9938 | } |
9939 | |
9940 | if (*i == NULL((void*)0)) { |
9941 | *i = invlist_clone(a, NULL)Perl_invlist_clone( a,((void*)0)); |
9942 | return; |
9943 | } |
9944 | |
9945 | r = invlist_clone(a, NULL)Perl_invlist_clone( a,((void*)0)); |
9946 | invlist_replace_list_destroys_src(*i, r); |
9947 | SvREFCNT_dec_NN(r)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (r); _p; }))); |
9948 | return; |
9949 | } |
9950 | |
9951 | /* Here, 'a' or 'b' is empty and not using the complement of 'b'. The |
9952 | * intersection must be empty */ |
9953 | if (*i == NULL((void*)0)) { |
9954 | *i = _new_invlist(0)Perl__new_invlist( 0); |
9955 | return; |
9956 | } |
9957 | |
9958 | invlist_clear(*i); |
9959 | return; |
9960 | } |
9961 | |
9962 | /* Here both lists exist and are non-empty */ |
9963 | array_a = invlist_arrayS_invlist_array(a); |
9964 | array_b = invlist_arrayS_invlist_array(b); |
9965 | |
9966 | /* If are to take the intersection of 'a' with the complement of b, set it |
9967 | * up so are looking at b's complement. */ |
9968 | if (complement_b) { |
9969 | |
9970 | /* To complement, we invert: if the first element is 0, remove it. To |
9971 | * do this, we just pretend the array starts one later */ |
9972 | if (array_b[0] == 0) { |
9973 | array_b++; |
9974 | len_b--; |
9975 | } |
9976 | else { |
9977 | |
9978 | /* But if the first element is not zero, we pretend the list starts |
9979 | * at the 0 that is always stored immediately before the array. */ |
9980 | array_b--; |
9981 | len_b++; |
9982 | } |
9983 | } |
9984 | |
9985 | /* Size the intersection for the worst case: that the intersection ends up |
9986 | * fragmenting everything to be completely disjoint */ |
9987 | r= _new_invlist(len_a + len_b)Perl__new_invlist( len_a + len_b); |
9988 | |
9989 | /* Will contain U+0000 iff both components do */ |
9990 | array_r = _invlist_array_init(r, len_a > 0 && array_a[0] == 0 |
9991 | && len_b > 0 && array_b[0] == 0); |
9992 | |
9993 | /* Go through each list item by item, stopping when have exhausted one of |
9994 | * them */ |
9995 | while (i_a < len_a && i_b < len_b) { |
9996 | UV cp; /* The element to potentially add to the intersection's |
9997 | array */ |
9998 | bool_Bool cp_in_set; /* Is it in the input list's set or not */ |
9999 | |
10000 | /* We need to take one or the other of the two inputs for the |
10001 | * intersection. Since we are merging two sorted lists, we take the |
10002 | * smaller of the next items. In case of a tie, we take first the one |
10003 | * that is not in its set (a difference from the union algorithm). If |
10004 | * we first took the one in its set, it would increment the count, |
10005 | * possibly to 2 which would cause it to be output as starting a range |
10006 | * in the intersection, and the next time through we would take that |
10007 | * same number, and output it again as ending the set. By doing the |
10008 | * opposite of this, there is no possibility that the count will be |
10009 | * momentarily incremented to 2. (In a tie and both are in the set or |
10010 | * both not in the set, it doesn't matter which we take first.) */ |
10011 | if ( array_a[i_a] < array_b[i_b] |
10012 | || ( array_a[i_a] == array_b[i_b] |
10013 | && ! ELEMENT_RANGE_MATCHES_INVLIST(i_a)(! ((i_a) & 1)))) |
10014 | { |
10015 | cp_in_set = ELEMENT_RANGE_MATCHES_INVLIST(i_a)(! ((i_a) & 1)); |
10016 | cp = array_a[i_a++]; |
10017 | } |
10018 | else { |
10019 | cp_in_set = ELEMENT_RANGE_MATCHES_INVLIST(i_b)(! ((i_b) & 1)); |
10020 | cp= array_b[i_b++]; |
10021 | } |
10022 | |
10023 | /* Here, have chosen which of the two inputs to look at. Only output |
10024 | * if the running count changes to/from 2, which marks the |
10025 | * beginning/end of a range that's in the intersection */ |
10026 | if (cp_in_set) { |
10027 | count++; |
10028 | if (count == 2) { |
10029 | array_r[i_r++] = cp; |
10030 | } |
10031 | } |
10032 | else { |
10033 | if (count == 2) { |
10034 | array_r[i_r++] = cp; |
10035 | } |
10036 | count--; |
10037 | } |
10038 | |
10039 | } |
10040 | |
10041 | /* The loop above increments the index into exactly one of the input lists |
10042 | * each iteration, and ends when either index gets to its list end. That |
10043 | * means the other index is lower than its end, and so something is |
10044 | * remaining in that one. We increment 'count', as explained below, if the |
10045 | * exhausted list was in its set. (i_a and i_b each currently index the |
10046 | * element beyond the one we care about.) */ |
10047 | if ( (i_a == len_a && PREV_RANGE_MATCHES_INVLIST(i_a)(! (! ((i_a) & 1)))) |
10048 | || (i_b == len_b && PREV_RANGE_MATCHES_INVLIST(i_b)(! (! ((i_b) & 1))))) |
10049 | { |
10050 | count++; |
10051 | } |
10052 | |
10053 | /* Above we incremented 'count' if the exhausted list was in its set. This |
10054 | * has made it so that 'count' being below 2 means there is nothing left to |
10055 | * output; otheriwse what's left to add to the intersection is precisely |
10056 | * that which is left in the non-exhausted input list. |
10057 | * |
10058 | * To see why, note first that the exhausted input obviously has nothing |
10059 | * left to affect the intersection. If it was in its set at its end, that |
10060 | * means the set extends from here to the platform's infinity, and hence |
10061 | * anything in the non-exhausted's list will be in the intersection, and |
10062 | * anything not in it won't be. Hence, the rest of the intersection is |
10063 | * precisely what's in the non-exhausted list The exhausted set also |
10064 | * contributed 1 to 'count', meaning 'count' was at least 1. Incrementing |
10065 | * it means 'count' is now at least 2. This is consistent with the |
10066 | * incremented 'count' being >= 2 means to add the non-exhausted list to |
10067 | * the intersection. |
10068 | * |
10069 | * But if the exhausted input wasn't in its set, it contributed 0 to |
10070 | * 'count', and the intersection can't include anything further; the |
10071 | * non-exhausted set is irrelevant. 'count' was at most 1, and doesn't get |
10072 | * incremented. This is consistent with 'count' being < 2 meaning nothing |
10073 | * further to add to the intersection. */ |
10074 | if (count < 2) { /* Nothing left to put in the intersection. */ |
10075 | len_r = i_r; |
10076 | } |
10077 | else { /* copy the non-exhausted list, unchanged. */ |
10078 | IV copy_count = len_a - i_a; |
10079 | if (copy_count > 0) { /* a is the one with stuff left */ |
10080 | Copy(array_a + i_a, array_r + i_r, copy_count, UV)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(copy_count ) || sizeof(UV) > ((size_t)1 << 8*(sizeof(size_t) - sizeof (copy_count)))) ? (size_t)(copy_count) : ((size_t)-1)/sizeof( UV)) > ((size_t)-1)/sizeof(UV))) ? (_Bool)1 : (_Bool)0),(0 )) && (Perl_croak_memory_wrap(),0)), ((((void*)(array_r + i_r)) != 0) ? (void)0 : __assert2("re_comp.c", 10080, __func__ , "((void*)(array_r + i_r)) != 0")), ((((void*)(array_a + i_a )) != 0) ? (void)0 : __assert2("re_comp.c", 10080, __func__, "((void*)(array_a + i_a)) != 0" )), (void)memcpy((char*)(array_r + i_r),(const char*)(array_a + i_a), (copy_count) * sizeof(UV))); |
10081 | } |
10082 | else { /* b is the one with stuff left */ |
10083 | copy_count = len_b - i_b; |
10084 | Copy(array_b + i_b, array_r + i_r, copy_count, UV)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(copy_count ) || sizeof(UV) > ((size_t)1 << 8*(sizeof(size_t) - sizeof (copy_count)))) ? (size_t)(copy_count) : ((size_t)-1)/sizeof( UV)) > ((size_t)-1)/sizeof(UV))) ? (_Bool)1 : (_Bool)0),(0 )) && (Perl_croak_memory_wrap(),0)), ((((void*)(array_r + i_r)) != 0) ? (void)0 : __assert2("re_comp.c", 10084, __func__ , "((void*)(array_r + i_r)) != 0")), ((((void*)(array_b + i_b )) != 0) ? (void)0 : __assert2("re_comp.c", 10084, __func__, "((void*)(array_b + i_b)) != 0" )), (void)memcpy((char*)(array_r + i_r),(const char*)(array_b + i_b), (copy_count) * sizeof(UV))); |
10085 | } |
10086 | len_r = i_r + copy_count; |
10087 | } |
10088 | |
10089 | /* Set the result to the final length, which can change the pointer to |
10090 | * array_r, so re-find it. (Note that it is unlikely that this will |
10091 | * change, as we are shrinking the space, not enlarging it) */ |
10092 | if (len_r != _invlist_lenS__invlist_len(r)) { |
10093 | invlist_set_len(r, len_r, *get_invlist_offset_addr(r))S_invlist_set_len( r,len_r,*S_get_invlist_offset_addr(r)); |
10094 | invlist_trim(r); |
10095 | array_r = invlist_arrayS_invlist_array(r); |
10096 | } |
10097 | |
10098 | if (*i == NULL((void*)0)) { /* Simply return the calculated intersection */ |
10099 | *i = r; |
10100 | } |
10101 | else { /* Otherwise, replace the existing inversion list in '*i'. We could |
10102 | instead free '*i', and then set it to 'r', but experience has |
10103 | shown [perl #127392] that if the input is a mortal, we can get a |
10104 | huge build-up of these during regex compilation before they get |
10105 | freed. */ |
10106 | if (len_r) { |
10107 | invlist_replace_list_destroys_src(*i, r); |
10108 | } |
10109 | else { |
10110 | invlist_clear(*i); |
10111 | } |
10112 | SvREFCNT_dec_NN(r)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (r); _p; }))); |
10113 | } |
10114 | |
10115 | return; |
10116 | } |
10117 | |
10118 | SV* |
10119 | Perl__add_range_to_invlist(pTHX_ SV* invlist, UV start, UV end) |
10120 | { |
10121 | /* Add the range from 'start' to 'end' inclusive to the inversion list's |
10122 | * set. A pointer to the inversion list is returned. This may actually be |
10123 | * a new list, in which case the passed in one has been destroyed. The |
10124 | * passed-in inversion list can be NULL, in which case a new one is created |
10125 | * with just the one range in it. The new list is not necessarily |
10126 | * NUL-terminated. Space is not freed if the inversion list shrinks as a |
10127 | * result of this function. The gain would not be large, and in many |
10128 | * cases, this is called multiple times on a single inversion list, so |
10129 | * anything freed may almost immediately be needed again. |
10130 | * |
10131 | * This used to mostly call the 'union' routine, but that is much more |
10132 | * heavyweight than really needed for a single range addition */ |
10133 | |
10134 | UV* array; /* The array implementing the inversion list */ |
10135 | UV len; /* How many elements in 'array' */ |
10136 | SSize_tssize_t i_s; /* index into the invlist array where 'start' |
10137 | should go */ |
10138 | SSize_tssize_t i_e = 0; /* And the index where 'end' should go */ |
10139 | UV cur_highest; /* The highest code point in the inversion list |
10140 | upon entry to this function */ |
10141 | |
10142 | /* This range becomes the whole inversion list if none already existed */ |
10143 | if (invlist == NULL((void*)0)) { |
10144 | invlist = _new_invlist(2)Perl__new_invlist( 2); |
10145 | _append_range_to_invlist(invlist, start, end); |
10146 | return invlist; |
10147 | } |
10148 | |
10149 | /* Likewise, if the inversion list is currently empty */ |
10150 | len = _invlist_lenS__invlist_len(invlist); |
10151 | if (len == 0) { |
10152 | _append_range_to_invlist(invlist, start, end); |
10153 | return invlist; |
10154 | } |
10155 | |
10156 | /* Starting here, we have to know the internals of the list */ |
10157 | array = invlist_arrayS_invlist_array(invlist); |
10158 | |
10159 | /* If the new range ends higher than the current highest ... */ |
10160 | cur_highest = invlist_highestS_invlist_highest(invlist); |
10161 | if (end > cur_highest) { |
10162 | |
10163 | /* If the whole range is higher, we can just append it */ |
10164 | if (start > cur_highest) { |
10165 | _append_range_to_invlist(invlist, start, end); |
10166 | return invlist; |
10167 | } |
10168 | |
10169 | /* Otherwise, add the portion that is higher ... */ |
10170 | _append_range_to_invlist(invlist, cur_highest + 1, end); |
10171 | |
10172 | /* ... and continue on below to handle the rest. As a result of the |
10173 | * above append, we know that the index of the end of the range is the |
10174 | * final even numbered one of the array. Recall that the final element |
10175 | * always starts a range that extends to infinity. If that range is in |
10176 | * the set (meaning the set goes from here to infinity), it will be an |
10177 | * even index, but if it isn't in the set, it's odd, and the final |
10178 | * range in the set is one less, which is even. */ |
10179 | if (end == UV_MAX(~(UV)0)) { |
10180 | i_e = len; |
10181 | } |
10182 | else { |
10183 | i_e = len - 2; |
10184 | } |
10185 | } |
10186 | |
10187 | /* We have dealt with appending, now see about prepending. If the new |
10188 | * range starts lower than the current lowest ... */ |
10189 | if (start < array[0]) { |
10190 | |
10191 | /* Adding something which has 0 in it is somewhat tricky, and uncommon. |
10192 | * Let the union code handle it, rather than having to know the |
10193 | * trickiness in two code places. */ |
10194 | if (UNLIKELY(start == 0)__builtin_expect(((start == 0) ? (_Bool)1 : (_Bool)0),(0))) { |
10195 | SV* range_invlist; |
10196 | |
10197 | range_invlist = _new_invlist(2)Perl__new_invlist( 2); |
10198 | _append_range_to_invlist(range_invlist, start, end); |
10199 | |
10200 | _invlist_union(invlist, range_invlist, &invlist)Perl__invlist_union_maybe_complement_2nd( invlist,range_invlist ,(0),&invlist); |
10201 | |
10202 | SvREFCNT_dec_NN(range_invlist)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (range_invlist); _p ; }))); |
10203 | |
10204 | return invlist; |
10205 | } |
10206 | |
10207 | /* If the whole new range comes before the first entry, and doesn't |
10208 | * extend it, we have to insert it as an additional range */ |
10209 | if (end < array[0] - 1) { |
10210 | i_s = i_e = -1; |
10211 | goto splice_in_new_range; |
10212 | } |
10213 | |
10214 | /* Here the new range adjoins the existing first range, extending it |
10215 | * downwards. */ |
10216 | array[0] = start; |
10217 | |
10218 | /* And continue on below to handle the rest. We know that the index of |
10219 | * the beginning of the range is the first one of the array */ |
10220 | i_s = 0; |
10221 | } |
10222 | else { /* Not prepending any part of the new range to the existing list. |
10223 | * Find where in the list it should go. This finds i_s, such that: |
10224 | * invlist[i_s] <= start < array[i_s+1] |
10225 | */ |
10226 | i_s = _invlist_searchPerl__invlist_search(invlist, start); |
10227 | } |
10228 | |
10229 | /* At this point, any extending before the beginning of the inversion list |
10230 | * and/or after the end has been done. This has made it so that, in the |
10231 | * code below, each endpoint of the new range is either in a range that is |
10232 | * in the set, or is in a gap between two ranges that are. This means we |
10233 | * don't have to worry about exceeding the array bounds. |
10234 | * |
10235 | * Find where in the list the new range ends (but we can skip this if we |
10236 | * have already determined what it is, or if it will be the same as i_s, |
10237 | * which we already have computed) */ |
10238 | if (i_e == 0) { |
10239 | i_e = (start == end) |
10240 | ? i_s |
10241 | : _invlist_searchPerl__invlist_search(invlist, end); |
10242 | } |
10243 | |
10244 | /* Here generally invlist[i_e] <= end < array[i_e+1]. But if invlist[i_e] |
10245 | * is a range that goes to infinity there is no element at invlist[i_e+1], |
10246 | * so only the first relation holds. */ |
10247 | |
10248 | if ( ! ELEMENT_RANGE_MATCHES_INVLIST(i_s)(! ((i_s) & 1))) { |
10249 | |
10250 | /* Here, the ranges on either side of the beginning of the new range |
10251 | * are in the set, and this range starts in the gap between them. |
10252 | * |
10253 | * The new range extends the range above it downwards if the new range |
10254 | * ends at or above that range's start */ |
10255 | const bool_Bool extends_the_range_above = ( end == UV_MAX(~(UV)0) |
10256 | || end + 1 >= array[i_s+1]); |
10257 | |
10258 | /* The new range extends the range below it upwards if it begins just |
10259 | * after where that range ends */ |
10260 | if (start == array[i_s]) { |
10261 | |
10262 | /* If the new range fills the entire gap between the other ranges, |
10263 | * they will get merged together. Other ranges may also get |
10264 | * merged, depending on how many of them the new range spans. In |
10265 | * the general case, we do the merge later, just once, after we |
10266 | * figure out how many to merge. But in the case where the new |
10267 | * range exactly spans just this one gap (possibly extending into |
10268 | * the one above), we do the merge here, and an early exit. This |
10269 | * is done here to avoid having to special case later. */ |
10270 | if (i_e - i_s <= 1) { |
10271 | |
10272 | /* If i_e - i_s == 1, it means that the new range terminates |
10273 | * within the range above, and hence 'extends_the_range_above' |
10274 | * must be true. (If the range above it extends to infinity, |
10275 | * 'i_s+2' will be above the array's limit, but 'len-i_s-2' |
10276 | * will be 0, so no harm done.) */ |
10277 | if (extends_the_range_above) { |
10278 | Move(array + i_s + 2, array + i_s, len - i_s - 2, UV)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(len - i_s - 2) || sizeof(UV) > ((size_t)1 << 8*(sizeof( size_t) - sizeof(len - i_s - 2)))) ? (size_t)(len - i_s - 2) : ((size_t)-1)/sizeof(UV)) > ((size_t)-1)/sizeof(UV))) ? (_Bool )1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), ((((void*)(array + i_s)) != 0) ? (void)0 : __assert2("re_comp.c" , 10278, __func__, "((void*)(array + i_s)) != 0")), ((((void* )(array + i_s + 2)) != 0) ? (void)0 : __assert2("re_comp.c", 10278 , __func__, "((void*)(array + i_s + 2)) != 0")), (void)memmove ((char*)(array + i_s),(const char*)(array + i_s + 2), (len - i_s - 2) * sizeof(UV))); |
10279 | invlist_set_len(invlist,S_invlist_set_len( invlist,len - 2,*(S_get_invlist_offset_addr (invlist))) |
10280 | len - 2,S_invlist_set_len( invlist,len - 2,*(S_get_invlist_offset_addr (invlist))) |
10281 | *(get_invlist_offset_addr(invlist)))S_invlist_set_len( invlist,len - 2,*(S_get_invlist_offset_addr (invlist))); |
10282 | return invlist; |
10283 | } |
10284 | |
10285 | /* Here, i_e must == i_s. We keep them in sync, as they apply |
10286 | * to the same range, and below we are about to decrement i_s |
10287 | * */ |
10288 | i_e--; |
10289 | } |
10290 | |
10291 | /* Here, the new range is adjacent to the one below. (It may also |
10292 | * span beyond the range above, but that will get resolved later.) |
10293 | * Extend the range below to include this one. */ |
10294 | array[i_s] = (end == UV_MAX(~(UV)0)) ? UV_MAX(~(UV)0) : end + 1; |
10295 | i_s--; |
10296 | start = array[i_s]; |
10297 | } |
10298 | else if (extends_the_range_above) { |
10299 | |
10300 | /* Here the new range only extends the range above it, but not the |
10301 | * one below. It merges with the one above. Again, we keep i_e |
10302 | * and i_s in sync if they point to the same range */ |
10303 | if (i_e == i_s) { |
10304 | i_e++; |
10305 | } |
10306 | i_s++; |
10307 | array[i_s] = start; |
10308 | } |
10309 | } |
10310 | |
10311 | /* Here, we've dealt with the new range start extending any adjoining |
10312 | * existing ranges. |
10313 | * |
10314 | * If the new range extends to infinity, it is now the final one, |
10315 | * regardless of what was there before */ |
10316 | if (UNLIKELY(end == UV_MAX)__builtin_expect(((end == (~(UV)0)) ? (_Bool)1 : (_Bool)0),(0 ))) { |
10317 | invlist_set_len(invlist, i_s + 1, *(get_invlist_offset_addr(invlist)))S_invlist_set_len( invlist,i_s + 1,*(S_get_invlist_offset_addr (invlist))); |
10318 | return invlist; |
10319 | } |
10320 | |
10321 | /* If i_e started as == i_s, it has also been dealt with, |
10322 | * and been updated to the new i_s, which will fail the following if */ |
10323 | if (! ELEMENT_RANGE_MATCHES_INVLIST(i_e)(! ((i_e) & 1))) { |
10324 | |
10325 | /* Here, the ranges on either side of the end of the new range are in |
10326 | * the set, and this range ends in the gap between them. |
10327 | * |
10328 | * If this range is adjacent to (hence extends) the range above it, it |
10329 | * becomes part of that range; likewise if it extends the range below, |
10330 | * it becomes part of that range */ |
10331 | if (end + 1 == array[i_e+1]) { |
10332 | i_e++; |
10333 | array[i_e] = start; |
10334 | } |
10335 | else if (start <= array[i_e]) { |
10336 | array[i_e] = end + 1; |
10337 | i_e--; |
10338 | } |
10339 | } |
10340 | |
10341 | if (i_s == i_e) { |
10342 | |
10343 | /* If the range fits entirely in an existing range (as possibly already |
10344 | * extended above), it doesn't add anything new */ |
10345 | if (ELEMENT_RANGE_MATCHES_INVLIST(i_s)(! ((i_s) & 1))) { |
10346 | return invlist; |
10347 | } |
10348 | |
10349 | /* Here, no part of the range is in the list. Must add it. It will |
10350 | * occupy 2 more slots */ |
10351 | splice_in_new_range: |
10352 | |
10353 | invlist_extend(invlist, len + 2)S_invlist_extend( invlist,len + 2); |
10354 | array = invlist_arrayS_invlist_array(invlist); |
10355 | /* Move the rest of the array down two slots. Don't include any |
10356 | * trailing NUL */ |
10357 | Move(array + i_e + 1, array + i_e + 3, len - i_e - 1, UV)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(len - i_e - 1) || sizeof(UV) > ((size_t)1 << 8*(sizeof( size_t) - sizeof(len - i_e - 1)))) ? (size_t)(len - i_e - 1) : ((size_t)-1)/sizeof(UV)) > ((size_t)-1)/sizeof(UV))) ? (_Bool )1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), ((((void*)(array + i_e + 3)) != 0) ? (void)0 : __assert2("re_comp.c" , 10357, __func__, "((void*)(array + i_e + 3)) != 0")), ((((void *)(array + i_e + 1)) != 0) ? (void)0 : __assert2("re_comp.c", 10357, __func__, "((void*)(array + i_e + 1)) != 0")), (void) memmove((char*)(array + i_e + 3),(const char*)(array + i_e + 1 ), (len - i_e - 1) * sizeof(UV))); |
10358 | |
10359 | /* Do the actual splice */ |
10360 | array[i_e+1] = start; |
10361 | array[i_e+2] = end + 1; |
10362 | invlist_set_len(invlist, len + 2, *(get_invlist_offset_addr(invlist)))S_invlist_set_len( invlist,len + 2,*(S_get_invlist_offset_addr (invlist))); |
10363 | return invlist; |
10364 | } |
10365 | |
10366 | /* Here the new range crossed the boundaries of a pre-existing range. The |
10367 | * code above has adjusted things so that both ends are in ranges that are |
10368 | * in the set. This means everything in between must also be in the set. |
10369 | * Just squash things together */ |
10370 | Move(array + i_e + 1, array + i_s + 1, len - i_e - 1, UV)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(len - i_e - 1) || sizeof(UV) > ((size_t)1 << 8*(sizeof( size_t) - sizeof(len - i_e - 1)))) ? (size_t)(len - i_e - 1) : ((size_t)-1)/sizeof(UV)) > ((size_t)-1)/sizeof(UV))) ? (_Bool )1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), ((((void*)(array + i_s + 1)) != 0) ? (void)0 : __assert2("re_comp.c" , 10370, __func__, "((void*)(array + i_s + 1)) != 0")), ((((void *)(array + i_e + 1)) != 0) ? (void)0 : __assert2("re_comp.c", 10370, __func__, "((void*)(array + i_e + 1)) != 0")), (void) memmove((char*)(array + i_s + 1),(const char*)(array + i_e + 1 ), (len - i_e - 1) * sizeof(UV))); |
10371 | invlist_set_len(invlist,S_invlist_set_len( invlist,len - i_e + i_s,*(S_get_invlist_offset_addr (invlist))) |
10372 | len - i_e + i_s,S_invlist_set_len( invlist,len - i_e + i_s,*(S_get_invlist_offset_addr (invlist))) |
10373 | *(get_invlist_offset_addr(invlist)))S_invlist_set_len( invlist,len - i_e + i_s,*(S_get_invlist_offset_addr (invlist))); |
10374 | |
10375 | return invlist; |
10376 | } |
10377 | |
10378 | SV* |
10379 | Perl__setup_canned_invlist(pTHX_ const STRLEN size, const UV element0, |
10380 | UV** other_elements_ptr) |
10381 | { |
10382 | /* Create and return an inversion list whose contents are to be populated |
10383 | * by the caller. The caller gives the number of elements (in 'size') and |
10384 | * the very first element ('element0'). This function will set |
10385 | * '*other_elements_ptr' to an array of UVs, where the remaining elements |
10386 | * are to be placed. |
10387 | * |
10388 | * Obviously there is some trust involved that the caller will properly |
10389 | * fill in the other elements of the array. |
10390 | * |
10391 | * (The first element needs to be passed in, as the underlying code does |
10392 | * things differently depending on whether it is zero or non-zero) */ |
10393 | |
10394 | SV* invlist = _new_invlist(size)Perl__new_invlist( size); |
10395 | bool_Bool offset; |
10396 | |
10397 | PERL_ARGS_ASSERT__SETUP_CANNED_INVLIST((other_elements_ptr) ? (void)0 : __assert2("re_comp.c", 10397 , __func__, "other_elements_ptr")); |
10398 | |
10399 | invlist = add_cp_to_invlist(invlist, element0)S_add_cp_to_invlist( invlist,element0); |
10400 | offset = *get_invlist_offset_addrS_get_invlist_offset_addr(invlist); |
10401 | |
10402 | invlist_set_len(invlist, size, offset)S_invlist_set_len( invlist,size,offset); |
10403 | *other_elements_ptr = invlist_arrayS_invlist_array(invlist) + 1; |
10404 | return invlist; |
10405 | } |
10406 | |
10407 | #endif |
10408 | |
10409 | #ifndef PERL_IN_XSUB_RE |
10410 | void |
10411 | Perl__invlist_invert(pTHX_ SV* const invlist) |
10412 | { |
10413 | /* Complement the input inversion list. This adds a 0 if the list didn't |
10414 | * have a zero; removes it otherwise. As described above, the data |
10415 | * structure is set up so that this is very efficient */ |
10416 | |
10417 | PERL_ARGS_ASSERT__INVLIST_INVERT((invlist) ? (void)0 : __assert2("re_comp.c", 10417, __func__ , "invlist")); |
10418 | |
10419 | assert(! invlist_is_iterating(invlist))((! S_invlist_is_iterating(invlist)) ? (void)0 : __assert2("re_comp.c" , 10419, __func__, "! invlist_is_iterating(invlist)")); |
10420 | |
10421 | /* The inverse of matching nothing is matching everything */ |
10422 | if (_invlist_lenS__invlist_len(invlist) == 0) { |
10423 | _append_range_to_invlist(invlist, 0, UV_MAX(~(UV)0)); |
10424 | return; |
10425 | } |
10426 | |
10427 | *get_invlist_offset_addrS_get_invlist_offset_addr(invlist) = ! *get_invlist_offset_addrS_get_invlist_offset_addr(invlist); |
10428 | } |
10429 | |
10430 | SV* |
10431 | Perl_invlist_clone(pTHX_ SV* const invlist, SV* new_invlist) |
10432 | { |
10433 | /* Return a new inversion list that is a copy of the input one, which is |
10434 | * unchanged. The new list will not be mortal even if the old one was. */ |
10435 | |
10436 | const STRLEN nominal_length = _invlist_lenS__invlist_len(invlist); |
10437 | const STRLEN physical_length = SvCUR(invlist)(*({ const SV *const _svcur = (const SV *)(invlist); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 10437, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 10437, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 10437, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })); |
10438 | const bool_Bool offset = *(get_invlist_offset_addrS_get_invlist_offset_addr(invlist)); |
10439 | |
10440 | PERL_ARGS_ASSERT_INVLIST_CLONE((invlist) ? (void)0 : __assert2("re_comp.c", 10440, __func__ , "invlist")); |
10441 | |
10442 | if (new_invlist == NULL((void*)0)) { |
10443 | new_invlist = _new_invlist(nominal_length)Perl__new_invlist( nominal_length); |
10444 | } |
10445 | else { |
10446 | sv_upgrade(new_invlist, SVt_INVLIST)Perl_sv_upgrade( new_invlist,SVt_INVLIST); |
10447 | initialize_invlist_guts(new_invlist, nominal_length); |
10448 | } |
10449 | |
10450 | *(get_invlist_offset_addrS_get_invlist_offset_addr(new_invlist)) = offset; |
10451 | invlist_set_len(new_invlist, nominal_length, offset)S_invlist_set_len( new_invlist,nominal_length,offset); |
10452 | Copy(SvPVX(invlist), SvPVX(new_invlist), physical_length, char)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(physical_length ) || sizeof(char) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(physical_length)))) ? (size_t)(physical_length) : ((size_t )-1)/sizeof(char)) > ((size_t)-1)/sizeof(char))) ? (_Bool) 1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), ( (((void*)((*({ SV *const _svpvx = ((SV *)({ void *_p = (new_invlist ); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 10452, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 10452, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 10452, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })))) != 0) ? (void)0 : __assert2 ("re_comp.c", 10452, __func__, "((void*)((*({ SV *const _svpvx = ((SV *)({ void *_p = (new_invlist); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2(\"re_comp.c\", 10452, __func__, \"PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]\")); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2(\"re_comp.c\", 10452, __func__, \"!isGV_with_GP(_svpvx)\")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2(\"re_comp.c\", 10452, __func__, \"!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))\")); &((_svpvx)->sv_u.svu_pv); })))) != 0" )), ((((void*)((*({ SV *const _svpvx = ((SV *)({ void *_p = ( invlist); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c" , 10452, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 10452, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 10452, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })))) != 0) ? (void)0 : __assert2 ("re_comp.c", 10452, __func__, "((void*)((*({ SV *const _svpvx = ((SV *)({ void *_p = (invlist); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2(\"re_comp.c\", 10452, __func__, \"PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]\")); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2(\"re_comp.c\", 10452, __func__, \"!isGV_with_GP(_svpvx)\")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2(\"re_comp.c\", 10452, __func__, \"!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))\")); &((_svpvx)->sv_u.svu_pv); })))) != 0" )), (void)memcpy((char*)((*({ SV *const _svpvx = ((SV *)({ void *_p = (new_invlist); _p; })); ((PL_valid_types_PVX[((svtype) ((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 10452, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 10452, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 10452, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))),(const char*)((*({ SV *const _svpvx = ((SV *)({ void *_p = (invlist); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 10452, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 10452, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 10452, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))), (physical_length) * sizeof(char))); |
10453 | |
10454 | return new_invlist; |
10455 | } |
10456 | |
10457 | #endif |
10458 | |
10459 | PERL_STATIC_INLINEstatic __inline__ UV |
10460 | S_invlist_lowest(SV* const invlist) |
10461 | { |
10462 | /* Returns the lowest code point that matches an inversion list. This API |
10463 | * has an ambiguity, as it returns 0 under either the lowest is actually |
10464 | * 0, or if the list is empty. If this distinction matters to you, check |
10465 | * for emptiness before calling this function */ |
10466 | |
10467 | UV len = _invlist_lenS__invlist_len(invlist); |
10468 | UV *array; |
10469 | |
10470 | PERL_ARGS_ASSERT_INVLIST_LOWEST((invlist) ? (void)0 : __assert2("re_comp.c", 10470, __func__ , "invlist")); |
10471 | |
10472 | if (len == 0) { |
10473 | return 0; |
10474 | } |
10475 | |
10476 | array = invlist_arrayS_invlist_array(invlist); |
10477 | |
10478 | return array[0]; |
10479 | } |
10480 | |
10481 | STATICstatic SV * |
10482 | S_invlist_contents(pTHX_ SV* const invlist, const bool_Bool traditional_style) |
10483 | { |
10484 | /* Get the contents of an inversion list into a string SV so that they can |
10485 | * be printed out. If 'traditional_style' is TRUE, it uses the format |
10486 | * traditionally done for debug tracing; otherwise it uses a format |
10487 | * suitable for just copying to the output, with blanks between ranges and |
10488 | * a dash between range components */ |
10489 | |
10490 | UV start, end; |
10491 | SV* output; |
10492 | const char intra_range_delimiter = (traditional_style ? '\t' : '-'); |
10493 | const char inter_range_delimiter = (traditional_style ? '\n' : ' '); |
10494 | |
10495 | if (traditional_style) { |
10496 | output = newSVpvs("\n")Perl_newSVpvn( ("" "\n" ""), (sizeof("\n")-1)); |
10497 | } |
10498 | else { |
10499 | output = newSVpvs("")Perl_newSVpvn( ("" "" ""), (sizeof("")-1)); |
10500 | } |
10501 | |
10502 | PERL_ARGS_ASSERT_INVLIST_CONTENTS((invlist) ? (void)0 : __assert2("re_comp.c", 10502, __func__ , "invlist")); |
10503 | |
10504 | assert(! invlist_is_iterating(invlist))((! S_invlist_is_iterating(invlist)) ? (void)0 : __assert2("re_comp.c" , 10504, __func__, "! invlist_is_iterating(invlist)")); |
10505 | |
10506 | invlist_iterinitS_invlist_iterinit(invlist); |
10507 | while (invlist_iternextS_invlist_iternext(invlist, &start, &end)) { |
10508 | if (end == UV_MAX(~(UV)0)) { |
10509 | Perl_sv_catpvf(aTHX_ output, "%04" UVXf"lX" "%cINFTY%c", |
10510 | start, intra_range_delimiter, |
10511 | inter_range_delimiter); |
10512 | } |
10513 | else if (end != start) { |
10514 | Perl_sv_catpvf(aTHX_ output, "%04" UVXf"lX" "%c%04" UVXf"lX" "%c", |
10515 | start, |
10516 | intra_range_delimiter, |
10517 | end, inter_range_delimiter); |
10518 | } |
10519 | else { |
10520 | Perl_sv_catpvf(aTHX_ output, "%04" UVXf"lX" "%c", |
10521 | start, inter_range_delimiter); |
10522 | } |
10523 | } |
10524 | |
10525 | if (SvCUR(output)(*({ const SV *const _svcur = (const SV *)(output); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 10525, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 10525, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 10525, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) && ! traditional_style) {/* Get rid of trailing blank */ |
10526 | SvCUR_set(output, SvCUR(output) - 1)do { ((PL_valid_types_PVX[((svtype)((output)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 10526 , __func__, "PL_valid_types_PVX[SvTYPE(output) & SVt_MASK]" )); ((!((((output)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((output)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((output)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 10526, __func__ , "!isGV_with_GP(output)")); ((!(((svtype)((output)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (output)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 10526, __func__, "!(SvTYPE(output) == SVt_PVIO && !(IoFLAGS(output) & IOf_FAKE_DIRP))" )); (((XPV*) (output)->sv_any)->xpv_cur = ((*({ const SV *const _svcur = (const SV *)(output); ((PL_valid_types_PVX[( (svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void )0 : __assert2("re_comp.c", 10526, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 10526, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 10526, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - 1)); } while (0); |
10527 | } |
10528 | |
10529 | return output; |
10530 | } |
10531 | |
10532 | #ifndef PERL_IN_XSUB_RE |
10533 | void |
10534 | Perl__invlist_dump(pTHX_ PerlIOPerlIO *file, I32 level, |
10535 | const char * const indent, SV* const invlist) |
10536 | { |
10537 | /* Designed to be called only by do_sv_dump(). Dumps out the ranges of the |
10538 | * inversion list 'invlist' to 'file' at 'level' Each line is prefixed by |
10539 | * the string 'indent'. The output looks like this: |
10540 | [0] 0x000A .. 0x000D |
10541 | [2] 0x0085 |
10542 | [4] 0x2028 .. 0x2029 |
10543 | [6] 0x3104 .. INFTY |
10544 | * This means that the first range of code points matched by the list are |
10545 | * 0xA through 0xD; the second range contains only the single code point |
10546 | * 0x85, etc. An inversion list is an array of UVs. Two array elements |
10547 | * are used to define each range (except if the final range extends to |
10548 | * infinity, only a single element is needed). The array index of the |
10549 | * first element for the corresponding range is given in brackets. */ |
10550 | |
10551 | UV start, end; |
10552 | STRLEN count = 0; |
10553 | |
10554 | PERL_ARGS_ASSERT__INVLIST_DUMP((file) ? (void)0 : __assert2("re_comp.c", 10554, __func__, "file" )); ((indent) ? (void)0 : __assert2("re_comp.c", 10554, __func__ , "indent")); ((invlist) ? (void)0 : __assert2("re_comp.c", 10554 , __func__, "invlist")); |
10555 | |
10556 | if (invlist_is_iteratingS_invlist_is_iterating(invlist)) { |
10557 | Perl_dump_indent(aTHX_ level, file, |
10558 | "%sCan't dump inversion list because is in middle of iterating\n", |
10559 | indent); |
10560 | return; |
10561 | } |
10562 | |
10563 | invlist_iterinitS_invlist_iterinit(invlist); |
10564 | while (invlist_iternextS_invlist_iternext(invlist, &start, &end)) { |
10565 | if (end == UV_MAX(~(UV)0)) { |
10566 | Perl_dump_indent(aTHX_ level, file, |
10567 | "%s[%" UVuf"lu" "] 0x%04" UVXf"lX" " .. INFTY\n", |
10568 | indent, (UV)count, start); |
10569 | } |
10570 | else if (end != start) { |
10571 | Perl_dump_indent(aTHX_ level, file, |
10572 | "%s[%" UVuf"lu" "] 0x%04" UVXf"lX" " .. 0x%04" UVXf"lX" "\n", |
10573 | indent, (UV)count, start, end); |
10574 | } |
10575 | else { |
10576 | Perl_dump_indent(aTHX_ level, file, "%s[%" UVuf"lu" "] 0x%04" UVXf"lX" "\n", |
10577 | indent, (UV)count, start); |
10578 | } |
10579 | count += 2; |
10580 | } |
10581 | } |
10582 | |
10583 | #endif |
10584 | |
10585 | #if defined(PERL_ARGS_ASSERT__INVLISTEQ((a) ? (void)0 : __assert2("re_comp.c", 10585, __func__, "a") ); ((b) ? (void)0 : __assert2("re_comp.c", 10585, __func__, "b" ))) && !defined(PERL_IN_XSUB_RE) |
10586 | bool_Bool |
10587 | Perl__invlistEQ(pTHX_ SV* const a, SV* const b, const bool_Bool complement_b) |
10588 | { |
10589 | /* Return a boolean as to if the two passed in inversion lists are |
10590 | * identical. The final argument, if TRUE, says to take the complement of |
10591 | * the second inversion list before doing the comparison */ |
10592 | |
10593 | const UV len_a = _invlist_lenS__invlist_len(a); |
10594 | UV len_b = _invlist_lenS__invlist_len(b); |
10595 | |
10596 | const UV* array_a = NULL((void*)0); |
10597 | const UV* array_b = NULL((void*)0); |
10598 | |
10599 | PERL_ARGS_ASSERT__INVLISTEQ((a) ? (void)0 : __assert2("re_comp.c", 10599, __func__, "a") ); ((b) ? (void)0 : __assert2("re_comp.c", 10599, __func__, "b" )); |
10600 | |
10601 | /* This code avoids accessing the arrays unless it knows the length is |
10602 | * non-zero */ |
10603 | |
10604 | if (len_a == 0) { |
10605 | if (len_b == 0) { |
10606 | return ! complement_b; |
10607 | } |
10608 | } |
10609 | else { |
10610 | array_a = invlist_arrayS_invlist_array(a); |
10611 | } |
10612 | |
10613 | if (len_b != 0) { |
10614 | array_b = invlist_arrayS_invlist_array(b); |
10615 | } |
10616 | |
10617 | /* If are to compare 'a' with the complement of b, set it |
10618 | * up so are looking at b's complement. */ |
10619 | if (complement_b) { |
10620 | |
10621 | /* The complement of nothing is everything, so <a> would have to have |
10622 | * just one element, starting at zero (ending at infinity) */ |
10623 | if (len_b == 0) { |
10624 | return (len_a == 1 && array_a[0] == 0); |
10625 | } |
10626 | if (array_b[0] == 0) { |
10627 | |
10628 | /* Otherwise, to complement, we invert. Here, the first element is |
10629 | * 0, just remove it. To do this, we just pretend the array starts |
10630 | * one later */ |
10631 | |
10632 | array_b++; |
10633 | len_b--; |
10634 | } |
10635 | else { |
10636 | |
10637 | /* But if the first element is not zero, we pretend the list starts |
10638 | * at the 0 that is always stored immediately before the array. */ |
10639 | array_b--; |
10640 | len_b++; |
10641 | } |
10642 | } |
10643 | |
10644 | return len_a == len_b |
10645 | && memEQ(array_a, array_b, len_a * sizeof(array_a[0]))(memcmp(((const void *) (array_a)), ((const void *) (array_b) ), len_a * sizeof(array_a[0])) == 0); |
10646 | |
10647 | } |
10648 | #endif |
10649 | |
10650 | /* |
10651 | * As best we can, determine the characters that can match the start of |
10652 | * the given EXACTF-ish node. This is for use in creating ssc nodes, so there |
10653 | * can be false positive matches |
10654 | * |
10655 | * Returns the invlist as a new SV*; it is the caller's responsibility to |
10656 | * call SvREFCNT_dec() when done with it. |
10657 | */ |
10658 | STATICstatic SV* |
10659 | S_make_exactf_invlist(pTHX_ RExC_state_t *pRExC_state, regnode *node) |
10660 | { |
10661 | dVARstruct Perl___notused_struct; |
10662 | const U8 * s = (U8*)STRING(node)((((node)->type) == 41 || ((node)->type) == 51) ? ((((( node)->type) == 41 || ((node)->type) == 51) ? (void)0 : __assert2("re_comp.c", 10662, __func__, "((node)->type) == 41 || ((node)->type) == 51" )), (((struct regnode_lstring *)node)->string)) : (((((node )->type) != 41 && ((node)->type) != 51) ? (void )0 : __assert2("re_comp.c", 10662, __func__, "((node)->type) != 41 && ((node)->type) != 51" )), ((struct regnode_string *)node)->string)); |
10663 | SSize_tssize_t bytelen = STR_LEN(node)((((node)->type) == 41 || ((node)->type) == 51) ? ((((( node)->type) == 41 || ((node)->type) == 51) ? (void)0 : __assert2("re_comp.c", 10663, __func__, "((node)->type) == 41 || ((node)->type) == 51" )), (((struct regnode_lstring *)node)->str_len)) : (((((node )->type) != 41 && ((node)->type) != 51) ? (void )0 : __assert2("re_comp.c", 10663, __func__, "((node)->type) != 41 && ((node)->type) != 51" )), ((struct regnode_string *)node)->str_len)); |
10664 | UV uc; |
10665 | /* Start out big enough for 2 separate code points */ |
10666 | SV* invlist = _new_invlist(4)Perl__new_invlist( 4); |
10667 | |
10668 | PERL_ARGS_ASSERT_MAKE_EXACTF_INVLIST((pRExC_state) ? (void)0 : __assert2("re_comp.c", 10668, __func__ , "pRExC_state")); ((node) ? (void)0 : __assert2("re_comp.c", 10668, __func__, "node")); |
10669 | |
10670 | if (! UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) { |
10671 | uc = *s; |
10672 | |
10673 | /* We punt and assume can match anything if the node begins |
10674 | * with a multi-character fold. Things are complicated. For |
10675 | * example, /ffi/i could match any of: |
10676 | * "\N{LATIN SMALL LIGATURE FFI}" |
10677 | * "\N{LATIN SMALL LIGATURE FF}I" |
10678 | * "F\N{LATIN SMALL LIGATURE FI}" |
10679 | * plus several other things; and making sure we have all the |
10680 | * possibilities is hard. */ |
10681 | if (is_MULTI_CHAR_FOLD_latin1_safe(s, s + bytelen)( ((s + bytelen)-(s) > 2) ? ( ( ( ((const U8*)s)[0] & 0xDF ) == 0x46 ) ? ( ( ( ((const U8*)s)[1] & 0xDF ) == 0x46 ) ? ( ( ( ( ((const U8*)s)[2] & 0xDF ) == 0x49 ) || ( ( (( const U8*)s)[2] & 0xDF ) == 0x4C ) ) ? 3 : 2 ) : ( ( ( (( const U8*)s)[1] & 0xDF ) == 0x49 ) || ( ( ((const U8*)s)[ 1] & 0xDF ) == 0x4C ) ) ? 2 : 0 ) : ( ( ( ((const U8*)s)[ 0] & 0xDF ) == 0x53 ) && ( ((((0x54) >= (0x53) ) ? (void)0 : __assert2("re_comp.c", 10681, __func__, "(0x54) >= (0x53)" )), ( (sizeof(((const U8*)s)[1]) == sizeof(U8)) ? ((((NV) ((0x53 )) >= 0) ? (void)0 : __assert2("re_comp.c", 10681, __func__ , "(NV) ((0x53)) >= 0")), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2("re_comp.c", 10681, __func__, "(NV) (((0x54) - (0x53))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[1])))) - (((0x53)) | 0)) ) <= (((U64) ((((0x54) - (0x53))) | 0))))) : (sizeof(((const U8*)s)[1]) == sizeof(U32)) ? ((((NV) ((0x53)) >= 0) ? (void )0 : __assert2("re_comp.c", 10681, __func__, "(NV) ((0x53)) >= 0" )), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 10681, __func__, "(NV) (((0x54) - (0x53))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[1])))) - (((0x53)) | 0) )) <= (((U64) ((((0x54) - (0x53))) | 0))))) : (((sizeof((( const U8*)s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 10681, __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)" )), ((((NV) ((0x53)) >= 0) ? (void)0 : __assert2("re_comp.c" , 10681, __func__, "(NV) ((0x53)) >= 0")), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2("re_comp.c", 10681 , __func__, "(NV) (((0x54) - (0x53))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[1])))) - (((0x53)) | 0))) <= (((U64 ) ((((0x54) - (0x53))) | 0)))))))) || ((((0x74) >= (0x73)) ? (void)0 : __assert2("re_comp.c", 10681, __func__, "(0x74) >= (0x73)" )), ( (sizeof(((const U8*)s)[1]) == sizeof(U8)) ? ((((NV) ((0x73 )) >= 0) ? (void)0 : __assert2("re_comp.c", 10681, __func__ , "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 10681, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[1])))) - (((0x73)) | 0)) ) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)s)[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 10681, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 10681, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[1])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof((( const U8*)s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 10681, __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 10681, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 10681 , __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[1])))) - (((0x73)) | 0))) <= (((U64 ) ((((0x74) - (0x73))) | 0)))))))) ) ) ? 2 : 0 ): ((s + bytelen )-(s) > 1) ? ( ( ( ((const U8*)s)[0] & 0xDF ) == 0x46 ) ? ( ( ( ( ((const U8*)s)[1] & 0xDF ) == 0x46 ) || ( ( (( const U8*)s)[1] & 0xDF ) == 0x49 ) || ( ( ((const U8*)s)[ 1] & 0xDF ) == 0x4C ) ) ? 2 : 0 ) : ( ( ( ((const U8*)s)[ 0] & 0xDF ) == 0x53 ) && ( ((((0x54) >= (0x53) ) ? (void)0 : __assert2("re_comp.c", 10681, __func__, "(0x54) >= (0x53)" )), ( (sizeof(((const U8*)s)[1]) == sizeof(U8)) ? ((((NV) ((0x53 )) >= 0) ? (void)0 : __assert2("re_comp.c", 10681, __func__ , "(NV) ((0x53)) >= 0")), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2("re_comp.c", 10681, __func__, "(NV) (((0x54) - (0x53))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[1])))) - (((0x53)) | 0)) ) <= (((U64) ((((0x54) - (0x53))) | 0))))) : (sizeof(((const U8*)s)[1]) == sizeof(U32)) ? ((((NV) ((0x53)) >= 0) ? (void )0 : __assert2("re_comp.c", 10681, __func__, "(NV) ((0x53)) >= 0" )), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 10681, __func__, "(NV) (((0x54) - (0x53))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[1])))) - (((0x53)) | 0) )) <= (((U64) ((((0x54) - (0x53))) | 0))))) : (((sizeof((( const U8*)s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 10681, __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)" )), ((((NV) ((0x53)) >= 0) ? (void)0 : __assert2("re_comp.c" , 10681, __func__, "(NV) ((0x53)) >= 0")), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2("re_comp.c", 10681 , __func__, "(NV) (((0x54) - (0x53))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[1])))) - (((0x53)) | 0))) <= (((U64 ) ((((0x54) - (0x53))) | 0)))))))) || ((((0x74) >= (0x73)) ? (void)0 : __assert2("re_comp.c", 10681, __func__, "(0x74) >= (0x73)" )), ( (sizeof(((const U8*)s)[1]) == sizeof(U8)) ? ((((NV) ((0x73 )) >= 0) ? (void)0 : __assert2("re_comp.c", 10681, __func__ , "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 10681, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[1])))) - (((0x73)) | 0)) ) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)s)[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 10681, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 10681, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[1])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof((( const U8*)s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 10681, __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 10681, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 10681 , __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[1])))) - (((0x73)) | 0))) <= (((U64 ) ((((0x74) - (0x73))) | 0)))))))) ) ) ? 2 : 0 ): 0 )) { |
10682 | invlist = _add_range_to_invlist(invlist, 0, UV_MAX)Perl__add_range_to_invlist( invlist,0,(~(UV)0)); |
10683 | } |
10684 | else { |
10685 | /* Any Latin1 range character can potentially match any |
10686 | * other depending on the locale, and in Turkic locales, U+130 and |
10687 | * U+131 */ |
10688 | if (OP(node)((node)->type) == EXACTFL44) { |
10689 | _invlist_union(invlist, PL_Latin1, &invlist)Perl__invlist_union_maybe_complement_2nd( invlist,PL_Latin1,( 0),&invlist); |
10690 | invlist = add_cp_to_invlist(invlist,S_add_cp_to_invlist( invlist,0x131) |
10691 | LATIN_SMALL_LETTER_DOTLESS_I)S_add_cp_to_invlist( invlist,0x131); |
10692 | invlist = add_cp_to_invlist(invlist,S_add_cp_to_invlist( invlist,0x130) |
10693 | LATIN_CAPITAL_LETTER_I_WITH_DOT_ABOVE)S_add_cp_to_invlist( invlist,0x130); |
10694 | } |
10695 | else { |
10696 | /* But otherwise, it matches at least itself. We can |
10697 | * quickly tell if it has a distinct fold, and if so, |
10698 | * it matches that as well */ |
10699 | invlist = add_cp_to_invlist(invlist, uc)S_add_cp_to_invlist( invlist,uc); |
10700 | if (IS_IN_SOME_FOLD_L1(uc)((( (sizeof(uc) == 1) || !(((U64)((uc) | 0)) & ~0xFF)) && (PL_charclass[(U8) (uc)] & (1U << (22)))) ? (_Bool )1 : (_Bool)0)) |
10701 | invlist = add_cp_to_invlist(invlist, PL_fold_latin1[uc])S_add_cp_to_invlist( invlist,PL_fold_latin1[uc]); |
10702 | } |
10703 | |
10704 | /* Some characters match above-Latin1 ones under /i. This |
10705 | * is true of EXACTFL ones when the locale is UTF-8 */ |
10706 | if (HAS_NONLATIN1_SIMPLE_FOLD_CLOSURE(uc)((! ((( (sizeof(uc) == 1) || !(((U64)((uc) | 0)) & ~0xFF) )) ? (_Bool)1 : (_Bool)0)) || (PL_charclass[(U8) (uc)] & ( 1U << (19)))) |
10707 | && (! isASCII(uc)((U64)((uc) | 0) < 128) || (OP(node)((node)->type) != EXACTFAA46 |
10708 | && OP(node)((node)->type) != EXACTFAA_NO_TRIE49))) |
10709 | { |
10710 | add_above_Latin1_folds(pRExC_state, (U8) uc, &invlist)S_add_above_Latin1_folds( pRExC_state,(U8) uc,&invlist); |
10711 | } |
10712 | } |
10713 | } |
10714 | else { /* Pattern is UTF-8 */ |
10715 | U8 folded[UTF8_MAX_FOLD_CHAR_EXPAND3 * UTF8_MAXBYTES_CASE(((13)>(3 * ((((U64)(0x10FFFF)) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF) < (32 * (1U << ( 6))) ? 2 : (UV) (0x10FFFF) < (16 * (1U << (2 * 6) )) ? 3 : (UV) (0x10FFFF) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV ) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF ) < ((UV) 1U << (6 * 6)) ? 7 : 13))))?(13):(3 * (((( U64)(0x10FFFF)) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF) < (32 * (1U << ( 6))) ? 2 : (UV ) (0x10FFFF) < (16 * (1U << (2 * 6))) ? 3 : (UV) (0x10FFFF ) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF) < ((UV) 1U << (6 * 6)) ? 7 : 13)))) + 1] = { '\0' }; |
10716 | const U8* e = s + bytelen; |
10717 | IV fc; |
10718 | |
10719 | fc = uc = utf8_to_uvchr_buf(s, s + bytelen, NULL)Perl_utf8_to_uvchr_buf_helper( (const U8 *) (s),(const U8 *) s + bytelen,((void*)0)); |
10720 | |
10721 | /* The only code points that aren't folded in a UTF EXACTFish |
10722 | * node are the problematic ones in EXACTFL nodes */ |
10723 | if (OP(node)((node)->type) == EXACTFL44 && is_PROBLEMATIC_LOCALE_FOLDEDS_START_cp(uc)( uc <= 0xFF || ( 0xFF < uc && ( 0x130 == uc || ( 0x130 < uc && ( 0x131 == uc || ( 0x131 < uc && ( 0x149 == uc || ( 0x149 < uc && ( 0x178 == uc || ( 0x178 < uc && ( 0x17F == uc || ( 0x17F < uc && ( 0x1F0 == uc || ( 0x1F0 < uc && ( 0x2BC == uc || ( 0x2BC < uc && ( 0x39C == uc || ( 0x39C < uc && ( 0x3BC == uc || ( 0x3BC < uc && ( ((((0x1E9A) >= (0x1E96)) ? (void)0 : __assert2("re_comp.c", 10723, __func__ , "(0x1E9A) >= (0x1E96)")), ( (sizeof(uc) == sizeof(U8)) ? ((((NV) ((0x1E96)) >= 0) ? (void)0 : __assert2("re_comp.c" , 10723, __func__, "(NV) ((0x1E96)) >= 0")), (((NV) (((0x1E9A ) - (0x1E96))) >= 0) ? (void)0 : __assert2("re_comp.c", 10723 , __func__, "(NV) (((0x1E9A) - (0x1E96))) >= 0")), (((U64) (((((U8) (uc)))) - (((0x1E96)) | 0))) <= (((U64) ((((0x1E9A ) - (0x1E96))) | 0))))) : (sizeof(uc) == sizeof(U32)) ? ((((NV ) ((0x1E96)) >= 0) ? (void)0 : __assert2("re_comp.c", 10723 , __func__, "(NV) ((0x1E96)) >= 0")), (((NV) (((0x1E9A) - ( 0x1E96))) >= 0) ? (void)0 : __assert2("re_comp.c", 10723, __func__ , "(NV) (((0x1E9A) - (0x1E96))) >= 0")), (((U64) (((((U32) (uc)))) - (((0x1E96)) | 0))) <= (((U64) ((((0x1E9A) - (0x1E96 ))) | 0))))) : (((sizeof(uc) == sizeof(U64)) ? (void)0 : __assert2 ("re_comp.c", 10723, __func__, "sizeof(uc) == sizeof(U64)")), ((((NV) ((0x1E96)) >= 0) ? (void)0 : __assert2("re_comp.c" , 10723, __func__, "(NV) ((0x1E96)) >= 0")), (((NV) (((0x1E9A ) - (0x1E96))) >= 0) ? (void)0 : __assert2("re_comp.c", 10723 , __func__, "(NV) (((0x1E9A) - (0x1E96))) >= 0")), (((U64) (((((U64) (uc)))) - (((0x1E96)) | 0))) <= (((U64) ((((0x1E9A ) - (0x1E96))) | 0)))))))) || ( 0x1E9A < uc && ( 0x1E9E == uc || ( 0x1E9E < uc && ( 0x212A == uc || ( 0x212A < uc && ( 0x212B == uc || ((((0xFB06) >= (0xFB00 )) ? (void)0 : __assert2("re_comp.c", 10723, __func__, "(0xFB06) >= (0xFB00)" )), ( (sizeof(uc) == sizeof(U8)) ? ((((NV) ((0xFB00)) >= 0 ) ? (void)0 : __assert2("re_comp.c", 10723, __func__, "(NV) ((0xFB00)) >= 0" )), (((NV) (((0xFB06) - (0xFB00))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 10723, __func__, "(NV) (((0xFB06) - (0xFB00))) >= 0" )), (((U64) (((((U8) (uc)))) - (((0xFB00)) | 0))) <= (((U64 ) ((((0xFB06) - (0xFB00))) | 0))))) : (sizeof(uc) == sizeof(U32 )) ? ((((NV) ((0xFB00)) >= 0) ? (void)0 : __assert2("re_comp.c" , 10723, __func__, "(NV) ((0xFB00)) >= 0")), (((NV) (((0xFB06 ) - (0xFB00))) >= 0) ? (void)0 : __assert2("re_comp.c", 10723 , __func__, "(NV) (((0xFB06) - (0xFB00))) >= 0")), (((U64) (((((U32) (uc)))) - (((0xFB00)) | 0))) <= (((U64) ((((0xFB06 ) - (0xFB00))) | 0))))) : (((sizeof(uc) == sizeof(U64)) ? (void )0 : __assert2("re_comp.c", 10723, __func__, "sizeof(uc) == sizeof(U64)" )), ((((NV) ((0xFB00)) >= 0) ? (void)0 : __assert2("re_comp.c" , 10723, __func__, "(NV) ((0xFB00)) >= 0")), (((NV) (((0xFB06 ) - (0xFB00))) >= 0) ? (void)0 : __assert2("re_comp.c", 10723 , __func__, "(NV) (((0xFB06) - (0xFB00))) >= 0")), (((U64) (((((U64) (uc)))) - (((0xFB00)) | 0))) <= (((U64) ((((0xFB06 ) - (0xFB00))) | 0)))))))) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) )) { |
10724 | /* We need to check for the possibility that this EXACTFL |
10725 | * node begins with a multi-char fold. Therefore we fold |
10726 | * the first few characters of it so that we can make that |
10727 | * check */ |
10728 | U8 *d = folded; |
10729 | int i; |
10730 | |
10731 | fc = -1; |
10732 | for (i = 0; i < UTF8_MAX_FOLD_CHAR_EXPAND3 && s < e; i++) { |
10733 | if (isASCII(*s)((U64)((*s) | 0) < 128)) { |
10734 | *(d++) = (U8) toFOLD(*s)((((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 10734 , __func__, "('Z') >= ('A')")), ( (sizeof(*s) == sizeof(U8 )) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 10734, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 10734, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) (*s))) ) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof(*s) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? ( void)0 : __assert2("re_comp.c", 10734, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 10734, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) (*s)))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof(*s) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 10734, __func__, "sizeof(*s) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 10734, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 10734, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) (*s)) )) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)))) )))) ? (U8)((*s) + ('a' - 'A')) : (*s)); |
10735 | if (fc < 0) { /* Save the first fold */ |
10736 | fc = *(d-1); |
10737 | } |
10738 | s++; |
10739 | } |
10740 | else { |
10741 | STRLEN len; |
10742 | UV fold = toFOLD_utf8_safe(s, e, d, &len)Perl__to_utf8_fold_flags( s,e,d,&len,0x2); |
10743 | if (fc < 0) { /* Save the first fold */ |
10744 | fc = fold; |
10745 | } |
10746 | d += len; |
10747 | s += UTF8SKIP(s)PL_utf8skip[*(const U8*)(s)]; |
10748 | } |
10749 | } |
10750 | |
10751 | /* And set up so the code below that looks in this folded |
10752 | * buffer instead of the node's string */ |
10753 | e = d; |
10754 | s = folded; |
10755 | } |
10756 | |
10757 | /* When we reach here 's' points to the fold of the first |
10758 | * character(s) of the node; and 'e' points to far enough along |
10759 | * the folded string to be just past any possible multi-char |
10760 | * fold. |
10761 | * |
10762 | * Unlike the non-UTF-8 case, the macro for determining if a |
10763 | * string is a multi-char fold requires all the characters to |
10764 | * already be folded. This is because of all the complications |
10765 | * if not. Note that they are folded anyway, except in EXACTFL |
10766 | * nodes. Like the non-UTF case above, we punt if the node |
10767 | * begins with a multi-char fold */ |
10768 | |
10769 | if (is_MULTI_CHAR_FOLD_utf8_safe(s, e)( ((e)-(s) > 5) ? ( ( 0x61 == ((const U8*)s)[0] ) ? ( ( ( 0xCA == ((const U8*)s)[1] ) && ( 0xBE == ((const U8*)s)[2 ] ) ) ? 3 : 0 ) : ( 0x66 == ((const U8*)s)[0] ) ? ( ( 0x66 == ((const U8*)s)[1] ) ? ( ( 0x69 == ((const U8*)s)[2] || 0x6C == ((const U8*)s)[2] ) ? 3 : 2 ) : ( 0x69 == ((const U8*)s)[1] || 0x6C == ((const U8*)s)[1] ) ? 2 : 0 ) : ( 0x68 == ((const U8 *)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0xB1 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x69 == ((const U8*)s )[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x87 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x6A == ((const U8*)s)[0 ] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x8C == ( (const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x73 == ((const U8*)s)[0] ) ? ( ( ((((0x74) >= (0x73)) ? (void)0 : __assert2("re_comp.c" , 10769, __func__, "(0x74) >= (0x73)")), ( (sizeof(((const U8*)s)[1]) == sizeof(U8)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 10769, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 10769, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[1])))) - (((0x73)) | 0)) ) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)s)[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 10769, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 10769, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[1])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof((( const U8*)s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 10769, __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 10769, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 10769 , __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[1])))) - (((0x73)) | 0))) <= (((U64 ) ((((0x74) - (0x73))) | 0)))))))) ) ? 2 : 0 ) : ( 0x74 == (( const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x88 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x77 == ((const U8*)s)[0] || 0x79 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x8A == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0xC5 == ((const U8*)s)[0] ) ? ( ( ( ( 0xBF == ((const U8*)s)[1] ) && ( 0xC5 == ((const U8*)s)[2] ) ) && ( 0xBF == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xCA == ((const U8*)s)[0] ) ? ( ( ( 0xBC == ((const U8*)s)[1] ) && ( 0x6E == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0xCE == ((const U8 *)s)[0] ) ? ( ( ( ((const U8*)s)[1] & 0xFD ) == 0xAC ) ? ( ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xB1 == ((const U8*)s)[1] || 0xB7 == ((const U8*)s)[1] ) ? ( ( 0xCD == ((const U8*)s)[2] ) ? ( ( 0x82 == ((const U8*)s)[3] ) ? ( ( ( 0xCE == ((const U8*)s) [4] ) && ( 0xB9 == ((const U8*)s)[5] ) ) ? 6 : 4 ) : 0 ) : ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xB9 == ((const U8*)s)[1] ) ? ( ( 0xCC == ((const U8*)s)[2] ) ? ( ( 0x88 == ((const U8*)s)[3] ) ? ( ( 0xCC == ((const U8*)s)[4] ) ? ( ( ((((0x81) >= (0x80 )) ? (void)0 : __assert2("re_comp.c", 10769, __func__, "(0x81) >= (0x80)" )), ( (sizeof(((const U8*)s)[5]) == sizeof(U8)) ? ((((NV) ((0x80 )) >= 0) ? (void)0 : __assert2("re_comp.c", 10769, __func__ , "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_comp.c", 10769, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[5])))) - (((0x80)) | 0)) ) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (sizeof(((const U8*)s)[5]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? (void )0 : __assert2("re_comp.c", 10769, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 10769, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[5])))) - (((0x80)) | 0) )) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (((sizeof((( const U8*)s)[5]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 10769, __func__, "sizeof(((const U8*)s)[5]) == sizeof(U64)" )), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c" , 10769, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_comp.c", 10769 , __func__, "(NV) (((0x81) - (0x80))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[5])))) - (((0x80)) | 0))) <= (((U64 ) ((((0x81) - (0x80))) | 0)))))))) ) ? 6 : 0 ) : ( ( 0xCD == ( (const U8*)s)[4] ) && ( 0x82 == ((const U8*)s)[5] ) ) ? 6 : 0 ) : 0 ) : ( ( 0xCD == ((const U8*)s)[2] ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : 0 ) : ( 0xCF == ( (const U8*)s)[0] ) ? ( ( 0x81 == ((const U8*)s)[1] ) ? ( ( ( 0xCC == ((const U8*)s)[2] ) && ( 0x93 == ((const U8*)s)[3 ] ) ) ? 4 : 0 ) : ( 0x85 == ((const U8*)s)[1] ) ? ( ( 0xCC == ((const U8*)s)[2] ) ? ( ( 0x88 == ((const U8*)s)[3] ) ? ( ( 0xCC == ((const U8*)s)[4] ) ? ( ( ((((0x81) >= (0x80)) ? (void )0 : __assert2("re_comp.c", 10769, __func__, "(0x81) >= (0x80)" )), ( (sizeof(((const U8*)s)[5]) == sizeof(U8)) ? ((((NV) ((0x80 )) >= 0) ? (void)0 : __assert2("re_comp.c", 10769, __func__ , "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_comp.c", 10769, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[5])))) - (((0x80)) | 0)) ) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (sizeof(((const U8*)s)[5]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? (void )0 : __assert2("re_comp.c", 10769, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 10769, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[5])))) - (((0x80)) | 0) )) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (((sizeof((( const U8*)s)[5]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 10769, __func__, "sizeof(((const U8*)s)[5]) == sizeof(U64)" )), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c" , 10769, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_comp.c", 10769 , __func__, "(NV) (((0x81) - (0x80))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[5])))) - (((0x80)) | 0))) <= (((U64 ) ((((0x81) - (0x80))) | 0)))))))) ) ? 6 : 0 ) : ( ( 0xCD == ( (const U8*)s)[4] ) && ( 0x82 == ((const U8*)s)[5] ) ) ? 6 : 0 ) : ( 0x93 == ((const U8*)s)[3] ) ? ( ( 0xCC == ((const U8*)s)[4] ) ? ( ( ((((0x81) >= (0x80)) ? (void)0 : __assert2 ("re_comp.c", 10769, __func__, "(0x81) >= (0x80)")), ( (sizeof (((const U8*)s)[5]) == sizeof(U8)) ? ((((NV) ((0x80)) >= 0 ) ? (void)0 : __assert2("re_comp.c", 10769, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 10769, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[5])))) - (((0x80)) | 0)) ) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (sizeof(((const U8*)s)[5]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? (void )0 : __assert2("re_comp.c", 10769, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 10769, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[5])))) - (((0x80)) | 0) )) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (((sizeof((( const U8*)s)[5]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 10769, __func__, "sizeof(((const U8*)s)[5]) == sizeof(U64)" )), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c" , 10769, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_comp.c", 10769 , __func__, "(NV) (((0x81) - (0x80))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[5])))) - (((0x80)) | 0))) <= (((U64 ) ((((0x81) - (0x80))) | 0)))))))) ) ? 6 : 4 ) : ( ( 0xCD == ( (const U8*)s)[4] ) && ( 0x82 == ((const U8*)s)[5] ) ) ? 6 : 4 ) : 0 ) : ( ( 0xCD == ((const U8*)s)[2] ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0x89 == ((const U8*)s)[1] ) ? ( ( 0xCD == ((const U8*)s)[2] ) ? ( ( 0x82 == ( (const U8*)s)[3] ) ? ( ( ( 0xCE == ((const U8*)s)[4] ) && ( 0xB9 == ((const U8*)s)[5] ) ) ? 6 : 4 ) : 0 ) : ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( ( ( 0x8E == ((const U8*)s)[1] ) && ( 0xCE == ((const U8*)s)[2] ) ) && ( 0xB9 == ((const U8 *)s)[3] ) ) ? 4 : 0 ) : ( 0xD5 == ((const U8*)s)[0] ) ? ( ( 0xA5 == ((const U8*)s)[1] ) ? ( ( ( 0xD6 == ((const U8*)s)[2] ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xB4 == ((const U8*)s)[1] ) ? ( ( ( 0xD5 == ((const U8*)s)[2] ) && ( ( ( ((const U8*)s)[3] & 0xF7 ) == 0xA5 ) || ((const U8*) s)[3] == 0xAB || ((const U8*)s)[3] == 0xB6 ) ) ? 4 : 0 ) : ( ( ( 0xBE == ((const U8*)s)[1] ) && ( 0xD5 == ((const U8 *)s)[2] ) ) && ( 0xB6 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xE1 == ((const U8*)s)[0] ) ? ( ( 0xBC == ((const U8*) s)[1] ) ? ( ( ( ( ( ((const U8*)s)[2] & 0xD8 ) == 0x80 ) && ( 0xCE == ((const U8*)s)[3] ) ) && ( 0xB9 == ((const U8*)s)[4] ) ) ? 5 : 0 ) : ( ( ( ( 0xBD == ((const U8*)s)[1] ) && ( ( ( ((const U8*)s)[2] & 0xF8 ) == 0xA0 ) || ( ( ((const U8*)s)[2] & 0xFB ) == 0xB0 ) || ((const U8*) s)[2] == 0xBC ) ) && ( 0xCE == ((const U8*)s)[3] ) ) && ( 0xB9 == ((const U8*)s)[4] ) ) ? 5 : 0 ) : 0 ) : ((e)-(s) > 4) ? ( ( 0x61 == ((const U8*)s)[0] ) ? ( ( ( 0xCA == ((const U8*)s)[1] ) && ( 0xBE == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x66 == ((const U8*)s)[0] ) ? ( ( 0x66 == ((const U8 *)s)[1] ) ? ( ( 0x69 == ((const U8*)s)[2] || 0x6C == ((const U8 *)s)[2] ) ? 3 : 2 ) : ( 0x69 == ((const U8*)s)[1] || 0x6C == ( (const U8*)s)[1] ) ? 2 : 0 ) : ( 0x68 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0xB1 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x69 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x87 == ((const U8 *)s)[2] ) ) ? 3 : 0 ) : ( 0x6A == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x8C == ((const U8* )s)[2] ) ) ? 3 : 0 ) : ( 0x73 == ((const U8*)s)[0] ) ? ( ( (( ((0x74) >= (0x73)) ? (void)0 : __assert2("re_comp.c", 10769 , __func__, "(0x74) >= (0x73)")), ( (sizeof(((const U8*)s) [1]) == sizeof(U8)) ? ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 10769, __func__, "(NV) ((0x73)) >= 0")), ((( NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c" , 10769, __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64 ) (((((U8) (((const U8*)s)[1])))) - (((0x73)) | 0))) <= (( (U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)s)[ 1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 10769, __func__, "(NV) ((0x73)) >= 0")), ((( NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c" , 10769, __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64 ) (((((U32) (((const U8*)s)[1])))) - (((0x73)) | 0))) <= ( ((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof(((const U8*) s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 10769 , __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)")), ((( (NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c", 10769 , __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73 ))) >= 0) ? (void)0 : __assert2("re_comp.c", 10769, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0)))))))) ) ? 2 : 0 ) : ( 0x74 == ((const U8*) s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x88 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x77 == ((const U8*)s )[0] || 0x79 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8 *)s)[1] ) && ( 0x8A == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0xC5 == ((const U8*)s)[0] ) ? ( ( ( ( 0xBF == ((const U8 *)s)[1] ) && ( 0xC5 == ((const U8*)s)[2] ) ) && ( 0xBF == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xCA == ((const U8*)s)[0] ) ? ( ( ( 0xBC == ((const U8*)s)[1] ) && ( 0x6E == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0xCE == ((const U8 *)s)[0] ) ? ( ( ( ((const U8*)s)[1] & 0xFD ) == 0xAC ) ? ( ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xB1 == ((const U8*)s)[1] || 0xB7 == ((const U8*)s)[1] ) ? ( ( 0xCD == ((const U8*)s)[2] ) ? ( ( 0x82 == ((const U8*)s)[3] ) ? 4 : 0 ) : ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( ( ( 0xB9 == ((const U8*)s)[1] ) && ( 0xCD == ((const U8*)s)[2] ) ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xCF == ((const U8*)s)[0] ) ? ( ( 0x81 == ( (const U8*)s)[1] ) ? ( ( ( 0xCC == ((const U8*)s)[2] ) && ( 0x93 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0x85 == ((const U8*)s)[1] ) ? ( ( 0xCC == ((const U8*)s)[2] ) ? ( ( 0x93 == ( (const U8*)s)[3] ) ? 4 : 0 ) : ( ( 0xCD == ((const U8*)s)[2] ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0x89 == ((const U8*)s)[1] ) ? ( ( 0xCD == ((const U8*)s)[2] ) ? ( ( 0x82 == ((const U8*)s)[3] ) ? 4 : 0 ) : ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( ( ( 0x8E == ((const U8*)s)[1] ) && ( 0xCE == ((const U8*)s)[2] ) ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xD5 == ((const U8*)s)[0] ) ? ( ( 0xA5 == ( (const U8*)s)[1] ) ? ( ( ( 0xD6 == ((const U8*)s)[2] ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xB4 == ((const U8*)s)[1] ) ? ( ( ( 0xD5 == ((const U8*)s)[2] ) && ( ( ( ((const U8*)s)[3] & 0xF7 ) == 0xA5 ) || ((const U8*) s)[3] == 0xAB || ((const U8*)s)[3] == 0xB6 ) ) ? 4 : 0 ) : ( ( ( 0xBE == ((const U8*)s)[1] ) && ( 0xD5 == ((const U8 *)s)[2] ) ) && ( 0xB6 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xE1 == ((const U8*)s)[0] ) ? ( ( 0xBC == ((const U8*) s)[1] ) ? ( ( ( ( ( ((const U8*)s)[2] & 0xD8 ) == 0x80 ) && ( 0xCE == ((const U8*)s)[3] ) ) && ( 0xB9 == ((const U8*)s)[4] ) ) ? 5 : 0 ) : ( ( ( ( 0xBD == ((const U8*)s)[1] ) && ( ( ( ((const U8*)s)[2] & 0xF8 ) == 0xA0 ) || ( ( ((const U8*)s)[2] & 0xFB ) == 0xB0 ) || ((const U8*) s)[2] == 0xBC ) ) && ( 0xCE == ((const U8*)s)[3] ) ) && ( 0xB9 == ((const U8*)s)[4] ) ) ? 5 : 0 ) : 0 ) : ( ((e)-(s) > 3) ? ( ( 0x61 == ((const U8*)s)[0] ) ? ( ( ( 0xCA == (( const U8*)s)[1] ) && ( 0xBE == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x66 == ((const U8*)s)[0] ) ? ( ( 0x66 == ((const U8*)s)[1] ) ? ( ( 0x69 == ((const U8*)s)[2] || 0x6C == ((const U8*)s)[2] ) ? 3 : 2 ) : ( 0x69 == ((const U8*)s)[1] || 0x6C == ((const U8*)s)[1] ) ? 2 : 0 ) : ( 0x68 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0xB1 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x69 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x87 == ((const U8 *)s)[2] ) ) ? 3 : 0 ) : ( 0x6A == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x8C == ((const U8* )s)[2] ) ) ? 3 : 0 ) : ( 0x73 == ((const U8*)s)[0] ) ? ( ( (( ((0x74) >= (0x73)) ? (void)0 : __assert2("re_comp.c", 10769 , __func__, "(0x74) >= (0x73)")), ( (sizeof(((const U8*)s) [1]) == sizeof(U8)) ? ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 10769, __func__, "(NV) ((0x73)) >= 0")), ((( NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c" , 10769, __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64 ) (((((U8) (((const U8*)s)[1])))) - (((0x73)) | 0))) <= (( (U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)s)[ 1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 10769, __func__, "(NV) ((0x73)) >= 0")), ((( NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c" , 10769, __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64 ) (((((U32) (((const U8*)s)[1])))) - (((0x73)) | 0))) <= ( ((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof(((const U8*) s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 10769 , __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)")), ((( (NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c", 10769 , __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73 ))) >= 0) ? (void)0 : __assert2("re_comp.c", 10769, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0)))))))) ) ? 2 : 0 ) : ( 0x74 == ((const U8*) s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x88 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x77 == ((const U8*)s )[0] || 0x79 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8 *)s)[1] ) && ( 0x8A == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0xC5 == ((const U8*)s)[0] ) ? ( ( ( ( 0xBF == ((const U8 *)s)[1] ) && ( 0xC5 == ((const U8*)s)[2] ) ) && ( 0xBF == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xCA == ((const U8*)s)[0] ) ? ( ( ( 0xBC == ((const U8*)s)[1] ) && ( 0x6E == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0xCE == ((const U8 *)s)[0] ) ? ( ( ( ((const U8*)s)[1] & 0xFD ) == 0xAC ) ? ( ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xB1 == ((const U8*)s)[1] || 0xB7 == ((const U8*)s)[1] ) ? ( ( 0xCD == ((const U8*)s)[2] ) ? ( ( 0x82 == ((const U8*)s)[3] ) ? 4 : 0 ) : ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( ( ( 0xB9 == ((const U8*)s)[1] ) && ( 0xCD == ((const U8*)s)[2] ) ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xCF == ((const U8*)s)[0] ) ? ( ( 0x81 == ( (const U8*)s)[1] ) ? ( ( ( 0xCC == ((const U8*)s)[2] ) && ( 0x93 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0x85 == ((const U8*)s)[1] ) ? ( ( 0xCC == ((const U8*)s)[2] ) ? ( ( 0x93 == ( (const U8*)s)[3] ) ? 4 : 0 ) : ( ( 0xCD == ((const U8*)s)[2] ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0x89 == ((const U8*)s)[1] ) ? ( ( 0xCD == ((const U8*)s)[2] ) ? ( ( 0x82 == ((const U8*)s)[3] ) ? 4 : 0 ) : ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( ( ( 0x8E == ((const U8*)s)[1] ) && ( 0xCE == ((const U8*)s)[2] ) ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xD5 == ((const U8*)s)[0] ) ? ( ( 0xA5 == ( (const U8*)s)[1] ) ? ( ( ( 0xD6 == ((const U8*)s)[2] ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xB4 == ((const U8*)s)[1] ) ? ( ( ( 0xD5 == ((const U8*)s)[2] ) && ( ( ( ((const U8*)s)[3] & 0xF7 ) == 0xA5 ) || ((const U8*) s)[3] == 0xAB || ((const U8*)s)[3] == 0xB6 ) ) ? 4 : 0 ) : ( ( ( 0xBE == ((const U8*)s)[1] ) && ( 0xD5 == ((const U8 *)s)[2] ) ) && ( 0xB6 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : 0 ) : ((e)-(s) > 2) ? ( ( 0x61 == ((const U8*)s)[0] ) ? ( ( ( 0xCA == ((const U8*)s)[1] ) && ( 0xBE == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x66 == ((const U8*)s)[0] ) ? ( ( 0x66 == ((const U8*)s)[1] ) ? ( ( 0x69 == ((const U8*)s)[2] || 0x6C == ((const U8*)s)[2] ) ? 3 : 2 ) : ( 0x69 == ((const U8 *)s)[1] || 0x6C == ((const U8*)s)[1] ) ? 2 : 0 ) : ( 0x68 == ( (const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0xB1 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x69 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x87 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x6A == ((const U8 *)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x8C == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x73 == ((const U8*)s )[0] ) ? ( ( ((((0x74) >= (0x73)) ? (void)0 : __assert2("re_comp.c" , 10769, __func__, "(0x74) >= (0x73)")), ( (sizeof(((const U8*)s)[1]) == sizeof(U8)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 10769, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 10769, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[1])))) - (((0x73)) | 0)) ) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)s)[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 10769, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 10769, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[1])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof((( const U8*)s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 10769, __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 10769, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 10769 , __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[1])))) - (((0x73)) | 0))) <= (((U64 ) ((((0x74) - (0x73))) | 0)))))))) ) ? 2 : 0 ) : ( 0x74 == (( const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x88 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x77 == ((const U8*)s)[0] || 0x79 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x8A == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( ( ( 0xCA == ((const U8*)s)[0] ) && ( 0xBC == ((const U8*)s)[1] ) ) && ( 0x6E == ((const U8*)s)[2] ) ) ? 3 : 0 ): ((e)-(s) > 1) ? ( ( 0x66 == ((const U8*)s) [0] ) ? ( ( 0x66 == ((const U8*)s)[1] || 0x69 == ((const U8*) s)[1] || 0x6C == ((const U8*)s)[1] ) ? 2 : 0 ) : ( ( 0x73 == ( (const U8*)s)[0] ) && ( ((((0x74) >= (0x73)) ? (void )0 : __assert2("re_comp.c", 10769, __func__, "(0x74) >= (0x73)" )), ( (sizeof(((const U8*)s)[1]) == sizeof(U8)) ? ((((NV) ((0x73 )) >= 0) ? (void)0 : __assert2("re_comp.c", 10769, __func__ , "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 10769, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[1])))) - (((0x73)) | 0)) ) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)s)[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 10769, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 10769, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[1])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof((( const U8*)s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 10769, __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 10769, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 10769 , __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[1])))) - (((0x73)) | 0))) <= (((U64 ) ((((0x74) - (0x73))) | 0)))))))) ) ) ? 2 : 0 ): 0 ) )) { |
10770 | invlist = _add_range_to_invlist(invlist, 0, UV_MAX)Perl__add_range_to_invlist( invlist,0,(~(UV)0)); |
10771 | } |
10772 | else { /* Single char fold */ |
10773 | unsigned int k; |
10774 | U32 first_fold; |
10775 | const U32 * remaining_folds; |
10776 | Size_tsize_t folds_count; |
10777 | |
10778 | /* It matches itself */ |
10779 | invlist = add_cp_to_invlist(invlist, fc)S_add_cp_to_invlist( invlist,fc); |
10780 | |
10781 | /* ... plus all the things that fold to it, which are found in |
10782 | * PL_utf8_foldclosures */ |
10783 | folds_count = _inverse_folds(fc, &first_fold,Perl__inverse_folds( fc,&first_fold,&remaining_folds) |
10784 | &remaining_folds)Perl__inverse_folds( fc,&first_fold,&remaining_folds); |
10785 | for (k = 0; k < folds_count; k++) { |
10786 | UV c = (k == 0) ? first_fold : remaining_folds[k-1]; |
10787 | |
10788 | /* /aa doesn't allow folds between ASCII and non- */ |
10789 | if ( (OP(node)((node)->type) == EXACTFAA46 || OP(node)((node)->type) == EXACTFAA_NO_TRIE49) |
10790 | && isASCII(c)((U64)((c) | 0) < 128) != isASCII(fc)((U64)((fc) | 0) < 128)) |
10791 | { |
10792 | continue; |
10793 | } |
10794 | |
10795 | invlist = add_cp_to_invlist(invlist, c)S_add_cp_to_invlist( invlist,c); |
10796 | } |
10797 | |
10798 | if (OP(node)((node)->type) == EXACTFL44) { |
10799 | |
10800 | /* If either [iI] are present in an EXACTFL node the above code |
10801 | * should have added its normal case pair, but under a Turkish |
10802 | * locale they could match instead the case pairs from it. Add |
10803 | * those as potential matches as well */ |
10804 | if (isALPHA_FOLD_EQ(fc, 'I')((((((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 10804 , __func__, "('Z') >= ('A')")), ( (sizeof((~('A' ^ 'a') & (fc))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 10804, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 10804, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U8) ((~('A' ^ 'a') & (fc)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & (fc))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 10804, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 10804, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) ((~('A' ^ 'a') & (fc)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a' ) & (fc))) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 10804, __func__, "sizeof((~('A' ^ 'a') & (fc))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 10804, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 10804, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & (fc)))))) - ((('A')) | 0))) <= (((U64) (((('Z' ) - ('A'))) | 0)))))))) || (((('Z') >= ('A')) ? (void)0 : __assert2 ("re_comp.c", 10804, __func__, "('Z') >= ('A')")), ( (sizeof ((~('A' ^ 'a') & ('I'))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 10804, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 10804, __func__, "(NV) ((('Z') - ('A'))) >= 0" )), (((U64) (((((U8) ((~('A' ^ 'a') & ('I')))))) - ((('A' )) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof ((~('A' ^ 'a') & ('I'))) == sizeof(U32)) ? ((((NV) (('A') ) >= 0) ? (void)0 : __assert2("re_comp.c", 10804, __func__ , "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 10804, __func__, "(NV) ((('Z') - ('A'))) >= 0" )), (((U64) (((((U32) ((~('A' ^ 'a') & ('I')))))) - ((('A' )) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof ((~('A' ^ 'a') & ('I'))) == sizeof(U64)) ? (void)0 : __assert2 ("re_comp.c", 10804, __func__, "sizeof((~('A' ^ 'a') & ('I'))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 10804, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 10804, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & ('I')))))) - ((('A')) | 0))) <= (((U64) (((( 'Z') - ('A'))) | 0))))))))) ? (void)0 : __assert2("re_comp.c" , 10804, __func__, "(((('Z') >= ('A')) ? (void)0 : __assert2(\"re_comp.c\", 10804, __func__, \"('Z') >= ('A')\")), ( (sizeof((~('A' ^ 'a') & (fc))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 10804, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 10804, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U8) ((~('A' ^ 'a') & (fc)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & (fc))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 10804, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 10804, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U32) ((~('A' ^ 'a') & (fc)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a') & (fc))) == sizeof(U64)) ? (void)0 : __assert2(\"re_comp.c\", 10804, __func__, \"sizeof((~('A' ^ 'a') & (fc))) == sizeof(U64)\")), ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 10804, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 10804, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U64) ((~('A' ^ 'a') & (fc)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)))))))) || (((('Z') >= ('A')) ? (void)0 : __assert2(\"re_comp.c\", 10804, __func__, \"('Z') >= ('A')\")), ( (sizeof((~('A' ^ 'a') & ('I'))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 10804, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 10804, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U8) ((~('A' ^ 'a') & ('I')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & ('I'))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 10804, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 10804, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U32) ((~('A' ^ 'a') & ('I')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a') & ('I'))) == sizeof(U64)) ? (void)0 : __assert2(\"re_comp.c\", 10804, __func__, \"sizeof((~('A' ^ 'a') & ('I'))) == sizeof(U64)\")), ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 10804, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 10804, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U64) ((~('A' ^ 'a') & ('I')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))))))" )), ((fc) & ~('A' ^ 'a')) == (('I') & ~('A' ^ 'a')))) { |
10805 | invlist = add_cp_to_invlist(invlist,S_add_cp_to_invlist( invlist,0x131) |
10806 | LATIN_SMALL_LETTER_DOTLESS_I)S_add_cp_to_invlist( invlist,0x131); |
10807 | invlist = add_cp_to_invlist(invlist,S_add_cp_to_invlist( invlist,0x130) |
10808 | LATIN_CAPITAL_LETTER_I_WITH_DOT_ABOVE)S_add_cp_to_invlist( invlist,0x130); |
10809 | } |
10810 | else if (fc == LATIN_SMALL_LETTER_DOTLESS_I0x131) { |
10811 | invlist = add_cp_to_invlist(invlist, 'I')S_add_cp_to_invlist( invlist,'I'); |
10812 | } |
10813 | else if (fc == LATIN_CAPITAL_LETTER_I_WITH_DOT_ABOVE0x130) { |
10814 | invlist = add_cp_to_invlist(invlist, 'i')S_add_cp_to_invlist( invlist,'i'); |
10815 | } |
10816 | } |
10817 | } |
10818 | } |
10819 | |
10820 | return invlist; |
10821 | } |
10822 | |
10823 | #undef HEADER_LENGTH |
10824 | #undef TO_INTERNAL_SIZE |
10825 | #undef FROM_INTERNAL_SIZE |
10826 | #undef INVLIST_VERSION_ID |
10827 | |
10828 | /* End of inversion list object */ |
10829 | |
10830 | STATICstatic void |
10831 | S_parse_lparen_question_flags(pTHX_ RExC_state_t *pRExC_state) |
10832 | { |
10833 | /* This parses the flags that are in either the '(?foo)' or '(?foo:bar)' |
10834 | * constructs, and updates RExC_flags with them. On input, RExC_parse |
10835 | * should point to the first flag; it is updated on output to point to the |
10836 | * final ')' or ':'. There needs to be at least one flag, or this will |
10837 | * abort */ |
10838 | |
10839 | /* for (?g), (?gc), and (?o) warnings; warning |
10840 | about (?c) will warn about (?g) -- japhy */ |
10841 | |
10842 | #define WASTED_O0x01 0x01 |
10843 | #define WASTED_G0x02 0x02 |
10844 | #define WASTED_C0x04 0x04 |
10845 | #define WASTED_GC(0x02|0x04) (WASTED_G0x02|WASTED_C0x04) |
10846 | I32 wastedflags = 0x00; |
10847 | U32 posflags = 0, negflags = 0; |
10848 | U32 *flagsp = &posflags; |
10849 | char has_charset_modifier = '\0'; |
10850 | regex_charset cs; |
10851 | bool_Bool has_use_defaults = FALSE(0); |
10852 | const char* const seqstart = RExC_parse(pRExC_state->parse) - 1; /* Point to the '?' */ |
10853 | int x_mod_count = 0; |
10854 | |
10855 | PERL_ARGS_ASSERT_PARSE_LPAREN_QUESTION_FLAGS((pRExC_state) ? (void)0 : __assert2("re_comp.c", 10855, __func__ , "pRExC_state")); |
10856 | |
10857 | /* '^' as an initial flag sets certain defaults */ |
10858 | if (UCHARAT(RExC_parse)((int)*(const U8*)((pRExC_state->parse))) == '^') { |
10859 | RExC_parse(pRExC_state->parse)++; |
10860 | has_use_defaults = TRUE(1); |
10861 | STD_PMMOD_FLAGS_CLEAR(&RExC_flags)*(&(pRExC_state->flags)) &= ~((1U << (0 +2)) |(1U << (0 +0))|(1U << (0 +1))|(1U << (0 +3 ))|(1U << (0 +4))|(7U << (((0)+7)))|(1U << ( 0 +5))); |
10862 | cs = (toUSE_UNI_CHARSET_NOT_DEPENDS((pRExC_state->uni_semantics) || (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0))) |
10863 | ? REGEX_UNICODE_CHARSET |
10864 | : REGEX_DEPENDS_CHARSET; |
10865 | set_regex_charset(&RExC_flags(pRExC_state->flags), cs); |
10866 | } |
10867 | else { |
10868 | cs = get_regex_charset(RExC_flags(pRExC_state->flags)); |
10869 | if ( cs == REGEX_DEPENDS_CHARSET |
10870 | && (toUSE_UNI_CHARSET_NOT_DEPENDS((pRExC_state->uni_semantics) || (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)))) |
10871 | { |
10872 | cs = REGEX_UNICODE_CHARSET; |
10873 | } |
10874 | } |
10875 | |
10876 | while (RExC_parse(pRExC_state->parse) < RExC_end(pRExC_state->end)) { |
10877 | /* && memCHRs("iogcmsx", *RExC_parse) */ |
10878 | /* (?g), (?gc) and (?o) are useless here |
10879 | and must be globally applied -- japhy */ |
10880 | if ((RExC_pm_flags(pRExC_state->pm_flags) & PMf_WILDCARD(1U<<(((0 +12)+2)+17)))) { |
10881 | if (flagsp == & negflags) { |
10882 | if (*RExC_parse(pRExC_state->parse) == 'm') { |
10883 | RExC_parse(pRExC_state->parse)++; |
10884 | /* diag_listed_as: Use of %s is not allowed in Unicode |
10885 | property wildcard subpatterns in regex; marked by <-- |
10886 | HERE in m/%s/ */ |
10887 | vFAIL("Use of modifier '-m' is not allowed in Unicode"do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Use of modifier '-m' is not allowed in Unicode" " property wildcard subpatterns", (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 10888, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0) |
10888 | " property wildcard subpatterns")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Use of modifier '-m' is not allowed in Unicode" " property wildcard subpatterns", (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 10888, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
10889 | } |
10890 | } |
10891 | else { |
10892 | if (*RExC_parse(pRExC_state->parse) == 's') { |
10893 | goto modifier_illegal_in_wildcard; |
10894 | } |
10895 | } |
10896 | } |
10897 | |
10898 | switch (*RExC_parse(pRExC_state->parse)) { |
10899 | |
10900 | /* Code for the imsxn flags */ |
10901 | CASE_STD_PMMOD_FLAGS_PARSE_SET(flagsp, x_mod_count)case 'i': *(flagsp) |= (1U << (0 +2)); break; case 'm': *(flagsp) |= (1U << (0 +0)); break; case 's': *(flagsp ) |= (1U << (0 +1)); break; case 'x': if (x_mod_count == 0) { *(flagsp) |= (1U << (0 +3)); *(flagsp) &= ~(1U << (0 +4)); } else { *(flagsp) |= (1U << (0 +3)) |(1U << (0 +4)); } (x_mod_count)++; break; case 'n': * (flagsp) |= (1U << (0 +5)); break;; |
10902 | |
10903 | case LOCALE_PAT_MOD'l': |
10904 | if (has_charset_modifier) { |
10905 | goto excess_modifier; |
10906 | } |
10907 | else if (flagsp == &negflags) { |
10908 | goto neg_modifier; |
10909 | } |
10910 | cs = REGEX_LOCALE_CHARSET; |
10911 | has_charset_modifier = LOCALE_PAT_MOD'l'; |
10912 | break; |
10913 | case UNICODE_PAT_MOD'u': |
10914 | if (has_charset_modifier) { |
10915 | goto excess_modifier; |
10916 | } |
10917 | else if (flagsp == &negflags) { |
10918 | goto neg_modifier; |
10919 | } |
10920 | cs = REGEX_UNICODE_CHARSET; |
10921 | has_charset_modifier = UNICODE_PAT_MOD'u'; |
10922 | break; |
10923 | case ASCII_RESTRICT_PAT_MOD'a': |
10924 | if (flagsp == &negflags) { |
10925 | goto neg_modifier; |
10926 | } |
10927 | if (has_charset_modifier) { |
10928 | if (cs != REGEX_ASCII_RESTRICTED_CHARSET) { |
10929 | goto excess_modifier; |
10930 | } |
10931 | /* Doubled modifier implies more restricted */ |
10932 | cs = REGEX_ASCII_MORE_RESTRICTED_CHARSET; |
10933 | } |
10934 | else { |
10935 | cs = REGEX_ASCII_RESTRICTED_CHARSET; |
10936 | } |
10937 | has_charset_modifier = ASCII_RESTRICT_PAT_MOD'a'; |
10938 | break; |
10939 | case DEPENDS_PAT_MOD'd': |
10940 | if (has_use_defaults) { |
10941 | goto fail_modifiers; |
10942 | } |
10943 | else if (flagsp == &negflags) { |
10944 | goto neg_modifier; |
10945 | } |
10946 | else if (has_charset_modifier) { |
10947 | goto excess_modifier; |
10948 | } |
10949 | |
10950 | /* The dual charset means unicode semantics if the |
10951 | * pattern (or target, not known until runtime) are |
10952 | * utf8, or something in the pattern indicates unicode |
10953 | * semantics */ |
10954 | cs = (toUSE_UNI_CHARSET_NOT_DEPENDS((pRExC_state->uni_semantics) || (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0))) |
10955 | ? REGEX_UNICODE_CHARSET |
10956 | : REGEX_DEPENDS_CHARSET; |
10957 | has_charset_modifier = DEPENDS_PAT_MOD'd'; |
10958 | break; |
10959 | excess_modifier: |
10960 | RExC_parse(pRExC_state->parse)++; |
10961 | if (has_charset_modifier == ASCII_RESTRICT_PAT_MOD'a') { |
10962 | vFAIL2("Regexp modifier \"%c\" may appear a maximum of twice", ASCII_RESTRICT_PAT_MOD)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Regexp modifier \"%c\" may appear a maximum of twice" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", 'a', (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 10962, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
10963 | } |
10964 | else if (has_charset_modifier == *(RExC_parse(pRExC_state->parse) - 1)) { |
10965 | vFAIL2("Regexp modifier \"%c\" may not appear twice",do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Regexp modifier \"%c\" may not appear twice" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", *((pRExC_state-> parse) - 1), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 10966, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0) |
10966 | *(RExC_parse - 1))do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Regexp modifier \"%c\" may not appear twice" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", *((pRExC_state-> parse) - 1), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 10966, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
10967 | } |
10968 | else { |
10969 | vFAIL3("Regexp modifiers \"%c\" and \"%c\" are mutually exclusive", has_charset_modifier, *(RExC_parse - 1))do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Regexp modifiers \"%c\" and \"%c\" are mutually exclusive" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", has_charset_modifier , *((pRExC_state->parse) - 1), (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 10969, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
10970 | } |
10971 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_comp.c", 10971 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /*NOTREACHED*/ |
10972 | neg_modifier: |
10973 | RExC_parse(pRExC_state->parse)++; |
10974 | vFAIL2("Regexp modifier \"%c\" may not appear after the \"-\"",do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Regexp modifier \"%c\" may not appear after the \"-\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", *((pRExC_state-> parse) - 1), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 10975, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0) |
10975 | *(RExC_parse - 1))do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Regexp modifier \"%c\" may not appear after the \"-\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", *((pRExC_state-> parse) - 1), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 10975, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
10976 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_comp.c", 10976 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /*NOTREACHED*/ |
10977 | case GLOBAL_PAT_MOD'g': /* 'g' */ |
10978 | if (RExC_pm_flags(pRExC_state->pm_flags) & PMf_WILDCARD(1U<<(((0 +12)+2)+17))) { |
10979 | goto modifier_illegal_in_wildcard; |
10980 | } |
10981 | /*FALLTHROUGH*/ |
10982 | case ONCE_PAT_MOD'o': /* 'o' */ |
10983 | if (ckWARN(WARN_REGEXP)Perl_ckwarn( (20 ))) { |
10984 | const I32 wflagbit = *RExC_parse(pRExC_state->parse) == 'o' |
10985 | ? WASTED_O0x01 |
10986 | : WASTED_G0x02; |
10987 | if (! (wastedflags & wflagbit) ) { |
10988 | wastedflags |= wflagbit; |
10989 | /* diag_listed_as: Useless (?-%s) - don't use /%s modifier in regex; marked by <-- HERE in m/%s/ */ |
10990 | vWARN5(do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 10997, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "Useless (%s%c) - %suse /%c modifier" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", flagsp == &negflags ? "?-" : "?", *(pRExC_state ->parse), flagsp == &negflags ? "don't " : "", *(pRExC_state ->parse), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 10997, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state ->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp))>(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))))?((pRExC_state ->precomp_end)):(((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start)))) )))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))))?((pRExC_state ->precomp_end)):(((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start)))) ))) - (pRExC_state->precomp); } } while (0); } } while (0) |
10991 | RExC_parse + 1,do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 10997, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "Useless (%s%c) - %suse /%c modifier" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", flagsp == &negflags ? "?-" : "?", *(pRExC_state ->parse), flagsp == &negflags ? "don't " : "", *(pRExC_state ->parse), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 10997, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state ->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp))>(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))))?((pRExC_state ->precomp_end)):(((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start)))) )))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))))?((pRExC_state ->precomp_end)):(((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start)))) ))) - (pRExC_state->precomp); } } while (0); } } while (0) |
10992 | "Useless (%s%c) - %suse /%c modifier",do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 10997, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "Useless (%s%c) - %suse /%c modifier" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", flagsp == &negflags ? "?-" : "?", *(pRExC_state ->parse), flagsp == &negflags ? "don't " : "", *(pRExC_state ->parse), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 10997, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state ->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp))>(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))))?((pRExC_state ->precomp_end)):(((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start)))) )))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))))?((pRExC_state ->precomp_end)):(((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start)))) ))) - (pRExC_state->precomp); } } while (0); } } while (0) |
10993 | flagsp == &negflags ? "?-" : "?",do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 10997, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "Useless (%s%c) - %suse /%c modifier" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", flagsp == &negflags ? "?-" : "?", *(pRExC_state ->parse), flagsp == &negflags ? "don't " : "", *(pRExC_state ->parse), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 10997, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state ->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp))>(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))))?((pRExC_state ->precomp_end)):(((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start)))) )))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))))?((pRExC_state ->precomp_end)):(((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start)))) ))) - (pRExC_state->precomp); } } while (0); } } while (0) |
10994 | *RExC_parse,do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 10997, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "Useless (%s%c) - %suse /%c modifier" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", flagsp == &negflags ? "?-" : "?", *(pRExC_state ->parse), flagsp == &negflags ? "don't " : "", *(pRExC_state ->parse), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 10997, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state ->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp))>(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))))?((pRExC_state ->precomp_end)):(((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start)))) )))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))))?((pRExC_state ->precomp_end)):(((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start)))) ))) - (pRExC_state->precomp); } } while (0); } } while (0) |
10995 | flagsp == &negflags ? "don't " : "",do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 10997, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "Useless (%s%c) - %suse /%c modifier" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", flagsp == &negflags ? "?-" : "?", *(pRExC_state ->parse), flagsp == &negflags ? "don't " : "", *(pRExC_state ->parse), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 10997, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state ->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp))>(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))))?((pRExC_state ->precomp_end)):(((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start)))) )))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))))?((pRExC_state ->precomp_end)):(((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start)))) ))) - (pRExC_state->precomp); } } while (0); } } while (0) |
10996 | *RExC_parsedo { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 10997, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "Useless (%s%c) - %suse /%c modifier" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", flagsp == &negflags ? "?-" : "?", *(pRExC_state ->parse), flagsp == &negflags ? "don't " : "", *(pRExC_state ->parse), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 10997, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state ->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp))>(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))))?((pRExC_state ->precomp_end)):(((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start)))) )))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))))?((pRExC_state ->precomp_end)):(((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start)))) ))) - (pRExC_state->precomp); } } while (0); } } while (0) |
10997 | )do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 10997, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "Useless (%s%c) - %suse /%c modifier" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", flagsp == &negflags ? "?-" : "?", *(pRExC_state ->parse), flagsp == &negflags ? "don't " : "", *(pRExC_state ->parse), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 10997, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state ->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp))>(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))))?((pRExC_state ->precomp_end)):(((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start)))) )))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))))?((pRExC_state ->precomp_end)):(((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start)))) ))) - (pRExC_state->precomp); } } while (0); } } while (0); |
10998 | } |
10999 | } |
11000 | break; |
11001 | |
11002 | case CONTINUE_PAT_MOD'c': /* 'c' */ |
11003 | if (RExC_pm_flags(pRExC_state->pm_flags) & PMf_WILDCARD(1U<<(((0 +12)+2)+17))) { |
11004 | goto modifier_illegal_in_wildcard; |
11005 | } |
11006 | if (ckWARN(WARN_REGEXP)Perl_ckwarn( (20 ))) { |
11007 | if (! (wastedflags & WASTED_C0x04) ) { |
11008 | wastedflags |= WASTED_GC(0x02|0x04); |
11009 | /* diag_listed_as: Useless (?-%s) - don't use /%s modifier in regex; marked by <-- HERE in m/%s/ */ |
11010 | vWARN3(do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 11015, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "Useless (%sc) - %suse /gc modifier" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", flagsp == &negflags ? "?-" : "?", flagsp == &negflags ? "don't " : "", (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11015, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)), ((int) ((pRExC_state->end) - (pRExC_state-> start))), (pRExC_state->start)), 0))), (void*)((pRExC_state ->precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))), (void*)((( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))))))) - (pRExC_state->precomp); } } while (0); } } while (0) |
11011 | RExC_parse + 1,do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 11015, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "Useless (%sc) - %suse /gc modifier" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", flagsp == &negflags ? "?-" : "?", flagsp == &negflags ? "don't " : "", (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11015, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)), ((int) ((pRExC_state->end) - (pRExC_state-> start))), (pRExC_state->start)), 0))), (void*)((pRExC_state ->precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))), (void*)((( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))))))) - (pRExC_state->precomp); } } while (0); } } while (0) |
11012 | "Useless (%sc) - %suse /gc modifier",do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 11015, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "Useless (%sc) - %suse /gc modifier" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", flagsp == &negflags ? "?-" : "?", flagsp == &negflags ? "don't " : "", (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11015, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)), ((int) ((pRExC_state->end) - (pRExC_state-> start))), (pRExC_state->start)), 0))), (void*)((pRExC_state ->precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))), (void*)((( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))))))) - (pRExC_state->precomp); } } while (0); } } while (0) |
11013 | flagsp == &negflags ? "?-" : "?",do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 11015, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "Useless (%sc) - %suse /gc modifier" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", flagsp == &negflags ? "?-" : "?", flagsp == &negflags ? "don't " : "", (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11015, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)), ((int) ((pRExC_state->end) - (pRExC_state-> start))), (pRExC_state->start)), 0))), (void*)((pRExC_state ->precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))), (void*)((( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))))))) - (pRExC_state->precomp); } } while (0); } } while (0) |
11014 | flagsp == &negflags ? "don't " : ""do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 11015, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "Useless (%sc) - %suse /gc modifier" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", flagsp == &negflags ? "?-" : "?", flagsp == &negflags ? "don't " : "", (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11015, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)), ((int) ((pRExC_state->end) - (pRExC_state-> start))), (pRExC_state->start)), 0))), (void*)((pRExC_state ->precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))), (void*)((( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))))))) - (pRExC_state->precomp); } } while (0); } } while (0) |
11015 | )do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 11015, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "Useless (%sc) - %suse /gc modifier" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", flagsp == &negflags ? "?-" : "?", flagsp == &negflags ? "don't " : "", (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11015, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)), ((int) ((pRExC_state->end) - (pRExC_state-> start))), (pRExC_state->start)), 0))), (void*)((pRExC_state ->precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))), (void*)((( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))))))) - (pRExC_state->precomp); } } while (0); } } while (0); |
11016 | } |
11017 | } |
11018 | break; |
11019 | case KEEPCOPY_PAT_MOD'p': /* 'p' */ |
11020 | if (RExC_pm_flags(pRExC_state->pm_flags) & PMf_WILDCARD(1U<<(((0 +12)+2)+17))) { |
11021 | goto modifier_illegal_in_wildcard; |
11022 | } |
11023 | if (flagsp == &negflags) { |
11024 | ckWARNreg(RExC_parse + 1,"Useless use of (?-p)")do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 11024, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "Useless use of (?-p)" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) : (Perl_croak ( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 11024, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state ->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp))>(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))))?((pRExC_state ->precomp_end)):(((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start)))) )))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))))?((pRExC_state ->precomp_end)):(((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start)))) ))) - (pRExC_state->precomp); } } while (0); } } while (0); |
11025 | } else { |
11026 | *flagsp |= RXf_PMf_KEEPCOPY(1U << (0 +6)); |
11027 | } |
11028 | break; |
11029 | case '-': |
11030 | /* A flag is a default iff it is following a minus, so |
11031 | * if there is a minus, it means will be trying to |
11032 | * re-specify a default which is an error */ |
11033 | if (has_use_defaults || flagsp == &negflags) { |
11034 | goto fail_modifiers; |
11035 | } |
11036 | flagsp = &negflags; |
11037 | wastedflags = 0; /* reset so (?g-c) warns twice */ |
11038 | x_mod_count = 0; |
11039 | break; |
11040 | case ':': |
11041 | case ')': |
11042 | |
11043 | if ( (RExC_pm_flags(pRExC_state->pm_flags) & PMf_WILDCARD(1U<<(((0 +12)+2)+17))) |
11044 | && cs != REGEX_ASCII_MORE_RESTRICTED_CHARSET) |
11045 | { |
11046 | RExC_parse(pRExC_state->parse)++; |
11047 | /* diag_listed_as: Use of %s is not allowed in Unicode |
11048 | property wildcard subpatterns in regex; marked by <-- |
11049 | HERE in m/%s/ */ |
11050 | vFAIL2("Use of modifier '%c' is not allowed in Unicode"do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Use of modifier '%c' is not allowed in Unicode" " property wildcard subpatterns" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", has_charset_modifier, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 11052, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0) |
11051 | " property wildcard subpatterns",do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Use of modifier '%c' is not allowed in Unicode" " property wildcard subpatterns" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", has_charset_modifier, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 11052, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0) |
11052 | has_charset_modifier)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Use of modifier '%c' is not allowed in Unicode" " property wildcard subpatterns" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", has_charset_modifier, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 11052, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11053 | } |
11054 | |
11055 | if ((posflags & (RXf_PMf_EXTENDED(1U << (0 +3))|RXf_PMf_EXTENDED_MORE(1U << (0 +4)))) == RXf_PMf_EXTENDED(1U << (0 +3))) { |
11056 | negflags |= RXf_PMf_EXTENDED_MORE(1U << (0 +4)); |
11057 | } |
11058 | RExC_flags(pRExC_state->flags) |= posflags; |
11059 | |
11060 | if (negflags & RXf_PMf_EXTENDED(1U << (0 +3))) { |
11061 | negflags |= RXf_PMf_EXTENDED_MORE(1U << (0 +4)); |
11062 | } |
11063 | RExC_flags(pRExC_state->flags) &= ~negflags; |
11064 | set_regex_charset(&RExC_flags(pRExC_state->flags), cs); |
11065 | |
11066 | return; |
11067 | default: |
11068 | fail_modifiers: |
11069 | RExC_parse(pRExC_state->parse) += SKIP_IF_CHAR(RExC_parse, RExC_end)(!*((pRExC_state->parse)) ? 0 : (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ? (((((pRExC_state->end)) >= ((pRExC_state ->parse))) ? (void)0 : __assert2("re_comp.c", 11069, __func__ , "((pRExC_state->end)) >= ((pRExC_state->parse))")) , (((pRExC_state->end)) - ((pRExC_state->parse))) <= 0 ? 0 : ((((((pRExC_state->end)) - ((pRExC_state->parse ))))<(PL_utf8skip[*(const U8*)((pRExC_state->parse))])) ?((((pRExC_state->end)) - ((pRExC_state->parse)))):(PL_utf8skip [*(const U8*)((pRExC_state->parse))]))) : 1); |
11070 | /* diag_listed_as: Sequence (?%s...) not recognized in regex; marked by <-- HERE in m/%s/ */ |
11071 | vFAIL2utf8f("Sequence (%" UTF8f "...) not recognized",do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Sequence (%" "d%" "lu" "%4p" "...) not recognized" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((pRExC_state->parse)-seqstart), (void *)(seqstart), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : ( _Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11072, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0) |
11072 | UTF8fARG(UTF, RExC_parse-seqstart, seqstart))do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Sequence (%" "d%" "lu" "%4p" "...) not recognized" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((pRExC_state->parse)-seqstart), (void *)(seqstart), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : ( _Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11072, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); |
11073 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_comp.c", 11073 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /*NOTREACHED*/ |
11074 | } |
11075 | |
11076 | RExC_parse(pRExC_state->parse) += UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ? UTF8SKIP(RExC_parse)PL_utf8skip[*(const U8*)((pRExC_state->parse))] : 1; |
11077 | } |
11078 | |
11079 | vFAIL("Sequence (?... not terminated")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Sequence (?... not terminated", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11079, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11080 | |
11081 | modifier_illegal_in_wildcard: |
11082 | RExC_parse(pRExC_state->parse)++; |
11083 | /* diag_listed_as: Use of %s is not allowed in Unicode property wildcard |
11084 | subpatterns in regex; marked by <-- HERE in m/%s/ */ |
11085 | vFAIL2("Use of modifier '%c' is not allowed in Unicode property wildcard"do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Use of modifier '%c' is not allowed in Unicode property wildcard" " subpatterns" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", *(( pRExC_state->parse) - 1), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 11086, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0) |
11086 | " subpatterns", *(RExC_parse - 1))do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Use of modifier '%c' is not allowed in Unicode property wildcard" " subpatterns" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", *(( pRExC_state->parse) - 1), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 11086, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11087 | } |
11088 | |
11089 | /* |
11090 | - reg - regular expression, i.e. main body or parenthesized thing |
11091 | * |
11092 | * Caller must absorb opening parenthesis. |
11093 | * |
11094 | * Combining parenthesis handling with the base level of regular expression |
11095 | * is a trifle forced, but the need to tie the tails of the branches to what |
11096 | * follows makes it hard to avoid. |
11097 | */ |
11098 | #define REGTAIL(x,y,z)S_regtail( (x),(y),(z),depth+1) regtail((x),(y),(z),depth+1)S_regtail( (x),(y),(z),depth+1) |
11099 | #ifdef DEBUGGING |
11100 | #define REGTAIL_STUDY(x,y,z)S_regtail_study( (x),(y),(z),depth+1) regtail_study((x),(y),(z),depth+1)S_regtail_study( (x),(y),(z),depth+1) |
11101 | #else |
11102 | #define REGTAIL_STUDY(x,y,z)S_regtail_study( (x),(y),(z),depth+1) regtail((x),(y),(z),depth+1)S_regtail( (x),(y),(z),depth+1) |
11103 | #endif |
11104 | |
11105 | STATICstatic regnode_offset |
11106 | S_handle_named_backref(pTHX_ RExC_state_t *pRExC_state, |
11107 | I32 *flagp, |
11108 | char * parse_start, |
11109 | char ch |
11110 | ) |
11111 | { |
11112 | regnode_offset ret; |
11113 | char* name_start = RExC_parse(pRExC_state->parse); |
11114 | U32 num = 0; |
11115 | SV *sv_dat = reg_scan_name(pRExC_state, REG_RSN_RETURN_DATA)S_reg_scan_name( pRExC_state,2); |
11116 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 11116, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 11116, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
11117 | |
11118 | PERL_ARGS_ASSERT_HANDLE_NAMED_BACKREF((pRExC_state) ? (void)0 : __assert2("re_comp.c", 11118, __func__ , "pRExC_state")); ((flagp) ? (void)0 : __assert2("re_comp.c" , 11118, __func__, "flagp")); ((parse_start) ? (void)0 : __assert2 ("re_comp.c", 11118, __func__, "parse_start")); |
11119 | |
11120 | if (RExC_parse(pRExC_state->parse) == name_start || *RExC_parse(pRExC_state->parse) != ch) { |
11121 | /* diag_listed_as: Sequence \%s... not terminated in regex; marked by <-- HERE in m/%s/ */ |
11122 | vFAIL2("Sequence %.3s... not terminated", parse_start)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Sequence %.3s... not terminated" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", parse_start, (int)( ((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11122, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11123 | } |
11124 | |
11125 | if (sv_dat) { |
11126 | num = add_dataS_add_data( pRExC_state, STR_WITH_LEN("S")("" "S" ""), (sizeof("S")-1)); |
11127 | RExC_rxi(pRExC_state->rxi)->data->data[num]=(void*)sv_dat; |
11128 | SvREFCNT_inc_simple_void_NN(sv_dat)(void)(++(((SV *)({ void *_p = (sv_dat); _p; })))->sv_refcnt ); |
11129 | } |
11130 | RExC_sawback(pRExC_state->sawback) = 1; |
11131 | ret = reganode(pRExC_state,S_reganode( pRExC_state,((! (((pRExC_state->flags) & ( 1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 72 : ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 76 : ((get_regex_charset((pRExC_state->flags)) >= REGEX_UNICODE_CHARSET )) ? 75 : ((get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) ? 74 : 73),num) |
11132 | ((! FOLD)S_reganode( pRExC_state,((! (((pRExC_state->flags) & ( 1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 72 : ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 76 : ((get_regex_charset((pRExC_state->flags)) >= REGEX_UNICODE_CHARSET )) ? 75 : ((get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) ? 74 : 73),num) |
11133 | ? REFNS_reganode( pRExC_state,((! (((pRExC_state->flags) & ( 1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 72 : ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 76 : ((get_regex_charset((pRExC_state->flags)) >= REGEX_UNICODE_CHARSET )) ? 75 : ((get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) ? 74 : 73),num) |
11134 | : (ASCII_FOLD_RESTRICTED)S_reganode( pRExC_state,((! (((pRExC_state->flags) & ( 1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 72 : ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 76 : ((get_regex_charset((pRExC_state->flags)) >= REGEX_UNICODE_CHARSET )) ? 75 : ((get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) ? 74 : 73),num) |
11135 | ? REFFANS_reganode( pRExC_state,((! (((pRExC_state->flags) & ( 1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 72 : ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 76 : ((get_regex_charset((pRExC_state->flags)) >= REGEX_UNICODE_CHARSET )) ? 75 : ((get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) ? 74 : 73),num) |
11136 | : (AT_LEAST_UNI_SEMANTICS)S_reganode( pRExC_state,((! (((pRExC_state->flags) & ( 1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 72 : ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 76 : ((get_regex_charset((pRExC_state->flags)) >= REGEX_UNICODE_CHARSET )) ? 75 : ((get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) ? 74 : 73),num) |
11137 | ? REFFUNS_reganode( pRExC_state,((! (((pRExC_state->flags) & ( 1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 72 : ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 76 : ((get_regex_charset((pRExC_state->flags)) >= REGEX_UNICODE_CHARSET )) ? 75 : ((get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) ? 74 : 73),num) |
11138 | : (LOC)S_reganode( pRExC_state,((! (((pRExC_state->flags) & ( 1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 72 : ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 76 : ((get_regex_charset((pRExC_state->flags)) >= REGEX_UNICODE_CHARSET )) ? 75 : ((get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) ? 74 : 73),num) |
11139 | ? REFFLNS_reganode( pRExC_state,((! (((pRExC_state->flags) & ( 1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 72 : ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 76 : ((get_regex_charset((pRExC_state->flags)) >= REGEX_UNICODE_CHARSET )) ? 75 : ((get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) ? 74 : 73),num) |
11140 | : REFFN),S_reganode( pRExC_state,((! (((pRExC_state->flags) & ( 1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 72 : ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 76 : ((get_regex_charset((pRExC_state->flags)) >= REGEX_UNICODE_CHARSET )) ? 75 : ((get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) ? 74 : 73),num) |
11141 | num)S_reganode( pRExC_state,((! (((pRExC_state->flags) & ( 1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 72 : ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 76 : ((get_regex_charset((pRExC_state->flags)) >= REGEX_UNICODE_CHARSET )) ? 75 : ((get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) ? 74 : 73),num); |
11142 | *flagp |= HASWIDTH0x01; |
11143 | |
11144 | Set_Node_Offset(REGNODE_p(ret), parse_start+1)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) offset of node %d is %d.\n", 11144, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)((parse_start+1)-(pRExC_state->start)) );} while (0); if((((((pRExC_state->emit_start) + (ret))) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))-1] = ((parse_start+1)-(pRExC_state->start )); } } while (0); |
11145 | Set_Node_Cur_Length(REGNODE_p(ret), parse_start)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 11145, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)((pRExC_state->parse) - parse_start)); } while (0); if((((((pRExC_state->emit_start) + (ret))) - ( pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))] = ((pRExC_state->parse) - parse_start) ; } } while (0); |
11146 | |
11147 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
11148 | return ret; |
11149 | } |
11150 | |
11151 | /* On success, returns the offset at which any next node should be placed into |
11152 | * the regex engine program being compiled. |
11153 | * |
11154 | * Returns 0 otherwise, with *flagp set to indicate why: |
11155 | * TRYAGAIN at the end of (?) that only sets flags. |
11156 | * RESTART_PARSE if the parse needs to be restarted, or'd with |
11157 | * NEED_UTF8 if the pattern needs to be upgraded to UTF-8. |
11158 | * Otherwise would only return 0 if regbranch() returns 0, which cannot |
11159 | * happen. */ |
11160 | STATICstatic regnode_offset |
11161 | S_reg(pTHX_ RExC_state_t *pRExC_state, I32 paren, I32 *flagp, U32 depth) |
11162 | /* paren: Parenthesized? 0=top; 1,2=inside '(': changed to letter. |
11163 | * 2 is like 1, but indicates that nextchar() has been called to advance |
11164 | * RExC_parse beyond the '('. Things like '(?' are indivisible tokens, and |
11165 | * this flag alerts us to the need to check for that */ |
11166 | { |
11167 | regnode_offset ret = 0; /* Will be the head of the group. */ |
11168 | regnode_offset br; |
11169 | regnode_offset lastbr; |
11170 | regnode_offset ender = 0; |
11171 | I32 parno = 0; |
11172 | I32 flags; |
11173 | U32 oregflags = RExC_flags(pRExC_state->flags); |
11174 | bool_Bool have_branch = 0; |
11175 | bool_Bool is_open = 0; |
11176 | I32 freeze_paren = 0; |
11177 | I32 after_freeze = 0; |
11178 | I32 num; /* numeric backreferences */ |
11179 | SV * max_open; /* Max number of unclosed parens */ |
11180 | I32 was_in_lookaround = RExC_in_lookaround(pRExC_state->in_lookaround); |
11181 | |
11182 | char * parse_start = RExC_parse(pRExC_state->parse); /* MJD */ |
11183 | char * const oregcomp_parse = RExC_parse(pRExC_state->parse); |
11184 | |
11185 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 11185, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 11185, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
11186 | |
11187 | PERL_ARGS_ASSERT_REG((pRExC_state) ? (void)0 : __assert2("re_comp.c", 11187, __func__ , "pRExC_state")); ((flagp) ? (void)0 : __assert2("re_comp.c" , 11187, __func__, "flagp")); |
11188 | DEBUG_PARSE("reg ")do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (("reg ")) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0); Perl_re_printf( "%4s" ,"\n"); };} while (0); |
11189 | |
11190 | max_open = get_sv(RE_COMPILE_RECURSION_LIMIT, GV_ADD)Perl_get_sv( "\022E_COMPILE_RECURSION_LIMIT",0x01); |
11191 | assert(max_open)((max_open) ? (void)0 : __assert2("re_comp.c", 11191, __func__ , "max_open")); |
11192 | if (!SvIOK(max_open)((max_open)->sv_flags & 0x00000100)) { |
11193 | sv_setiv(max_open, RE_COMPILE_RECURSION_INIT)Perl_sv_setiv( max_open,1000); |
11194 | } |
11195 | if (depth > 4 * (UV) SvIV(max_open)((((max_open)->sv_flags & (0x00000100|0x00200000)) == 0x00000100 ) ? (*({ const SV *const _svivx = (const SV *)(max_open); ((PL_valid_types_IVX [((svtype)((_svivx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 11195, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 11195, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( max_open,2))) { /* We increase depth by 4 for each |
11196 | open paren */ |
11197 | vFAIL("Too many nested open parens")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Too many nested open parens", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11197, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11198 | } |
11199 | |
11200 | *flagp = 0; /* Tentatively. */ |
11201 | |
11202 | /* Having this true makes it feasible to have a lot fewer tests for the |
11203 | * parse pointer being in scope. For example, we can write |
11204 | * while(isFOO(*RExC_parse)) RExC_parse++; |
11205 | * instead of |
11206 | * while(RExC_parse < RExC_end && isFOO(*RExC_parse)) RExC_parse++; |
11207 | */ |
11208 | assert(*RExC_end == '\0')((*(pRExC_state->end) == '\0') ? (void)0 : __assert2("re_comp.c" , 11208, __func__, "*RExC_end == '\\0'")); |
11209 | |
11210 | /* Make an OPEN node, if parenthesized. */ |
11211 | if (paren) { |
11212 | |
11213 | /* Under /x, space and comments can be gobbled up between the '(' and |
11214 | * here (if paren ==2). The forms '(*VERB' and '(?...' disallow such |
11215 | * intervening space, as the sequence is a token, and a token should be |
11216 | * indivisible */ |
11217 | bool_Bool has_intervening_patws = (paren == 2) |
11218 | && *(RExC_parse(pRExC_state->parse) - 1) != '('; |
11219 | |
11220 | if (RExC_parse(pRExC_state->parse) >= RExC_end(pRExC_state->end)) { |
11221 | vFAIL("Unmatched (")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Unmatched (", (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 11221, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11222 | } |
11223 | |
11224 | if (paren == 'r') { /* Atomic script run */ |
11225 | paren = '>'; |
11226 | goto parse_rest; |
11227 | } |
11228 | else if ( *RExC_parse(pRExC_state->parse) == '*') { /* (*VERB:ARG), (*construct:...) */ |
11229 | char *start_verb = RExC_parse(pRExC_state->parse) + 1; |
11230 | STRLEN verb_len; |
11231 | char *start_arg = NULL((void*)0); |
11232 | unsigned char op = 0; |
11233 | int arg_required = 0; |
11234 | int internal_argval = -1; /* if >-1 we are not allowed an argument*/ |
11235 | bool_Bool has_upper = FALSE(0); |
11236 | |
11237 | if (has_intervening_patws) { |
11238 | RExC_parse(pRExC_state->parse)++; /* past the '*' */ |
11239 | |
11240 | /* For strict backwards compatibility, don't change the message |
11241 | * now that we also have lowercase operands */ |
11242 | if (isUPPER(*RExC_parse)(((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 11242 , __func__, "('Z') >= ('A')")), ( (sizeof(*(pRExC_state-> parse)) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 11242, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 11242, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U8) (*(pRExC_state->parse))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof(*(pRExC_state-> parse)) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 11242, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 11242, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) (*(pRExC_state->parse))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof(*(pRExC_state ->parse)) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 11242, __func__, "sizeof(*(pRExC_state->parse)) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 11242, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 11242, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) (*(pRExC_state ->parse))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A' ))) | 0))))))))) { |
11243 | vFAIL("In '(*VERB...)', the '(' and '*' must be adjacent")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "In '(*VERB...)', the '(' and '*' must be adjacent" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11243, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11244 | } |
11245 | else { |
11246 | vFAIL("In '(*...)', the '(' and '*' must be adjacent")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "In '(*...)', the '(' and '*' must be adjacent" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11246, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11247 | } |
11248 | } |
11249 | while (RExC_parse(pRExC_state->parse) < RExC_end(pRExC_state->end) && *RExC_parse(pRExC_state->parse) != ')' ) { |
11250 | if ( *RExC_parse(pRExC_state->parse) == ':' ) { |
11251 | start_arg = RExC_parse(pRExC_state->parse) + 1; |
11252 | break; |
11253 | } |
11254 | else if (! UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) { |
11255 | if (isUPPER(*RExC_parse)(((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 11255 , __func__, "('Z') >= ('A')")), ( (sizeof(*(pRExC_state-> parse)) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 11255, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 11255, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U8) (*(pRExC_state->parse))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof(*(pRExC_state-> parse)) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 11255, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 11255, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) (*(pRExC_state->parse))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof(*(pRExC_state ->parse)) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 11255, __func__, "sizeof(*(pRExC_state->parse)) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 11255, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 11255, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) (*(pRExC_state ->parse))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A' ))) | 0))))))))) { |
11256 | has_upper = TRUE(1); |
11257 | } |
11258 | RExC_parse(pRExC_state->parse)++; |
11259 | } |
11260 | else { |
11261 | RExC_parse(pRExC_state->parse) += UTF8SKIP(RExC_parse)PL_utf8skip[*(const U8*)((pRExC_state->parse))]; |
11262 | } |
11263 | } |
11264 | verb_len = RExC_parse(pRExC_state->parse) - start_verb; |
11265 | if ( start_arg ) { |
11266 | if (RExC_parse(pRExC_state->parse) >= RExC_end(pRExC_state->end)) { |
11267 | goto unterminated_verb_pattern; |
11268 | } |
11269 | |
11270 | RExC_parse(pRExC_state->parse) += UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ? UTF8SKIP(RExC_parse)PL_utf8skip[*(const U8*)((pRExC_state->parse))] : 1; |
11271 | while ( RExC_parse(pRExC_state->parse) < RExC_end(pRExC_state->end) && *RExC_parse(pRExC_state->parse) != ')' ) { |
11272 | RExC_parse(pRExC_state->parse) += UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ? UTF8SKIP(RExC_parse)PL_utf8skip[*(const U8*)((pRExC_state->parse))] : 1; |
11273 | } |
11274 | if ( RExC_parse(pRExC_state->parse) >= RExC_end(pRExC_state->end) || *RExC_parse(pRExC_state->parse) != ')' ) { |
11275 | unterminated_verb_pattern: |
11276 | if (has_upper) { |
11277 | vFAIL("Unterminated verb pattern argument")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Unterminated verb pattern argument", (int)( ((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11277, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11278 | } |
11279 | else { |
11280 | vFAIL("Unterminated '(*...' argument")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Unterminated '(*...' argument", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11280, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11281 | } |
11282 | } |
11283 | } else { |
11284 | if ( RExC_parse(pRExC_state->parse) >= RExC_end(pRExC_state->end) || *RExC_parse(pRExC_state->parse) != ')' ) { |
11285 | if (has_upper) { |
11286 | vFAIL("Unterminated verb pattern")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Unterminated verb pattern", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11286, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11287 | } |
11288 | else { |
11289 | vFAIL("Unterminated '(*...' construct")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Unterminated '(*...' construct", (int)((((( pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : ( _Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state ->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11289, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11290 | } |
11291 | } |
11292 | } |
11293 | |
11294 | /* Here, we know that RExC_parse < RExC_end */ |
11295 | |
11296 | switch ( *start_verb ) { |
11297 | case 'A': /* (*ACCEPT) */ |
11298 | if ( memEQs(start_verb, verb_len,"ACCEPT")(((sizeof("ACCEPT")-1) == (verb_len)) && (memcmp(((const void *) ((start_verb))), ((const void *) (("" "ACCEPT" ""))) , (sizeof("ACCEPT")-1)) == 0)) ) { |
11299 | op = ACCEPT98; |
11300 | internal_argval = RExC_nestroot(pRExC_state->nestroot); |
11301 | } |
11302 | break; |
11303 | case 'C': /* (*COMMIT) */ |
11304 | if ( memEQs(start_verb, verb_len,"COMMIT")(((sizeof("COMMIT")-1) == (verb_len)) && (memcmp(((const void *) ((start_verb))), ((const void *) (("" "COMMIT" ""))) , (sizeof("COMMIT")-1)) == 0)) ) |
11305 | op = COMMIT103; |
11306 | break; |
11307 | case 'F': /* (*FAIL) */ |
11308 | if ( verb_len==1 || memEQs(start_verb, verb_len,"FAIL")(((sizeof("FAIL")-1) == (verb_len)) && (memcmp(((const void *) ((start_verb))), ((const void *) (("" "FAIL" ""))), ( sizeof("FAIL")-1)) == 0)) ) { |
11309 | op = OPFAIL97; |
11310 | } |
11311 | break; |
11312 | case ':': /* (*:NAME) */ |
11313 | case 'M': /* (*MARK:NAME) */ |
11314 | if ( verb_len==0 || memEQs(start_verb, verb_len,"MARK")(((sizeof("MARK")-1) == (verb_len)) && (memcmp(((const void *) ((start_verb))), ((const void *) (("" "MARK" ""))), ( sizeof("MARK")-1)) == 0)) ) { |
11315 | op = MARKPOINT101; |
11316 | arg_required = 1; |
11317 | } |
11318 | break; |
11319 | case 'P': /* (*PRUNE) */ |
11320 | if ( memEQs(start_verb, verb_len,"PRUNE")(((sizeof("PRUNE")-1) == (verb_len)) && (memcmp(((const void *) ((start_verb))), ((const void *) (("" "PRUNE" ""))), (sizeof("PRUNE")-1)) == 0)) ) |
11321 | op = PRUNE100; |
11322 | break; |
11323 | case 'S': /* (*SKIP) */ |
11324 | if ( memEQs(start_verb, verb_len,"SKIP")(((sizeof("SKIP")-1) == (verb_len)) && (memcmp(((const void *) ((start_verb))), ((const void *) (("" "SKIP" ""))), ( sizeof("SKIP")-1)) == 0)) ) |
11325 | op = SKIP102; |
11326 | break; |
11327 | case 'T': /* (*THEN) */ |
11328 | /* [19:06] <TimToady> :: is then */ |
11329 | if ( memEQs(start_verb, verb_len,"THEN")(((sizeof("THEN")-1) == (verb_len)) && (memcmp(((const void *) ((start_verb))), ((const void *) (("" "THEN" ""))), ( sizeof("THEN")-1)) == 0)) ) { |
11330 | op = CUTGROUP104; |
11331 | RExC_seen(pRExC_state->seen) |= REG_CUTGROUP_SEEN0x00000100; |
11332 | } |
11333 | break; |
11334 | case 'a': |
11335 | if ( memEQs(start_verb, verb_len, "asr")(((sizeof("asr")-1) == (verb_len)) && (memcmp(((const void *) ((start_verb))), ((const void *) (("" "asr" ""))), ( sizeof("asr")-1)) == 0)) |
11336 | || memEQs(start_verb, verb_len, "atomic_script_run")(((sizeof("atomic_script_run")-1) == (verb_len)) && ( memcmp(((const void *) ((start_verb))), ((const void *) (("" "atomic_script_run" ""))), (sizeof("atomic_script_run")-1)) == 0))) |
11337 | { |
11338 | paren = 'r'; /* Mnemonic: recursed run */ |
11339 | goto script_run; |
11340 | } |
11341 | else if (memEQs(start_verb, verb_len, "atomic")(((sizeof("atomic")-1) == (verb_len)) && (memcmp(((const void *) ((start_verb))), ((const void *) (("" "atomic" ""))) , (sizeof("atomic")-1)) == 0))) { |
11342 | paren = 't'; /* AtOMIC */ |
11343 | goto alpha_assertions; |
11344 | } |
11345 | break; |
11346 | case 'p': |
11347 | if ( memEQs(start_verb, verb_len, "plb")(((sizeof("plb")-1) == (verb_len)) && (memcmp(((const void *) ((start_verb))), ((const void *) (("" "plb" ""))), ( sizeof("plb")-1)) == 0)) |
11348 | || memEQs(start_verb, verb_len, "positive_lookbehind")(((sizeof("positive_lookbehind")-1) == (verb_len)) && (memcmp(((const void *) ((start_verb))), ((const void *) (("" "positive_lookbehind" ""))), (sizeof("positive_lookbehind")- 1)) == 0))) |
11349 | { |
11350 | paren = 'b'; |
11351 | goto lookbehind_alpha_assertions; |
11352 | } |
11353 | else if ( memEQs(start_verb, verb_len, "pla")(((sizeof("pla")-1) == (verb_len)) && (memcmp(((const void *) ((start_verb))), ((const void *) (("" "pla" ""))), ( sizeof("pla")-1)) == 0)) |
11354 | || memEQs(start_verb, verb_len, "positive_lookahead")(((sizeof("positive_lookahead")-1) == (verb_len)) && ( memcmp(((const void *) ((start_verb))), ((const void *) (("" "positive_lookahead" ""))), (sizeof("positive_lookahead")-1)) == 0))) |
11355 | { |
11356 | paren = 'a'; |
11357 | goto alpha_assertions; |
11358 | } |
11359 | break; |
11360 | case 'n': |
11361 | if ( memEQs(start_verb, verb_len, "nlb")(((sizeof("nlb")-1) == (verb_len)) && (memcmp(((const void *) ((start_verb))), ((const void *) (("" "nlb" ""))), ( sizeof("nlb")-1)) == 0)) |
11362 | || memEQs(start_verb, verb_len, "negative_lookbehind")(((sizeof("negative_lookbehind")-1) == (verb_len)) && (memcmp(((const void *) ((start_verb))), ((const void *) (("" "negative_lookbehind" ""))), (sizeof("negative_lookbehind")- 1)) == 0))) |
11363 | { |
11364 | paren = 'B'; |
11365 | goto lookbehind_alpha_assertions; |
11366 | } |
11367 | else if ( memEQs(start_verb, verb_len, "nla")(((sizeof("nla")-1) == (verb_len)) && (memcmp(((const void *) ((start_verb))), ((const void *) (("" "nla" ""))), ( sizeof("nla")-1)) == 0)) |
11368 | || memEQs(start_verb, verb_len, "negative_lookahead")(((sizeof("negative_lookahead")-1) == (verb_len)) && ( memcmp(((const void *) ((start_verb))), ((const void *) (("" "negative_lookahead" ""))), (sizeof("negative_lookahead")-1)) == 0))) |
11369 | { |
11370 | paren = 'A'; |
11371 | goto alpha_assertions; |
11372 | } |
11373 | break; |
11374 | case 's': |
11375 | if ( memEQs(start_verb, verb_len, "sr")(((sizeof("sr")-1) == (verb_len)) && (memcmp(((const void *) ((start_verb))), ((const void *) (("" "sr" ""))), (sizeof ("sr")-1)) == 0)) |
11376 | || memEQs(start_verb, verb_len, "script_run")(((sizeof("script_run")-1) == (verb_len)) && (memcmp( ((const void *) ((start_verb))), ((const void *) (("" "script_run" ""))), (sizeof("script_run")-1)) == 0))) |
11377 | { |
11378 | regnode_offset atomic; |
11379 | |
11380 | paren = 's'; |
11381 | |
11382 | script_run: |
11383 | |
11384 | /* This indicates Unicode rules. */ |
11385 | REQUIRE_UNI_RULES(flagp, 0)do { if ((get_regex_charset((pRExC_state->flags)) == REGEX_DEPENDS_CHARSET )) { set_regex_charset(&(pRExC_state->flags), REGEX_UNICODE_CHARSET ); (pRExC_state->uni_semantics) = 1; if ((pRExC_state-> seen_d_op) && __builtin_expect(((! ((pRExC_state-> total_par) < 0)) ? (_Bool)1 : (_Bool)0),(1))) { *flagp |= 0x20 ; return 0; } } } while (0); |
11386 | |
11387 | if (! start_arg) { |
11388 | goto no_colon; |
11389 | } |
11390 | |
11391 | RExC_parse(pRExC_state->parse) = start_arg; |
11392 | |
11393 | if (RExC_in_script_run(pRExC_state->in_script_run)) { |
11394 | |
11395 | /* Nested script runs are treated as no-ops, because |
11396 | * if the nested one fails, the outer one must as |
11397 | * well. It could fail sooner, and avoid (??{} with |
11398 | * side effects, but that is explicitly documented as |
11399 | * undefined behavior. */ |
11400 | |
11401 | ret = 0; |
11402 | |
11403 | if (paren == 's') { |
11404 | paren = ':'; |
11405 | goto parse_rest; |
11406 | } |
11407 | |
11408 | /* But, the atomic part of a nested atomic script run |
11409 | * isn't a no-op, but can be treated just like a '(?>' |
11410 | * */ |
11411 | paren = '>'; |
11412 | goto parse_rest; |
11413 | } |
11414 | |
11415 | if (paren == 's') { |
11416 | /* Here, we're starting a new regular script run */ |
11417 | ret = reg_node(pRExC_state, SROPEN)S_reg_node( pRExC_state,65); |
11418 | RExC_in_script_run(pRExC_state->in_script_run) = 1; |
11419 | is_open = 1; |
11420 | goto parse_rest; |
11421 | } |
11422 | |
11423 | /* Here, we are starting an atomic script run. This is |
11424 | * handled by recursing to deal with the atomic portion |
11425 | * separately, enclosed in SROPEN ... SRCLOSE nodes */ |
11426 | |
11427 | ret = reg_node(pRExC_state, SROPEN)S_reg_node( pRExC_state,65); |
11428 | |
11429 | RExC_in_script_run(pRExC_state->in_script_run) = 1; |
11430 | |
11431 | atomic = reg(pRExC_state, 'r', &flags, depth)S_reg( pRExC_state,'r',&flags,depth); |
11432 | if (flags & (RESTART_PARSE0x20|NEED_UTF80x40)) { |
11433 | *flagp = flags & (RESTART_PARSE0x20|NEED_UTF80x40); |
11434 | return 0; |
11435 | } |
11436 | |
11437 | if (! REGTAIL(pRExC_state, ret, atomic)S_regtail( (pRExC_state),(ret),(atomic),depth+1)) { |
11438 | REQUIRE_BRANCHJ(flagp, 0)do { (pRExC_state->use_BRANCHJ) = 1; *flagp |= 0x20; return 0; } while (0); |
11439 | } |
11440 | |
11441 | if (! REGTAIL(pRExC_state, atomic, reg_node(pRExC_state,S_regtail( (pRExC_state),(atomic),(S_reg_node( pRExC_state,66 )),depth+1) |
11442 | SRCLOSE))S_regtail( (pRExC_state),(atomic),(S_reg_node( pRExC_state,66 )),depth+1)) |
11443 | { |
11444 | REQUIRE_BRANCHJ(flagp, 0)do { (pRExC_state->use_BRANCHJ) = 1; *flagp |= 0x20; return 0; } while (0); |
11445 | } |
11446 | |
11447 | RExC_in_script_run(pRExC_state->in_script_run) = 0; |
11448 | return ret; |
11449 | } |
11450 | |
11451 | break; |
11452 | |
11453 | lookbehind_alpha_assertions: |
11454 | RExC_seen(pRExC_state->seen) |= REG_LOOKBEHIND_SEEN0x00000002; |
11455 | /*FALLTHROUGH*/ |
11456 | |
11457 | alpha_assertions: |
11458 | |
11459 | RExC_in_lookaround(pRExC_state->in_lookaround)++; |
11460 | RExC_seen_zerolen(pRExC_state->seen_zerolen)++; |
11461 | |
11462 | if (! start_arg) { |
11463 | goto no_colon; |
11464 | } |
11465 | |
11466 | /* An empty negative lookahead assertion simply is failure */ |
11467 | if (paren == 'A' && RExC_parse(pRExC_state->parse) == start_arg) { |
11468 | ret=reganode(pRExC_state, OPFAIL, 0)S_reganode( pRExC_state,97,0); |
11469 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
11470 | return ret; |
11471 | } |
11472 | |
11473 | RExC_parse(pRExC_state->parse) = start_arg; |
11474 | goto parse_rest; |
11475 | |
11476 | no_colon: |
11477 | vFAIL2utf8f(do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "'(*%" "d%" "lu" "%4p" "' requires a terminating ':'" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)(verb_len), (void*)(start_verb), (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11479, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0) |
11478 | "'(*%" UTF8f "' requires a terminating ':'",do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "'(*%" "d%" "lu" "%4p" "' requires a terminating ':'" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)(verb_len), (void*)(start_verb), (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11479, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0) |
11479 | UTF8fARG(UTF, verb_len, start_verb))do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "'(*%" "d%" "lu" "%4p" "' requires a terminating ':'" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)(verb_len), (void*)(start_verb), (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11479, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); |
11480 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_comp.c", 11480 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /*NOTREACHED*/ |
11481 | |
11482 | } /* End of switch */ |
11483 | if ( ! op ) { |
11484 | RExC_parse(pRExC_state->parse) += UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) |
11485 | ? UTF8_SAFE_SKIP(RExC_parse, RExC_end)(((((pRExC_state->end)) >= ((pRExC_state->parse))) ? (void)0 : __assert2("re_comp.c", 11485, __func__, "((pRExC_state->end)) >= ((pRExC_state->parse))" )), (((pRExC_state->end)) - ((pRExC_state->parse))) <= 0 ? 0 : ((((((pRExC_state->end)) - ((pRExC_state->parse ))))<(PL_utf8skip[*(const U8*)((pRExC_state->parse))])) ?((((pRExC_state->end)) - ((pRExC_state->parse)))):(PL_utf8skip [*(const U8*)((pRExC_state->parse))]))) |
11486 | : 1; |
11487 | if (has_upper || verb_len == 0) { |
11488 | vFAIL2utf8f(do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Unknown verb pattern '%" "d%" "lu" "%4p" "'" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(verb_len), (void*)(start_verb), (int)((( ((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (( pRExC_state->parse) - (pRExC_state->copy_start))) > ( pRExC_state->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11490, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0) |
11489 | "Unknown verb pattern '%" UTF8f "'",do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Unknown verb pattern '%" "d%" "lu" "%4p" "'" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(verb_len), (void*)(start_verb), (int)((( ((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (( pRExC_state->parse) - (pRExC_state->copy_start))) > ( pRExC_state->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11490, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0) |
11490 | UTF8fARG(UTF, verb_len, start_verb))do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Unknown verb pattern '%" "d%" "lu" "%4p" "'" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(verb_len), (void*)(start_verb), (int)((( ((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (( pRExC_state->parse) - (pRExC_state->copy_start))) > ( pRExC_state->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11490, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); |
11491 | } |
11492 | else { |
11493 | vFAIL2utf8f(do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Unknown '(*...)' construct '%" "d%" "lu" "%4p" "'" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(verb_len), (void*)(start_verb), (int)((( ((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (( pRExC_state->parse) - (pRExC_state->copy_start))) > ( pRExC_state->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11495, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0) |
11494 | "Unknown '(*...)' construct '%" UTF8f "'",do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Unknown '(*...)' construct '%" "d%" "lu" "%4p" "'" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(verb_len), (void*)(start_verb), (int)((( ((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (( pRExC_state->parse) - (pRExC_state->copy_start))) > ( pRExC_state->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11495, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0) |
11495 | UTF8fARG(UTF, verb_len, start_verb))do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Unknown '(*...)' construct '%" "d%" "lu" "%4p" "'" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(verb_len), (void*)(start_verb), (int)((( ((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (( pRExC_state->parse) - (pRExC_state->copy_start))) > ( pRExC_state->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11495, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); |
11496 | } |
11497 | } |
11498 | if ( RExC_parse(pRExC_state->parse) == start_arg ) { |
11499 | start_arg = NULL((void*)0); |
11500 | } |
11501 | if ( arg_required && !start_arg ) { |
11502 | vFAIL3("Verb pattern '%.*s' has a mandatory argument",do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Verb pattern '%.*s' has a mandatory argument" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int) verb_len, start_verb , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11503, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0) |
11503 | (int) verb_len, start_verb)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Verb pattern '%.*s' has a mandatory argument" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int) verb_len, start_verb , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11503, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11504 | } |
11505 | if (internal_argval == -1) { |
11506 | ret = reganode(pRExC_state, op, 0)S_reganode( pRExC_state,op,0); |
11507 | } else { |
11508 | ret = reg2Lanode(pRExC_state, op, 0, internal_argval)S_reg2Lanode( pRExC_state,op,0,internal_argval); |
11509 | } |
11510 | RExC_seen(pRExC_state->seen) |= REG_VERBARG_SEEN0x00000080; |
11511 | if (start_arg) { |
11512 | SV *sv = newSVpvn( start_arg,Perl_newSVpvn( start_arg,(pRExC_state->parse) - start_arg) |
11513 | RExC_parse - start_arg)Perl_newSVpvn( start_arg,(pRExC_state->parse) - start_arg); |
11514 | ARG(REGNODE_p(ret))((((struct regnode_1 *)((pRExC_state->emit_start) + (ret)) )->arg1)) = add_dataS_add_data( pRExC_state, |
11515 | STR_WITH_LEN("S")("" "S" ""), (sizeof("S")-1)); |
11516 | RExC_rxi(pRExC_state->rxi)->data->data[ARG(REGNODE_p(ret))((((struct regnode_1 *)((pRExC_state->emit_start) + (ret)) )->arg1))]=(void*)sv; |
11517 | FLAGS(REGNODE_p(ret))((((pRExC_state->emit_start) + (ret)))->flags) = 1; |
11518 | } else { |
11519 | FLAGS(REGNODE_p(ret))((((pRExC_state->emit_start) + (ret)))->flags) = 0; |
11520 | } |
11521 | if ( internal_argval != -1 ) |
11522 | ARG2L_SET(REGNODE_p(ret), internal_argval)(((((struct regnode_2L *)((pRExC_state->emit_start) + (ret )))->arg2)) = ((internal_argval))); |
11523 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
11524 | return ret; |
11525 | } |
11526 | else if (*RExC_parse(pRExC_state->parse) == '?') { /* (?...) */ |
11527 | bool_Bool is_logical = 0; |
11528 | const char * const seqstart = RExC_parse(pRExC_state->parse); |
11529 | const char * endptr; |
11530 | const char non_existent_group_msg[] |
11531 | = "Reference to nonexistent group"; |
11532 | const char impossible_group[] = "Invalid reference to group"; |
11533 | |
11534 | if (has_intervening_patws) { |
11535 | RExC_parse(pRExC_state->parse)++; |
11536 | vFAIL("In '(?...)', the '(' and '?' must be adjacent")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "In '(?...)', the '(' and '?' must be adjacent" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11536, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11537 | } |
11538 | |
11539 | RExC_parse(pRExC_state->parse)++; /* past the '?' */ |
11540 | paren = *RExC_parse(pRExC_state->parse); /* might be a trailing NUL, if not |
11541 | well-formed */ |
11542 | RExC_parse(pRExC_state->parse) += UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ? UTF8SKIP(RExC_parse)PL_utf8skip[*(const U8*)((pRExC_state->parse))] : 1; |
11543 | if (RExC_parse(pRExC_state->parse) > RExC_end(pRExC_state->end)) { |
11544 | paren = '\0'; |
11545 | } |
11546 | ret = 0; /* For look-ahead/behind. */ |
11547 | switch (paren) { |
11548 | |
11549 | case 'P': /* (?P...) variants for those used to PCRE/Python */ |
11550 | paren = *RExC_parse(pRExC_state->parse); |
11551 | if ( paren == '<') { /* (?P<...>) named capture */ |
11552 | RExC_parse(pRExC_state->parse)++; |
11553 | if (RExC_parse(pRExC_state->parse) >= RExC_end(pRExC_state->end)) { |
11554 | vFAIL("Sequence (?P<... not terminated")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Sequence (?P<... not terminated", (int)( ((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11554, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11555 | } |
11556 | goto named_capture; |
11557 | } |
11558 | else if (paren == '>') { /* (?P>name) named recursion */ |
11559 | RExC_parse(pRExC_state->parse)++; |
11560 | if (RExC_parse(pRExC_state->parse) >= RExC_end(pRExC_state->end)) { |
11561 | vFAIL("Sequence (?P>... not terminated")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Sequence (?P>... not terminated", (int)( ((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11561, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11562 | } |
11563 | goto named_recursion; |
11564 | } |
11565 | else if (paren == '=') { /* (?P=...) named backref */ |
11566 | RExC_parse(pRExC_state->parse)++; |
11567 | return handle_named_backref(pRExC_state, flagp,S_handle_named_backref( pRExC_state,flagp,parse_start,')') |
11568 | parse_start, ')')S_handle_named_backref( pRExC_state,flagp,parse_start,')'); |
11569 | } |
11570 | RExC_parse(pRExC_state->parse) += SKIP_IF_CHAR(RExC_parse, RExC_end)(!*((pRExC_state->parse)) ? 0 : (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ? (((((pRExC_state->end)) >= ((pRExC_state ->parse))) ? (void)0 : __assert2("re_comp.c", 11570, __func__ , "((pRExC_state->end)) >= ((pRExC_state->parse))")) , (((pRExC_state->end)) - ((pRExC_state->parse))) <= 0 ? 0 : ((((((pRExC_state->end)) - ((pRExC_state->parse ))))<(PL_utf8skip[*(const U8*)((pRExC_state->parse))])) ?((((pRExC_state->end)) - ((pRExC_state->parse)))):(PL_utf8skip [*(const U8*)((pRExC_state->parse))]))) : 1); |
11571 | /* diag_listed_as: Sequence (?%s...) not recognized in regex; marked by <-- HERE in m/%s/ */ |
11572 | vFAIL3("Sequence (%.*s...) not recognized",do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Sequence (%.*s...) not recognized" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int) ((pRExC_state ->parse) - seqstart), seqstart, (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11573, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0) |
11573 | (int) (RExC_parse - seqstart), seqstart)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Sequence (%.*s...) not recognized" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int) ((pRExC_state ->parse) - seqstart), seqstart, (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11573, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11574 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_comp.c", 11574 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /*NOTREACHED*/ |
11575 | case '<': /* (?<...) */ |
11576 | /* If you want to support (?<*...), first reconcile with GH #17363 */ |
11577 | if (*RExC_parse(pRExC_state->parse) == '!') |
11578 | paren = ','; |
11579 | else if (*RExC_parse(pRExC_state->parse) != '=') |
11580 | named_capture: |
11581 | { /* (?<...>) */ |
11582 | char *name_start; |
11583 | SV *svname; |
11584 | paren= '>'; |
11585 | /* FALLTHROUGH */ |
11586 | case '\'': /* (?'...') */ |
11587 | name_start = RExC_parse(pRExC_state->parse); |
11588 | svname = reg_scan_name(pRExC_state, REG_RSN_RETURN_NAME)S_reg_scan_name( pRExC_state,1); |
11589 | if ( RExC_parse(pRExC_state->parse) == name_start |
11590 | || RExC_parse(pRExC_state->parse) >= RExC_end(pRExC_state->end) |
11591 | || *RExC_parse(pRExC_state->parse) != paren) |
11592 | { |
11593 | vFAIL2("Sequence (?%c... not terminated",do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Sequence (?%c... not terminated" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", paren=='>' ? '<' : (char) paren, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11594, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0) |
11594 | paren=='>' ? '<' : (char) paren)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Sequence (?%c... not terminated" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", paren=='>' ? '<' : (char) paren, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11594, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11595 | } |
11596 | { |
11597 | HE *he_str; |
11598 | SV *sv_dat = NULL((void*)0); |
11599 | if (!svname) /* shouldn't happen */ |
11600 | Perl_croak(aTHX_ |
11601 | "panic: reg_scan_name returned NULL"); |
11602 | if (!RExC_paren_names(pRExC_state->paren_names)) { |
11603 | RExC_paren_names(pRExC_state->paren_names)= newHV()((HV *)({ void *_p = (Perl_newSV_type( SVt_PVHV)); _p; })); |
11604 | sv_2mortal(MUTABLE_SV(RExC_paren_names))Perl_sv_2mortal( ((SV *)({ void *_p = ((pRExC_state->paren_names )); _p; }))); |
11605 | #ifdef DEBUGGING |
11606 | RExC_paren_name_list(pRExC_state->paren_name_list)= newAV()((AV *)({ void *_p = (Perl_newSV_type( SVt_PVAV)); _p; })); |
11607 | sv_2mortal(MUTABLE_SV(RExC_paren_name_list))Perl_sv_2mortal( ((SV *)({ void *_p = ((pRExC_state->paren_name_list )); _p; }))); |
11608 | #endif |
11609 | } |
11610 | he_str = hv_fetch_ent( RExC_paren_names, svname, 1, 0 )((HE *) Perl_hv_common( ((pRExC_state->paren_names)),(svname ),((void*)0),0,0,((1) ? 0x10 : 0),((void*)0),(0))); |
11611 | if ( he_str ) |
11612 | sv_dat = HeVAL(he_str)(he_str)->he_valu.hent_val; |
11613 | if ( ! sv_dat ) { |
11614 | /* croak baby croak */ |
11615 | Perl_croak(aTHX_ |
11616 | "panic: paren_name hash element allocation failed"); |
11617 | } else if ( SvPOK(sv_dat)((sv_dat)->sv_flags & 0x00000400) ) { |
11618 | /* (?|...) can mean we have dupes so scan to check |
11619 | its already been stored. Maybe a flag indicating |
11620 | we are inside such a construct would be useful, |
11621 | but the arrays are likely to be quite small, so |
11622 | for now we punt -- dmq */ |
11623 | IV count = SvIV(sv_dat)((((sv_dat)->sv_flags & (0x00000100|0x00200000)) == 0x00000100 ) ? (*({ const SV *const _svivx = (const SV *)(sv_dat); ((PL_valid_types_IVX [((svtype)((_svivx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 11623, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 11623, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( sv_dat,2)); |
11624 | I32 *pv = (I32*)SvPVX(sv_dat)(*({ SV *const _svpvx = ((SV *)({ void *_p = (sv_dat); _p; }) ); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 11624 , __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 11624, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 11624, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })); |
11625 | IV i; |
11626 | for ( i = 0 ; i < count ; i++ ) { |
11627 | if ( pv[i] == RExC_npar(pRExC_state->npar) ) { |
11628 | count = 0; |
11629 | break; |
11630 | } |
11631 | } |
11632 | if ( count ) { |
11633 | pv = (I32*)SvGROW(sv_dat,(((sv_dat)->sv_flags & 0x10000000) || ((XPV*) (sv_dat) ->sv_any)->xpv_len_u.xpvlenu_len < ((*({ const SV *const _svcur = (const SV *)(sv_dat); ((PL_valid_types_PVX[((svtype )((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 11634, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 11634, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 11634, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) + sizeof(I32)+1) ? Perl_sv_grow( sv_dat,( *({ const SV *const _svcur = (const SV *)(sv_dat); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 11634, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 11634, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 11634, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) + sizeof(I32)+1) : (*({ SV *const _svpvx = ((SV *)({ void *_p = (sv_dat); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 11634, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 11634, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 11634, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))) |
11634 | SvCUR(sv_dat) + sizeof(I32)+1)(((sv_dat)->sv_flags & 0x10000000) || ((XPV*) (sv_dat) ->sv_any)->xpv_len_u.xpvlenu_len < ((*({ const SV *const _svcur = (const SV *)(sv_dat); ((PL_valid_types_PVX[((svtype )((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 11634, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 11634, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 11634, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) + sizeof(I32)+1) ? Perl_sv_grow( sv_dat,( *({ const SV *const _svcur = (const SV *)(sv_dat); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 11634, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 11634, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 11634, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) + sizeof(I32)+1) : (*({ SV *const _svpvx = ((SV *)({ void *_p = (sv_dat); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 11634, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 11634, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 11634, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))); |
11635 | SvCUR_set(sv_dat, SvCUR(sv_dat) + sizeof(I32))do { ((PL_valid_types_PVX[((svtype)((sv_dat)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 11635 , __func__, "PL_valid_types_PVX[SvTYPE(sv_dat) & SVt_MASK]" )); ((!((((sv_dat)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((sv_dat)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((sv_dat)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 11635, __func__ , "!isGV_with_GP(sv_dat)")); ((!(((svtype)((sv_dat)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (sv_dat)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 11635, __func__, "!(SvTYPE(sv_dat) == SVt_PVIO && !(IoFLAGS(sv_dat) & IOf_FAKE_DIRP))" )); (((XPV*) (sv_dat)->sv_any)->xpv_cur = ((*({ const SV *const _svcur = (const SV *)(sv_dat); ((PL_valid_types_PVX[( (svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void )0 : __assert2("re_comp.c", 11635, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 11635, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 11635, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) + sizeof(I32))); } while (0); |
11636 | pv[count] = RExC_npar(pRExC_state->npar); |
11637 | SvIV_set(sv_dat, SvIVX(sv_dat) + 1)do { ((PL_valid_types_IV_set[((svtype)((sv_dat)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 11637 , __func__, "PL_valid_types_IV_set[SvTYPE(sv_dat) & SVt_MASK]" )); ((!((((sv_dat)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((sv_dat)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((sv_dat)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 11637, __func__ , "!isGV_with_GP(sv_dat)")); (((XPVIV*) (sv_dat)->sv_any)-> xiv_u.xivu_iv = ((*({ const SV *const _svivx = (const SV *)(sv_dat ); ((PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 11637 , __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 11637, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) + 1)); } while (0); |
11638 | } |
11639 | } else { |
11640 | (void)SvUPGRADE(sv_dat, SVt_PVNV)((void)(((svtype)((sv_dat)->sv_flags & 0xff)) >= (SVt_PVNV ) || (Perl_sv_upgrade( sv_dat,SVt_PVNV),1))); |
11641 | sv_setpvn(sv_dat, (char *)&(RExC_npar),Perl_sv_setpvn( sv_dat,(char *)&((pRExC_state->npar)), sizeof(I32)) |
11642 | sizeof(I32))Perl_sv_setpvn( sv_dat,(char *)&((pRExC_state->npar)), sizeof(I32)); |
11643 | SvIOK_on(sv_dat)(((!((((sv_dat)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((sv_dat)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((sv_dat)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 11643, __func__ , "!((((sv_dat)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((sv_dat)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((sv_dat)->sv_flags & 0xff)) == SVt_PVLV))" )), (sv_dat)->sv_flags |= (0x00000100|0x00001000)); |
11644 | SvIV_set(sv_dat, 1)do { ((PL_valid_types_IV_set[((svtype)((sv_dat)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 11644 , __func__, "PL_valid_types_IV_set[SvTYPE(sv_dat) & SVt_MASK]" )); ((!((((sv_dat)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((sv_dat)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((sv_dat)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 11644, __func__ , "!isGV_with_GP(sv_dat)")); (((XPVIV*) (sv_dat)->sv_any)-> xiv_u.xivu_iv = (1)); } while (0); |
11645 | } |
11646 | #ifdef DEBUGGING |
11647 | /* Yes this does cause a memory leak in debugging Perls |
11648 | * */ |
11649 | if (!av_store(RExC_paren_name_list,Perl_av_store( (pRExC_state->paren_name_list),(pRExC_state ->npar),Perl_SvREFCNT_inc_NN(((SV *)({ void *_p = (svname) ; _p; })))) |
11650 | RExC_npar, SvREFCNT_inc_NN(svname))Perl_av_store( (pRExC_state->paren_name_list),(pRExC_state ->npar),Perl_SvREFCNT_inc_NN(((SV *)({ void *_p = (svname) ; _p; }))))) |
11651 | SvREFCNT_dec_NN(svname)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (svname); _p; }))); |
11652 | #endif |
11653 | |
11654 | /*sv_dump(sv_dat);*/ |
11655 | } |
11656 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
11657 | paren = 1; |
11658 | goto capturing_parens; |
11659 | } |
11660 | |
11661 | RExC_seen(pRExC_state->seen) |= REG_LOOKBEHIND_SEEN0x00000002; |
11662 | RExC_in_lookaround(pRExC_state->in_lookaround)++; |
11663 | RExC_parse(pRExC_state->parse)++; |
11664 | if (RExC_parse(pRExC_state->parse) >= RExC_end(pRExC_state->end)) { |
11665 | vFAIL("Sequence (?... not terminated")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Sequence (?... not terminated", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11665, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11666 | } |
11667 | RExC_seen_zerolen(pRExC_state->seen_zerolen)++; |
11668 | break; |
11669 | case '=': /* (?=...) */ |
11670 | RExC_seen_zerolen(pRExC_state->seen_zerolen)++; |
11671 | RExC_in_lookaround(pRExC_state->in_lookaround)++; |
11672 | break; |
11673 | case '!': /* (?!...) */ |
11674 | RExC_seen_zerolen(pRExC_state->seen_zerolen)++; |
11675 | /* check if we're really just a "FAIL" assertion */ |
11676 | skip_to_be_ignored_text(pRExC_state, &RExC_parse,S_skip_to_be_ignored_text( pRExC_state,&(pRExC_state-> parse),(0)) |
11677 | FALSE /* Don't force to /x */ )S_skip_to_be_ignored_text( pRExC_state,&(pRExC_state-> parse),(0)); |
11678 | if (*RExC_parse(pRExC_state->parse) == ')') { |
11679 | ret=reganode(pRExC_state, OPFAIL, 0)S_reganode( pRExC_state,97,0); |
11680 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
11681 | return ret; |
11682 | } |
11683 | RExC_in_lookaround(pRExC_state->in_lookaround)++; |
11684 | break; |
11685 | case '|': /* (?|...) */ |
11686 | /* branch reset, behave like a (?:...) except that |
11687 | buffers in alternations share the same numbers */ |
11688 | paren = ':'; |
11689 | after_freeze = freeze_paren = RExC_npar(pRExC_state->npar); |
11690 | |
11691 | /* XXX This construct currently requires an extra pass. |
11692 | * Investigation would be required to see if that could be |
11693 | * changed */ |
11694 | REQUIRE_PARENS_PASSdo { if (! ((pRExC_state->total_par) > 0)) (pRExC_state ->total_par) = -1; } while (0); |
11695 | break; |
11696 | case ':': /* (?:...) */ |
11697 | case '>': /* (?>...) */ |
11698 | break; |
11699 | case '$': /* (?$...) */ |
11700 | case '@': /* (?@...) */ |
11701 | vFAIL2("Sequence (?%c...) not implemented", (int)paren)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Sequence (?%c...) not implemented" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)paren, (int)(( (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (( pRExC_state->parse) - (pRExC_state->copy_start))) > ( pRExC_state->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11701, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11702 | break; |
11703 | case '0' : /* (?0) */ |
11704 | case 'R' : /* (?R) */ |
11705 | if (RExC_parse(pRExC_state->parse) == RExC_end(pRExC_state->end) || *RExC_parse(pRExC_state->parse) != ')') |
11706 | FAIL("Sequence (?R) not terminated")do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "%s in regex m/%" "d%" "lu" "%4p" "%s/", "Sequence (?R) not terminated" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp )), ellipses); } while (0); |
11707 | num = 0; |
11708 | RExC_seen(pRExC_state->seen) |= REG_RECURSE_SEEN0x00000020; |
11709 | |
11710 | /* XXX These constructs currently require an extra pass. |
11711 | * It probably could be changed */ |
11712 | REQUIRE_PARENS_PASSdo { if (! ((pRExC_state->total_par) > 0)) (pRExC_state ->total_par) = -1; } while (0); |
11713 | |
11714 | *flagp |= POSTPONED0x08; |
11715 | goto gen_recurse_regop; |
11716 | /*notreached*/ |
11717 | /* named and numeric backreferences */ |
11718 | case '&': /* (?&NAME) */ |
11719 | parse_start = RExC_parse(pRExC_state->parse) - 1; |
11720 | named_recursion: |
11721 | { |
11722 | SV *sv_dat = reg_scan_name(pRExC_state,S_reg_scan_name( pRExC_state,2) |
11723 | REG_RSN_RETURN_DATA)S_reg_scan_name( pRExC_state,2); |
11724 | num = sv_dat ? *((I32 *)SvPVX(sv_dat)(*({ SV *const _svpvx = ((SV *)({ void *_p = (sv_dat); _p; }) ); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 11724 , __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 11724, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 11724, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))) : 0; |
11725 | } |
11726 | if (RExC_parse(pRExC_state->parse) >= RExC_end(pRExC_state->end) || *RExC_parse(pRExC_state->parse) != ')') |
11727 | vFAIL("Sequence (?&... not terminated")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Sequence (?&... not terminated", (int)( ((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11727, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11728 | goto gen_recurse_regop; |
11729 | /* NOTREACHED */ |
11730 | case '+': |
11731 | if (! inRANGE(RExC_parse[0], '1', '9')(((('9') >= ('1')) ? (void)0 : __assert2("re_comp.c", 11731 , __func__, "('9') >= ('1')")), ( (sizeof((pRExC_state-> parse)[0]) == sizeof(U8)) ? ((((NV) (('1')) >= 0) ? (void) 0 : __assert2("re_comp.c", 11731, __func__, "(NV) (('1')) >= 0" )), (((NV) ((('9') - ('1'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 11731, __func__, "(NV) ((('9') - ('1'))) >= 0")), (((U64 ) (((((U8) ((pRExC_state->parse)[0])))) - ((('1')) | 0))) <= (((U64) (((('9') - ('1'))) | 0))))) : (sizeof((pRExC_state-> parse)[0]) == sizeof(U32)) ? ((((NV) (('1')) >= 0) ? (void )0 : __assert2("re_comp.c", 11731, __func__, "(NV) (('1')) >= 0" )), (((NV) ((('9') - ('1'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 11731, __func__, "(NV) ((('9') - ('1'))) >= 0")), (((U64 ) (((((U32) ((pRExC_state->parse)[0])))) - ((('1')) | 0))) <= (((U64) (((('9') - ('1'))) | 0))))) : (((sizeof((pRExC_state ->parse)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 11731, __func__, "sizeof((pRExC_state->parse)[0]) == sizeof(U64)" )), ((((NV) (('1')) >= 0) ? (void)0 : __assert2("re_comp.c" , 11731, __func__, "(NV) (('1')) >= 0")), (((NV) ((('9') - ('1'))) >= 0) ? (void)0 : __assert2("re_comp.c", 11731, __func__ , "(NV) ((('9') - ('1'))) >= 0")), (((U64) (((((U64) ((pRExC_state ->parse)[0])))) - ((('1')) | 0))) <= (((U64) (((('9') - ('1'))) | 0))))))))) { |
11732 | RExC_parse(pRExC_state->parse)++; |
11733 | vFAIL("Illegal pattern")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Illegal pattern", (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11733, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11734 | } |
11735 | goto parse_recursion; |
11736 | /* NOTREACHED*/ |
11737 | case '-': /* (?-1) */ |
11738 | if (! inRANGE(RExC_parse[0], '1', '9')(((('9') >= ('1')) ? (void)0 : __assert2("re_comp.c", 11738 , __func__, "('9') >= ('1')")), ( (sizeof((pRExC_state-> parse)[0]) == sizeof(U8)) ? ((((NV) (('1')) >= 0) ? (void) 0 : __assert2("re_comp.c", 11738, __func__, "(NV) (('1')) >= 0" )), (((NV) ((('9') - ('1'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 11738, __func__, "(NV) ((('9') - ('1'))) >= 0")), (((U64 ) (((((U8) ((pRExC_state->parse)[0])))) - ((('1')) | 0))) <= (((U64) (((('9') - ('1'))) | 0))))) : (sizeof((pRExC_state-> parse)[0]) == sizeof(U32)) ? ((((NV) (('1')) >= 0) ? (void )0 : __assert2("re_comp.c", 11738, __func__, "(NV) (('1')) >= 0" )), (((NV) ((('9') - ('1'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 11738, __func__, "(NV) ((('9') - ('1'))) >= 0")), (((U64 ) (((((U32) ((pRExC_state->parse)[0])))) - ((('1')) | 0))) <= (((U64) (((('9') - ('1'))) | 0))))) : (((sizeof((pRExC_state ->parse)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 11738, __func__, "sizeof((pRExC_state->parse)[0]) == sizeof(U64)" )), ((((NV) (('1')) >= 0) ? (void)0 : __assert2("re_comp.c" , 11738, __func__, "(NV) (('1')) >= 0")), (((NV) ((('9') - ('1'))) >= 0) ? (void)0 : __assert2("re_comp.c", 11738, __func__ , "(NV) ((('9') - ('1'))) >= 0")), (((U64) (((((U64) ((pRExC_state ->parse)[0])))) - ((('1')) | 0))) <= (((U64) (((('9') - ('1'))) | 0))))))))) { |
11739 | RExC_parse(pRExC_state->parse)--; /* rewind to let it be handled later */ |
11740 | goto parse_flags; |
11741 | } |
11742 | /* FALLTHROUGH */ |
11743 | case '1': case '2': case '3': case '4': /* (?1) */ |
11744 | case '5': case '6': case '7': case '8': case '9': |
11745 | RExC_parse(pRExC_state->parse) = (char *) seqstart + 1; /* Point to the digit */ |
11746 | parse_recursion: |
11747 | { |
11748 | bool_Bool is_neg = FALSE(0); |
11749 | UV unum; |
11750 | parse_start = RExC_parse(pRExC_state->parse) - 1; /* MJD */ |
11751 | if (*RExC_parse(pRExC_state->parse) == '-') { |
11752 | RExC_parse(pRExC_state->parse)++; |
11753 | is_neg = TRUE(1); |
11754 | } |
11755 | endptr = RExC_end(pRExC_state->end); |
11756 | if (grok_atoUVPerl_grok_atoUV(RExC_parse(pRExC_state->parse), &unum, &endptr) |
11757 | && unum <= I32_MAX0x7fffffff |
11758 | ) { |
11759 | num = (I32)unum; |
11760 | RExC_parse(pRExC_state->parse) = (char*)endptr; |
11761 | } |
11762 | else { /* Overflow, or something like that. Position |
11763 | beyond all digits for the message */ |
11764 | while (RExC_parse(pRExC_state->parse) < RExC_end(pRExC_state->end) && isDIGIT(*RExC_parse)(((('9') >= ('0')) ? (void)0 : __assert2("re_comp.c", 11764 , __func__, "('9') >= ('0')")), ( (sizeof(*(pRExC_state-> parse)) == sizeof(U8)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c", 11764, __func__, "(NV) (('0')) >= 0" )), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 11764, __func__, "(NV) ((('9') - ('0'))) >= 0")), (((U64 ) (((((U8) (*(pRExC_state->parse))))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0))))) : (sizeof(*(pRExC_state-> parse)) == sizeof(U32)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c", 11764, __func__, "(NV) (('0')) >= 0" )), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 11764, __func__, "(NV) ((('9') - ('0'))) >= 0")), (((U64 ) (((((U32) (*(pRExC_state->parse))))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0))))) : (((sizeof(*(pRExC_state ->parse)) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 11764, __func__, "sizeof(*(pRExC_state->parse)) == sizeof(U64)" )), ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 11764, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 11764, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U64) (*(pRExC_state ->parse))))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0' ))) | 0))))))))) { |
11765 | RExC_parse(pRExC_state->parse)++; |
11766 | } |
11767 | vFAIL(impossible_group)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", impossible_group, (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11767, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11768 | } |
11769 | if (is_neg) { |
11770 | /* -num is always representable on 1 and 2's complement |
11771 | * machines */ |
11772 | num = -num; |
11773 | } |
11774 | } |
11775 | if (*RExC_parse(pRExC_state->parse)!=')') |
11776 | vFAIL("Expecting close bracket")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Expecting close bracket", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11776, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11777 | |
11778 | gen_recurse_regop: |
11779 | if (paren == '-' || paren == '+') { |
11780 | |
11781 | /* Don't overflow */ |
11782 | if (UNLIKELY(I32_MAX - RExC_npar < num)__builtin_expect(((0x7fffffff - (pRExC_state->npar) < num ) ? (_Bool)1 : (_Bool)0),(0))) { |
11783 | RExC_parse(pRExC_state->parse)++; |
11784 | vFAIL(impossible_group)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", impossible_group, (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11784, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11785 | } |
11786 | |
11787 | /* |
11788 | Diagram of capture buffer numbering. |
11789 | Top line is the normal capture buffer numbers |
11790 | Bottom line is the negative indexing as from |
11791 | the X (the (?-2)) |
11792 | |
11793 | 1 2 3 4 5 X Y 6 7 |
11794 | /(a(x)y)(a(b(c(?+2)d)e)f)(g(h))/ |
11795 | /(a(x)y)(a(b(c(?-2)d)e)f)(g(h))/ |
11796 | - 5 4 3 2 1 X Y x x |
11797 | |
11798 | Resolve to absolute group. Recall that RExC_npar is +1 of |
11799 | the actual parenthesis group number. For lookahead, we |
11800 | have to compensate for that. Using the above example, when |
11801 | we get to Y in the parse, num is 2 and RExC_npar is 6. We |
11802 | want 7 for +2, and 4 for -2. |
11803 | */ |
11804 | if ( paren == '+' ) { |
11805 | num--; |
11806 | } |
11807 | |
11808 | num += RExC_npar(pRExC_state->npar); |
11809 | |
11810 | if (paren == '-' && num < 1) { |
11811 | RExC_parse(pRExC_state->parse)++; |
11812 | vFAIL(non_existent_group_msg)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", non_existent_group_msg, (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11812, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11813 | } |
11814 | } |
11815 | |
11816 | if (num >= RExC_npar(pRExC_state->npar)) { |
11817 | |
11818 | /* It might be a forward reference; we can't fail until we |
11819 | * know, by completing the parse to get all the groups, and |
11820 | * then reparsing */ |
11821 | if (ALL_PARENS_COUNTED((pRExC_state->total_par) > 0)) { |
11822 | if (num >= RExC_total_parens(pRExC_state->total_par)) { |
11823 | RExC_parse(pRExC_state->parse)++; |
11824 | vFAIL(non_existent_group_msg)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", non_existent_group_msg, (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11824, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11825 | } |
11826 | } |
11827 | else { |
11828 | REQUIRE_PARENS_PASSdo { if (! ((pRExC_state->total_par) > 0)) (pRExC_state ->total_par) = -1; } while (0); |
11829 | } |
11830 | } |
11831 | |
11832 | /* We keep track how many GOSUB items we have produced. |
11833 | To start off the ARG2L() of the GOSUB holds its "id", |
11834 | which is used later in conjunction with RExC_recurse |
11835 | to calculate the offset we need to jump for the GOSUB, |
11836 | which it will store in the final representation. |
11837 | We have to defer the actual calculation until much later |
11838 | as the regop may move. |
11839 | */ |
11840 | ret = reg2Lanode(pRExC_state, GOSUB, num, RExC_recurse_count)S_reg2Lanode( pRExC_state,92,num,(pRExC_state->recurse_count )); |
11841 | RExC_recurse_count(pRExC_state->recurse_count)++; |
11842 | DEBUG_OPTIMISE_MORE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( "%*s%*s Recurse #%" "lu" " to %" "ld" "\n", 22, "| |", (int)(depth * 2 + 1), "" , (UV)((((struct regnode_1 *)((pRExC_state->emit_start) + ( ret)))->arg1)), (IV)((((struct regnode_2L *)((pRExC_state-> emit_start) + (ret)))->arg2)));} while (0) |
11843 | "%*s%*s Recurse #%" UVuf " to %" IVdf "\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( "%*s%*s Recurse #%" "lu" " to %" "ld" "\n", 22, "| |", (int)(depth * 2 + 1), "" , (UV)((((struct regnode_1 *)((pRExC_state->emit_start) + ( ret)))->arg1)), (IV)((((struct regnode_2L *)((pRExC_state-> emit_start) + (ret)))->arg2)));} while (0) |
11844 | 22, "| |", (int)(depth * 2 + 1), "",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( "%*s%*s Recurse #%" "lu" " to %" "ld" "\n", 22, "| |", (int)(depth * 2 + 1), "" , (UV)((((struct regnode_1 *)((pRExC_state->emit_start) + ( ret)))->arg1)), (IV)((((struct regnode_2L *)((pRExC_state-> emit_start) + (ret)))->arg2)));} while (0) |
11845 | (UV)ARG(REGNODE_p(ret)),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( "%*s%*s Recurse #%" "lu" " to %" "ld" "\n", 22, "| |", (int)(depth * 2 + 1), "" , (UV)((((struct regnode_1 *)((pRExC_state->emit_start) + ( ret)))->arg1)), (IV)((((struct regnode_2L *)((pRExC_state-> emit_start) + (ret)))->arg2)));} while (0) |
11846 | (IV)ARG2L(REGNODE_p(ret))))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( "%*s%*s Recurse #%" "lu" " to %" "ld" "\n", 22, "| |", (int)(depth * 2 + 1), "" , (UV)((((struct regnode_1 *)((pRExC_state->emit_start) + ( ret)))->arg1)), (IV)((((struct regnode_2L *)((pRExC_state-> emit_start) + (ret)))->arg2)));} while (0); |
11847 | RExC_seen(pRExC_state->seen) |= REG_RECURSE_SEEN0x00000020; |
11848 | |
11849 | Set_Node_Length(REGNODE_p(ret),do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 11850, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)(1 + regarglen[((((pRExC_state->emit_start ) + (ret)))->type)]));} while (0); if((((((pRExC_state-> emit_start) + (ret))) - (pRExC_state->emit_start))) < 0 ) { Perl_croak( "value of node is %d in Length macro", (int)( ((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))] = (1 + regarglen[((((pRExC_state->emit_start ) + (ret)))->type)]); } } while (0) |
11850 | 1 + regarglen[OP(REGNODE_p(ret))])do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 11850, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)(1 + regarglen[((((pRExC_state->emit_start ) + (ret)))->type)]));} while (0); if((((((pRExC_state-> emit_start) + (ret))) - (pRExC_state->emit_start))) < 0 ) { Perl_croak( "value of node is %d in Length macro", (int)( ((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))] = (1 + regarglen[((((pRExC_state->emit_start ) + (ret)))->type)]); } } while (0); /* MJD */ |
11851 | Set_Node_Offset(REGNODE_p(ret), parse_start)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) offset of node %d is %d.\n", 11851, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)((parse_start)-(pRExC_state->start))); } while (0); if((((((pRExC_state->emit_start) + (ret))) - ( pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))-1] = ((parse_start)-(pRExC_state->start )); } } while (0); /* MJD */ |
11852 | |
11853 | *flagp |= POSTPONED0x08; |
11854 | assert(*RExC_parse == ')')((*(pRExC_state->parse) == ')') ? (void)0 : __assert2("re_comp.c" , 11854, __func__, "*RExC_parse == ')'")); |
11855 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
11856 | return ret; |
11857 | |
11858 | /* NOTREACHED */ |
11859 | |
11860 | case '?': /* (??...) */ |
11861 | is_logical = 1; |
11862 | if (*RExC_parse(pRExC_state->parse) != '{') { |
11863 | RExC_parse(pRExC_state->parse) += SKIP_IF_CHAR(RExC_parse, RExC_end)(!*((pRExC_state->parse)) ? 0 : (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ? (((((pRExC_state->end)) >= ((pRExC_state ->parse))) ? (void)0 : __assert2("re_comp.c", 11863, __func__ , "((pRExC_state->end)) >= ((pRExC_state->parse))")) , (((pRExC_state->end)) - ((pRExC_state->parse))) <= 0 ? 0 : ((((((pRExC_state->end)) - ((pRExC_state->parse ))))<(PL_utf8skip[*(const U8*)((pRExC_state->parse))])) ?((((pRExC_state->end)) - ((pRExC_state->parse)))):(PL_utf8skip [*(const U8*)((pRExC_state->parse))]))) : 1); |
11864 | /* diag_listed_as: Sequence (?%s...) not recognized in regex; marked by <-- HERE in m/%s/ */ |
11865 | vFAIL2utf8f(do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Sequence (%" "d%" "lu" "%4p" "...) not recognized" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((pRExC_state->parse)-seqstart), (void *)(seqstart), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : ( _Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11867, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0) |
11866 | "Sequence (%" UTF8f "...) not recognized",do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Sequence (%" "d%" "lu" "%4p" "...) not recognized" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((pRExC_state->parse)-seqstart), (void *)(seqstart), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : ( _Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11867, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0) |
11867 | UTF8fARG(UTF, RExC_parse-seqstart, seqstart))do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Sequence (%" "d%" "lu" "%4p" "...) not recognized" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((pRExC_state->parse)-seqstart), (void *)(seqstart), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : ( _Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11867, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); |
11868 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_comp.c", 11868 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /*NOTREACHED*/ |
11869 | } |
11870 | *flagp |= POSTPONED0x08; |
11871 | paren = '{'; |
11872 | RExC_parse(pRExC_state->parse)++; |
11873 | /* FALLTHROUGH */ |
11874 | case '{': /* (?{...}) */ |
11875 | { |
11876 | U32 n = 0; |
11877 | struct reg_code_block *cb; |
11878 | OP * o; |
11879 | |
11880 | RExC_seen_zerolen(pRExC_state->seen_zerolen)++; |
11881 | |
11882 | if ( !pRExC_state->code_blocks |
11883 | || pRExC_state->code_index |
11884 | >= pRExC_state->code_blocks->count |
11885 | || pRExC_state->code_blocks->cb[pRExC_state->code_index].start |
11886 | != (STRLEN)((RExC_parse(pRExC_state->parse) -3 - (is_logical ? 1 : 0)) |
11887 | - RExC_start(pRExC_state->start)) |
11888 | ) { |
11889 | if (RExC_pm_flags(pRExC_state->pm_flags) & PMf_USE_RE_EVAL(1U<<(((0 +12)+2)+16))) |
11890 | FAIL("panic: Sequence (?{...}): no code block found\n")do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "%s in regex m/%" "d%" "lu" "%4p" "%s/", "panic: Sequence (?{...}): no code block found\n" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp )), ellipses); } while (0); |
11891 | FAIL("Eval-group not allowed at runtime, use re 'eval'")do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "%s in regex m/%" "d%" "lu" "%4p" "%s/", "Eval-group not allowed at runtime, use re 'eval'" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp )), ellipses); } while (0); |
11892 | } |
11893 | /* this is a pre-compiled code block (?{...}) */ |
11894 | cb = &pRExC_state->code_blocks->cb[pRExC_state->code_index]; |
11895 | RExC_parse(pRExC_state->parse) = RExC_start(pRExC_state->start) + cb->end; |
11896 | o = cb->block; |
11897 | if (cb->src_regex) { |
11898 | n = add_dataS_add_data(pRExC_state, STR_WITH_LEN("rl")("" "rl" ""), (sizeof("rl")-1)); |
11899 | RExC_rxi(pRExC_state->rxi)->data->data[n] = |
11900 | (void*)SvREFCNT_inc((SV*)cb->src_regex)Perl_SvREFCNT_inc(((SV *)({ void *_p = ((SV*)cb->src_regex ); _p; }))); |
11901 | RExC_rxi(pRExC_state->rxi)->data->data[n+1] = (void*)o; |
11902 | } |
11903 | else { |
11904 | n = add_dataS_add_data(pRExC_state, |
11905 | (RExC_pm_flags(pRExC_state->pm_flags) & PMf_HAS_CV(1U<<(((0 +12)+2)+13))) ? "L" : "l", 1); |
11906 | RExC_rxi(pRExC_state->rxi)->data->data[n] = (void*)o; |
11907 | } |
11908 | pRExC_state->code_index++; |
11909 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
11910 | |
11911 | if (is_logical) { |
11912 | regnode_offset eval; |
11913 | ret = reg_node(pRExC_state, LOGICAL)S_reg_node( pRExC_state,86); |
11914 | |
11915 | eval = reg2Lanode(pRExC_state, EVAL,S_reg2Lanode( pRExC_state,84,n,(pRExC_state->flags) & ( (1U << (0 +0))|(1U << (0 +1))|(1U << (0 +2) )|(1U << (0 +3))|(1U << (0 +4))|(1U << (0 + 6))|(1U << (0 +5))|(7U << (((0)+7)))|(1U<<( 0 +10)))) |
11916 | n,S_reg2Lanode( pRExC_state,84,n,(pRExC_state->flags) & ( (1U << (0 +0))|(1U << (0 +1))|(1U << (0 +2) )|(1U << (0 +3))|(1U << (0 +4))|(1U << (0 + 6))|(1U << (0 +5))|(7U << (((0)+7)))|(1U<<( 0 +10)))) |
11917 | |
11918 | /* for later propagation into (??{})S_reg2Lanode( pRExC_state,84,n,(pRExC_state->flags) & ( (1U << (0 +0))|(1U << (0 +1))|(1U << (0 +2) )|(1U << (0 +3))|(1U << (0 +4))|(1U << (0 + 6))|(1U << (0 +5))|(7U << (((0)+7)))|(1U<<( 0 +10)))) |
11919 | * return value */S_reg2Lanode( pRExC_state,84,n,(pRExC_state->flags) & ( (1U << (0 +0))|(1U << (0 +1))|(1U << (0 +2) )|(1U << (0 +3))|(1U << (0 +4))|(1U << (0 + 6))|(1U << (0 +5))|(7U << (((0)+7)))|(1U<<( 0 +10)))) |
11920 | RExC_flags & RXf_PMf_COMPILETIMES_reg2Lanode( pRExC_state,84,n,(pRExC_state->flags) & ( (1U << (0 +0))|(1U << (0 +1))|(1U << (0 +2) )|(1U << (0 +3))|(1U << (0 +4))|(1U << (0 + 6))|(1U << (0 +5))|(7U << (((0)+7)))|(1U<<( 0 +10)))) |
11921 | )S_reg2Lanode( pRExC_state,84,n,(pRExC_state->flags) & ( (1U << (0 +0))|(1U << (0 +1))|(1U << (0 +2) )|(1U << (0 +3))|(1U << (0 +4))|(1U << (0 + 6))|(1U << (0 +5))|(7U << (((0)+7)))|(1U<<( 0 +10)))); |
11922 | FLAGS(REGNODE_p(ret))((((pRExC_state->emit_start) + (ret)))->flags) = 2; |
11923 | if (! REGTAIL(pRExC_state, ret, eval)S_regtail( (pRExC_state),(ret),(eval),depth+1)) { |
11924 | REQUIRE_BRANCHJ(flagp, 0)do { (pRExC_state->use_BRANCHJ) = 1; *flagp |= 0x20; return 0; } while (0); |
11925 | } |
11926 | /* deal with the length of this later - MJD */ |
11927 | return ret; |
11928 | } |
11929 | ret = reg2Lanode(pRExC_state, EVAL, n, 0)S_reg2Lanode( pRExC_state,84,n,0); |
11930 | Set_Node_Length(REGNODE_p(ret), RExC_parse - parse_start + 1)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 11930, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)((pRExC_state->parse) - parse_start + 1 ));} while (0); if((((((pRExC_state->emit_start) + (ret))) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))] = ((pRExC_state->parse) - parse_start + 1); } } while (0); |
11931 | Set_Node_Offset(REGNODE_p(ret), parse_start)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) offset of node %d is %d.\n", 11931, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)((parse_start)-(pRExC_state->start))); } while (0); if((((((pRExC_state->emit_start) + (ret))) - ( pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))-1] = ((parse_start)-(pRExC_state->start )); } } while (0); |
11932 | return ret; |
11933 | } |
11934 | case '(': /* (?(?{...})...) and (?(?=...)...) */ |
11935 | { |
11936 | int is_define= 0; |
11937 | const int DEFINE_len = sizeof("DEFINE") - 1; |
11938 | if ( RExC_parse(pRExC_state->parse) < RExC_end(pRExC_state->end) - 1 |
11939 | && ( ( RExC_parse(pRExC_state->parse)[0] == '?' /* (?(?...)) */ |
11940 | && ( RExC_parse(pRExC_state->parse)[1] == '=' |
11941 | || RExC_parse(pRExC_state->parse)[1] == '!' |
11942 | || RExC_parse(pRExC_state->parse)[1] == '<' |
11943 | || RExC_parse(pRExC_state->parse)[1] == '{')) |
11944 | || ( RExC_parse(pRExC_state->parse)[0] == '*' /* (?(*...)) */ |
11945 | && ( memBEGINs(RExC_parse + 1,( (ptrdiff_t) ((size_t) ((pRExC_state->end) - ((pRExC_state ->parse) + 1))) >= (ptrdiff_t) sizeof("pla:") - 1 && (memcmp(((const void *) ((pRExC_state->parse) + 1)), ((const void *) ("" "pla:" "")), sizeof("pla:")-1) == 0)) |
11946 | (Size_t) (RExC_end - (RExC_parse + 1)),( (ptrdiff_t) ((size_t) ((pRExC_state->end) - ((pRExC_state ->parse) + 1))) >= (ptrdiff_t) sizeof("pla:") - 1 && (memcmp(((const void *) ((pRExC_state->parse) + 1)), ((const void *) ("" "pla:" "")), sizeof("pla:")-1) == 0)) |
11947 | "pla:")( (ptrdiff_t) ((size_t) ((pRExC_state->end) - ((pRExC_state ->parse) + 1))) >= (ptrdiff_t) sizeof("pla:") - 1 && (memcmp(((const void *) ((pRExC_state->parse) + 1)), ((const void *) ("" "pla:" "")), sizeof("pla:")-1) == 0)) |
11948 | || memBEGINs(RExC_parse + 1,( (ptrdiff_t) ((size_t) ((pRExC_state->end) - ((pRExC_state ->parse) + 1))) >= (ptrdiff_t) sizeof("plb:") - 1 && (memcmp(((const void *) ((pRExC_state->parse) + 1)), ((const void *) ("" "plb:" "")), sizeof("plb:")-1) == 0)) |
11949 | (Size_t) (RExC_end - (RExC_parse + 1)),( (ptrdiff_t) ((size_t) ((pRExC_state->end) - ((pRExC_state ->parse) + 1))) >= (ptrdiff_t) sizeof("plb:") - 1 && (memcmp(((const void *) ((pRExC_state->parse) + 1)), ((const void *) ("" "plb:" "")), sizeof("plb:")-1) == 0)) |
11950 | "plb:")( (ptrdiff_t) ((size_t) ((pRExC_state->end) - ((pRExC_state ->parse) + 1))) >= (ptrdiff_t) sizeof("plb:") - 1 && (memcmp(((const void *) ((pRExC_state->parse) + 1)), ((const void *) ("" "plb:" "")), sizeof("plb:")-1) == 0)) |
11951 | || memBEGINs(RExC_parse + 1,( (ptrdiff_t) ((size_t) ((pRExC_state->end) - ((pRExC_state ->parse) + 1))) >= (ptrdiff_t) sizeof("nla:") - 1 && (memcmp(((const void *) ((pRExC_state->parse) + 1)), ((const void *) ("" "nla:" "")), sizeof("nla:")-1) == 0)) |
11952 | (Size_t) (RExC_end - (RExC_parse + 1)),( (ptrdiff_t) ((size_t) ((pRExC_state->end) - ((pRExC_state ->parse) + 1))) >= (ptrdiff_t) sizeof("nla:") - 1 && (memcmp(((const void *) ((pRExC_state->parse) + 1)), ((const void *) ("" "nla:" "")), sizeof("nla:")-1) == 0)) |
11953 | "nla:")( (ptrdiff_t) ((size_t) ((pRExC_state->end) - ((pRExC_state ->parse) + 1))) >= (ptrdiff_t) sizeof("nla:") - 1 && (memcmp(((const void *) ((pRExC_state->parse) + 1)), ((const void *) ("" "nla:" "")), sizeof("nla:")-1) == 0)) |
11954 | || memBEGINs(RExC_parse + 1,( (ptrdiff_t) ((size_t) ((pRExC_state->end) - ((pRExC_state ->parse) + 1))) >= (ptrdiff_t) sizeof("nlb:") - 1 && (memcmp(((const void *) ((pRExC_state->parse) + 1)), ((const void *) ("" "nlb:" "")), sizeof("nlb:")-1) == 0)) |
11955 | (Size_t) (RExC_end - (RExC_parse + 1)),( (ptrdiff_t) ((size_t) ((pRExC_state->end) - ((pRExC_state ->parse) + 1))) >= (ptrdiff_t) sizeof("nlb:") - 1 && (memcmp(((const void *) ((pRExC_state->parse) + 1)), ((const void *) ("" "nlb:" "")), sizeof("nlb:")-1) == 0)) |
11956 | "nlb:")( (ptrdiff_t) ((size_t) ((pRExC_state->end) - ((pRExC_state ->parse) + 1))) >= (ptrdiff_t) sizeof("nlb:") - 1 && (memcmp(((const void *) ((pRExC_state->parse) + 1)), ((const void *) ("" "nlb:" "")), sizeof("nlb:")-1) == 0)) |
11957 | || memBEGINs(RExC_parse + 1,( (ptrdiff_t) ((size_t) ((pRExC_state->end) - ((pRExC_state ->parse) + 1))) >= (ptrdiff_t) sizeof("positive_lookahead:" ) - 1 && (memcmp(((const void *) ((pRExC_state->parse ) + 1)), ((const void *) ("" "positive_lookahead:" "")), sizeof ("positive_lookahead:")-1) == 0)) |
11958 | (Size_t) (RExC_end - (RExC_parse + 1)),( (ptrdiff_t) ((size_t) ((pRExC_state->end) - ((pRExC_state ->parse) + 1))) >= (ptrdiff_t) sizeof("positive_lookahead:" ) - 1 && (memcmp(((const void *) ((pRExC_state->parse ) + 1)), ((const void *) ("" "positive_lookahead:" "")), sizeof ("positive_lookahead:")-1) == 0)) |
11959 | "positive_lookahead:")( (ptrdiff_t) ((size_t) ((pRExC_state->end) - ((pRExC_state ->parse) + 1))) >= (ptrdiff_t) sizeof("positive_lookahead:" ) - 1 && (memcmp(((const void *) ((pRExC_state->parse ) + 1)), ((const void *) ("" "positive_lookahead:" "")), sizeof ("positive_lookahead:")-1) == 0)) |
11960 | || memBEGINs(RExC_parse + 1,( (ptrdiff_t) ((size_t) ((pRExC_state->end) - ((pRExC_state ->parse) + 1))) >= (ptrdiff_t) sizeof("positive_lookbehind:" ) - 1 && (memcmp(((const void *) ((pRExC_state->parse ) + 1)), ((const void *) ("" "positive_lookbehind:" "")), sizeof ("positive_lookbehind:")-1) == 0)) |
11961 | (Size_t) (RExC_end - (RExC_parse + 1)),( (ptrdiff_t) ((size_t) ((pRExC_state->end) - ((pRExC_state ->parse) + 1))) >= (ptrdiff_t) sizeof("positive_lookbehind:" ) - 1 && (memcmp(((const void *) ((pRExC_state->parse ) + 1)), ((const void *) ("" "positive_lookbehind:" "")), sizeof ("positive_lookbehind:")-1) == 0)) |
11962 | "positive_lookbehind:")( (ptrdiff_t) ((size_t) ((pRExC_state->end) - ((pRExC_state ->parse) + 1))) >= (ptrdiff_t) sizeof("positive_lookbehind:" ) - 1 && (memcmp(((const void *) ((pRExC_state->parse ) + 1)), ((const void *) ("" "positive_lookbehind:" "")), sizeof ("positive_lookbehind:")-1) == 0)) |
11963 | || memBEGINs(RExC_parse + 1,( (ptrdiff_t) ((size_t) ((pRExC_state->end) - ((pRExC_state ->parse) + 1))) >= (ptrdiff_t) sizeof("negative_lookahead:" ) - 1 && (memcmp(((const void *) ((pRExC_state->parse ) + 1)), ((const void *) ("" "negative_lookahead:" "")), sizeof ("negative_lookahead:")-1) == 0)) |
11964 | (Size_t) (RExC_end - (RExC_parse + 1)),( (ptrdiff_t) ((size_t) ((pRExC_state->end) - ((pRExC_state ->parse) + 1))) >= (ptrdiff_t) sizeof("negative_lookahead:" ) - 1 && (memcmp(((const void *) ((pRExC_state->parse ) + 1)), ((const void *) ("" "negative_lookahead:" "")), sizeof ("negative_lookahead:")-1) == 0)) |
11965 | "negative_lookahead:")( (ptrdiff_t) ((size_t) ((pRExC_state->end) - ((pRExC_state ->parse) + 1))) >= (ptrdiff_t) sizeof("negative_lookahead:" ) - 1 && (memcmp(((const void *) ((pRExC_state->parse ) + 1)), ((const void *) ("" "negative_lookahead:" "")), sizeof ("negative_lookahead:")-1) == 0)) |
11966 | || memBEGINs(RExC_parse + 1,( (ptrdiff_t) ((size_t) ((pRExC_state->end) - ((pRExC_state ->parse) + 1))) >= (ptrdiff_t) sizeof("negative_lookbehind:" ) - 1 && (memcmp(((const void *) ((pRExC_state->parse ) + 1)), ((const void *) ("" "negative_lookbehind:" "")), sizeof ("negative_lookbehind:")-1) == 0)) |
11967 | (Size_t) (RExC_end - (RExC_parse + 1)),( (ptrdiff_t) ((size_t) ((pRExC_state->end) - ((pRExC_state ->parse) + 1))) >= (ptrdiff_t) sizeof("negative_lookbehind:" ) - 1 && (memcmp(((const void *) ((pRExC_state->parse ) + 1)), ((const void *) ("" "negative_lookbehind:" "")), sizeof ("negative_lookbehind:")-1) == 0)) |
11968 | "negative_lookbehind:")( (ptrdiff_t) ((size_t) ((pRExC_state->end) - ((pRExC_state ->parse) + 1))) >= (ptrdiff_t) sizeof("negative_lookbehind:" ) - 1 && (memcmp(((const void *) ((pRExC_state->parse ) + 1)), ((const void *) ("" "negative_lookbehind:" "")), sizeof ("negative_lookbehind:")-1) == 0))))) |
11969 | ) { /* Lookahead or eval. */ |
11970 | I32 flag; |
11971 | regnode_offset tail; |
11972 | |
11973 | ret = reg_node(pRExC_state, LOGICAL)S_reg_node( pRExC_state,86); |
11974 | FLAGS(REGNODE_p(ret))((((pRExC_state->emit_start) + (ret)))->flags) = 1; |
11975 | |
11976 | tail = reg(pRExC_state, 1, &flag, depth+1)S_reg( pRExC_state,1,&flag,depth+1); |
11977 | RETURN_FAIL_ON_RESTART(flag, flagp)do { if ((flag) & (0x20|0x40|(0))) { *(flagp) = (flag) & (0x20|0x40|(0)); return 0; } } while (0); |
11978 | if (! REGTAIL(pRExC_state, ret, tail)S_regtail( (pRExC_state),(ret),(tail),depth+1)) { |
11979 | REQUIRE_BRANCHJ(flagp, 0)do { (pRExC_state->use_BRANCHJ) = 1; *flagp |= 0x20; return 0; } while (0); |
11980 | } |
11981 | goto insert_if; |
11982 | } |
11983 | else if ( RExC_parse(pRExC_state->parse)[0] == '<' /* (?(<NAME>)...) */ |
11984 | || RExC_parse(pRExC_state->parse)[0] == '\'' ) /* (?('NAME')...) */ |
11985 | { |
11986 | char ch = RExC_parse(pRExC_state->parse)[0] == '<' ? '>' : '\''; |
11987 | char *name_start= RExC_parse(pRExC_state->parse)++; |
11988 | U32 num = 0; |
11989 | SV *sv_dat=reg_scan_name(pRExC_state, REG_RSN_RETURN_DATA)S_reg_scan_name( pRExC_state,2); |
11990 | if ( RExC_parse(pRExC_state->parse) == name_start |
11991 | || RExC_parse(pRExC_state->parse) >= RExC_end(pRExC_state->end) |
11992 | || *RExC_parse(pRExC_state->parse) != ch) |
11993 | { |
11994 | vFAIL2("Sequence (?(%c... not terminated",do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Sequence (?(%c... not terminated" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (ch == '>' ? '<' : ch), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool) 0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11995, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0) |
11995 | (ch == '>' ? '<' : ch))do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Sequence (?(%c... not terminated" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (ch == '>' ? '<' : ch), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool) 0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 11995, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
11996 | } |
11997 | RExC_parse(pRExC_state->parse)++; |
11998 | if (sv_dat) { |
11999 | num = add_dataS_add_data( pRExC_state, STR_WITH_LEN("S")("" "S" ""), (sizeof("S")-1)); |
12000 | RExC_rxi(pRExC_state->rxi)->data->data[num]=(void*)sv_dat; |
12001 | SvREFCNT_inc_simple_void_NN(sv_dat)(void)(++(((SV *)({ void *_p = (sv_dat); _p; })))->sv_refcnt ); |
12002 | } |
12003 | ret = reganode(pRExC_state, GROUPPN, num)S_reganode( pRExC_state,93,num); |
12004 | goto insert_if_check_paren; |
12005 | } |
12006 | else if (memBEGINs(RExC_parse,( (ptrdiff_t) ((STRLEN) ((pRExC_state->end) - (pRExC_state ->parse))) >= (ptrdiff_t) sizeof("DEFINE") - 1 && (memcmp(((const void *) ((pRExC_state->parse))), ((const void *) ("" "DEFINE" "")), sizeof("DEFINE")-1) == 0)) |
12007 | (STRLEN) (RExC_end - RExC_parse),( (ptrdiff_t) ((STRLEN) ((pRExC_state->end) - (pRExC_state ->parse))) >= (ptrdiff_t) sizeof("DEFINE") - 1 && (memcmp(((const void *) ((pRExC_state->parse))), ((const void *) ("" "DEFINE" "")), sizeof("DEFINE")-1) == 0)) |
12008 | "DEFINE")( (ptrdiff_t) ((STRLEN) ((pRExC_state->end) - (pRExC_state ->parse))) >= (ptrdiff_t) sizeof("DEFINE") - 1 && (memcmp(((const void *) ((pRExC_state->parse))), ((const void *) ("" "DEFINE" "")), sizeof("DEFINE")-1) == 0))) |
12009 | { |
12010 | ret = reganode(pRExC_state, DEFINEP, 0)S_reganode( pRExC_state,95,0); |
12011 | RExC_parse(pRExC_state->parse) += DEFINE_len; |
12012 | is_define = 1; |
12013 | goto insert_if_check_paren; |
12014 | } |
12015 | else if (RExC_parse(pRExC_state->parse)[0] == 'R') { |
12016 | RExC_parse(pRExC_state->parse)++; |
12017 | /* parno == 0 => /(?(R)YES|NO)/ "in any form of recursion OR eval" |
12018 | * parno == 1 => /(?(R0)YES|NO)/ "in GOSUB (?0) / (?R)" |
12019 | * parno == 2 => /(?(R1)YES|NO)/ "in GOSUB (?1) (parno-1)" |
12020 | */ |
12021 | parno = 0; |
12022 | if (RExC_parse(pRExC_state->parse)[0] == '0') { |
12023 | parno = 1; |
12024 | RExC_parse(pRExC_state->parse)++; |
12025 | } |
12026 | else if (inRANGE(RExC_parse[0], '1', '9')(((('9') >= ('1')) ? (void)0 : __assert2("re_comp.c", 12026 , __func__, "('9') >= ('1')")), ( (sizeof((pRExC_state-> parse)[0]) == sizeof(U8)) ? ((((NV) (('1')) >= 0) ? (void) 0 : __assert2("re_comp.c", 12026, __func__, "(NV) (('1')) >= 0" )), (((NV) ((('9') - ('1'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 12026, __func__, "(NV) ((('9') - ('1'))) >= 0")), (((U64 ) (((((U8) ((pRExC_state->parse)[0])))) - ((('1')) | 0))) <= (((U64) (((('9') - ('1'))) | 0))))) : (sizeof((pRExC_state-> parse)[0]) == sizeof(U32)) ? ((((NV) (('1')) >= 0) ? (void )0 : __assert2("re_comp.c", 12026, __func__, "(NV) (('1')) >= 0" )), (((NV) ((('9') - ('1'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 12026, __func__, "(NV) ((('9') - ('1'))) >= 0")), (((U64 ) (((((U32) ((pRExC_state->parse)[0])))) - ((('1')) | 0))) <= (((U64) (((('9') - ('1'))) | 0))))) : (((sizeof((pRExC_state ->parse)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 12026, __func__, "sizeof((pRExC_state->parse)[0]) == sizeof(U64)" )), ((((NV) (('1')) >= 0) ? (void)0 : __assert2("re_comp.c" , 12026, __func__, "(NV) (('1')) >= 0")), (((NV) ((('9') - ('1'))) >= 0) ? (void)0 : __assert2("re_comp.c", 12026, __func__ , "(NV) ((('9') - ('1'))) >= 0")), (((U64) (((((U64) ((pRExC_state ->parse)[0])))) - ((('1')) | 0))) <= (((U64) (((('9') - ('1'))) | 0))))))))) { |
12027 | UV uv; |
12028 | endptr = RExC_end(pRExC_state->end); |
12029 | if (grok_atoUVPerl_grok_atoUV(RExC_parse(pRExC_state->parse), &uv, &endptr) |
12030 | && uv <= I32_MAX0x7fffffff |
12031 | ) { |
12032 | parno = (I32)uv + 1; |
12033 | RExC_parse(pRExC_state->parse) = (char*)endptr; |
12034 | } |
12035 | /* else "Switch condition not recognized" below */ |
12036 | } else if (RExC_parse(pRExC_state->parse)[0] == '&') { |
12037 | SV *sv_dat; |
12038 | RExC_parse(pRExC_state->parse)++; |
12039 | sv_dat = reg_scan_name(pRExC_state,S_reg_scan_name( pRExC_state,2) |
12040 | REG_RSN_RETURN_DATA)S_reg_scan_name( pRExC_state,2); |
12041 | if (sv_dat) |
12042 | parno = 1 + *((I32 *)SvPVX(sv_dat)(*({ SV *const _svpvx = ((SV *)({ void *_p = (sv_dat); _p; }) ); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 12042 , __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 12042, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 12042, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))); |
12043 | } |
12044 | ret = reganode(pRExC_state, INSUBP, parno)S_reganode( pRExC_state,94,parno); |
12045 | goto insert_if_check_paren; |
12046 | } |
12047 | else if (inRANGE(RExC_parse[0], '1', '9')(((('9') >= ('1')) ? (void)0 : __assert2("re_comp.c", 12047 , __func__, "('9') >= ('1')")), ( (sizeof((pRExC_state-> parse)[0]) == sizeof(U8)) ? ((((NV) (('1')) >= 0) ? (void) 0 : __assert2("re_comp.c", 12047, __func__, "(NV) (('1')) >= 0" )), (((NV) ((('9') - ('1'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 12047, __func__, "(NV) ((('9') - ('1'))) >= 0")), (((U64 ) (((((U8) ((pRExC_state->parse)[0])))) - ((('1')) | 0))) <= (((U64) (((('9') - ('1'))) | 0))))) : (sizeof((pRExC_state-> parse)[0]) == sizeof(U32)) ? ((((NV) (('1')) >= 0) ? (void )0 : __assert2("re_comp.c", 12047, __func__, "(NV) (('1')) >= 0" )), (((NV) ((('9') - ('1'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 12047, __func__, "(NV) ((('9') - ('1'))) >= 0")), (((U64 ) (((((U32) ((pRExC_state->parse)[0])))) - ((('1')) | 0))) <= (((U64) (((('9') - ('1'))) | 0))))) : (((sizeof((pRExC_state ->parse)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 12047, __func__, "sizeof((pRExC_state->parse)[0]) == sizeof(U64)" )), ((((NV) (('1')) >= 0) ? (void)0 : __assert2("re_comp.c" , 12047, __func__, "(NV) (('1')) >= 0")), (((NV) ((('9') - ('1'))) >= 0) ? (void)0 : __assert2("re_comp.c", 12047, __func__ , "(NV) ((('9') - ('1'))) >= 0")), (((U64) (((((U64) ((pRExC_state ->parse)[0])))) - ((('1')) | 0))) <= (((U64) (((('9') - ('1'))) | 0))))))))) { |
12048 | /* (?(1)...) */ |
12049 | char c; |
12050 | UV uv; |
12051 | endptr = RExC_end(pRExC_state->end); |
12052 | if (grok_atoUVPerl_grok_atoUV(RExC_parse(pRExC_state->parse), &uv, &endptr) |
12053 | && uv <= I32_MAX0x7fffffff |
12054 | ) { |
12055 | parno = (I32)uv; |
12056 | RExC_parse(pRExC_state->parse) = (char*)endptr; |
12057 | } |
12058 | else { |
12059 | vFAIL("panic: grok_atoUV returned FALSE")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "panic: grok_atoUV returned FALSE", (int)((( ((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (( pRExC_state->parse) - (pRExC_state->copy_start))) > ( pRExC_state->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12059, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
12060 | } |
12061 | ret = reganode(pRExC_state, GROUPP, parno)S_reganode( pRExC_state,83,parno); |
12062 | |
12063 | insert_if_check_paren: |
12064 | if (UCHARAT(RExC_parse)((int)*(const U8*)((pRExC_state->parse))) != ')') { |
12065 | RExC_parse(pRExC_state->parse) += UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) |
12066 | ? UTF8_SAFE_SKIP(RExC_parse, RExC_end)(((((pRExC_state->end)) >= ((pRExC_state->parse))) ? (void)0 : __assert2("re_comp.c", 12066, __func__, "((pRExC_state->end)) >= ((pRExC_state->parse))" )), (((pRExC_state->end)) - ((pRExC_state->parse))) <= 0 ? 0 : ((((((pRExC_state->end)) - ((pRExC_state->parse ))))<(PL_utf8skip[*(const U8*)((pRExC_state->parse))])) ?((((pRExC_state->end)) - ((pRExC_state->parse)))):(PL_utf8skip [*(const U8*)((pRExC_state->parse))]))) |
12067 | : 1; |
12068 | vFAIL("Switch condition not recognized")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Switch condition not recognized", (int)(((( (pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : ( _Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state ->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12068, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
12069 | } |
12070 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
12071 | insert_if: |
12072 | if (! REGTAIL(pRExC_state, ret, reganode(pRExC_state,S_regtail( (pRExC_state),(ret),(S_reganode( pRExC_state,82,0) ),depth+1) |
12073 | IFTHEN, 0))S_regtail( (pRExC_state),(ret),(S_reganode( pRExC_state,82,0) ),depth+1)) |
12074 | { |
12075 | REQUIRE_BRANCHJ(flagp, 0)do { (pRExC_state->use_BRANCHJ) = 1; *flagp |= 0x20; return 0; } while (0); |
12076 | } |
12077 | br = regbranch(pRExC_state, &flags, 1, depth+1)S_regbranch( pRExC_state,&flags,1,depth+1); |
12078 | if (br == 0) { |
12079 | RETURN_FAIL_ON_RESTART(flags,flagp)do { if ((flags) & (0x20|0x40|(0))) { *(flagp) = (flags) & (0x20|0x40|(0)); return 0; } } while (0); |
12080 | FAIL2("panic: regbranch returned failure, flags=%#" UVxf,do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "panic: regbranch returned failure, flags=%#" "lx" " in regex m/%" "d%" "lu" "%4p" "%s/", (UV) flags, (int)(((( (pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : ( _Bool)0), (UV)(len), (void*)((pRExC_state->precomp)), ellipses ); } while (0) |
12081 | (UV) flags)do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "panic: regbranch returned failure, flags=%#" "lx" " in regex m/%" "d%" "lu" "%4p" "%s/", (UV) flags, (int)(((( (pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : ( _Bool)0), (UV)(len), (void*)((pRExC_state->precomp)), ellipses ); } while (0); |
12082 | } else |
12083 | if (! REGTAIL(pRExC_state, br, reganode(pRExC_state,S_regtail( (pRExC_state),(br),(S_reganode( pRExC_state,77,0)) ,depth+1) |
12084 | LONGJMP, 0))S_regtail( (pRExC_state),(br),(S_reganode( pRExC_state,77,0)) ,depth+1)) |
12085 | { |
12086 | REQUIRE_BRANCHJ(flagp, 0)do { (pRExC_state->use_BRANCHJ) = 1; *flagp |= 0x20; return 0; } while (0); |
12087 | } |
12088 | c = UCHARAT(RExC_parse)((int)*(const U8*)((pRExC_state->parse))); |
12089 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
12090 | if (flags&HASWIDTH0x01) |
12091 | *flagp |= HASWIDTH0x01; |
12092 | if (c == '|') { |
12093 | if (is_define) |
12094 | vFAIL("(?(DEFINE)....) does not allow branches")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "(?(DEFINE)....) does not allow branches", ( int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12094, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
12095 | |
12096 | /* Fake one for optimizer. */ |
12097 | lastbr = reganode(pRExC_state, IFTHEN, 0)S_reganode( pRExC_state,82,0); |
12098 | |
12099 | if (!regbranch(pRExC_state, &flags, 1, depth+1)S_regbranch( pRExC_state,&flags,1,depth+1)) { |
12100 | RETURN_FAIL_ON_RESTART(flags, flagp)do { if ((flags) & (0x20|0x40|(0))) { *(flagp) = (flags) & (0x20|0x40|(0)); return 0; } } while (0); |
12101 | FAIL2("panic: regbranch returned failure, flags=%#" UVxf,do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "panic: regbranch returned failure, flags=%#" "lx" " in regex m/%" "d%" "lu" "%4p" "%s/", (UV) flags, (int)(((( (pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : ( _Bool)0), (UV)(len), (void*)((pRExC_state->precomp)), ellipses ); } while (0) |
12102 | (UV) flags)do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "panic: regbranch returned failure, flags=%#" "lx" " in regex m/%" "d%" "lu" "%4p" "%s/", (UV) flags, (int)(((( (pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : ( _Bool)0), (UV)(len), (void*)((pRExC_state->precomp)), ellipses ); } while (0); |
12103 | } |
12104 | if (! REGTAIL(pRExC_state, ret, lastbr)S_regtail( (pRExC_state),(ret),(lastbr),depth+1)) { |
12105 | REQUIRE_BRANCHJ(flagp, 0)do { (pRExC_state->use_BRANCHJ) = 1; *flagp |= 0x20; return 0; } while (0); |
12106 | } |
12107 | if (flags&HASWIDTH0x01) |
12108 | *flagp |= HASWIDTH0x01; |
12109 | c = UCHARAT(RExC_parse)((int)*(const U8*)((pRExC_state->parse))); |
12110 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
12111 | } |
12112 | else |
12113 | lastbr = 0; |
12114 | if (c != ')') { |
12115 | if (RExC_parse(pRExC_state->parse) >= RExC_end(pRExC_state->end)) |
12116 | vFAIL("Switch (?(condition)... not terminated")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Switch (?(condition)... not terminated", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12116, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
12117 | else |
12118 | vFAIL("Switch (?(condition)... contains too many branches")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Switch (?(condition)... contains too many branches" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12118, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
12119 | } |
12120 | ender = reg_node(pRExC_state, TAIL)S_reg_node( pRExC_state,55); |
12121 | if (! REGTAIL(pRExC_state, br, ender)S_regtail( (pRExC_state),(br),(ender),depth+1)) { |
12122 | REQUIRE_BRANCHJ(flagp, 0)do { (pRExC_state->use_BRANCHJ) = 1; *flagp |= 0x20; return 0; } while (0); |
12123 | } |
12124 | if (lastbr) { |
12125 | if (! REGTAIL(pRExC_state, lastbr, ender)S_regtail( (pRExC_state),(lastbr),(ender),depth+1)) { |
12126 | REQUIRE_BRANCHJ(flagp, 0)do { (pRExC_state->use_BRANCHJ) = 1; *flagp |= 0x20; return 0; } while (0); |
12127 | } |
12128 | if (! REGTAIL(pRExC_state,S_regtail( (pRExC_state),(((((((((pRExC_state->emit_start) + (lastbr))) + 1)) + 1)) - (pRExC_state->emit_start))),(ender ),depth+1) |
12129 | REGNODE_OFFSET(S_regtail( (pRExC_state),(((((((((pRExC_state->emit_start) + (lastbr))) + 1)) + 1)) - (pRExC_state->emit_start))),(ender ),depth+1) |
12130 | NEXTOPER(S_regtail( (pRExC_state),(((((((((pRExC_state->emit_start) + (lastbr))) + 1)) + 1)) - (pRExC_state->emit_start))),(ender ),depth+1) |
12131 | NEXTOPER(REGNODE_p(lastbr)))),S_regtail( (pRExC_state),(((((((((pRExC_state->emit_start) + (lastbr))) + 1)) + 1)) - (pRExC_state->emit_start))),(ender ),depth+1) |
12132 | ender)S_regtail( (pRExC_state),(((((((((pRExC_state->emit_start) + (lastbr))) + 1)) + 1)) - (pRExC_state->emit_start))),(ender ),depth+1)) |
12133 | { |
12134 | REQUIRE_BRANCHJ(flagp, 0)do { (pRExC_state->use_BRANCHJ) = 1; *flagp |= 0x20; return 0; } while (0); |
12135 | } |
12136 | } |
12137 | else |
12138 | if (! REGTAIL(pRExC_state, ret, ender)S_regtail( (pRExC_state),(ret),(ender),depth+1)) { |
12139 | REQUIRE_BRANCHJ(flagp, 0)do { (pRExC_state->use_BRANCHJ) = 1; *flagp |= 0x20; return 0; } while (0); |
12140 | } |
12141 | #if 0 /* Removing this doesn't cause failures in the test suite -- khw */ |
12142 | RExC_size(pRExC_state->size)++; /* XXX WHY do we need this?!! |
12143 | For large programs it seems to be required |
12144 | but I can't figure out why. -- dmq*/ |
12145 | #endif |
12146 | return ret; |
12147 | } |
12148 | RExC_parse(pRExC_state->parse) += UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) |
12149 | ? UTF8_SAFE_SKIP(RExC_parse, RExC_end)(((((pRExC_state->end)) >= ((pRExC_state->parse))) ? (void)0 : __assert2("re_comp.c", 12149, __func__, "((pRExC_state->end)) >= ((pRExC_state->parse))" )), (((pRExC_state->end)) - ((pRExC_state->parse))) <= 0 ? 0 : ((((((pRExC_state->end)) - ((pRExC_state->parse ))))<(PL_utf8skip[*(const U8*)((pRExC_state->parse))])) ?((((pRExC_state->end)) - ((pRExC_state->parse)))):(PL_utf8skip [*(const U8*)((pRExC_state->parse))]))) |
12150 | : 1; |
12151 | vFAIL("Unknown switch condition (?(...))")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Unknown switch condition (?(...))", (int)(( (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (( pRExC_state->parse) - (pRExC_state->copy_start))) > ( pRExC_state->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12151, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
12152 | } |
12153 | case '[': /* (?[ ... ]) */ |
12154 | return handle_regex_sets(pRExC_state, NULL, flagp, depth+1,S_handle_regex_sets( pRExC_state,((void*)0),flagp,depth+1,oregcomp_parse ) |
12155 | oregcomp_parse)S_handle_regex_sets( pRExC_state,((void*)0),flagp,depth+1,oregcomp_parse ); |
12156 | case 0: /* A NUL */ |
12157 | RExC_parse(pRExC_state->parse)--; /* for vFAIL to print correctly */ |
12158 | vFAIL("Sequence (? incomplete")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Sequence (? incomplete", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12158, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
12159 | break; |
12160 | |
12161 | case ')': |
12162 | if (RExC_strict(pRExC_state->strict)) { /* [perl #132851] */ |
12163 | ckWARNreg(RExC_parse, "Empty (?) without any modifiers")do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 12163, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "Empty (?) without any modifiers" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12163, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); |
12164 | } |
12165 | /* FALLTHROUGH */ |
12166 | case '*': /* If you want to support (?*...), first reconcile with GH #17363 */ |
12167 | /* FALLTHROUGH */ |
12168 | default: /* e.g., (?i) */ |
12169 | RExC_parse(pRExC_state->parse) = (char *) seqstart + 1; |
12170 | parse_flags: |
12171 | parse_lparen_question_flags(pRExC_state)S_parse_lparen_question_flags( pRExC_state); |
12172 | if (UCHARAT(RExC_parse)((int)*(const U8*)((pRExC_state->parse))) != ':') { |
12173 | if (RExC_parse(pRExC_state->parse) < RExC_end(pRExC_state->end)) |
12174 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
12175 | *flagp = TRYAGAIN0x10; |
12176 | return 0; |
12177 | } |
12178 | paren = ':'; |
12179 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
12180 | ret = 0; |
12181 | goto parse_rest; |
12182 | } /* end switch */ |
12183 | } |
12184 | else if (!(RExC_flags(pRExC_state->flags) & RXf_PMf_NOCAPTURE(1U << (0 +5)))) { /* (...) */ |
12185 | capturing_parens: |
12186 | parno = RExC_npar(pRExC_state->npar); |
12187 | RExC_npar(pRExC_state->npar)++; |
12188 | if (! ALL_PARENS_COUNTED((pRExC_state->total_par) > 0)) { |
12189 | /* If we are in our first pass through (and maybe only pass), |
12190 | * we need to allocate memory for the capturing parentheses |
12191 | * data structures. |
12192 | */ |
12193 | |
12194 | if (!RExC_parens_buf_size(pRExC_state->parens_buf_size)) { |
12195 | /* first guess at number of parens we might encounter */ |
12196 | RExC_parens_buf_size(pRExC_state->parens_buf_size) = 10; |
12197 | |
12198 | /* setup RExC_open_parens, which holds the address of each |
12199 | * OPEN tag, and to make things simpler for the 0 index the |
12200 | * start of the program - this is used later for offsets */ |
12201 | Newxz(RExC_open_parens, RExC_parens_buf_size,((pRExC_state->open_parens) = ((void)(__builtin_expect(((( (( sizeof(size_t) < sizeof((pRExC_state->parens_buf_size )) || sizeof(regnode_offset) > ((size_t)1 << 8*(sizeof (size_t) - sizeof((pRExC_state->parens_buf_size))))) ? (size_t )((pRExC_state->parens_buf_size)) : ((size_t)-1)/sizeof(regnode_offset )) > ((size_t)-1)/sizeof(regnode_offset))) ? (_Bool)1 : (_Bool )0),(0)) && (Perl_croak_memory_wrap(),0)), (regnode_offset *)(Perl_safesyscalloc(((pRExC_state->parens_buf_size)),sizeof (regnode_offset))))) |
12202 | regnode_offset)((pRExC_state->open_parens) = ((void)(__builtin_expect(((( (( sizeof(size_t) < sizeof((pRExC_state->parens_buf_size )) || sizeof(regnode_offset) > ((size_t)1 << 8*(sizeof (size_t) - sizeof((pRExC_state->parens_buf_size))))) ? (size_t )((pRExC_state->parens_buf_size)) : ((size_t)-1)/sizeof(regnode_offset )) > ((size_t)-1)/sizeof(regnode_offset))) ? (_Bool)1 : (_Bool )0),(0)) && (Perl_croak_memory_wrap(),0)), (regnode_offset *)(Perl_safesyscalloc(((pRExC_state->parens_buf_size)),sizeof (regnode_offset))))); |
12203 | RExC_open_parens(pRExC_state->open_parens)[0] = 1; /* +1 for REG_MAGIC */ |
12204 | |
12205 | /* setup RExC_close_parens, which holds the address of each |
12206 | * CLOSE tag, and to make things simpler for the 0 index |
12207 | * the end of the program - this is used later for offsets |
12208 | * */ |
12209 | Newxz(RExC_close_parens, RExC_parens_buf_size,((pRExC_state->close_parens) = ((void)(__builtin_expect((( ((( sizeof(size_t) < sizeof((pRExC_state->parens_buf_size )) || sizeof(regnode_offset) > ((size_t)1 << 8*(sizeof (size_t) - sizeof((pRExC_state->parens_buf_size))))) ? (size_t )((pRExC_state->parens_buf_size)) : ((size_t)-1)/sizeof(regnode_offset )) > ((size_t)-1)/sizeof(regnode_offset))) ? (_Bool)1 : (_Bool )0),(0)) && (Perl_croak_memory_wrap(),0)), (regnode_offset *)(Perl_safesyscalloc(((pRExC_state->parens_buf_size)),sizeof (regnode_offset))))) |
12210 | regnode_offset)((pRExC_state->close_parens) = ((void)(__builtin_expect((( ((( sizeof(size_t) < sizeof((pRExC_state->parens_buf_size )) || sizeof(regnode_offset) > ((size_t)1 << 8*(sizeof (size_t) - sizeof((pRExC_state->parens_buf_size))))) ? (size_t )((pRExC_state->parens_buf_size)) : ((size_t)-1)/sizeof(regnode_offset )) > ((size_t)-1)/sizeof(regnode_offset))) ? (_Bool)1 : (_Bool )0),(0)) && (Perl_croak_memory_wrap(),0)), (regnode_offset *)(Perl_safesyscalloc(((pRExC_state->parens_buf_size)),sizeof (regnode_offset))))); |
12211 | /* we dont know where end op starts yet, so we dont need to |
12212 | * set RExC_close_parens[0] like we do RExC_open_parens[0] |
12213 | * above */ |
12214 | } |
12215 | else if (RExC_npar(pRExC_state->npar) > RExC_parens_buf_size(pRExC_state->parens_buf_size)) { |
12216 | I32 old_size = RExC_parens_buf_size(pRExC_state->parens_buf_size); |
12217 | |
12218 | RExC_parens_buf_size(pRExC_state->parens_buf_size) *= 2; |
12219 | |
12220 | Renew(RExC_open_parens, RExC_parens_buf_size,((pRExC_state->open_parens) = ((void)(__builtin_expect(((( (( sizeof(size_t) < sizeof((pRExC_state->parens_buf_size )) || sizeof(regnode_offset) > ((size_t)1 << 8*(sizeof (size_t) - sizeof((pRExC_state->parens_buf_size))))) ? (size_t )((pRExC_state->parens_buf_size)) : ((size_t)-1)/sizeof(regnode_offset )) > ((size_t)-1)/sizeof(regnode_offset))) ? (_Bool)1 : (_Bool )0),(0)) && (Perl_croak_memory_wrap(),0)), (regnode_offset *)(Perl_safesysrealloc((void *)((pRExC_state->open_parens) ),(size_t)(((pRExC_state->parens_buf_size))*sizeof(regnode_offset )))))) |
12221 | regnode_offset)((pRExC_state->open_parens) = ((void)(__builtin_expect(((( (( sizeof(size_t) < sizeof((pRExC_state->parens_buf_size )) || sizeof(regnode_offset) > ((size_t)1 << 8*(sizeof (size_t) - sizeof((pRExC_state->parens_buf_size))))) ? (size_t )((pRExC_state->parens_buf_size)) : ((size_t)-1)/sizeof(regnode_offset )) > ((size_t)-1)/sizeof(regnode_offset))) ? (_Bool)1 : (_Bool )0),(0)) && (Perl_croak_memory_wrap(),0)), (regnode_offset *)(Perl_safesysrealloc((void *)((pRExC_state->open_parens) ),(size_t)(((pRExC_state->parens_buf_size))*sizeof(regnode_offset )))))); |
12222 | Zero(RExC_open_parens + old_size,((void)(__builtin_expect(((((( sizeof(size_t) < sizeof((pRExC_state ->parens_buf_size) - old_size) || sizeof(regnode_offset) > ((size_t)1 << 8*(sizeof(size_t) - sizeof((pRExC_state-> parens_buf_size) - old_size)))) ? (size_t)((pRExC_state->parens_buf_size ) - old_size) : ((size_t)-1)/sizeof(regnode_offset)) > ((size_t )-1)/sizeof(regnode_offset))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), ((((void*)((pRExC_state->open_parens ) + old_size)) != 0) ? (void)0 : __assert2("re_comp.c", 12223 , __func__, "((void*)((pRExC_state->open_parens) + old_size)) != 0" )), (void)memset((char*)((pRExC_state->open_parens) + old_size ),0,((pRExC_state->parens_buf_size) - old_size) * sizeof(regnode_offset ))) |
12223 | RExC_parens_buf_size - old_size, regnode_offset)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof((pRExC_state ->parens_buf_size) - old_size) || sizeof(regnode_offset) > ((size_t)1 << 8*(sizeof(size_t) - sizeof((pRExC_state-> parens_buf_size) - old_size)))) ? (size_t)((pRExC_state->parens_buf_size ) - old_size) : ((size_t)-1)/sizeof(regnode_offset)) > ((size_t )-1)/sizeof(regnode_offset))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), ((((void*)((pRExC_state->open_parens ) + old_size)) != 0) ? (void)0 : __assert2("re_comp.c", 12223 , __func__, "((void*)((pRExC_state->open_parens) + old_size)) != 0" )), (void)memset((char*)((pRExC_state->open_parens) + old_size ),0,((pRExC_state->parens_buf_size) - old_size) * sizeof(regnode_offset ))); |
12224 | |
12225 | Renew(RExC_close_parens, RExC_parens_buf_size,((pRExC_state->close_parens) = ((void)(__builtin_expect((( ((( sizeof(size_t) < sizeof((pRExC_state->parens_buf_size )) || sizeof(regnode_offset) > ((size_t)1 << 8*(sizeof (size_t) - sizeof((pRExC_state->parens_buf_size))))) ? (size_t )((pRExC_state->parens_buf_size)) : ((size_t)-1)/sizeof(regnode_offset )) > ((size_t)-1)/sizeof(regnode_offset))) ? (_Bool)1 : (_Bool )0),(0)) && (Perl_croak_memory_wrap(),0)), (regnode_offset *)(Perl_safesysrealloc((void *)((pRExC_state->close_parens )),(size_t)(((pRExC_state->parens_buf_size))*sizeof(regnode_offset )))))) |
12226 | regnode_offset)((pRExC_state->close_parens) = ((void)(__builtin_expect((( ((( sizeof(size_t) < sizeof((pRExC_state->parens_buf_size )) || sizeof(regnode_offset) > ((size_t)1 << 8*(sizeof (size_t) - sizeof((pRExC_state->parens_buf_size))))) ? (size_t )((pRExC_state->parens_buf_size)) : ((size_t)-1)/sizeof(regnode_offset )) > ((size_t)-1)/sizeof(regnode_offset))) ? (_Bool)1 : (_Bool )0),(0)) && (Perl_croak_memory_wrap(),0)), (regnode_offset *)(Perl_safesysrealloc((void *)((pRExC_state->close_parens )),(size_t)(((pRExC_state->parens_buf_size))*sizeof(regnode_offset )))))); |
12227 | Zero(RExC_close_parens + old_size,((void)(__builtin_expect(((((( sizeof(size_t) < sizeof((pRExC_state ->parens_buf_size) - old_size) || sizeof(regnode_offset) > ((size_t)1 << 8*(sizeof(size_t) - sizeof((pRExC_state-> parens_buf_size) - old_size)))) ? (size_t)((pRExC_state->parens_buf_size ) - old_size) : ((size_t)-1)/sizeof(regnode_offset)) > ((size_t )-1)/sizeof(regnode_offset))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), ((((void*)((pRExC_state->close_parens ) + old_size)) != 0) ? (void)0 : __assert2("re_comp.c", 12228 , __func__, "((void*)((pRExC_state->close_parens) + old_size)) != 0" )), (void)memset((char*)((pRExC_state->close_parens) + old_size ),0,((pRExC_state->parens_buf_size) - old_size) * sizeof(regnode_offset ))) |
12228 | RExC_parens_buf_size - old_size, regnode_offset)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof((pRExC_state ->parens_buf_size) - old_size) || sizeof(regnode_offset) > ((size_t)1 << 8*(sizeof(size_t) - sizeof((pRExC_state-> parens_buf_size) - old_size)))) ? (size_t)((pRExC_state->parens_buf_size ) - old_size) : ((size_t)-1)/sizeof(regnode_offset)) > ((size_t )-1)/sizeof(regnode_offset))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), ((((void*)((pRExC_state->close_parens ) + old_size)) != 0) ? (void)0 : __assert2("re_comp.c", 12228 , __func__, "((void*)((pRExC_state->close_parens) + old_size)) != 0" )), (void)memset((char*)((pRExC_state->close_parens) + old_size ),0,((pRExC_state->parens_buf_size) - old_size) * sizeof(regnode_offset ))); |
12229 | } |
12230 | } |
12231 | |
12232 | ret = reganode(pRExC_state, OPEN, parno)S_reganode( pRExC_state,63,parno); |
12233 | if (!RExC_nestroot(pRExC_state->nestroot)) |
12234 | RExC_nestroot(pRExC_state->nestroot) = parno; |
12235 | if (RExC_open_parens(pRExC_state->open_parens) && !RExC_open_parens(pRExC_state->open_parens)[parno]) |
12236 | { |
12237 | DEBUG_OPTIMISE_MORE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( "%*s%*s Setting open paren #%" "ld" " to %zu\n", 22, "| |", (int)(depth * 2 + 1), "", (IV )parno, ret);} while (0) |
12238 | "%*s%*s Setting open paren #%" IVdf " to %zu\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( "%*s%*s Setting open paren #%" "ld" " to %zu\n", 22, "| |", (int)(depth * 2 + 1), "", (IV )parno, ret);} while (0) |
12239 | 22, "| |", (int)(depth * 2 + 1), "",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( "%*s%*s Setting open paren #%" "ld" " to %zu\n", 22, "| |", (int)(depth * 2 + 1), "", (IV )parno, ret);} while (0) |
12240 | (IV)parno, ret))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( "%*s%*s Setting open paren #%" "ld" " to %zu\n", 22, "| |", (int)(depth * 2 + 1), "", (IV )parno, ret);} while (0); |
12241 | RExC_open_parens(pRExC_state->open_parens)[parno]= ret; |
12242 | } |
12243 | |
12244 | Set_Node_Length(REGNODE_p(ret), 1)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 12244, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)(1));} while (0); if((((((pRExC_state-> emit_start) + (ret))) - (pRExC_state->emit_start))) < 0 ) { Perl_croak( "value of node is %d in Length macro", (int)( ((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))] = (1); } } while (0); /* MJD */ |
12245 | Set_Node_Offset(REGNODE_p(ret), RExC_parse)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) offset of node %d is %d.\n", 12245, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)(((pRExC_state->parse))-(pRExC_state-> start)));} while (0); if((((((pRExC_state->emit_start) + ( ret))) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Offset macro", (int)(((((pRExC_state ->emit_start) + (ret))) - (pRExC_state->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets)[2*(((((pRExC_state ->emit_start) + (ret))) - (pRExC_state->emit_start)))-1 ] = (((pRExC_state->parse))-(pRExC_state->start)); } } while (0); /* MJD */ |
12246 | is_open = 1; |
12247 | } else { |
12248 | /* with RXf_PMf_NOCAPTURE treat (...) as (?:...) */ |
12249 | paren = ':'; |
12250 | ret = 0; |
12251 | } |
12252 | } |
12253 | else /* ! paren */ |
12254 | ret = 0; |
12255 | |
12256 | parse_rest: |
12257 | /* Pick up the branches, linking them together. */ |
12258 | parse_start = RExC_parse(pRExC_state->parse); /* MJD */ |
12259 | br = regbranch(pRExC_state, &flags, 1, depth+1)S_regbranch( pRExC_state,&flags,1,depth+1); |
12260 | |
12261 | /* branch_len = (paren != 0); */ |
12262 | |
12263 | if (br == 0) { |
12264 | RETURN_FAIL_ON_RESTART(flags, flagp)do { if ((flags) & (0x20|0x40|(0))) { *(flagp) = (flags) & (0x20|0x40|(0)); return 0; } } while (0); |
12265 | FAIL2("panic: regbranch returned failure, flags=%#" UVxf, (UV) flags)do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "panic: regbranch returned failure, flags=%#" "lx" " in regex m/%" "d%" "lu" "%4p" "%s/", (UV) flags, (int)(((( (pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : ( _Bool)0), (UV)(len), (void*)((pRExC_state->precomp)), ellipses ); } while (0); |
12266 | } |
12267 | if (*RExC_parse(pRExC_state->parse) == '|') { |
12268 | if (RExC_use_BRANCHJ(pRExC_state->use_BRANCHJ)) { |
12269 | reginsert(pRExC_state, BRANCHJ, br, depth+1)S_reginsert( pRExC_state,78,br,depth+1); |
12270 | } |
12271 | else { /* MJD */ |
12272 | reginsert(pRExC_state, BRANCH, br, depth+1)S_reginsert( pRExC_state,39,br,depth+1); |
12273 | Set_Node_Length(REGNODE_p(br), paren != 0)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 12273, (int )(((((pRExC_state->emit_start) + (br))) - (pRExC_state-> emit_start))), (int)(paren != 0));} while (0); if((((((pRExC_state ->emit_start) + (br))) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro", (int )(((((pRExC_state->emit_start) + (br))) - (pRExC_state-> emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (br))) - (pRExC_state-> emit_start)))] = (paren != 0); } } while (0); |
12274 | Set_Node_Offset_To_R(br, parse_start-RExC_start)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) offset of node %d is %d.\n", 12274, (int )(br), (int)(parse_start-(pRExC_state->start)));} while (0 ); if((br) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(br)); } else { ((pRExC_state->rxi)->u.offsets)[ 2*(br)-1] = (parse_start-(pRExC_state->start)); } } while ( 0); |
12275 | } |
12276 | have_branch = 1; |
12277 | } |
12278 | else if (paren == ':') { |
12279 | *flagp |= flags&SIMPLE0x02; |
12280 | } |
12281 | if (is_open) { /* Starts with OPEN. */ |
12282 | if (! REGTAIL(pRExC_state, ret, br)S_regtail( (pRExC_state),(ret),(br),depth+1)) { /* OPEN -> first. */ |
12283 | REQUIRE_BRANCHJ(flagp, 0)do { (pRExC_state->use_BRANCHJ) = 1; *flagp |= 0x20; return 0; } while (0); |
12284 | } |
12285 | } |
12286 | else if (paren != '?') /* Not Conditional */ |
12287 | ret = br; |
12288 | *flagp |= flags & (SPSTART0x04 | HASWIDTH0x01 | POSTPONED0x08); |
12289 | lastbr = br; |
12290 | while (*RExC_parse(pRExC_state->parse) == '|') { |
12291 | if (RExC_use_BRANCHJ(pRExC_state->use_BRANCHJ)) { |
12292 | bool_Bool shut_gcc_up; |
12293 | |
12294 | ender = reganode(pRExC_state, LONGJMP, 0)S_reganode( pRExC_state,77,0); |
12295 | |
12296 | /* Append to the previous. */ |
12297 | shut_gcc_up = REGTAIL(pRExC_state,S_regtail( (pRExC_state),(((((((((pRExC_state->emit_start) + (lastbr))) + 1)) + 1)) - (pRExC_state->emit_start))),(ender ),depth+1) |
12298 | REGNODE_OFFSET(NEXTOPER(NEXTOPER(REGNODE_p(lastbr)))),S_regtail( (pRExC_state),(((((((((pRExC_state->emit_start) + (lastbr))) + 1)) + 1)) - (pRExC_state->emit_start))),(ender ),depth+1) |
12299 | ender)S_regtail( (pRExC_state),(((((((((pRExC_state->emit_start) + (lastbr))) + 1)) + 1)) - (pRExC_state->emit_start))),(ender ),depth+1); |
12300 | PERL_UNUSED_VAR(shut_gcc_up)((void)sizeof(shut_gcc_up)); |
12301 | } |
12302 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
12303 | if (freeze_paren) { |
12304 | if (RExC_npar(pRExC_state->npar) > after_freeze) |
12305 | after_freeze = RExC_npar(pRExC_state->npar); |
12306 | RExC_npar(pRExC_state->npar) = freeze_paren; |
12307 | } |
12308 | br = regbranch(pRExC_state, &flags, 0, depth+1)S_regbranch( pRExC_state,&flags,0,depth+1); |
12309 | |
12310 | if (br == 0) { |
12311 | RETURN_FAIL_ON_RESTART(flags, flagp)do { if ((flags) & (0x20|0x40|(0))) { *(flagp) = (flags) & (0x20|0x40|(0)); return 0; } } while (0); |
12312 | FAIL2("panic: regbranch returned failure, flags=%#" UVxf, (UV) flags)do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "panic: regbranch returned failure, flags=%#" "lx" " in regex m/%" "d%" "lu" "%4p" "%s/", (UV) flags, (int)(((( (pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : ( _Bool)0), (UV)(len), (void*)((pRExC_state->precomp)), ellipses ); } while (0); |
12313 | } |
12314 | if (! REGTAIL(pRExC_state, lastbr, br)S_regtail( (pRExC_state),(lastbr),(br),depth+1)) { /* BRANCH -> BRANCH. */ |
12315 | REQUIRE_BRANCHJ(flagp, 0)do { (pRExC_state->use_BRANCHJ) = 1; *flagp |= 0x20; return 0; } while (0); |
12316 | } |
12317 | lastbr = br; |
12318 | *flagp |= flags & (SPSTART0x04 | HASWIDTH0x01 | POSTPONED0x08); |
12319 | } |
12320 | |
12321 | if (have_branch || paren != ':') { |
12322 | regnode * br; |
12323 | |
12324 | /* Make a closing node, and hook it on the end. */ |
12325 | switch (paren) { |
12326 | case ':': |
12327 | ender = reg_node(pRExC_state, TAIL)S_reg_node( pRExC_state,55); |
12328 | break; |
12329 | case 1: case 2: |
12330 | ender = reganode(pRExC_state, CLOSE, parno)S_reganode( pRExC_state,64,parno); |
12331 | if ( RExC_close_parens(pRExC_state->close_parens) ) { |
12332 | DEBUG_OPTIMISE_MORE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( "%*s%*s Setting close paren #%" "ld" " to %zu\n", 22, "| |", (int)(depth * 2 + 1), "", (IV )parno, ender);} while (0) |
12333 | "%*s%*s Setting close paren #%" IVdf " to %zu\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( "%*s%*s Setting close paren #%" "ld" " to %zu\n", 22, "| |", (int)(depth * 2 + 1), "", (IV )parno, ender);} while (0) |
12334 | 22, "| |", (int)(depth * 2 + 1), "",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( "%*s%*s Setting close paren #%" "ld" " to %zu\n", 22, "| |", (int)(depth * 2 + 1), "", (IV )parno, ender);} while (0) |
12335 | (IV)parno, ender))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( "%*s%*s Setting close paren #%" "ld" " to %zu\n", 22, "| |", (int)(depth * 2 + 1), "", (IV )parno, ender);} while (0); |
12336 | RExC_close_parens(pRExC_state->close_parens)[parno]= ender; |
12337 | if (RExC_nestroot(pRExC_state->nestroot) == parno) |
12338 | RExC_nestroot(pRExC_state->nestroot) = 0; |
12339 | } |
12340 | Set_Node_Offset(REGNODE_p(ender), RExC_parse+1)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) offset of node %d is %d.\n", 12340, (int )(((((pRExC_state->emit_start) + (ender))) - (pRExC_state-> emit_start))), (int)(((pRExC_state->parse)+1)-(pRExC_state ->start)));} while (0); if((((((pRExC_state->emit_start ) + (ender))) - (pRExC_state->emit_start))) < 0) { Perl_croak ( "value of node is %d in Offset macro", (int)(((((pRExC_state ->emit_start) + (ender))) - (pRExC_state->emit_start))) ); } else { ((pRExC_state->rxi)->u.offsets)[2*(((((pRExC_state ->emit_start) + (ender))) - (pRExC_state->emit_start))) -1] = (((pRExC_state->parse)+1)-(pRExC_state->start)); } } while (0); /* MJD */ |
12341 | Set_Node_Length(REGNODE_p(ender), 1)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 12341, (int )(((((pRExC_state->emit_start) + (ender))) - (pRExC_state-> emit_start))), (int)(1));} while (0); if((((((pRExC_state-> emit_start) + (ender))) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro", (int )(((((pRExC_state->emit_start) + (ender))) - (pRExC_state-> emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ender))) - (pRExC_state ->emit_start)))] = (1); } } while (0); /* MJD */ |
12342 | break; |
12343 | case 's': |
12344 | ender = reg_node(pRExC_state, SRCLOSE)S_reg_node( pRExC_state,66); |
12345 | RExC_in_script_run(pRExC_state->in_script_run) = 0; |
12346 | break; |
12347 | case '<': |
12348 | case 'a': |
12349 | case 'A': |
12350 | case 'b': |
12351 | case 'B': |
12352 | case ',': |
12353 | case '=': |
12354 | case '!': |
12355 | *flagp &= ~HASWIDTH0x01; |
12356 | /* FALLTHROUGH */ |
12357 | case 't': /* aTomic */ |
12358 | case '>': |
12359 | ender = reg_node(pRExC_state, SUCCEED)S_reg_node( pRExC_state,1); |
12360 | break; |
12361 | case 0: |
12362 | ender = reg_node(pRExC_state, END)S_reg_node( pRExC_state,0); |
12363 | assert(!RExC_end_op)((!(pRExC_state->end_op)) ? (void)0 : __assert2("re_comp.c" , 12363, __func__, "!RExC_end_op")); /* there can only be one! */ |
12364 | RExC_end_op(pRExC_state->end_op) = REGNODE_p(ender)((pRExC_state->emit_start) + (ender)); |
12365 | if (RExC_close_parens(pRExC_state->close_parens)) { |
12366 | DEBUG_OPTIMISE_MORE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( "%*s%*s Setting close paren #0 (END) to %zu\n" , 22, "| |", (int)(depth * 2 + 1), "", ender);} while (0) |
12367 | "%*s%*s Setting close paren #0 (END) to %zu\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( "%*s%*s Setting close paren #0 (END) to %zu\n" , 22, "| |", (int)(depth * 2 + 1), "", ender);} while (0) |
12368 | 22, "| |", (int)(depth * 2 + 1), "",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( "%*s%*s Setting close paren #0 (END) to %zu\n" , 22, "| |", (int)(depth * 2 + 1), "", ender);} while (0) |
12369 | ender))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( "%*s%*s Setting close paren #0 (END) to %zu\n" , 22, "| |", (int)(depth * 2 + 1), "", ender);} while (0); |
12370 | |
12371 | RExC_close_parens(pRExC_state->close_parens)[0]= ender; |
12372 | } |
12373 | break; |
12374 | } |
12375 | DEBUG_PARSE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("lsbr") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),((pRExC_state->emit_start ) + (lastbr)),((void*)0),pRExC_state); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv2),((pRExC_state->emit_start ) + (ender)),((void*)0),pRExC_state); Perl_re_printf( "~ tying lastbr %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), (IV )lastbr, (((((pRExC_state->mysv2))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv2))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv2),0,2|32)), (IV)ender, (IV)(ender - lastbr) ); };} while (0) |
12376 | DEBUG_PARSE_MSG("lsbr");do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("lsbr") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),((pRExC_state->emit_start ) + (lastbr)),((void*)0),pRExC_state); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv2),((pRExC_state->emit_start ) + (ender)),((void*)0),pRExC_state); Perl_re_printf( "~ tying lastbr %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), (IV )lastbr, (((((pRExC_state->mysv2))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv2))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv2),0,2|32)), (IV)ender, (IV)(ender - lastbr) ); };} while (0) |
12377 | regprop(RExC_rx, RExC_mysv1, REGNODE_p(lastbr), NULL, pRExC_state);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("lsbr") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),((pRExC_state->emit_start ) + (lastbr)),((void*)0),pRExC_state); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv2),((pRExC_state->emit_start ) + (ender)),((void*)0),pRExC_state); Perl_re_printf( "~ tying lastbr %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), (IV )lastbr, (((((pRExC_state->mysv2))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv2))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv2),0,2|32)), (IV)ender, (IV)(ender - lastbr) ); };} while (0) |
12378 | regprop(RExC_rx, RExC_mysv2, REGNODE_p(ender), NULL, pRExC_state);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("lsbr") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),((pRExC_state->emit_start ) + (lastbr)),((void*)0),pRExC_state); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv2),((pRExC_state->emit_start ) + (ender)),((void*)0),pRExC_state); Perl_re_printf( "~ tying lastbr %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), (IV )lastbr, (((((pRExC_state->mysv2))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv2))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv2),0,2|32)), (IV)ender, (IV)(ender - lastbr) ); };} while (0) |
12379 | Perl_re_printf( aTHX_ "~ tying lastbr %s (%" IVdf ") to ender %s (%" IVdf ") offset %" IVdf "\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("lsbr") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),((pRExC_state->emit_start ) + (lastbr)),((void*)0),pRExC_state); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv2),((pRExC_state->emit_start ) + (ender)),((void*)0),pRExC_state); Perl_re_printf( "~ tying lastbr %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), (IV )lastbr, (((((pRExC_state->mysv2))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv2))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv2),0,2|32)), (IV)ender, (IV)(ender - lastbr) ); };} while (0) |
12380 | SvPV_nolen_const(RExC_mysv1),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("lsbr") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),((pRExC_state->emit_start ) + (lastbr)),((void*)0),pRExC_state); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv2),((pRExC_state->emit_start ) + (ender)),((void*)0),pRExC_state); Perl_re_printf( "~ tying lastbr %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), (IV )lastbr, (((((pRExC_state->mysv2))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv2))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv2),0,2|32)), (IV)ender, (IV)(ender - lastbr) ); };} while (0) |
12381 | (IV)lastbr,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("lsbr") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),((pRExC_state->emit_start ) + (lastbr)),((void*)0),pRExC_state); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv2),((pRExC_state->emit_start ) + (ender)),((void*)0),pRExC_state); Perl_re_printf( "~ tying lastbr %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), (IV )lastbr, (((((pRExC_state->mysv2))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv2))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv2),0,2|32)), (IV)ender, (IV)(ender - lastbr) ); };} while (0) |
12382 | SvPV_nolen_const(RExC_mysv2),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("lsbr") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),((pRExC_state->emit_start ) + (lastbr)),((void*)0),pRExC_state); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv2),((pRExC_state->emit_start ) + (ender)),((void*)0),pRExC_state); Perl_re_printf( "~ tying lastbr %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), (IV )lastbr, (((((pRExC_state->mysv2))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv2))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv2),0,2|32)), (IV)ender, (IV)(ender - lastbr) ); };} while (0) |
12383 | (IV)ender,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("lsbr") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),((pRExC_state->emit_start ) + (lastbr)),((void*)0),pRExC_state); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv2),((pRExC_state->emit_start ) + (ender)),((void*)0),pRExC_state); Perl_re_printf( "~ tying lastbr %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), (IV )lastbr, (((((pRExC_state->mysv2))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv2))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv2),0,2|32)), (IV)ender, (IV)(ender - lastbr) ); };} while (0) |
12384 | (IV)(ender - lastbr)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("lsbr") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),((pRExC_state->emit_start ) + (lastbr)),((void*)0),pRExC_state); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv2),((pRExC_state->emit_start ) + (ender)),((void*)0),pRExC_state); Perl_re_printf( "~ tying lastbr %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), (IV )lastbr, (((((pRExC_state->mysv2))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv2))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv2),0,2|32)), (IV)ender, (IV)(ender - lastbr) ); };} while (0) |
12385 | );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("lsbr") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),((pRExC_state->emit_start ) + (lastbr)),((void*)0),pRExC_state); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv2),((pRExC_state->emit_start ) + (ender)),((void*)0),pRExC_state); Perl_re_printf( "~ tying lastbr %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), (IV )lastbr, (((((pRExC_state->mysv2))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv2))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv2),0,2|32)), (IV)ender, (IV)(ender - lastbr) ); };} while (0) |
12386 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("lsbr") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),((pRExC_state->emit_start ) + (lastbr)),((void*)0),pRExC_state); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv2),((pRExC_state->emit_start ) + (ender)),((void*)0),pRExC_state); Perl_re_printf( "~ tying lastbr %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state ->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), (IV )lastbr, (((((pRExC_state->mysv2))->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state ->mysv2))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state ->mysv2),0,2|32)), (IV)ender, (IV)(ender - lastbr) ); };} while (0); |
12387 | if (! REGTAIL(pRExC_state, lastbr, ender)S_regtail( (pRExC_state),(lastbr),(ender),depth+1)) { |
12388 | REQUIRE_BRANCHJ(flagp, 0)do { (pRExC_state->use_BRANCHJ) = 1; *flagp |= 0x20; return 0; } while (0); |
12389 | } |
12390 | |
12391 | if (have_branch) { |
12392 | char is_nothing= 1; |
12393 | if (depth==1) |
12394 | RExC_seen(pRExC_state->seen) |= REG_TOP_LEVEL_BRANCHES_SEEN0x00000040; |
12395 | |
12396 | /* Hook the tails of the branches to the closing node. */ |
12397 | for (br = REGNODE_p(ret)((pRExC_state->emit_start) + (ret)); br; br = regnext(br)Perl_regnext( br)) { |
12398 | const U8 op = PL_regkind[OP(br)((br)->type)]; |
12399 | if (op == BRANCH39) { |
12400 | if (! REGTAIL_STUDY(pRExC_state,S_regtail_study( (pRExC_state),(((((br) + 1)) - (pRExC_state-> emit_start))),(ender),depth+1) |
12401 | REGNODE_OFFSET(NEXTOPER(br)),S_regtail_study( (pRExC_state),(((((br) + 1)) - (pRExC_state-> emit_start))),(ender),depth+1) |
12402 | ender)S_regtail_study( (pRExC_state),(((((br) + 1)) - (pRExC_state-> emit_start))),(ender),depth+1)) |
12403 | { |
12404 | REQUIRE_BRANCHJ(flagp, 0)do { (pRExC_state->use_BRANCHJ) = 1; *flagp |= 0x20; return 0; } while (0); |
12405 | } |
12406 | if ( OP(NEXTOPER(br))((((br) + 1))->type) != NOTHING54 |
12407 | || regnext(NEXTOPER(br))Perl_regnext( ((br) + 1)) != REGNODE_p(ender)((pRExC_state->emit_start) + (ender))) |
12408 | is_nothing= 0; |
12409 | } |
12410 | else if (op == BRANCHJ78) { |
12411 | bool_Bool shut_gcc_up = REGTAIL_STUDY(pRExC_state,S_regtail_study( (pRExC_state),(((((((br) + 1)) + 1)) - (pRExC_state ->emit_start))),(ender),depth+1) |
12412 | REGNODE_OFFSET(NEXTOPER(NEXTOPER(br))),S_regtail_study( (pRExC_state),(((((((br) + 1)) + 1)) - (pRExC_state ->emit_start))),(ender),depth+1) |
12413 | ender)S_regtail_study( (pRExC_state),(((((((br) + 1)) + 1)) - (pRExC_state ->emit_start))),(ender),depth+1); |
12414 | PERL_UNUSED_VAR(shut_gcc_up)((void)sizeof(shut_gcc_up)); |
12415 | /* for now we always disable this optimisation * / |
12416 | if ( OP(NEXTOPER(NEXTOPER(br))) != NOTHING |
12417 | || regnext(NEXTOPER(NEXTOPER(br))) != REGNODE_p(ender)) |
12418 | */ |
12419 | is_nothing= 0; |
12420 | } |
12421 | } |
12422 | if (is_nothing) { |
12423 | regnode * ret_as_regnode = REGNODE_p(ret)((pRExC_state->emit_start) + (ret)); |
12424 | br= PL_regkind[OP(ret_as_regnode)((ret_as_regnode)->type)] != BRANCH39 |
12425 | ? regnext(ret_as_regnode)Perl_regnext( ret_as_regnode) |
12426 | : ret_as_regnode; |
12427 | DEBUG_PARSE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("NADA") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),ret_as_regnode,((void*)0),pRExC_state ); my_regprop( (pRExC_state->rx),(pRExC_state->mysv2),( (pRExC_state->emit_start) + (ender)),((void*)0),pRExC_state ); Perl_re_printf( "~ converting ret %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state->mysv1))-> sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), (IV)((ret_as_regnode) ? ( int)((ret_as_regnode)-(pRExC_state->emit_start)) : -1), (( (((pRExC_state->mysv2))->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv2 ))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state->mysv2 ),0,2|32)), (IV)ender, (IV)(ender - ret) ); };} while (0) |
12428 | DEBUG_PARSE_MSG("NADA");do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("NADA") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),ret_as_regnode,((void*)0),pRExC_state ); my_regprop( (pRExC_state->rx),(pRExC_state->mysv2),( (pRExC_state->emit_start) + (ender)),((void*)0),pRExC_state ); Perl_re_printf( "~ converting ret %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state->mysv1))-> sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), (IV)((ret_as_regnode) ? ( int)((ret_as_regnode)-(pRExC_state->emit_start)) : -1), (( (((pRExC_state->mysv2))->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv2 ))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state->mysv2 ),0,2|32)), (IV)ender, (IV)(ender - ret) ); };} while (0) |
12429 | regprop(RExC_rx, RExC_mysv1, ret_as_regnode,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("NADA") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),ret_as_regnode,((void*)0),pRExC_state ); my_regprop( (pRExC_state->rx),(pRExC_state->mysv2),( (pRExC_state->emit_start) + (ender)),((void*)0),pRExC_state ); Perl_re_printf( "~ converting ret %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state->mysv1))-> sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), (IV)((ret_as_regnode) ? ( int)((ret_as_regnode)-(pRExC_state->emit_start)) : -1), (( (((pRExC_state->mysv2))->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv2 ))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state->mysv2 ),0,2|32)), (IV)ender, (IV)(ender - ret) ); };} while (0) |
12430 | NULL, pRExC_state);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("NADA") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),ret_as_regnode,((void*)0),pRExC_state ); my_regprop( (pRExC_state->rx),(pRExC_state->mysv2),( (pRExC_state->emit_start) + (ender)),((void*)0),pRExC_state ); Perl_re_printf( "~ converting ret %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state->mysv1))-> sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), (IV)((ret_as_regnode) ? ( int)((ret_as_regnode)-(pRExC_state->emit_start)) : -1), (( (((pRExC_state->mysv2))->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv2 ))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state->mysv2 ),0,2|32)), (IV)ender, (IV)(ender - ret) ); };} while (0) |
12431 | regprop(RExC_rx, RExC_mysv2, REGNODE_p(ender),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("NADA") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),ret_as_regnode,((void*)0),pRExC_state ); my_regprop( (pRExC_state->rx),(pRExC_state->mysv2),( (pRExC_state->emit_start) + (ender)),((void*)0),pRExC_state ); Perl_re_printf( "~ converting ret %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state->mysv1))-> sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), (IV)((ret_as_regnode) ? ( int)((ret_as_regnode)-(pRExC_state->emit_start)) : -1), (( (((pRExC_state->mysv2))->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv2 ))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state->mysv2 ),0,2|32)), (IV)ender, (IV)(ender - ret) ); };} while (0) |
12432 | NULL, pRExC_state);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("NADA") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),ret_as_regnode,((void*)0),pRExC_state ); my_regprop( (pRExC_state->rx),(pRExC_state->mysv2),( (pRExC_state->emit_start) + (ender)),((void*)0),pRExC_state ); Perl_re_printf( "~ converting ret %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state->mysv1))-> sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), (IV)((ret_as_regnode) ? ( int)((ret_as_regnode)-(pRExC_state->emit_start)) : -1), (( (((pRExC_state->mysv2))->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv2 ))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state->mysv2 ),0,2|32)), (IV)ender, (IV)(ender - ret) ); };} while (0) |
12433 | Perl_re_printf( aTHX_ "~ converting ret %s (%" IVdf ") to ender %s (%" IVdf ") offset %" IVdf "\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("NADA") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),ret_as_regnode,((void*)0),pRExC_state ); my_regprop( (pRExC_state->rx),(pRExC_state->mysv2),( (pRExC_state->emit_start) + (ender)),((void*)0),pRExC_state ); Perl_re_printf( "~ converting ret %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state->mysv1))-> sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), (IV)((ret_as_regnode) ? ( int)((ret_as_regnode)-(pRExC_state->emit_start)) : -1), (( (((pRExC_state->mysv2))->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv2 ))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state->mysv2 ),0,2|32)), (IV)ender, (IV)(ender - ret) ); };} while (0) |
12434 | SvPV_nolen_const(RExC_mysv1),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("NADA") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),ret_as_regnode,((void*)0),pRExC_state ); my_regprop( (pRExC_state->rx),(pRExC_state->mysv2),( (pRExC_state->emit_start) + (ender)),((void*)0),pRExC_state ); Perl_re_printf( "~ converting ret %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state->mysv1))-> sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), (IV)((ret_as_regnode) ? ( int)((ret_as_regnode)-(pRExC_state->emit_start)) : -1), (( (((pRExC_state->mysv2))->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv2 ))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state->mysv2 ),0,2|32)), (IV)ender, (IV)(ender - ret) ); };} while (0) |
12435 | (IV)REG_NODE_NUM(ret_as_regnode),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("NADA") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),ret_as_regnode,((void*)0),pRExC_state ); my_regprop( (pRExC_state->rx),(pRExC_state->mysv2),( (pRExC_state->emit_start) + (ender)),((void*)0),pRExC_state ); Perl_re_printf( "~ converting ret %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state->mysv1))-> sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), (IV)((ret_as_regnode) ? ( int)((ret_as_regnode)-(pRExC_state->emit_start)) : -1), (( (((pRExC_state->mysv2))->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv2 ))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state->mysv2 ),0,2|32)), (IV)ender, (IV)(ender - ret) ); };} while (0) |
12436 | SvPV_nolen_const(RExC_mysv2),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("NADA") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),ret_as_regnode,((void*)0),pRExC_state ); my_regprop( (pRExC_state->rx),(pRExC_state->mysv2),( (pRExC_state->emit_start) + (ender)),((void*)0),pRExC_state ); Perl_re_printf( "~ converting ret %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state->mysv1))-> sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), (IV)((ret_as_regnode) ? ( int)((ret_as_regnode)-(pRExC_state->emit_start)) : -1), (( (((pRExC_state->mysv2))->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv2 ))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state->mysv2 ),0,2|32)), (IV)ender, (IV)(ender - ret) ); };} while (0) |
12437 | (IV)ender,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("NADA") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),ret_as_regnode,((void*)0),pRExC_state ); my_regprop( (pRExC_state->rx),(pRExC_state->mysv2),( (pRExC_state->emit_start) + (ender)),((void*)0),pRExC_state ); Perl_re_printf( "~ converting ret %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state->mysv1))-> sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), (IV)((ret_as_regnode) ? ( int)((ret_as_regnode)-(pRExC_state->emit_start)) : -1), (( (((pRExC_state->mysv2))->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv2 ))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state->mysv2 ),0,2|32)), (IV)ender, (IV)(ender - ret) ); };} while (0) |
12438 | (IV)(ender - ret)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("NADA") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),ret_as_regnode,((void*)0),pRExC_state ); my_regprop( (pRExC_state->rx),(pRExC_state->mysv2),( (pRExC_state->emit_start) + (ender)),((void*)0),pRExC_state ); Perl_re_printf( "~ converting ret %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state->mysv1))-> sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), (IV)((ret_as_regnode) ? ( int)((ret_as_regnode)-(pRExC_state->emit_start)) : -1), (( (((pRExC_state->mysv2))->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv2 ))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state->mysv2 ),0,2|32)), (IV)ender, (IV)(ender - ret) ); };} while (0) |
12439 | );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("NADA") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),ret_as_regnode,((void*)0),pRExC_state ); my_regprop( (pRExC_state->rx),(pRExC_state->mysv2),( (pRExC_state->emit_start) + (ender)),((void*)0),pRExC_state ); Perl_re_printf( "~ converting ret %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state->mysv1))-> sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), (IV)((ret_as_regnode) ? ( int)((ret_as_regnode)-(pRExC_state->emit_start)) : -1), (( (((pRExC_state->mysv2))->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv2 ))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state->mysv2 ),0,2|32)), (IV)ender, (IV)(ender - ret) ); };} while (0) |
12440 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("NADA") ); (pRExC_state-> lastnum)=(pRExC_state->emit); (pRExC_state->lastparse)= (pRExC_state->parse); };} while (0); my_regprop( (pRExC_state ->rx),(pRExC_state->mysv1),ret_as_regnode,((void*)0),pRExC_state ); my_regprop( (pRExC_state->rx),(pRExC_state->mysv2),( (pRExC_state->emit_start) + (ender)),((void*)0),pRExC_state ); Perl_re_printf( "~ converting ret %s (%" "ld" ") to ender %s (%" "ld" ") offset %" "ld" "\n", (((((pRExC_state->mysv1))-> sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), (IV)((ret_as_regnode) ? ( int)((ret_as_regnode)-(pRExC_state->emit_start)) : -1), (( (((pRExC_state->mysv2))->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv2 ))->sv_u.svu_pv)) : Perl_sv_2pv_flags( (pRExC_state->mysv2 ),0,2|32)), (IV)ender, (IV)(ender - ret) ); };} while (0); |
12441 | OP(br)((br)->type)= NOTHING54; |
12442 | if (OP(REGNODE_p(ender))((((pRExC_state->emit_start) + (ender)))->type) == TAIL55) { |
12443 | NEXT_OFF(br)((br)->next_off)= 0; |
12444 | RExC_emit(pRExC_state->emit)= REGNODE_OFFSET(br)((br) - (pRExC_state->emit_start)) + 1; |
12445 | } else { |
12446 | regnode *opt; |
12447 | for ( opt= br + 1; opt < REGNODE_p(ender)((pRExC_state->emit_start) + (ender)) ; opt++ ) |
12448 | OP(opt)((opt)->type)= OPTIMIZED107; |
12449 | NEXT_OFF(br)((br)->next_off)= REGNODE_p(ender)((pRExC_state->emit_start) + (ender)) - br; |
12450 | } |
12451 | } |
12452 | } |
12453 | } |
12454 | |
12455 | { |
12456 | const char *p; |
12457 | /* Even/odd or x=don't care: 010101x10x */ |
12458 | static const char parens[] = "=!aA<,>Bbt"; |
12459 | /* flag below is set to 0 up through 'A'; 1 for larger */ |
12460 | |
12461 | if (paren && (p = strchr(parens, paren))) { |
12462 | U8 node = ((p - parens) % 2) ? UNLESSM80 : IFMATCH79; |
12463 | int flag = (p - parens) > 3; |
12464 | |
12465 | if (paren == '>' || paren == 't') { |
12466 | node = SUSPEND81, flag = 0; |
12467 | } |
12468 | |
12469 | reginsert(pRExC_state, node, ret, depth+1)S_reginsert( pRExC_state,node,ret,depth+1); |
12470 | Set_Node_Cur_Length(REGNODE_p(ret), parse_start)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 12470, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)((pRExC_state->parse) - parse_start)); } while (0); if((((((pRExC_state->emit_start) + (ret))) - ( pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))] = ((pRExC_state->parse) - parse_start) ; } } while (0); |
12471 | Set_Node_Offset(REGNODE_p(ret), parse_start + 1)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) offset of node %d is %d.\n", 12471, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)((parse_start + 1)-(pRExC_state->start )));} while (0); if((((((pRExC_state->emit_start) + (ret)) ) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))-1] = ((parse_start + 1)-(pRExC_state->start )); } } while (0); |
12472 | FLAGS(REGNODE_p(ret))((((pRExC_state->emit_start) + (ret)))->flags) = flag; |
12473 | if (! REGTAIL_STUDY(pRExC_state, ret, reg_node(pRExC_state, TAIL))S_regtail_study( (pRExC_state),(ret),(S_reg_node( pRExC_state ,55)),depth+1)) |
12474 | { |
12475 | REQUIRE_BRANCHJ(flagp, 0)do { (pRExC_state->use_BRANCHJ) = 1; *flagp |= 0x20; return 0; } while (0); |
12476 | } |
12477 | } |
12478 | } |
12479 | |
12480 | /* Check for proper termination. */ |
12481 | if (paren) { |
12482 | /* restore original flags, but keep (?p) and, if we've encountered |
12483 | * something in the parse that changes /d rules into /u, keep the /u */ |
12484 | RExC_flags(pRExC_state->flags) = oregflags | (RExC_flags(pRExC_state->flags) & RXf_PMf_KEEPCOPY(1U << (0 +6))); |
12485 | if (DEPENDS_SEMANTICS(get_regex_charset((pRExC_state->flags)) == REGEX_DEPENDS_CHARSET ) && toUSE_UNI_CHARSET_NOT_DEPENDS((pRExC_state->uni_semantics) || (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0))) { |
12486 | set_regex_charset(&RExC_flags(pRExC_state->flags), REGEX_UNICODE_CHARSET); |
12487 | } |
12488 | if (RExC_parse(pRExC_state->parse) >= RExC_end(pRExC_state->end) || UCHARAT(RExC_parse)((int)*(const U8*)((pRExC_state->parse))) != ')') { |
12489 | RExC_parse(pRExC_state->parse) = oregcomp_parse; |
12490 | vFAIL("Unmatched (")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Unmatched (", (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 12490, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
12491 | } |
12492 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
12493 | } |
12494 | else if (!paren && RExC_parse(pRExC_state->parse) < RExC_end(pRExC_state->end)) { |
12495 | if (*RExC_parse(pRExC_state->parse) == ')') { |
12496 | RExC_parse(pRExC_state->parse)++; |
12497 | vFAIL("Unmatched )")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Unmatched )", (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 12497, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
12498 | } |
12499 | else |
12500 | FAIL("Junk on end of regexp")do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "%s in regex m/%" "d%" "lu" "%4p" "%s/", "Junk on end of regexp" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp )), ellipses); } while (0); /* "Can't happen". */ |
12501 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_comp.c", 12501 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
12502 | } |
12503 | |
12504 | if (after_freeze > RExC_npar(pRExC_state->npar)) |
12505 | RExC_npar(pRExC_state->npar) = after_freeze; |
12506 | |
12507 | RExC_in_lookaround(pRExC_state->in_lookaround) = was_in_lookaround; |
12508 | |
12509 | return(ret); |
12510 | } |
12511 | |
12512 | /* |
12513 | - regbranch - one alternative of an | operator |
12514 | * |
12515 | * Implements the concatenation operator. |
12516 | * |
12517 | * On success, returns the offset at which any next node should be placed into |
12518 | * the regex engine program being compiled. |
12519 | * |
12520 | * Returns 0 otherwise, setting flagp to RESTART_PARSE if the parse needs |
12521 | * to be restarted, or'd with NEED_UTF8 if the pattern needs to be upgraded to |
12522 | * UTF-8 |
12523 | */ |
12524 | STATICstatic regnode_offset |
12525 | S_regbranch(pTHX_ RExC_state_t *pRExC_state, I32 *flagp, I32 first, U32 depth) |
12526 | { |
12527 | regnode_offset ret; |
12528 | regnode_offset chain = 0; |
12529 | regnode_offset latest; |
12530 | I32 flags = 0, c = 0; |
12531 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 12531, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 12531, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
12532 | |
12533 | PERL_ARGS_ASSERT_REGBRANCH((pRExC_state) ? (void)0 : __assert2("re_comp.c", 12533, __func__ , "pRExC_state")); ((flagp) ? (void)0 : __assert2("re_comp.c" , 12533, __func__, "flagp")); |
12534 | |
12535 | DEBUG_PARSE("brnc")do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (("brnc")) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0); Perl_re_printf( "%4s" ,"\n"); };} while (0); |
12536 | |
12537 | if (first) |
12538 | ret = 0; |
12539 | else { |
12540 | if (RExC_use_BRANCHJ(pRExC_state->use_BRANCHJ)) |
12541 | ret = reganode(pRExC_state, BRANCHJ, 0)S_reganode( pRExC_state,78,0); |
12542 | else { |
12543 | ret = reg_node(pRExC_state, BRANCH)S_reg_node( pRExC_state,39); |
12544 | Set_Node_Length(REGNODE_p(ret), 1)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 12544, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)(1));} while (0); if((((((pRExC_state-> emit_start) + (ret))) - (pRExC_state->emit_start))) < 0 ) { Perl_croak( "value of node is %d in Length macro", (int)( ((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))] = (1); } } while (0); |
12545 | } |
12546 | } |
12547 | |
12548 | *flagp = WORST0; /* Tentatively. */ |
12549 | |
12550 | skip_to_be_ignored_text(pRExC_state, &RExC_parse,S_skip_to_be_ignored_text( pRExC_state,&(pRExC_state-> parse),(0)) |
12551 | FALSE /* Don't force to /x */ )S_skip_to_be_ignored_text( pRExC_state,&(pRExC_state-> parse),(0)); |
12552 | while (RExC_parse(pRExC_state->parse) < RExC_end(pRExC_state->end) && *RExC_parse(pRExC_state->parse) != '|' && *RExC_parse(pRExC_state->parse) != ')') { |
12553 | flags &= ~TRYAGAIN0x10; |
12554 | latest = regpiece(pRExC_state, &flags, depth+1)S_regpiece( pRExC_state,&flags,depth+1); |
12555 | if (latest == 0) { |
12556 | if (flags & TRYAGAIN0x10) |
12557 | continue; |
12558 | RETURN_FAIL_ON_RESTART(flags, flagp)do { if ((flags) & (0x20|0x40|(0))) { *(flagp) = (flags) & (0x20|0x40|(0)); return 0; } } while (0); |
12559 | FAIL2("panic: regpiece returned failure, flags=%#" UVxf, (UV) flags)do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "panic: regpiece returned failure, flags=%#" "lx" " in regex m/%" "d%" "lu" "%4p" "%s/", (UV) flags, (int)(((( (pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : ( _Bool)0), (UV)(len), (void*)((pRExC_state->precomp)), ellipses ); } while (0); |
12560 | } |
12561 | else if (ret == 0) |
12562 | ret = latest; |
12563 | *flagp |= flags&(HASWIDTH0x01|POSTPONED0x08); |
12564 | if (chain == 0) /* First piece. */ |
12565 | *flagp |= flags&SPSTART0x04; |
12566 | else { |
12567 | /* FIXME adding one for every branch after the first is probably |
12568 | * excessive now we have TRIE support. (hv) */ |
12569 | MARK_NAUGHTY(1)if ((pRExC_state->naughty) < (10)) (pRExC_state->naughty ) += (1); |
12570 | if (! REGTAIL(pRExC_state, chain, latest)S_regtail( (pRExC_state),(chain),(latest),depth+1)) { |
12571 | /* XXX We could just redo this branch, but figuring out what |
12572 | * bookkeeping needs to be reset is a pain, and it's likely |
12573 | * that other branches that goto END will also be too large */ |
12574 | REQUIRE_BRANCHJ(flagp, 0)do { (pRExC_state->use_BRANCHJ) = 1; *flagp |= 0x20; return 0; } while (0); |
12575 | } |
12576 | } |
12577 | chain = latest; |
12578 | c++; |
12579 | } |
12580 | if (chain == 0) { /* Loop ran zero times. */ |
12581 | chain = reg_node(pRExC_state, NOTHING)S_reg_node( pRExC_state,54); |
12582 | if (ret == 0) |
12583 | ret = chain; |
12584 | } |
12585 | if (c == 1) { |
12586 | *flagp |= flags&SIMPLE0x02; |
12587 | } |
12588 | |
12589 | return ret; |
12590 | } |
12591 | |
12592 | /* |
12593 | - regpiece - something followed by possible quantifier * + ? {n,m} |
12594 | * |
12595 | * Note that the branching code sequences used for ? and the general cases |
12596 | * of * and + are somewhat optimized: they use the same NOTHING node as |
12597 | * both the endmarker for their branch list and the body of the last branch. |
12598 | * It might seem that this node could be dispensed with entirely, but the |
12599 | * endmarker role is not redundant. |
12600 | * |
12601 | * On success, returns the offset at which any next node should be placed into |
12602 | * the regex engine program being compiled. |
12603 | * |
12604 | * Returns 0 otherwise, with *flagp set to indicate why: |
12605 | * TRYAGAIN if regatom() returns 0 with TRYAGAIN. |
12606 | * RESTART_PARSE if the parse needs to be restarted, or'd with |
12607 | * NEED_UTF8 if the pattern needs to be upgraded to UTF-8. |
12608 | */ |
12609 | STATICstatic regnode_offset |
12610 | S_regpiece(pTHX_ RExC_state_t *pRExC_state, I32 *flagp, U32 depth) |
12611 | { |
12612 | regnode_offset ret; |
12613 | char op; |
12614 | char *next; |
12615 | I32 flags; |
12616 | const char * const origparse = RExC_parse(pRExC_state->parse); |
12617 | I32 min; |
12618 | I32 max = REG_INFTY0xffff; |
12619 | #ifdef RE_TRACK_PATTERN_OFFSETS |
12620 | char *parse_start; |
12621 | #endif |
12622 | const char *maxpos = NULL((void*)0); |
12623 | UV uv; |
12624 | |
12625 | /* Save the original in case we change the emitted regop to a FAIL. */ |
12626 | const regnode_offset orig_emit = RExC_emit(pRExC_state->emit); |
12627 | |
12628 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 12628, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 12628, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
12629 | |
12630 | PERL_ARGS_ASSERT_REGPIECE((pRExC_state) ? (void)0 : __assert2("re_comp.c", 12630, __func__ , "pRExC_state")); ((flagp) ? (void)0 : __assert2("re_comp.c" , 12630, __func__, "flagp")); |
12631 | |
12632 | DEBUG_PARSE("piec")do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (("piec")) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0); Perl_re_printf( "%4s" ,"\n"); };} while (0); |
12633 | |
12634 | ret = regatom(pRExC_state, &flags, depth+1)S_regatom( pRExC_state,&flags,depth+1); |
12635 | if (ret == 0) { |
12636 | RETURN_FAIL_ON_RESTART_OR_FLAGS(flags, flagp, TRYAGAIN)do { if ((flags) & (0x20|0x40|(0x10))) { *(flagp) = (flags ) & (0x20|0x40|(0x10)); return 0; } } while (0); |
12637 | FAIL2("panic: regatom returned failure, flags=%#" UVxf, (UV) flags)do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "panic: regatom returned failure, flags=%#" "lx" " in regex m/%" "d%" "lu" "%4p" "%s/", (UV) flags, (int)(((( (pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : ( _Bool)0), (UV)(len), (void*)((pRExC_state->precomp)), ellipses ); } while (0); |
12638 | } |
12639 | |
12640 | op = *RExC_parse(pRExC_state->parse); |
12641 | |
12642 | if (op == '{' && regcurlyS_regcurly(RExC_parse(pRExC_state->parse))) { |
12643 | maxpos = NULL((void*)0); |
12644 | #ifdef RE_TRACK_PATTERN_OFFSETS |
12645 | parse_start = RExC_parse(pRExC_state->parse); /* MJD */ |
12646 | #endif |
12647 | next = RExC_parse(pRExC_state->parse) + 1; |
12648 | while (isDIGIT(*next)(((('9') >= ('0')) ? (void)0 : __assert2("re_comp.c", 12648 , __func__, "('9') >= ('0')")), ( (sizeof(*next) == sizeof (U8)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 12648, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 12648, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U8) (*next )))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0)) ))) : (sizeof(*next) == sizeof(U32)) ? ((((NV) (('0')) >= 0 ) ? (void)0 : __assert2("re_comp.c", 12648, __func__, "(NV) (('0')) >= 0" )), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 12648, __func__, "(NV) ((('9') - ('0'))) >= 0")), (((U64 ) (((((U32) (*next)))) - ((('0')) | 0))) <= (((U64) (((('9' ) - ('0'))) | 0))))) : (((sizeof(*next) == sizeof(U64)) ? (void )0 : __assert2("re_comp.c", 12648, __func__, "sizeof(*next) == sizeof(U64)" )), ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 12648, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 12648, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U64) (*next )))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0)) )))))) || *next == ',') { |
12649 | if (*next == ',') { |
12650 | if (maxpos) |
12651 | break; |
12652 | else |
12653 | maxpos = next; |
12654 | } |
12655 | next++; |
12656 | } |
12657 | if (*next == '}') { /* got one */ |
12658 | const char* endptr; |
12659 | if (!maxpos) |
12660 | maxpos = next; |
12661 | RExC_parse(pRExC_state->parse)++; |
12662 | if (isDIGIT(*RExC_parse)(((('9') >= ('0')) ? (void)0 : __assert2("re_comp.c", 12662 , __func__, "('9') >= ('0')")), ( (sizeof(*(pRExC_state-> parse)) == sizeof(U8)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c", 12662, __func__, "(NV) (('0')) >= 0" )), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 12662, __func__, "(NV) ((('9') - ('0'))) >= 0")), (((U64 ) (((((U8) (*(pRExC_state->parse))))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0))))) : (sizeof(*(pRExC_state-> parse)) == sizeof(U32)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c", 12662, __func__, "(NV) (('0')) >= 0" )), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 12662, __func__, "(NV) ((('9') - ('0'))) >= 0")), (((U64 ) (((((U32) (*(pRExC_state->parse))))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0))))) : (((sizeof(*(pRExC_state ->parse)) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 12662, __func__, "sizeof(*(pRExC_state->parse)) == sizeof(U64)" )), ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 12662, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 12662, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U64) (*(pRExC_state ->parse))))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0' ))) | 0))))))))) { |
12663 | endptr = RExC_end(pRExC_state->end); |
12664 | if (!grok_atoUVPerl_grok_atoUV(RExC_parse(pRExC_state->parse), &uv, &endptr)) |
12665 | vFAIL("Invalid quantifier in {,}")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Invalid quantifier in {,}", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12665, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
12666 | if (uv >= REG_INFTY0xffff) |
12667 | vFAIL2("Quantifier in {,} bigger than %d", REG_INFTY - 1)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Quantifier in {,} bigger than %d" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", 0xffff - 1, (int)(( (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (( pRExC_state->parse) - (pRExC_state->copy_start))) > ( pRExC_state->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12667, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
12668 | min = (I32)uv; |
12669 | } else { |
12670 | min = 0; |
12671 | } |
12672 | if (*maxpos == ',') |
12673 | maxpos++; |
12674 | else |
12675 | maxpos = RExC_parse(pRExC_state->parse); |
12676 | if (isDIGIT(*maxpos)(((('9') >= ('0')) ? (void)0 : __assert2("re_comp.c", 12676 , __func__, "('9') >= ('0')")), ( (sizeof(*maxpos) == sizeof (U8)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 12676, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 12676, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U8) (*maxpos )))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0)) ))) : (sizeof(*maxpos) == sizeof(U32)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c", 12676, __func__, "(NV) (('0')) >= 0" )), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 12676, __func__, "(NV) ((('9') - ('0'))) >= 0")), (((U64 ) (((((U32) (*maxpos)))) - ((('0')) | 0))) <= (((U64) (((( '9') - ('0'))) | 0))))) : (((sizeof(*maxpos) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 12676, __func__, "sizeof(*maxpos) == sizeof(U64)" )), ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 12676, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 12676, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U64) (*maxpos )))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0)) ))))))) { |
12677 | endptr = RExC_end(pRExC_state->end); |
12678 | if (!grok_atoUVPerl_grok_atoUV(maxpos, &uv, &endptr)) |
12679 | vFAIL("Invalid quantifier in {,}")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Invalid quantifier in {,}", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12679, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
12680 | if (uv >= REG_INFTY0xffff) |
12681 | vFAIL2("Quantifier in {,} bigger than %d", REG_INFTY - 1)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Quantifier in {,} bigger than %d" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", 0xffff - 1, (int)(( (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (( pRExC_state->parse) - (pRExC_state->copy_start))) > ( pRExC_state->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12681, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
12682 | max = (I32)uv; |
12683 | } else { |
12684 | max = REG_INFTY0xffff; /* meaning "infinity" */ |
12685 | } |
12686 | RExC_parse(pRExC_state->parse) = next; |
12687 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
12688 | if (max < min) { /* If can't match, warn and optimize to fail |
12689 | unconditionally */ |
12690 | reginsert(pRExC_state, OPFAIL, orig_emit, depth+1)S_reginsert( pRExC_state,97,orig_emit,depth+1); |
12691 | ckWARNreg(RExC_parse, "Quantifier {n,m} with n > m can't match")do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 12691, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "Quantifier {n,m} with n > m can't match" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12691, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); |
12692 | NEXT_OFF(REGNODE_p(orig_emit))((((pRExC_state->emit_start) + (orig_emit)))->next_off) = |
12693 | regarglen[OPFAIL97] + NODE_STEP_REGNODE1; |
12694 | return ret; |
12695 | } |
12696 | else if (min == max && *RExC_parse(pRExC_state->parse) == '?') |
12697 | { |
12698 | ckWARN2reg(RExC_parse + 1,do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 12700, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "Useless use of greediness modifier '%c'" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", *(pRExC_state->parse), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12700, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)), ((int) ((pRExC_state->end) - (pRExC_state-> start))), (pRExC_state->start)), 0))), (void*)((pRExC_state ->precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))), (void*)((( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))))))) - (pRExC_state->precomp); } } while (0); } } while (0) |
12699 | "Useless use of greediness modifier '%c'",do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 12700, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "Useless use of greediness modifier '%c'" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", *(pRExC_state->parse), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12700, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)), ((int) ((pRExC_state->end) - (pRExC_state-> start))), (pRExC_state->start)), 0))), (void*)((pRExC_state ->precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))), (void*)((( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))))))) - (pRExC_state->precomp); } } while (0); } } while (0) |
12700 | *RExC_parse)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 12700, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "Useless use of greediness modifier '%c'" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", *(pRExC_state->parse), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12700, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)), ((int) ((pRExC_state->end) - (pRExC_state-> start))), (pRExC_state->start)), 0))), (void*)((pRExC_state ->precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))), (void*)((( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))))))) - (pRExC_state->precomp); } } while (0); } } while (0); |
12701 | } |
12702 | |
12703 | do_curly: |
12704 | if ((flags&SIMPLE0x02)) { |
12705 | if (min == 0 && max == REG_INFTY0xffff) { |
12706 | |
12707 | /* Going from 0..inf is currently forbidden in wildcard |
12708 | * subpatterns. The only reason is to make it harder to |
12709 | * write patterns that take a long long time to halt, and |
12710 | * because the use of this construct isn't necessary in |
12711 | * matching Unicode property values */ |
12712 | if (RExC_pm_flags(pRExC_state->pm_flags) & PMf_WILDCARD(1U<<(((0 +12)+2)+17))) { |
12713 | RExC_parse(pRExC_state->parse)++; |
12714 | /* diag_listed_as: Use of %s is not allowed in Unicode |
12715 | property wildcard subpatterns in regex; marked by |
12716 | <-- HERE in m/%s/ */ |
12717 | vFAIL("Use of quantifier '*' is not allowed in"do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Use of quantifier '*' is not allowed in" " Unicode property wildcard subpatterns" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12718, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0) |
12718 | " Unicode property wildcard subpatterns")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Use of quantifier '*' is not allowed in" " Unicode property wildcard subpatterns" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12718, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
12719 | /* Note, don't need to worry about {0,}, as a '}' isn't |
12720 | * legal at all in wildcards, so wouldn't get this far |
12721 | * */ |
12722 | } |
12723 | reginsert(pRExC_state, STAR, ret, depth+1)S_reginsert( pRExC_state,56,ret,depth+1); |
12724 | MARK_NAUGHTY(4)if ((pRExC_state->naughty) < (10)) (pRExC_state->naughty ) += (4); |
12725 | RExC_seen(pRExC_state->seen) |= REG_UNBOUNDED_QUANTIFIER_SEEN0x00001000; |
12726 | goto nest_check; |
12727 | } |
12728 | if (min == 1 && max == REG_INFTY0xffff) { |
12729 | reginsert(pRExC_state, PLUS, ret, depth+1)S_reginsert( pRExC_state,57,ret,depth+1); |
12730 | MARK_NAUGHTY(3)if ((pRExC_state->naughty) < (10)) (pRExC_state->naughty ) += (3); |
12731 | RExC_seen(pRExC_state->seen) |= REG_UNBOUNDED_QUANTIFIER_SEEN0x00001000; |
12732 | goto nest_check; |
12733 | } |
12734 | MARK_NAUGHTY_EXP(2, 2)if ((pRExC_state->naughty) < (10)) (pRExC_state->naughty ) += (pRExC_state->naughty) / (2) + (2); |
12735 | reginsert(pRExC_state, CURLY, ret, depth+1)S_reginsert( pRExC_state,58,ret,depth+1); |
12736 | Set_Node_Offset(REGNODE_p(ret), parse_start+1)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) offset of node %d is %d.\n", 12736, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)((parse_start+1)-(pRExC_state->start)) );} while (0); if((((((pRExC_state->emit_start) + (ret))) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))-1] = ((parse_start+1)-(pRExC_state->start )); } } while (0); /* MJD */ |
12737 | Set_Node_Cur_Length(REGNODE_p(ret), parse_start)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 12737, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)((pRExC_state->parse) - parse_start)); } while (0); if((((((pRExC_state->emit_start) + (ret))) - ( pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))] = ((pRExC_state->parse) - parse_start) ; } } while (0); |
12738 | } |
12739 | else { |
12740 | const regnode_offset w = reg_node(pRExC_state, WHILEM)S_reg_node( pRExC_state,62); |
12741 | |
12742 | FLAGS(REGNODE_p(w))((((pRExC_state->emit_start) + (w)))->flags) = 0; |
12743 | if (! REGTAIL(pRExC_state, ret, w)S_regtail( (pRExC_state),(ret),(w),depth+1)) { |
12744 | REQUIRE_BRANCHJ(flagp, 0)do { (pRExC_state->use_BRANCHJ) = 1; *flagp |= 0x20; return 0; } while (0); |
12745 | } |
12746 | if (RExC_use_BRANCHJ(pRExC_state->use_BRANCHJ)) { |
12747 | reginsert(pRExC_state, LONGJMP, ret, depth+1)S_reginsert( pRExC_state,77,ret,depth+1); |
12748 | reginsert(pRExC_state, NOTHING, ret, depth+1)S_reginsert( pRExC_state,54,ret,depth+1); |
12749 | NEXT_OFF(REGNODE_p(ret))((((pRExC_state->emit_start) + (ret)))->next_off) = 3; /* Go over LONGJMP. */ |
12750 | } |
12751 | reginsert(pRExC_state, CURLYX, ret, depth+1)S_reginsert( pRExC_state,61,ret,depth+1); |
12752 | /* MJD hk */ |
12753 | Set_Node_Offset(REGNODE_p(ret), parse_start+1)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) offset of node %d is %d.\n", 12753, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)((parse_start+1)-(pRExC_state->start)) );} while (0); if((((((pRExC_state->emit_start) + (ret))) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))-1] = ((parse_start+1)-(pRExC_state->start )); } } while (0); |
12754 | Set_Node_Length(REGNODE_p(ret),do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 12755, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)(op == '{' ? ((pRExC_state->parse) - parse_start ) : 1));} while (0); if((((((pRExC_state->emit_start) + (ret ))) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))] = (op == '{' ? ((pRExC_state->parse) - parse_start) : 1); } } while (0) |
12755 | op == '{' ? (RExC_parse - parse_start) : 1)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 12755, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)(op == '{' ? ((pRExC_state->parse) - parse_start ) : 1));} while (0); if((((((pRExC_state->emit_start) + (ret ))) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))] = (op == '{' ? ((pRExC_state->parse) - parse_start) : 1); } } while (0); |
12756 | |
12757 | if (RExC_use_BRANCHJ(pRExC_state->use_BRANCHJ)) |
12758 | NEXT_OFF(REGNODE_p(ret))((((pRExC_state->emit_start) + (ret)))->next_off) = 3; /* Go over NOTHING to |
12759 | LONGJMP. */ |
12760 | if (! REGTAIL(pRExC_state, ret, reg_node(pRExC_state,S_regtail( (pRExC_state),(ret),(S_reg_node( pRExC_state,54)), depth+1) |
12761 | NOTHING))S_regtail( (pRExC_state),(ret),(S_reg_node( pRExC_state,54)), depth+1)) |
12762 | { |
12763 | REQUIRE_BRANCHJ(flagp, 0)do { (pRExC_state->use_BRANCHJ) = 1; *flagp |= 0x20; return 0; } while (0); |
12764 | } |
12765 | RExC_whilem_seen(pRExC_state->whilem_seen)++; |
12766 | MARK_NAUGHTY_EXP(1, 4)if ((pRExC_state->naughty) < (10)) (pRExC_state->naughty ) += (pRExC_state->naughty) / (1) + (4); /* compound interest */ |
12767 | } |
12768 | FLAGS(REGNODE_p(ret))((((pRExC_state->emit_start) + (ret)))->flags) = 0; |
12769 | |
12770 | if (min > 0) |
12771 | *flagp = WORST0; |
12772 | if (max > 0) |
12773 | *flagp |= HASWIDTH0x01; |
12774 | ARG1_SET(REGNODE_p(ret), (U16)min)(((((struct regnode_2 *)((pRExC_state->emit_start) + (ret) ))->arg1)) = (((U16)min))); |
12775 | ARG2_SET(REGNODE_p(ret), (U16)max)(((((struct regnode_2 *)((pRExC_state->emit_start) + (ret) ))->arg2)) = (((U16)max))); |
12776 | if (max == REG_INFTY0xffff) |
12777 | RExC_seen(pRExC_state->seen) |= REG_UNBOUNDED_QUANTIFIER_SEEN0x00001000; |
12778 | |
12779 | goto nest_check; |
12780 | } |
12781 | } |
12782 | |
12783 | if (!ISMULT1(op)((op) == '*' || (op) == '+' || (op) == '?')) { |
12784 | *flagp = flags; |
12785 | return(ret); |
12786 | } |
12787 | |
12788 | #if 0 /* Now runtime fix should be reliable. */ |
12789 | |
12790 | /* if this is reinstated, don't forget to put this back into perldiag: |
12791 | |
12792 | =item Regexp *+ operand could be empty at {#} in regex m/%s/ |
12793 | |
12794 | (F) The part of the regexp subject to either the * or + quantifier |
12795 | could match an empty string. The {#} shows in the regular |
12796 | expression about where the problem was discovered. |
12797 | |
12798 | */ |
12799 | |
12800 | if (!(flags&HASWIDTH0x01) && op != '?') |
12801 | vFAIL("Regexp *+ operand could be empty")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Regexp *+ operand could be empty", (int)((( ((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (( pRExC_state->parse) - (pRExC_state->copy_start))) > ( pRExC_state->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12801, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
12802 | #endif |
12803 | |
12804 | #ifdef RE_TRACK_PATTERN_OFFSETS |
12805 | parse_start = RExC_parse(pRExC_state->parse); |
12806 | #endif |
12807 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
12808 | |
12809 | *flagp = (op != '+') ? (WORST0|SPSTART0x04|HASWIDTH0x01) : (WORST0|HASWIDTH0x01); |
12810 | |
12811 | if (op == '*') { |
12812 | min = 0; |
12813 | goto do_curly; |
12814 | } |
12815 | else if (op == '+') { |
12816 | min = 1; |
12817 | goto do_curly; |
12818 | } |
12819 | else if (op == '?') { |
12820 | min = 0; max = 1; |
12821 | goto do_curly; |
12822 | } |
12823 | nest_check: |
12824 | if (!(flags&(HASWIDTH0x01|POSTPONED0x08)) && max > REG_INFTY0xffff/3) { |
12825 | if (origparse[0] == '\\' && origparse[1] == 'K') { |
12826 | vFAIL2utf8f(do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "%" "d%" "lu" "%4p" " is forbidden - matches null string many times" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)(((pRExC_state->parse) >= origparse ? (pRExC_state-> parse) - origparse : 0)), (void*)(origparse), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12831, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0) |
12827 | "%" UTF8f " is forbidden - matches null string many times",do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "%" "d%" "lu" "%4p" " is forbidden - matches null string many times" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)(((pRExC_state->parse) >= origparse ? (pRExC_state-> parse) - origparse : 0)), (void*)(origparse), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12831, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0) |
12828 | UTF8fARG(UTF, (RExC_parse >= origparsedo { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "%" "d%" "lu" "%4p" " is forbidden - matches null string many times" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)(((pRExC_state->parse) >= origparse ? (pRExC_state-> parse) - origparse : 0)), (void*)(origparse), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12831, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0) |
12829 | ? RExC_parse - origparsedo { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "%" "d%" "lu" "%4p" " is forbidden - matches null string many times" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)(((pRExC_state->parse) >= origparse ? (pRExC_state-> parse) - origparse : 0)), (void*)(origparse), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12831, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0) |
12830 | : 0),do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "%" "d%" "lu" "%4p" " is forbidden - matches null string many times" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)(((pRExC_state->parse) >= origparse ? (pRExC_state-> parse) - origparse : 0)), (void*)(origparse), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12831, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0) |
12831 | origparse))do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "%" "d%" "lu" "%4p" " is forbidden - matches null string many times" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)(((pRExC_state->parse) >= origparse ? (pRExC_state-> parse) - origparse : 0)), (void*)(origparse), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12831, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); |
12832 | /* NOT-REACHED */ |
12833 | } else { |
12834 | ckWARN2reg(RExC_parse,do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 12839, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "%" "d%" "lu" "%4p" " matches null string many times" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)(((pRExC_state->parse) >= origparse ? (pRExC_state-> parse) - origparse : 0)), (void*)(origparse), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12839, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
12835 | "%" UTF8f " matches null string many times",do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 12839, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "%" "d%" "lu" "%4p" " matches null string many times" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)(((pRExC_state->parse) >= origparse ? (pRExC_state-> parse) - origparse : 0)), (void*)(origparse), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12839, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
12836 | UTF8fARG(UTF, (RExC_parse >= origparsedo { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 12839, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "%" "d%" "lu" "%4p" " matches null string many times" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)(((pRExC_state->parse) >= origparse ? (pRExC_state-> parse) - origparse : 0)), (void*)(origparse), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12839, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
12837 | ? RExC_parse - origparsedo { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 12839, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "%" "d%" "lu" "%4p" " matches null string many times" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)(((pRExC_state->parse) >= origparse ? (pRExC_state-> parse) - origparse : 0)), (void*)(origparse), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12839, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
12838 | : 0),do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 12839, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "%" "d%" "lu" "%4p" " matches null string many times" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)(((pRExC_state->parse) >= origparse ? (pRExC_state-> parse) - origparse : 0)), (void*)(origparse), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12839, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
12839 | origparse))do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 12839, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "%" "d%" "lu" "%4p" " matches null string many times" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)(((pRExC_state->parse) >= origparse ? (pRExC_state-> parse) - origparse : 0)), (void*)(origparse), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12839, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); |
12840 | } |
12841 | } |
12842 | |
12843 | if (*RExC_parse(pRExC_state->parse) == '?') { |
12844 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
12845 | reginsert(pRExC_state, MINMOD, ret, depth+1)S_reginsert( pRExC_state,85,ret,depth+1); |
12846 | if (! REGTAIL(pRExC_state, ret, ret + NODE_STEP_REGNODE)S_regtail( (pRExC_state),(ret),(ret + 1),depth+1)) { |
12847 | REQUIRE_BRANCHJ(flagp, 0)do { (pRExC_state->use_BRANCHJ) = 1; *flagp |= 0x20; return 0; } while (0); |
12848 | } |
12849 | } |
12850 | else if (*RExC_parse(pRExC_state->parse) == '+') { |
12851 | regnode_offset ender; |
12852 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
12853 | ender = reg_node(pRExC_state, SUCCEED)S_reg_node( pRExC_state,1); |
12854 | if (! REGTAIL(pRExC_state, ret, ender)S_regtail( (pRExC_state),(ret),(ender),depth+1)) { |
12855 | REQUIRE_BRANCHJ(flagp, 0)do { (pRExC_state->use_BRANCHJ) = 1; *flagp |= 0x20; return 0; } while (0); |
12856 | } |
12857 | reginsert(pRExC_state, SUSPEND, ret, depth+1)S_reginsert( pRExC_state,81,ret,depth+1); |
12858 | ender = reg_node(pRExC_state, TAIL)S_reg_node( pRExC_state,55); |
12859 | if (! REGTAIL(pRExC_state, ret, ender)S_regtail( (pRExC_state),(ret),(ender),depth+1)) { |
12860 | REQUIRE_BRANCHJ(flagp, 0)do { (pRExC_state->use_BRANCHJ) = 1; *flagp |= 0x20; return 0; } while (0); |
12861 | } |
12862 | } |
12863 | |
12864 | if (ISMULT2(RExC_parse)((*(pRExC_state->parse)) == '*' || (*(pRExC_state->parse )) == '+' || (*(pRExC_state->parse)) == '?' || ((*(pRExC_state ->parse)) == '{' && S_regcurly((pRExC_state->parse ))))) { |
12865 | RExC_parse(pRExC_state->parse)++; |
12866 | vFAIL("Nested quantifiers")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Nested quantifiers", (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 12866, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
12867 | } |
12868 | |
12869 | return(ret); |
12870 | } |
12871 | |
12872 | STATICstatic bool_Bool |
12873 | S_grok_bslash_N(pTHX_ RExC_state_t *pRExC_state, |
12874 | regnode_offset * node_p, |
12875 | UV * code_point_p, |
12876 | int * cp_count, |
12877 | I32 * flagp, |
12878 | const bool_Bool strict, |
12879 | const U32 depth |
12880 | ) |
12881 | { |
12882 | /* This routine teases apart the various meanings of \N and returns |
12883 | * accordingly. The input parameters constrain which meaning(s) is/are valid |
12884 | * in the current context. |
12885 | * |
12886 | * Exactly one of <node_p> and <code_point_p> must be non-NULL. |
12887 | * |
12888 | * If <code_point_p> is not NULL, the context is expecting the result to be a |
12889 | * single code point. If this \N instance turns out to a single code point, |
12890 | * the function returns TRUE and sets *code_point_p to that code point. |
12891 | * |
12892 | * If <node_p> is not NULL, the context is expecting the result to be one of |
12893 | * the things representable by a regnode. If this \N instance turns out to be |
12894 | * one such, the function generates the regnode, returns TRUE and sets *node_p |
12895 | * to point to the offset of that regnode into the regex engine program being |
12896 | * compiled. |
12897 | * |
12898 | * If this instance of \N isn't legal in any context, this function will |
12899 | * generate a fatal error and not return. |
12900 | * |
12901 | * On input, RExC_parse should point to the first char following the \N at the |
12902 | * time of the call. On successful return, RExC_parse will have been updated |
12903 | * to point to just after the sequence identified by this routine. Also |
12904 | * *flagp has been updated as needed. |
12905 | * |
12906 | * When there is some problem with the current context and this \N instance, |
12907 | * the function returns FALSE, without advancing RExC_parse, nor setting |
12908 | * *node_p, nor *code_point_p, nor *flagp. |
12909 | * |
12910 | * If <cp_count> is not NULL, the caller wants to know the length (in code |
12911 | * points) that this \N sequence matches. This is set, and the input is |
12912 | * parsed for errors, even if the function returns FALSE, as detailed below. |
12913 | * |
12914 | * There are 6 possibilities here, as detailed in the next 6 paragraphs. |
12915 | * |
12916 | * Probably the most common case is for the \N to specify a single code point. |
12917 | * *cp_count will be set to 1, and *code_point_p will be set to that code |
12918 | * point. |
12919 | * |
12920 | * Another possibility is for the input to be an empty \N{}. This is no |
12921 | * longer accepted, and will generate a fatal error. |
12922 | * |
12923 | * Another possibility is for a custom charnames handler to be in effect which |
12924 | * translates the input name to an empty string. *cp_count will be set to 0. |
12925 | * *node_p will be set to a generated NOTHING node. |
12926 | * |
12927 | * Still another possibility is for the \N to mean [^\n]. *cp_count will be |
12928 | * set to 0. *node_p will be set to a generated REG_ANY node. |
12929 | * |
12930 | * The fifth possibility is that \N resolves to a sequence of more than one |
12931 | * code points. *cp_count will be set to the number of code points in the |
12932 | * sequence. *node_p will be set to a generated node returned by this |
12933 | * function calling S_reg(). |
12934 | * |
12935 | * The final possibility is that it is premature to be calling this function; |
12936 | * the parse needs to be restarted. This can happen when this changes from |
12937 | * /d to /u rules, or when the pattern needs to be upgraded to UTF-8. The |
12938 | * latter occurs only when the fifth possibility would otherwise be in |
12939 | * effect, and is because one of those code points requires the pattern to be |
12940 | * recompiled as UTF-8. The function returns FALSE, and sets the |
12941 | * RESTART_PARSE and NEED_UTF8 flags in *flagp, as appropriate. When this |
12942 | * happens, the caller needs to desist from continuing parsing, and return |
12943 | * this information to its caller. This is not set for when there is only one |
12944 | * code point, as this can be called as part of an ANYOF node, and they can |
12945 | * store above-Latin1 code points without the pattern having to be in UTF-8. |
12946 | * |
12947 | * For non-single-quoted regexes, the tokenizer has resolved character and |
12948 | * sequence names inside \N{...} into their Unicode values, normalizing the |
12949 | * result into what we should see here: '\N{U+c1.c2...}', where c1... are the |
12950 | * hex-represented code points in the sequence. This is done there because |
12951 | * the names can vary based on what charnames pragma is in scope at the time, |
12952 | * so we need a way to take a snapshot of what they resolve to at the time of |
12953 | * the original parse. [perl #56444]. |
12954 | * |
12955 | * That parsing is skipped for single-quoted regexes, so here we may get |
12956 | * '\N{NAME}', which is parsed now. If the single-quoted regex is something |
12957 | * like '\N{U+41}', that code point is Unicode, and has to be translated into |
12958 | * the native character set for non-ASCII platforms. The other possibilities |
12959 | * are already native, so no translation is done. */ |
12960 | |
12961 | char * endbrace; /* points to '}' following the name */ |
12962 | char* p = RExC_parse(pRExC_state->parse); /* Temporary */ |
12963 | |
12964 | SV * substitute_parse = NULL((void*)0); |
12965 | char *orig_end; |
12966 | char *save_start; |
12967 | I32 flags; |
12968 | |
12969 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 12969, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 12969, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
12970 | |
12971 | PERL_ARGS_ASSERT_GROK_BSLASH_N((pRExC_state) ? (void)0 : __assert2("re_comp.c", 12971, __func__ , "pRExC_state")); ((flagp) ? (void)0 : __assert2("re_comp.c" , 12971, __func__, "flagp")); |
12972 | |
12973 | assert(cBOOL(node_p) ^ cBOOL(code_point_p))((((node_p) ? (_Bool)1 : (_Bool)0) ^ ((code_point_p) ? (_Bool )1 : (_Bool)0)) ? (void)0 : __assert2("re_comp.c", 12973, __func__ , "cBOOL(node_p) ^ cBOOL(code_point_p)")); /* Exactly one should be set */ |
12974 | assert(! (node_p && cp_count))((! (node_p && cp_count)) ? (void)0 : __assert2("re_comp.c" , 12974, __func__, "! (node_p && cp_count)")); /* At most 1 should be set */ |
12975 | |
12976 | if (cp_count) { /* Initialize return for the most common case */ |
12977 | *cp_count = 1; |
12978 | } |
12979 | |
12980 | /* The [^\n] meaning of \N ignores spaces and comments under the /x |
12981 | * modifier. The other meanings do not, so use a temporary until we find |
12982 | * out which we are being called with */ |
12983 | skip_to_be_ignored_text(pRExC_state, &p,S_skip_to_be_ignored_text( pRExC_state,&p,(0)) |
12984 | FALSE /* Don't force to /x */ )S_skip_to_be_ignored_text( pRExC_state,&p,(0)); |
12985 | |
12986 | /* Disambiguate between \N meaning a named character versus \N meaning |
12987 | * [^\n]. The latter is assumed when the {...} following the \N is a legal |
12988 | * quantifier, or if there is no '{' at all */ |
12989 | if (*p != '{' || regcurlyS_regcurly(p)) { |
12990 | RExC_parse(pRExC_state->parse) = p; |
12991 | if (cp_count) { |
12992 | *cp_count = -1; |
12993 | } |
12994 | |
12995 | if (! node_p) { |
12996 | return FALSE(0); |
12997 | } |
12998 | |
12999 | *node_p = reg_node(pRExC_state, REG_ANY)S_reg_node( pRExC_state,16); |
13000 | *flagp |= HASWIDTH0x01|SIMPLE0x02; |
13001 | MARK_NAUGHTY(1)if ((pRExC_state->naughty) < (10)) (pRExC_state->naughty ) += (1); |
13002 | Set_Node_Length(REGNODE_p(*(node_p)), 1)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 13002, (int )(((((pRExC_state->emit_start) + (*(node_p)))) - (pRExC_state ->emit_start))), (int)(1));} while (0); if((((((pRExC_state ->emit_start) + (*(node_p)))) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((((pRExC_state->emit_start) + (*(node_p)))) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (*(node_p)))) - (pRExC_state ->emit_start)))] = (1); } } while (0); /* MJD */ |
13003 | return TRUE(1); |
13004 | } |
13005 | |
13006 | /* The test above made sure that the next real character is a '{', but |
13007 | * under the /x modifier, it could be separated by space (or a comment and |
13008 | * \n) and this is not allowed (for consistency with \x{...} and the |
13009 | * tokenizer handling of \N{NAME}). */ |
13010 | if (*RExC_parse(pRExC_state->parse) != '{') { |
13011 | vFAIL("Missing braces on \\N{}")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Missing braces on \\N{}", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13011, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
13012 | } |
13013 | |
13014 | RExC_parse(pRExC_state->parse)++; /* Skip past the '{' */ |
13015 | |
13016 | endbrace = (char *) memchr(RExC_parse(pRExC_state->parse), '}', RExC_end(pRExC_state->end) - RExC_parse(pRExC_state->parse)); |
13017 | if (! endbrace) { /* no trailing brace */ |
13018 | vFAIL2("Missing right brace on \\%c{}", 'N')do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Missing right brace on \\%c{}" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", 'N', (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13018, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
13019 | } |
13020 | |
13021 | /* Here, we have decided it should be a named character or sequence. These |
13022 | * imply Unicode semantics */ |
13023 | REQUIRE_UNI_RULES(flagp, FALSE)do { if ((get_regex_charset((pRExC_state->flags)) == REGEX_DEPENDS_CHARSET )) { set_regex_charset(&(pRExC_state->flags), REGEX_UNICODE_CHARSET ); (pRExC_state->uni_semantics) = 1; if ((pRExC_state-> seen_d_op) && __builtin_expect(((! ((pRExC_state-> total_par) < 0)) ? (_Bool)1 : (_Bool)0),(1))) { *flagp |= 0x20 ; return (0); } } } while (0); |
13024 | |
13025 | /* \N{_} is what toke.c returns to us to indicate a name that evaluates to |
13026 | * nothing at all (not allowed under strict) */ |
13027 | if (endbrace - RExC_parse(pRExC_state->parse) == 1 && *RExC_parse(pRExC_state->parse) == '_') { |
13028 | RExC_parse(pRExC_state->parse) = endbrace; |
13029 | if (strict) { |
13030 | RExC_parse(pRExC_state->parse)++; /* Position after the "}" */ |
13031 | vFAIL("Zero length \\N{}")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Zero length \\N{}", (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13031, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
13032 | } |
13033 | |
13034 | if (cp_count) { |
13035 | *cp_count = 0; |
13036 | } |
13037 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
13038 | if (! node_p) { |
13039 | return FALSE(0); |
13040 | } |
13041 | |
13042 | *node_p = reg_node(pRExC_state, NOTHING)S_reg_node( pRExC_state,54); |
13043 | return TRUE(1); |
13044 | } |
13045 | |
13046 | if (endbrace - RExC_parse(pRExC_state->parse) < 2 || ! strBEGINs(RExC_parse, "U+")(strncmp((pRExC_state->parse),"" "U+" "", sizeof("U+")-1) == 0)) { |
13047 | |
13048 | /* Here, the name isn't of the form U+.... This can happen if the |
13049 | * pattern is single-quoted, so didn't get evaluated in toke.c. Now |
13050 | * is the time to find out what the name means */ |
13051 | |
13052 | const STRLEN name_len = endbrace - RExC_parse(pRExC_state->parse); |
13053 | SV * value_sv; /* What does this name evaluate to */ |
13054 | SV ** value_svp; |
13055 | const U8 * value; /* string of name's value */ |
13056 | STRLEN value_len; /* and its length */ |
13057 | |
13058 | /* RExC_unlexed_names is a hash of names that weren't evaluated by |
13059 | * toke.c, and their values. Make sure is initialized */ |
13060 | if (! RExC_unlexed_names(pRExC_state->unlexed_names)) { |
13061 | RExC_unlexed_names(pRExC_state->unlexed_names) = newHV()((HV *)({ void *_p = (Perl_newSV_type( SVt_PVHV)); _p; })); |
13062 | } |
13063 | |
13064 | /* If we have already seen this name in this pattern, use that. This |
13065 | * allows us to only call the charnames handler once per name per |
13066 | * pattern. A broken or malicious handler could return something |
13067 | * different each time, which could cause the results to vary depending |
13068 | * on if something gets added or subtracted from the pattern that |
13069 | * causes the number of passes to change, for example */ |
13070 | if ((value_svp = hv_fetch(RExC_unlexed_names, RExC_parse,((SV**) Perl_hv_common_key_len( ((pRExC_state->unlexed_names )),((pRExC_state->parse)),(name_len),(0) ? (0x20 | 0x10) : 0x20,((void*)0),0)) |
13071 | name_len, 0)((SV**) Perl_hv_common_key_len( ((pRExC_state->unlexed_names )),((pRExC_state->parse)),(name_len),(0) ? (0x20 | 0x10) : 0x20,((void*)0),0)))) |
13072 | { |
13073 | value_sv = *value_svp; |
13074 | } |
13075 | else { /* Otherwise we have to go out and get the name */ |
13076 | const char * error_msg = NULL((void*)0); |
13077 | value_sv = get_and_check_backslash_N_name(RExC_parse, endbrace,Perl_get_and_check_backslash_N_name( (pRExC_state->parse), endbrace,(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0),& error_msg) |
13078 | UTF,Perl_get_and_check_backslash_N_name( (pRExC_state->parse), endbrace,(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0),& error_msg) |
13079 | &error_msg)Perl_get_and_check_backslash_N_name( (pRExC_state->parse), endbrace,(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0),& error_msg); |
13080 | if (error_msg) { |
13081 | RExC_parse(pRExC_state->parse) = endbrace; |
13082 | vFAIL(error_msg)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", error_msg, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 13082, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
13083 | } |
13084 | |
13085 | /* If no error message, should have gotten a valid return */ |
13086 | assert (value_sv)((value_sv) ? (void)0 : __assert2("re_comp.c", 13086, __func__ , "value_sv")); |
13087 | |
13088 | /* Save the name's meaning for later use */ |
13089 | if (! hv_store(RExC_unlexed_names, RExC_parse, name_len,((SV**) Perl_hv_common_key_len( ((pRExC_state->unlexed_names )),((pRExC_state->parse)),(name_len),(0x04|0x20),(value_sv ),(0))) |
13090 | value_sv, 0)((SV**) Perl_hv_common_key_len( ((pRExC_state->unlexed_names )),((pRExC_state->parse)),(name_len),(0x04|0x20),(value_sv ),(0)))) |
13091 | { |
13092 | Perl_croak(aTHX_ "panic: hv_store() unexpectedly failed"); |
13093 | } |
13094 | } |
13095 | |
13096 | /* Here, we have the value the name evaluates to in 'value_sv' */ |
13097 | value = (U8 *) SvPV(value_sv, value_len)((((value_sv)->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((value_len = (*({ const SV *const _svcur = (const SV *)( value_sv); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 13097, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 13097, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 13097, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))), (*({ SV *const _svpvx = ((SV *)({ void * _p = (value_sv); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 13097, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 13097, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 13097, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))) : Perl_sv_2pv_flags ( value_sv,&value_len,2)); |
13098 | |
13099 | /* See if the result is one code point vs 0 or multiple */ |
13100 | if (inRANGE(value_len, 1, ((UV) SvUTF8(value_sv)((((((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip [*(const U8*)(value)] : 1)) >= (1)) ? (void)0 : __assert2( "re_comp.c", 13102, __func__, "(((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip[*(const U8*)(value)] : 1)) >= (1)" )), ( (sizeof(value_len) == sizeof(U8)) ? ((((NV) ((1)) >= 0) ? (void)0 : __assert2("re_comp.c", 13102, __func__, "(NV) ((1)) >= 0" )), (((NV) (((((UV) ((value_sv)->sv_flags & 0x20000000 ) ? PL_utf8skip[*(const U8*)(value)] : 1)) - (1))) >= 0) ? (void)0 : __assert2("re_comp.c", 13102, __func__, "(NV) (((((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip[*(const U8*)(value)] : 1)) - (1))) >= 0" )), (((U64) (((((U8) (value_len)))) - (((1)) | 0))) <= ((( U64) ((((((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip [*(const U8*)(value)] : 1)) - (1))) | 0))))) : (sizeof(value_len ) == sizeof(U32)) ? ((((NV) ((1)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 13102, __func__, "(NV) ((1)) >= 0")), (((NV) (((((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip [*(const U8*)(value)] : 1)) - (1))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 13102, __func__, "(NV) (((((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip[*(const U8*)(value)] : 1)) - (1))) >= 0" )), (((U64) (((((U32) (value_len)))) - (((1)) | 0))) <= (( (U64) ((((((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip [*(const U8*)(value)] : 1)) - (1))) | 0))))) : (((sizeof(value_len ) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 13102, __func__ , "sizeof(value_len) == sizeof(U64)")), ((((NV) ((1)) >= 0 ) ? (void)0 : __assert2("re_comp.c", 13102, __func__, "(NV) ((1)) >= 0" )), (((NV) (((((UV) ((value_sv)->sv_flags & 0x20000000 ) ? PL_utf8skip[*(const U8*)(value)] : 1)) - (1))) >= 0) ? (void)0 : __assert2("re_comp.c", 13102, __func__, "(NV) (((((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip[*(const U8*)(value)] : 1)) - (1))) >= 0" )), (((U64) (((((U64) (value_len)))) - (((1)) | 0))) <= (( (U64) ((((((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip [*(const U8*)(value)] : 1)) - (1))) | 0)))))))) |
13101 | ? UTF8SKIP(value)((((((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip [*(const U8*)(value)] : 1)) >= (1)) ? (void)0 : __assert2( "re_comp.c", 13102, __func__, "(((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip[*(const U8*)(value)] : 1)) >= (1)" )), ( (sizeof(value_len) == sizeof(U8)) ? ((((NV) ((1)) >= 0) ? (void)0 : __assert2("re_comp.c", 13102, __func__, "(NV) ((1)) >= 0" )), (((NV) (((((UV) ((value_sv)->sv_flags & 0x20000000 ) ? PL_utf8skip[*(const U8*)(value)] : 1)) - (1))) >= 0) ? (void)0 : __assert2("re_comp.c", 13102, __func__, "(NV) (((((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip[*(const U8*)(value)] : 1)) - (1))) >= 0" )), (((U64) (((((U8) (value_len)))) - (((1)) | 0))) <= ((( U64) ((((((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip [*(const U8*)(value)] : 1)) - (1))) | 0))))) : (sizeof(value_len ) == sizeof(U32)) ? ((((NV) ((1)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 13102, __func__, "(NV) ((1)) >= 0")), (((NV) (((((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip [*(const U8*)(value)] : 1)) - (1))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 13102, __func__, "(NV) (((((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip[*(const U8*)(value)] : 1)) - (1))) >= 0" )), (((U64) (((((U32) (value_len)))) - (((1)) | 0))) <= (( (U64) ((((((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip [*(const U8*)(value)] : 1)) - (1))) | 0))))) : (((sizeof(value_len ) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 13102, __func__ , "sizeof(value_len) == sizeof(U64)")), ((((NV) ((1)) >= 0 ) ? (void)0 : __assert2("re_comp.c", 13102, __func__, "(NV) ((1)) >= 0" )), (((NV) (((((UV) ((value_sv)->sv_flags & 0x20000000 ) ? PL_utf8skip[*(const U8*)(value)] : 1)) - (1))) >= 0) ? (void)0 : __assert2("re_comp.c", 13102, __func__, "(NV) (((((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip[*(const U8*)(value)] : 1)) - (1))) >= 0" )), (((U64) (((((U64) (value_len)))) - (((1)) | 0))) <= (( (U64) ((((((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip [*(const U8*)(value)] : 1)) - (1))) | 0)))))))) |
13102 | : 1))((((((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip [*(const U8*)(value)] : 1)) >= (1)) ? (void)0 : __assert2( "re_comp.c", 13102, __func__, "(((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip[*(const U8*)(value)] : 1)) >= (1)" )), ( (sizeof(value_len) == sizeof(U8)) ? ((((NV) ((1)) >= 0) ? (void)0 : __assert2("re_comp.c", 13102, __func__, "(NV) ((1)) >= 0" )), (((NV) (((((UV) ((value_sv)->sv_flags & 0x20000000 ) ? PL_utf8skip[*(const U8*)(value)] : 1)) - (1))) >= 0) ? (void)0 : __assert2("re_comp.c", 13102, __func__, "(NV) (((((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip[*(const U8*)(value)] : 1)) - (1))) >= 0" )), (((U64) (((((U8) (value_len)))) - (((1)) | 0))) <= ((( U64) ((((((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip [*(const U8*)(value)] : 1)) - (1))) | 0))))) : (sizeof(value_len ) == sizeof(U32)) ? ((((NV) ((1)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 13102, __func__, "(NV) ((1)) >= 0")), (((NV) (((((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip [*(const U8*)(value)] : 1)) - (1))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 13102, __func__, "(NV) (((((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip[*(const U8*)(value)] : 1)) - (1))) >= 0" )), (((U64) (((((U32) (value_len)))) - (((1)) | 0))) <= (( (U64) ((((((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip [*(const U8*)(value)] : 1)) - (1))) | 0))))) : (((sizeof(value_len ) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 13102, __func__ , "sizeof(value_len) == sizeof(U64)")), ((((NV) ((1)) >= 0 ) ? (void)0 : __assert2("re_comp.c", 13102, __func__, "(NV) ((1)) >= 0" )), (((NV) (((((UV) ((value_sv)->sv_flags & 0x20000000 ) ? PL_utf8skip[*(const U8*)(value)] : 1)) - (1))) >= 0) ? (void)0 : __assert2("re_comp.c", 13102, __func__, "(NV) (((((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip[*(const U8*)(value)] : 1)) - (1))) >= 0" )), (((U64) (((((U64) (value_len)))) - (((1)) | 0))) <= (( (U64) ((((((UV) ((value_sv)->sv_flags & 0x20000000) ? PL_utf8skip [*(const U8*)(value)] : 1)) - (1))) | 0))))))))) |
13103 | { |
13104 | /* Here, exactly one code point. If that isn't what is wanted, |
13105 | * fail */ |
13106 | if (! code_point_p) { |
13107 | RExC_parse(pRExC_state->parse) = p; |
13108 | return FALSE(0); |
13109 | } |
13110 | |
13111 | /* Convert from string to numeric code point */ |
13112 | *code_point_p = (SvUTF8(value_sv)((value_sv)->sv_flags & 0x20000000)) |
13113 | ? valid_utf8_to_uvchrPerl_valid_utf8_to_uvchr(value, NULL((void*)0)) |
13114 | : *value; |
13115 | |
13116 | /* Have parsed this entire single code point \N{...}. *cp_count |
13117 | * has already been set to 1, so don't do it again. */ |
13118 | RExC_parse(pRExC_state->parse) = endbrace; |
13119 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
13120 | return TRUE(1); |
13121 | } /* End of is a single code point */ |
13122 | |
13123 | /* Count the code points, if caller desires. The API says to do this |
13124 | * even if we will later return FALSE */ |
13125 | if (cp_count) { |
13126 | *cp_count = 0; |
13127 | |
13128 | *cp_count = (SvUTF8(value_sv)((value_sv)->sv_flags & 0x20000000)) |
13129 | ? utf8_length(value, value + value_len)Perl_utf8_length( value,value + value_len) |
13130 | : value_len; |
13131 | } |
13132 | |
13133 | /* Fail if caller doesn't want to handle a multi-code-point sequence. |
13134 | * But don't back the pointer up if the caller wants to know how many |
13135 | * code points there are (they need to handle it themselves in this |
13136 | * case). */ |
13137 | if (! node_p) { |
13138 | if (! cp_count) { |
13139 | RExC_parse(pRExC_state->parse) = p; |
13140 | } |
13141 | return FALSE(0); |
13142 | } |
13143 | |
13144 | /* Convert this to a sub-pattern of the form "(?: ... )", and then call |
13145 | * reg recursively to parse it. That way, it retains its atomicness, |
13146 | * while not having to worry about any special handling that some code |
13147 | * points may have. */ |
13148 | |
13149 | substitute_parse = newSVpvs("?:")Perl_newSVpvn( ("" "?:" ""), (sizeof("?:")-1)); |
13150 | sv_catsv(substitute_parse, value_sv)Perl_sv_catsv_flags( substitute_parse,value_sv,2); |
13151 | sv_catpv(substitute_parse, ")")Perl_sv_catpv( substitute_parse,")"); |
13152 | |
13153 | /* The value should already be native, so no need to convert on EBCDIC |
13154 | * platforms.*/ |
13155 | assert(! RExC_recode_x_to_native)((! (pRExC_state->recode_x_to_native)) ? (void)0 : __assert2 ("re_comp.c", 13155, __func__, "! RExC_recode_x_to_native")); |
13156 | |
13157 | } |
13158 | else { /* \N{U+...} */ |
13159 | Size_tsize_t count = 0; /* code point count kept internally */ |
13160 | |
13161 | /* We can get to here when the input is \N{U+...} or when toke.c has |
13162 | * converted a name to the \N{U+...} form. This include changing a |
13163 | * name that evaluates to multiple code points to \N{U+c1.c2.c3 ...} */ |
13164 | |
13165 | RExC_parse(pRExC_state->parse) += 2; /* Skip past the 'U+' */ |
13166 | |
13167 | /* Code points are separated by dots. The '}' terminates the whole |
13168 | * thing. */ |
13169 | |
13170 | do { /* Loop until the ending brace */ |
13171 | I32 flags = PERL_SCAN_SILENT_OVERFLOW0x80 |
13172 | | PERL_SCAN_SILENT_ILLDIGIT0x08 |
13173 | | PERL_SCAN_NOTIFY_ILLDIGIT0x40 |
13174 | | PERL_SCAN_ALLOW_MEDIAL_UNDERSCORES(0x100|0x01) |
13175 | | PERL_SCAN_DISALLOW_PREFIX0x02; |
13176 | STRLEN len = endbrace - RExC_parse(pRExC_state->parse); |
13177 | NV overflow_value; |
13178 | char * start_digit = RExC_parse(pRExC_state->parse); |
13179 | UV cp = grok_hex(RExC_parse, &len, &flags, &overflow_value)Perl_grok_bin_oct_hex( (pRExC_state->parse),&len,& flags,&overflow_value,4,12,'x'); |
13180 | |
13181 | if (len == 0) { |
13182 | RExC_parse(pRExC_state->parse)++; |
13183 | bad_NU: |
13184 | vFAIL("Invalid hexadecimal number in \\N{U+...}")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Invalid hexadecimal number in \\N{U+...}", ( int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13184, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
13185 | } |
13186 | |
13187 | RExC_parse(pRExC_state->parse) += len; |
13188 | |
13189 | if (cp > MAX_LEGAL_CP((UV)((IV) ((~(UV)0) >> 1)))) { |
13190 | vFAIL(form_cp_too_large_msg(16, start_digit, len, 0))do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", Perl_form_cp_too_large_msg( 16,start_digit,len ,0), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13190, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
13191 | } |
13192 | |
13193 | if (RExC_parse(pRExC_state->parse) >= endbrace) { /* Got to the closing '}' */ |
13194 | if (count) { |
13195 | goto do_concat; |
13196 | } |
13197 | |
13198 | /* Here, is a single code point; fail if doesn't want that */ |
13199 | if (! code_point_p) { |
13200 | RExC_parse(pRExC_state->parse) = p; |
13201 | return FALSE(0); |
13202 | } |
13203 | |
13204 | /* A single code point is easy to handle; just return it */ |
13205 | *code_point_p = UNI_TO_NATIVE(cp)((UV) ((cp) | 0)); |
13206 | RExC_parse(pRExC_state->parse) = endbrace; |
13207 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
13208 | return TRUE(1); |
13209 | } |
13210 | |
13211 | /* Here, the parse stopped bfore the ending brace. This is legal |
13212 | * only if that character is a dot separating code points, like a |
13213 | * multiple character sequence (of the form "\N{U+c1.c2. ... }". |
13214 | * So the next character must be a dot (and the one after that |
13215 | * can't be the endbrace, or we'd have something like \N{U+100.} ) |
13216 | * */ |
13217 | if (*RExC_parse(pRExC_state->parse) != '.' || RExC_parse(pRExC_state->parse) + 1 >= endbrace) { |
13218 | RExC_parse(pRExC_state->parse) += (RExC_orig_utf8(pRExC_state->orig_utf8)) /* point to after 1st invalid */ |
13219 | ? UTF8SKIP(RExC_parse)PL_utf8skip[*(const U8*)((pRExC_state->parse))] |
13220 | : 1; |
13221 | RExC_parse(pRExC_state->parse) = MIN(endbrace, RExC_parse)(((endbrace)<((pRExC_state->parse)))?(endbrace):((pRExC_state ->parse)));/* Guard against |
13222 | malformed utf8 */ |
13223 | goto bad_NU; |
13224 | } |
13225 | |
13226 | /* Here, looks like its really a multiple character sequence. Fail |
13227 | * if that's not what the caller wants. But continue with counting |
13228 | * and error checking if they still want a count */ |
13229 | if (! node_p && ! cp_count) { |
13230 | return FALSE(0); |
13231 | } |
13232 | |
13233 | /* What is done here is to convert this to a sub-pattern of the |
13234 | * form \x{char1}\x{char2}... and then call reg recursively to |
13235 | * parse it (enclosing in "(?: ... )" ). That way, it retains its |
13236 | * atomicness, while not having to worry about special handling |
13237 | * that some code points may have. We don't create a subpattern, |
13238 | * but go through the motions of code point counting and error |
13239 | * checking, if the caller doesn't want a node returned. */ |
13240 | |
13241 | if (node_p && ! substitute_parse) { |
13242 | substitute_parse = newSVpvs("?:")Perl_newSVpvn( ("" "?:" ""), (sizeof("?:")-1)); |
13243 | } |
13244 | |
13245 | do_concat: |
13246 | |
13247 | if (node_p) { |
13248 | /* Convert to notation the rest of the code understands */ |
13249 | sv_catpvs(substitute_parse, "\\x{")Perl_sv_catpvn_flags( substitute_parse, ("" "\\x{" ""), (sizeof ("\\x{")-1), 2); |
13250 | sv_catpvn(substitute_parse, start_digit,Perl_sv_catpvn_flags( substitute_parse,start_digit,(pRExC_state ->parse) - start_digit,2) |
13251 | RExC_parse - start_digit)Perl_sv_catpvn_flags( substitute_parse,start_digit,(pRExC_state ->parse) - start_digit,2); |
13252 | sv_catpvs(substitute_parse, "}")Perl_sv_catpvn_flags( substitute_parse, ("" "}" ""), (sizeof( "}")-1), 2); |
13253 | } |
13254 | |
13255 | /* Move to after the dot (or ending brace the final time through.) |
13256 | * */ |
13257 | RExC_parse(pRExC_state->parse)++; |
13258 | count++; |
13259 | |
13260 | } while (RExC_parse(pRExC_state->parse) < endbrace); |
13261 | |
13262 | if (! node_p) { /* Doesn't want the node */ |
13263 | assert (cp_count)((cp_count) ? (void)0 : __assert2("re_comp.c", 13263, __func__ , "cp_count")); |
13264 | |
13265 | *cp_count = count; |
13266 | return FALSE(0); |
13267 | } |
13268 | |
13269 | sv_catpvs(substitute_parse, ")")Perl_sv_catpvn_flags( substitute_parse, ("" ")" ""), (sizeof( ")")-1), 2); |
13270 | |
13271 | /* The values are Unicode, and therefore have to be converted to native |
13272 | * on a non-Unicode (meaning non-ASCII) platform. */ |
13273 | SET_recode_x_to_native(1)(void)0; |
13274 | } |
13275 | |
13276 | /* Here, we have the string the name evaluates to, ready to be parsed, |
13277 | * stored in 'substitute_parse' as a series of valid "\x{...}\x{...}" |
13278 | * constructs. This can be called from within a substitute parse already. |
13279 | * The error reporting mechanism doesn't work for 2 levels of this, but the |
13280 | * code above has validated this new construct, so there should be no |
13281 | * errors generated by the below. And this isn' an exact copy, so the |
13282 | * mechanism to seamlessly deal with this won't work, so turn off warnings |
13283 | * during it */ |
13284 | save_start = RExC_start(pRExC_state->start); |
13285 | orig_end = RExC_end(pRExC_state->end); |
13286 | |
13287 | RExC_parse(pRExC_state->parse) = RExC_start(pRExC_state->start) = SvPVX(substitute_parse)(*({ SV *const _svpvx = ((SV *)({ void *_p = (substitute_parse ); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 13287, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 13287, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 13287, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })); |
13288 | RExC_end(pRExC_state->end) = RExC_parse(pRExC_state->parse) + SvCUR(substitute_parse)(*({ const SV *const _svcur = (const SV *)(substitute_parse); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 13288, __func__ , "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]")); ((!( (((_svcur)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 13288, __func__, "!isGV_with_GP(_svcur)" )); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 13288, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })); |
13289 | TURN_OFF_WARNINGS_IN_SUBSTITUTE_PARSEdo { (pRExC_state->save_copy_start) = (pRExC_state->copy_start ); (pRExC_state->copy_start) = ((void*)0); } while (0); |
13290 | |
13291 | *node_p = reg(pRExC_state, 1, &flags, depth+1)S_reg( pRExC_state,1,&flags,depth+1); |
13292 | |
13293 | /* Restore the saved values */ |
13294 | RESTORE_WARNINGS(pRExC_state->copy_start) = (pRExC_state->save_copy_start ); |
13295 | RExC_start(pRExC_state->start) = save_start; |
13296 | RExC_parse(pRExC_state->parse) = endbrace; |
13297 | RExC_end(pRExC_state->end) = orig_end; |
13298 | SET_recode_x_to_native(0)(void)0; |
13299 | |
13300 | SvREFCNT_dec_NN(substitute_parse)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (substitute_parse) ; _p; }))); |
13301 | |
13302 | if (! *node_p) { |
13303 | RETURN_FAIL_ON_RESTART(flags, flagp)do { if ((flags) & (0x20|0x40|(0))) { *(flagp) = (flags) & (0x20|0x40|(0)); return 0; } } while (0); |
13304 | FAIL2("panic: reg returned failure to grok_bslash_N, flags=%#" UVxf,do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "panic: reg returned failure to grok_bslash_N, flags=%#" "lx" " in regex m/%" "d%" "lu" "%4p" "%s/", (UV) flags, (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp)) , ellipses); } while (0) |
13305 | (UV) flags)do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "panic: reg returned failure to grok_bslash_N, flags=%#" "lx" " in regex m/%" "d%" "lu" "%4p" "%s/", (UV) flags, (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp)) , ellipses); } while (0); |
13306 | } |
13307 | *flagp |= flags&(HASWIDTH0x01|SPSTART0x04|SIMPLE0x02|POSTPONED0x08); |
13308 | |
13309 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
13310 | |
13311 | return TRUE(1); |
13312 | } |
13313 | |
13314 | |
13315 | STATICstatic U8 |
13316 | S_compute_EXACTish(RExC_state_t *pRExC_state) |
13317 | { |
13318 | U8 op; |
13319 | |
13320 | PERL_ARGS_ASSERT_COMPUTE_EXACTISH((pRExC_state) ? (void)0 : __assert2("re_comp.c", 13320, __func__ , "pRExC_state")); |
13321 | |
13322 | if (! FOLD(((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool )1 : (_Bool)0)) { |
13323 | return (LOC(get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) |
13324 | ? EXACTL42 |
13325 | : EXACT40; |
13326 | } |
13327 | |
13328 | op = get_regex_charset(RExC_flags(pRExC_state->flags)); |
13329 | if (op >= REGEX_ASCII_RESTRICTED_CHARSET) { |
13330 | op--; /* /a is same as /u, and map /aa's offset to what /a's would have |
13331 | been, so there is no hole */ |
13332 | } |
13333 | |
13334 | return op + EXACTF43; |
13335 | } |
13336 | |
13337 | STATICstatic bool_Bool |
13338 | S_new_regcurly(const char *s, const char *e) |
13339 | { |
13340 | /* This is a temporary function designed to match the most lenient form of |
13341 | * a {m,n} quantifier we ever envision, with either number omitted, and |
13342 | * spaces anywhere between/before/after them. |
13343 | * |
13344 | * If this function fails, then the string it matches is very unlikely to |
13345 | * ever be considered a valid quantifier, so we can allow the '{' that |
13346 | * begins it to be considered as a literal */ |
13347 | |
13348 | bool_Bool has_min = FALSE(0); |
13349 | bool_Bool has_max = FALSE(0); |
13350 | |
13351 | PERL_ARGS_ASSERT_NEW_REGCURLY((s) ? (void)0 : __assert2("re_comp.c", 13351, __func__, "s") ); ((e) ? (void)0 : __assert2("re_comp.c", 13351, __func__, "e" )); |
13352 | |
13353 | if (s >= e || *s++ != '{') |
13354 | return FALSE(0); |
13355 | |
13356 | while (s < e && isSPACE(*s)(( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*s)] & ((1U << (10)) | (1U << (14)))) == ((1U << (10)) | (1U << (14)))))) { |
13357 | s++; |
13358 | } |
13359 | while (s < e && isDIGIT(*s)(((('9') >= ('0')) ? (void)0 : __assert2("re_comp.c", 13359 , __func__, "('9') >= ('0')")), ( (sizeof(*s) == sizeof(U8 )) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 13359, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 13359, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U8) (*s))) ) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0))))) : (sizeof(*s) == sizeof(U32)) ? ((((NV) (('0')) >= 0) ? ( void)0 : __assert2("re_comp.c", 13359, __func__, "(NV) (('0')) >= 0" )), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 13359, __func__, "(NV) ((('9') - ('0'))) >= 0")), (((U64 ) (((((U32) (*s)))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0))))) : (((sizeof(*s) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 13359, __func__, "sizeof(*s) == sizeof(U64)" )), ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 13359, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 13359, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U64) (*s)) )) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0)))) ))))) { |
13360 | has_min = TRUE(1); |
13361 | s++; |
13362 | } |
13363 | while (s < e && isSPACE(*s)(( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*s)] & ((1U << (10)) | (1U << (14)))) == ((1U << (10)) | (1U << (14)))))) { |
13364 | s++; |
13365 | } |
13366 | |
13367 | if (*s == ',') { |
13368 | s++; |
13369 | while (s < e && isSPACE(*s)(( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*s)] & ((1U << (10)) | (1U << (14)))) == ((1U << (10)) | (1U << (14)))))) { |
13370 | s++; |
13371 | } |
13372 | while (s < e && isDIGIT(*s)(((('9') >= ('0')) ? (void)0 : __assert2("re_comp.c", 13372 , __func__, "('9') >= ('0')")), ( (sizeof(*s) == sizeof(U8 )) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 13372, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 13372, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U8) (*s))) ) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0))))) : (sizeof(*s) == sizeof(U32)) ? ((((NV) (('0')) >= 0) ? ( void)0 : __assert2("re_comp.c", 13372, __func__, "(NV) (('0')) >= 0" )), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 13372, __func__, "(NV) ((('9') - ('0'))) >= 0")), (((U64 ) (((((U32) (*s)))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0))))) : (((sizeof(*s) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 13372, __func__, "sizeof(*s) == sizeof(U64)" )), ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 13372, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 13372, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U64) (*s)) )) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0)))) ))))) { |
13373 | has_max = TRUE(1); |
13374 | s++; |
13375 | } |
13376 | while (s < e && isSPACE(*s)(( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*s)] & ((1U << (10)) | (1U << (14)))) == ((1U << (10)) | (1U << (14)))))) { |
13377 | s++; |
13378 | } |
13379 | } |
13380 | |
13381 | return s < e && *s == '}' && (has_min || has_max); |
13382 | } |
13383 | |
13384 | /* Parse backref decimal value, unless it's too big to sensibly be a backref, |
13385 | * in which case return I32_MAX (rather than possibly 32-bit wrapping) */ |
13386 | |
13387 | static I32 |
13388 | S_backref_value(char *p, char *e) |
13389 | { |
13390 | const char* endptr = e; |
13391 | UV val; |
13392 | if (grok_atoUVPerl_grok_atoUV(p, &val, &endptr) && val <= I32_MAX0x7fffffff) |
13393 | return (I32)val; |
13394 | return I32_MAX0x7fffffff; |
13395 | } |
13396 | |
13397 | |
13398 | /* |
13399 | - regatom - the lowest level |
13400 | |
13401 | Try to identify anything special at the start of the current parse position. |
13402 | If there is, then handle it as required. This may involve generating a |
13403 | single regop, such as for an assertion; or it may involve recursing, such as |
13404 | to handle a () structure. |
13405 | |
13406 | If the string doesn't start with something special then we gobble up |
13407 | as much literal text as we can. If we encounter a quantifier, we have to |
13408 | back off the final literal character, as that quantifier applies to just it |
13409 | and not to the whole string of literals. |
13410 | |
13411 | Once we have been able to handle whatever type of thing started the |
13412 | sequence, we return the offset into the regex engine program being compiled |
13413 | at which any next regnode should be placed. |
13414 | |
13415 | Returns 0, setting *flagp to TRYAGAIN if reg() returns 0 with TRYAGAIN. |
13416 | Returns 0, setting *flagp to RESTART_PARSE if the parse needs to be |
13417 | restarted, or'd with NEED_UTF8 if the pattern needs to be upgraded to UTF-8 |
13418 | Otherwise does not return 0. |
13419 | |
13420 | Note: we have to be careful with escapes, as they can be both literal |
13421 | and special, and in the case of \10 and friends, context determines which. |
13422 | |
13423 | A summary of the code structure is: |
13424 | |
13425 | switch (first_byte) { |
13426 | cases for each special: |
13427 | handle this special; |
13428 | break; |
13429 | case '\\': |
13430 | switch (2nd byte) { |
13431 | cases for each unambiguous special: |
13432 | handle this special; |
13433 | break; |
13434 | cases for each ambigous special/literal: |
13435 | disambiguate; |
13436 | if (special) handle here |
13437 | else goto defchar; |
13438 | default: // unambiguously literal: |
13439 | goto defchar; |
13440 | } |
13441 | default: // is a literal char |
13442 | // FALL THROUGH |
13443 | defchar: |
13444 | create EXACTish node for literal; |
13445 | while (more input and node isn't full) { |
13446 | switch (input_byte) { |
13447 | cases for each special; |
13448 | make sure parse pointer is set so that the next call to |
13449 | regatom will see this special first |
13450 | goto loopdone; // EXACTish node terminated by prev. char |
13451 | default: |
13452 | append char to EXACTISH node; |
13453 | } |
13454 | get next input byte; |
13455 | } |
13456 | loopdone: |
13457 | } |
13458 | return the generated node; |
13459 | |
13460 | Specifically there are two separate switches for handling |
13461 | escape sequences, with the one for handling literal escapes requiring |
13462 | a dummy entry for all of the special escapes that are actually handled |
13463 | by the other. |
13464 | |
13465 | */ |
13466 | |
13467 | STATICstatic regnode_offset |
13468 | S_regatom(pTHX_ RExC_state_t *pRExC_state, I32 *flagp, U32 depth) |
13469 | { |
13470 | dVARstruct Perl___notused_struct; |
13471 | regnode_offset ret = 0; |
13472 | I32 flags = 0; |
13473 | char *parse_start; |
13474 | U8 op; |
13475 | int invert = 0; |
13476 | |
13477 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 13477, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 13477, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
13478 | |
13479 | *flagp = WORST0; /* Tentatively. */ |
13480 | |
13481 | DEBUG_PARSE("atom")do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (("atom")) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0); Perl_re_printf( "%4s" ,"\n"); };} while (0); |
13482 | |
13483 | PERL_ARGS_ASSERT_REGATOM((pRExC_state) ? (void)0 : __assert2("re_comp.c", 13483, __func__ , "pRExC_state")); ((flagp) ? (void)0 : __assert2("re_comp.c" , 13483, __func__, "flagp")); |
13484 | |
13485 | tryagain: |
13486 | parse_start = RExC_parse(pRExC_state->parse); |
13487 | assert(RExC_parse < RExC_end)(((pRExC_state->parse) < (pRExC_state->end)) ? (void )0 : __assert2("re_comp.c", 13487, __func__, "RExC_parse < RExC_end" )); |
13488 | switch ((U8)*RExC_parse(pRExC_state->parse)) { |
13489 | case '^': |
13490 | RExC_seen_zerolen(pRExC_state->seen_zerolen)++; |
13491 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
13492 | if (RExC_flags(pRExC_state->flags) & RXf_PMf_MULTILINE(1U << (0 +0))) |
13493 | ret = reg_node(pRExC_state, MBOL)S_reg_node( pRExC_state,3); |
13494 | else |
13495 | ret = reg_node(pRExC_state, SBOL)S_reg_node( pRExC_state,2); |
13496 | Set_Node_Length(REGNODE_p(ret), 1)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 13496, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)(1));} while (0); if((((((pRExC_state-> emit_start) + (ret))) - (pRExC_state->emit_start))) < 0 ) { Perl_croak( "value of node is %d in Length macro", (int)( ((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))] = (1); } } while (0); /* MJD */ |
13497 | break; |
13498 | case '$': |
13499 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
13500 | if (*RExC_parse(pRExC_state->parse)) |
13501 | RExC_seen_zerolen(pRExC_state->seen_zerolen)++; |
13502 | if (RExC_flags(pRExC_state->flags) & RXf_PMf_MULTILINE(1U << (0 +0))) |
13503 | ret = reg_node(pRExC_state, MEOL)S_reg_node( pRExC_state,5); |
13504 | else |
13505 | ret = reg_node(pRExC_state, SEOL)S_reg_node( pRExC_state,4); |
13506 | Set_Node_Length(REGNODE_p(ret), 1)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 13506, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)(1));} while (0); if((((((pRExC_state-> emit_start) + (ret))) - (pRExC_state->emit_start))) < 0 ) { Perl_croak( "value of node is %d in Length macro", (int)( ((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))] = (1); } } while (0); /* MJD */ |
13507 | break; |
13508 | case '.': |
13509 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
13510 | if (RExC_flags(pRExC_state->flags) & RXf_PMf_SINGLELINE(1U << (0 +1))) |
13511 | ret = reg_node(pRExC_state, SANY)S_reg_node( pRExC_state,17); |
13512 | else |
13513 | ret = reg_node(pRExC_state, REG_ANY)S_reg_node( pRExC_state,16); |
13514 | *flagp |= HASWIDTH0x01|SIMPLE0x02; |
13515 | MARK_NAUGHTY(1)if ((pRExC_state->naughty) < (10)) (pRExC_state->naughty ) += (1); |
13516 | Set_Node_Length(REGNODE_p(ret), 1)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 13516, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)(1));} while (0); if((((((pRExC_state-> emit_start) + (ret))) - (pRExC_state->emit_start))) < 0 ) { Perl_croak( "value of node is %d in Length macro", (int)( ((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))] = (1); } } while (0); /* MJD */ |
13517 | break; |
13518 | case '[': |
13519 | { |
13520 | char * const oregcomp_parse = ++RExC_parse(pRExC_state->parse); |
13521 | ret = regclass(pRExC_state, flagp, depth+1,S_regclass( pRExC_state,flagp,depth+1,(0),(1),(0),(_Bool) (pRExC_state ->strict),(1),((void*)0)) |
13522 | FALSE, /* means parse the whole char class */S_regclass( pRExC_state,flagp,depth+1,(0),(1),(0),(_Bool) (pRExC_state ->strict),(1),((void*)0)) |
13523 | TRUE, /* allow multi-char folds */S_regclass( pRExC_state,flagp,depth+1,(0),(1),(0),(_Bool) (pRExC_state ->strict),(1),((void*)0)) |
13524 | FALSE, /* don't silence non-portable warnings. */S_regclass( pRExC_state,flagp,depth+1,(0),(1),(0),(_Bool) (pRExC_state ->strict),(1),((void*)0)) |
13525 | (bool) RExC_strict,S_regclass( pRExC_state,flagp,depth+1,(0),(1),(0),(_Bool) (pRExC_state ->strict),(1),((void*)0)) |
13526 | TRUE, /* Allow an optimized regnode result */S_regclass( pRExC_state,flagp,depth+1,(0),(1),(0),(_Bool) (pRExC_state ->strict),(1),((void*)0)) |
13527 | NULL)S_regclass( pRExC_state,flagp,depth+1,(0),(1),(0),(_Bool) (pRExC_state ->strict),(1),((void*)0)); |
13528 | if (ret == 0) { |
13529 | RETURN_FAIL_ON_RESTART_FLAGP(flagp)if (((*(flagp)) & (0x20))) return 0; |
13530 | FAIL2("panic: regclass returned failure to regatom, flags=%#" UVxf,do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "panic: regclass returned failure to regatom, flags=%#" "lx" " in regex m/%" "d%" "lu" "%4p" "%s/", (UV) *flagp, (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp)) , ellipses); } while (0) |
13531 | (UV) *flagp)do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "panic: regclass returned failure to regatom, flags=%#" "lx" " in regex m/%" "d%" "lu" "%4p" "%s/", (UV) *flagp, (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp)) , ellipses); } while (0); |
13532 | } |
13533 | if (*RExC_parse(pRExC_state->parse) != ']') { |
13534 | RExC_parse(pRExC_state->parse) = oregcomp_parse; |
13535 | vFAIL("Unmatched [")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Unmatched [", (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 13535, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
13536 | } |
13537 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
13538 | Set_Node_Length(REGNODE_p(ret), RExC_parse - oregcomp_parse + 1)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 13538, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)((pRExC_state->parse) - oregcomp_parse + 1));} while (0); if((((((pRExC_state->emit_start) + (ret ))) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))] = ((pRExC_state->parse) - oregcomp_parse + 1); } } while (0); /* MJD */ |
13539 | break; |
13540 | } |
13541 | case '(': |
13542 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
13543 | ret = reg(pRExC_state, 2, &flags, depth+1)S_reg( pRExC_state,2,&flags,depth+1); |
13544 | if (ret == 0) { |
13545 | if (flags & TRYAGAIN0x10) { |
13546 | if (RExC_parse(pRExC_state->parse) >= RExC_end(pRExC_state->end)) { |
13547 | /* Make parent create an empty node if needed. */ |
13548 | *flagp |= TRYAGAIN0x10; |
13549 | return(0); |
13550 | } |
13551 | goto tryagain; |
13552 | } |
13553 | RETURN_FAIL_ON_RESTART(flags, flagp)do { if ((flags) & (0x20|0x40|(0))) { *(flagp) = (flags) & (0x20|0x40|(0)); return 0; } } while (0); |
13554 | FAIL2("panic: reg returned failure to regatom, flags=%#" UVxf,do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "panic: reg returned failure to regatom, flags=%#" "lx" " in regex m/%" "d%" "lu" "%4p" "%s/", (UV) flags, (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp)) , ellipses); } while (0) |
13555 | (UV) flags)do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "panic: reg returned failure to regatom, flags=%#" "lx" " in regex m/%" "d%" "lu" "%4p" "%s/", (UV) flags, (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp)) , ellipses); } while (0); |
13556 | } |
13557 | *flagp |= flags&(HASWIDTH0x01|SPSTART0x04|SIMPLE0x02|POSTPONED0x08); |
13558 | break; |
13559 | case '|': |
13560 | case ')': |
13561 | if (flags & TRYAGAIN0x10) { |
13562 | *flagp |= TRYAGAIN0x10; |
13563 | return 0; |
13564 | } |
13565 | vFAIL("Internal urp")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Internal urp", (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 13565, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
13566 | /* Supposed to be caught earlier. */ |
13567 | break; |
13568 | case '?': |
13569 | case '+': |
13570 | case '*': |
13571 | RExC_parse(pRExC_state->parse)++; |
13572 | vFAIL("Quantifier follows nothing")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Quantifier follows nothing", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13572, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
13573 | break; |
13574 | case '\\': |
13575 | /* Special Escapes |
13576 | |
13577 | This switch handles escape sequences that resolve to some kind |
13578 | of special regop and not to literal text. Escape sequences that |
13579 | resolve to literal text are handled below in the switch marked |
13580 | "Literal Escapes". |
13581 | |
13582 | Every entry in this switch *must* have a corresponding entry |
13583 | in the literal escape switch. However, the opposite is not |
13584 | required, as the default for this switch is to jump to the |
13585 | literal text handling code. |
13586 | */ |
13587 | RExC_parse(pRExC_state->parse)++; |
13588 | switch ((U8)*RExC_parse(pRExC_state->parse)) { |
13589 | /* Special Escapes */ |
13590 | case 'A': |
13591 | RExC_seen_zerolen(pRExC_state->seen_zerolen)++; |
13592 | /* Under wildcards, this is changed to match \n; should be |
13593 | * invisible to the user, as they have to compile under /m */ |
13594 | if (RExC_pm_flags(pRExC_state->pm_flags) & PMf_WILDCARD(1U<<(((0 +12)+2)+17))) { |
13595 | ret = reg_node(pRExC_state, MBOL)S_reg_node( pRExC_state,3); |
13596 | } |
13597 | else { |
13598 | ret = reg_node(pRExC_state, SBOL)S_reg_node( pRExC_state,2); |
13599 | /* SBOL is shared with /^/ so we set the flags so we can tell |
13600 | * /\A/ from /^/ in split. */ |
13601 | FLAGS(REGNODE_p(ret))((((pRExC_state->emit_start) + (ret)))->flags) = 1; |
13602 | *flagp |= SIMPLE0x02; /* Wrong, but too late to fix for 5.32 */ |
13603 | } |
13604 | goto finish_meta_pat; |
13605 | case 'G': |
13606 | if (RExC_pm_flags(pRExC_state->pm_flags) & PMf_WILDCARD(1U<<(((0 +12)+2)+17))) { |
13607 | RExC_parse(pRExC_state->parse)++; |
13608 | /* diag_listed_as: Use of %s is not allowed in Unicode property |
13609 | wildcard subpatterns in regex; marked by <-- HERE in m/%s/ |
13610 | */ |
13611 | vFAIL("Use of '\\G' is not allowed in Unicode property"do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Use of '\\G' is not allowed in Unicode property" " wildcard subpatterns", (int)(((((pRExC_state->utf8)) ? ( _Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 13612, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0) |
13612 | " wildcard subpatterns")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Use of '\\G' is not allowed in Unicode property" " wildcard subpatterns", (int)(((((pRExC_state->utf8)) ? ( _Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 13612, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
13613 | } |
13614 | ret = reg_node(pRExC_state, GPOS)S_reg_node( pRExC_state,7); |
13615 | RExC_seen(pRExC_state->seen) |= REG_GPOS_SEEN0x00000004; |
13616 | *flagp |= SIMPLE0x02; |
13617 | goto finish_meta_pat; |
13618 | case 'K': |
13619 | if (!RExC_in_lookaround(pRExC_state->in_lookaround)) { |
13620 | RExC_seen_zerolen(pRExC_state->seen_zerolen)++; |
13621 | ret = reg_node(pRExC_state, KEEPS)S_reg_node( pRExC_state,105); |
13622 | *flagp |= SIMPLE0x02; |
13623 | /* XXX:dmq : disabling in-place substitution seems to |
13624 | * be necessary here to avoid cases of memory corruption, as |
13625 | * with: C<$_="x" x 80; s/x\K/y/> -- rgs |
13626 | */ |
13627 | RExC_seen(pRExC_state->seen) |= REG_LOOKBEHIND_SEEN0x00000002; |
13628 | goto finish_meta_pat; |
13629 | } |
13630 | else { |
13631 | ++RExC_parse(pRExC_state->parse); /* advance past the 'K' */ |
13632 | vFAIL("\\K not permitted in lookahead/lookbehind")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "\\K not permitted in lookahead/lookbehind", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13632, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
13633 | } |
13634 | case 'Z': |
13635 | if (RExC_pm_flags(pRExC_state->pm_flags) & PMf_WILDCARD(1U<<(((0 +12)+2)+17))) { |
13636 | /* See comment under \A above */ |
13637 | ret = reg_node(pRExC_state, MEOL)S_reg_node( pRExC_state,5); |
13638 | } |
13639 | else { |
13640 | ret = reg_node(pRExC_state, SEOL)S_reg_node( pRExC_state,4); |
13641 | *flagp |= SIMPLE0x02; /* Wrong, but too late to fix for 5.32 */ |
13642 | } |
13643 | RExC_seen_zerolen(pRExC_state->seen_zerolen)++; /* Do not optimize RE away */ |
13644 | goto finish_meta_pat; |
13645 | case 'z': |
13646 | if (RExC_pm_flags(pRExC_state->pm_flags) & PMf_WILDCARD(1U<<(((0 +12)+2)+17))) { |
13647 | /* See comment under \A above */ |
13648 | ret = reg_node(pRExC_state, MEOL)S_reg_node( pRExC_state,5); |
13649 | } |
13650 | else { |
13651 | ret = reg_node(pRExC_state, EOS)S_reg_node( pRExC_state,6); |
13652 | *flagp |= SIMPLE0x02; /* Wrong, but too late to fix for 5.32 */ |
13653 | } |
13654 | RExC_seen_zerolen(pRExC_state->seen_zerolen)++; /* Do not optimize RE away */ |
13655 | goto finish_meta_pat; |
13656 | case 'C': |
13657 | vFAIL("\\C no longer supported")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "\\C no longer supported", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13657, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
13658 | case 'X': |
13659 | ret = reg_node(pRExC_state, CLUMP)S_reg_node( pRExC_state,38); |
13660 | *flagp |= HASWIDTH0x01; |
13661 | goto finish_meta_pat; |
13662 | |
13663 | case 'B': |
13664 | invert = 1; |
13665 | /* FALLTHROUGH */ |
13666 | case 'b': |
13667 | { |
13668 | U8 flags = 0; |
13669 | regex_charset charset = get_regex_charset(RExC_flags(pRExC_state->flags)); |
13670 | |
13671 | RExC_seen_zerolen(pRExC_state->seen_zerolen)++; |
13672 | RExC_seen(pRExC_state->seen) |= REG_LOOKBEHIND_SEEN0x00000002; |
13673 | op = BOUND8 + charset; |
13674 | |
13675 | if (RExC_parse(pRExC_state->parse) >= RExC_end(pRExC_state->end) || *(RExC_parse(pRExC_state->parse) + 1) != '{') { |
13676 | flags = TRADITIONAL_BOUND; |
13677 | if (op > BOUNDA11) { /* /aa is same as /a */ |
13678 | op = BOUNDA11; |
13679 | } |
13680 | } |
13681 | else { |
13682 | STRLEN length; |
13683 | char name = *RExC_parse(pRExC_state->parse); |
13684 | char * endbrace = NULL((void*)0); |
13685 | RExC_parse(pRExC_state->parse) += 2; |
13686 | endbrace = (char *) memchr(RExC_parse(pRExC_state->parse), '}', RExC_end(pRExC_state->end) - RExC_parse(pRExC_state->parse)); |
13687 | |
13688 | if (! endbrace) { |
13689 | vFAIL2("Missing right brace on \\%c{}", name)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Missing right brace on \\%c{}" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", name, (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13689, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
13690 | } |
13691 | /* XXX Need to decide whether to take spaces or not. Should be |
13692 | * consistent with \p{}, but that currently is SPACE, which |
13693 | * means vertical too, which seems wrong |
13694 | * while (isBLANK(*RExC_parse)) { |
13695 | RExC_parse++; |
13696 | }*/ |
13697 | if (endbrace == RExC_parse(pRExC_state->parse)) { |
13698 | RExC_parse(pRExC_state->parse)++; /* After the '}' */ |
13699 | vFAIL2("Empty \\%c{}", name)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Empty \\%c{}" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", name, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 13699, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
13700 | } |
13701 | length = endbrace - RExC_parse(pRExC_state->parse); |
13702 | /*while (isBLANK(*(RExC_parse + length - 1))) { |
13703 | length--; |
13704 | }*/ |
13705 | switch (*RExC_parse(pRExC_state->parse)) { |
13706 | case 'g': |
13707 | if ( length != 1 |
13708 | && (memNEs(RExC_parse + 1, length - 1, "cb")(! (((sizeof("cb")-1) == (length - 1)) && (memcmp(((const void *) (((pRExC_state->parse) + 1))), ((const void *) (( "" "cb" ""))), (sizeof("cb")-1)) == 0))))) |
13709 | { |
13710 | goto bad_bound_type; |
13711 | } |
13712 | flags = GCB_BOUND; |
13713 | break; |
13714 | case 'l': |
13715 | if (length != 2 || *(RExC_parse(pRExC_state->parse) + 1) != 'b') { |
13716 | goto bad_bound_type; |
13717 | } |
13718 | flags = LB_BOUND; |
13719 | break; |
13720 | case 's': |
13721 | if (length != 2 || *(RExC_parse(pRExC_state->parse) + 1) != 'b') { |
13722 | goto bad_bound_type; |
13723 | } |
13724 | flags = SB_BOUND; |
13725 | break; |
13726 | case 'w': |
13727 | if (length != 2 || *(RExC_parse(pRExC_state->parse) + 1) != 'b') { |
13728 | goto bad_bound_type; |
13729 | } |
13730 | flags = WB_BOUND; |
13731 | break; |
13732 | default: |
13733 | bad_bound_type: |
13734 | RExC_parse(pRExC_state->parse) = endbrace; |
13735 | vFAIL2utf8f(do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "'%" "d%" "lu" "%4p" "' is an unknown bound type" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)(length), (void*)(endbrace - length), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13737, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0) |
13736 | "'%" UTF8f "' is an unknown bound type",do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "'%" "d%" "lu" "%4p" "' is an unknown bound type" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)(length), (void*)(endbrace - length), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13737, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0) |
13737 | UTF8fARG(UTF, length, endbrace - length))do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "'%" "d%" "lu" "%4p" "' is an unknown bound type" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)(length), (void*)(endbrace - length), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13737, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); |
13738 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_comp.c", 13738 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /*NOTREACHED*/ |
13739 | } |
13740 | RExC_parse(pRExC_state->parse) = endbrace; |
13741 | REQUIRE_UNI_RULES(flagp, 0)do { if ((get_regex_charset((pRExC_state->flags)) == REGEX_DEPENDS_CHARSET )) { set_regex_charset(&(pRExC_state->flags), REGEX_UNICODE_CHARSET ); (pRExC_state->uni_semantics) = 1; if ((pRExC_state-> seen_d_op) && __builtin_expect(((! ((pRExC_state-> total_par) < 0)) ? (_Bool)1 : (_Bool)0),(1))) { *flagp |= 0x20 ; return 0; } } } while (0); |
13742 | |
13743 | if (op == BOUND8) { |
13744 | op = BOUNDU10; |
13745 | } |
13746 | else if (op >= BOUNDA11) { /* /aa is same as /a */ |
13747 | op = BOUNDU10; |
13748 | length += 4; |
13749 | |
13750 | /* Don't have to worry about UTF-8, in this message because |
13751 | * to get here the contents of the \b must be ASCII */ |
13752 | ckWARN4reg(RExC_parse + 1, /* Include the '}' in msg */do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 13758, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "Using /u for '%.*s' instead of /%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (unsigned) length, endbrace - length + 1, (charset == REGEX_ASCII_RESTRICTED_CHARSET) ? "a" : "aa", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13758, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)), ((int) ((pRExC_state->end) - (pRExC_state-> start))), (pRExC_state->start)), 0))), (void*)((pRExC_state ->precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))), (void*)((( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))))))) - (pRExC_state->precomp); } } while (0); } } while (0) |
13753 | "Using /u for '%.*s' instead of /%s",do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 13758, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "Using /u for '%.*s' instead of /%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (unsigned) length, endbrace - length + 1, (charset == REGEX_ASCII_RESTRICTED_CHARSET) ? "a" : "aa", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13758, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)), ((int) ((pRExC_state->end) - (pRExC_state-> start))), (pRExC_state->start)), 0))), (void*)((pRExC_state ->precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))), (void*)((( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))))))) - (pRExC_state->precomp); } } while (0); } } while (0) |
13754 | (unsigned) length,do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 13758, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "Using /u for '%.*s' instead of /%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (unsigned) length, endbrace - length + 1, (charset == REGEX_ASCII_RESTRICTED_CHARSET) ? "a" : "aa", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13758, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)), ((int) ((pRExC_state->end) - (pRExC_state-> start))), (pRExC_state->start)), 0))), (void*)((pRExC_state ->precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))), (void*)((( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))))))) - (pRExC_state->precomp); } } while (0); } } while (0) |
13755 | endbrace - length + 1,do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 13758, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "Using /u for '%.*s' instead of /%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (unsigned) length, endbrace - length + 1, (charset == REGEX_ASCII_RESTRICTED_CHARSET) ? "a" : "aa", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13758, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)), ((int) ((pRExC_state->end) - (pRExC_state-> start))), (pRExC_state->start)), 0))), (void*)((pRExC_state ->precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))), (void*)((( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))))))) - (pRExC_state->precomp); } } while (0); } } while (0) |
13756 | (charset == REGEX_ASCII_RESTRICTED_CHARSET)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 13758, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "Using /u for '%.*s' instead of /%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (unsigned) length, endbrace - length + 1, (charset == REGEX_ASCII_RESTRICTED_CHARSET) ? "a" : "aa", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13758, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)), ((int) ((pRExC_state->end) - (pRExC_state-> start))), (pRExC_state->start)), 0))), (void*)((pRExC_state ->precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))), (void*)((( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))))))) - (pRExC_state->precomp); } } while (0); } } while (0) |
13757 | ? ASCII_RESTRICT_PAT_MODSdo { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 13758, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "Using /u for '%.*s' instead of /%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (unsigned) length, endbrace - length + 1, (charset == REGEX_ASCII_RESTRICTED_CHARSET) ? "a" : "aa", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13758, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)), ((int) ((pRExC_state->end) - (pRExC_state-> start))), (pRExC_state->start)), 0))), (void*)((pRExC_state ->precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))), (void*)((( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))))))) - (pRExC_state->precomp); } } while (0); } } while (0) |
13758 | : ASCII_MORE_RESTRICT_PAT_MODS)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 13758, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "Using /u for '%.*s' instead of /%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (unsigned) length, endbrace - length + 1, (charset == REGEX_ASCII_RESTRICTED_CHARSET) ? "a" : "aa", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13758, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)), ((int) ((pRExC_state->end) - (pRExC_state-> start))), (pRExC_state->start)), 0))), (void*)((pRExC_state ->precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))), (void*)((( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))))))) - (pRExC_state->precomp); } } while (0); } } while (0); |
13759 | } |
13760 | } |
13761 | |
13762 | if (op == BOUND8) { |
13763 | RExC_seen_d_op(pRExC_state->seen_d_op) = TRUE(1); |
13764 | } |
13765 | else if (op == BOUNDL9) { |
13766 | RExC_contains_locale(pRExC_state->contains_locale) = 1; |
13767 | } |
13768 | |
13769 | if (invert) { |
13770 | op += NBOUND12 - BOUND8; |
13771 | } |
13772 | |
13773 | ret = reg_node(pRExC_state, op)S_reg_node( pRExC_state,op); |
13774 | FLAGS(REGNODE_p(ret))((((pRExC_state->emit_start) + (ret)))->flags) = flags; |
13775 | |
13776 | *flagp |= SIMPLE0x02; |
13777 | |
13778 | goto finish_meta_pat; |
13779 | } |
13780 | |
13781 | case 'R': |
13782 | ret = reg_node(pRExC_state, LNBREAK)S_reg_node( pRExC_state,106); |
13783 | *flagp |= HASWIDTH0x01|SIMPLE0x02; |
13784 | goto finish_meta_pat; |
13785 | |
13786 | case 'd': |
13787 | case 'D': |
13788 | case 'h': |
13789 | case 'H': |
13790 | case 'p': |
13791 | case 'P': |
13792 | case 's': |
13793 | case 'S': |
13794 | case 'v': |
13795 | case 'V': |
13796 | case 'w': |
13797 | case 'W': |
13798 | /* These all have the same meaning inside [brackets], and it knows |
13799 | * how to do the best optimizations for them. So, pretend we found |
13800 | * these within brackets, and let it do the work */ |
13801 | RExC_parse(pRExC_state->parse)--; |
13802 | |
13803 | ret = regclass(pRExC_state, flagp, depth+1,S_regclass( pRExC_state,flagp,depth+1,(1),(0),(0),(_Bool) (pRExC_state ->strict),(1),((void*)0)) |
13804 | TRUE, /* means just parse this element */S_regclass( pRExC_state,flagp,depth+1,(1),(0),(0),(_Bool) (pRExC_state ->strict),(1),((void*)0)) |
13805 | FALSE, /* don't allow multi-char folds */S_regclass( pRExC_state,flagp,depth+1,(1),(0),(0),(_Bool) (pRExC_state ->strict),(1),((void*)0)) |
13806 | FALSE, /* don't silence non-portable warnings. ItS_regclass( pRExC_state,flagp,depth+1,(1),(0),(0),(_Bool) (pRExC_state ->strict),(1),((void*)0)) |
13807 | would be a bug if these returnedS_regclass( pRExC_state,flagp,depth+1,(1),(0),(0),(_Bool) (pRExC_state ->strict),(1),((void*)0)) |
13808 | non-portables */S_regclass( pRExC_state,flagp,depth+1,(1),(0),(0),(_Bool) (pRExC_state ->strict),(1),((void*)0)) |
13809 | (bool) RExC_strict,S_regclass( pRExC_state,flagp,depth+1,(1),(0),(0),(_Bool) (pRExC_state ->strict),(1),((void*)0)) |
13810 | TRUE, /* Allow an optimized regnode result */S_regclass( pRExC_state,flagp,depth+1,(1),(0),(0),(_Bool) (pRExC_state ->strict),(1),((void*)0)) |
13811 | NULL)S_regclass( pRExC_state,flagp,depth+1,(1),(0),(0),(_Bool) (pRExC_state ->strict),(1),((void*)0)); |
13812 | RETURN_FAIL_ON_RESTART_FLAGP(flagp)if (((*(flagp)) & (0x20))) return 0; |
13813 | /* regclass() can only return RESTART_PARSE and NEED_UTF8 if |
13814 | * multi-char folds are allowed. */ |
13815 | if (!ret) |
13816 | FAIL2("panic: regclass returned failure to regatom, flags=%#" UVxf,do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "panic: regclass returned failure to regatom, flags=%#" "lx" " in regex m/%" "d%" "lu" "%4p" "%s/", (UV) *flagp, (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp)) , ellipses); } while (0) |
13817 | (UV) *flagp)do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "panic: regclass returned failure to regatom, flags=%#" "lx" " in regex m/%" "d%" "lu" "%4p" "%s/", (UV) *flagp, (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp)) , ellipses); } while (0); |
13818 | |
13819 | RExC_parse(pRExC_state->parse)--; /* regclass() leaves this one too far ahead */ |
13820 | |
13821 | finish_meta_pat: |
13822 | /* The escapes above that don't take a parameter can't be |
13823 | * followed by a '{'. But 'pX', 'p{foo}' and |
13824 | * correspondingly 'P' can be */ |
13825 | if ( RExC_parse(pRExC_state->parse) - parse_start == 1 |
13826 | && UCHARAT(RExC_parse + 1)((int)*(const U8*)((pRExC_state->parse) + 1)) == '{' |
13827 | && UNLIKELY(! new_regcurly(RExC_parse + 1, RExC_end))__builtin_expect(((! S_new_regcurly((pRExC_state->parse) + 1, (pRExC_state->end))) ? (_Bool)1 : (_Bool)0),(0))) |
13828 | { |
13829 | RExC_parse(pRExC_state->parse) += 2; |
13830 | vFAIL("Unescaped left brace in regex is illegal here")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Unescaped left brace in regex is illegal here" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13830, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
13831 | } |
13832 | Set_Node_Offset(REGNODE_p(ret), parse_start)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) offset of node %d is %d.\n", 13832, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)((parse_start)-(pRExC_state->start))); } while (0); if((((((pRExC_state->emit_start) + (ret))) - ( pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))-1] = ((parse_start)-(pRExC_state->start )); } } while (0); |
13833 | Set_Node_Length(REGNODE_p(ret), RExC_parse - parse_start + 1)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 13833, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)((pRExC_state->parse) - parse_start + 1 ));} while (0); if((((((pRExC_state->emit_start) + (ret))) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))] = ((pRExC_state->parse) - parse_start + 1); } } while (0); /* MJD */ |
13834 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
13835 | break; |
13836 | case 'N': |
13837 | /* Handle \N, \N{} and \N{NAMED SEQUENCE} (the latter meaning the |
13838 | * \N{...} evaluates to a sequence of more than one code points). |
13839 | * The function call below returns a regnode, which is our result. |
13840 | * The parameters cause it to fail if the \N{} evaluates to a |
13841 | * single code point; we handle those like any other literal. The |
13842 | * reason that the multicharacter case is handled here and not as |
13843 | * part of the EXACtish code is because of quantifiers. In |
13844 | * /\N{BLAH}+/, the '+' applies to the whole thing, and doing it |
13845 | * this way makes that Just Happen. dmq. |
13846 | * join_exact() will join this up with adjacent EXACTish nodes |
13847 | * later on, if appropriate. */ |
13848 | ++RExC_parse(pRExC_state->parse); |
13849 | if (grok_bslash_N(pRExC_state,S_grok_bslash_N( pRExC_state,&ret,((void*)0),((void*)0),flagp ,(pRExC_state->strict),depth) |
13850 | &ret, /* Want a regnode returned */S_grok_bslash_N( pRExC_state,&ret,((void*)0),((void*)0),flagp ,(pRExC_state->strict),depth) |
13851 | NULL, /* Fail if evaluates to a single codeS_grok_bslash_N( pRExC_state,&ret,((void*)0),((void*)0),flagp ,(pRExC_state->strict),depth) |
13852 | point */S_grok_bslash_N( pRExC_state,&ret,((void*)0),((void*)0),flagp ,(pRExC_state->strict),depth) |
13853 | NULL, /* Don't need a count of how many codeS_grok_bslash_N( pRExC_state,&ret,((void*)0),((void*)0),flagp ,(pRExC_state->strict),depth) |
13854 | points */S_grok_bslash_N( pRExC_state,&ret,((void*)0),((void*)0),flagp ,(pRExC_state->strict),depth) |
13855 | flagp,S_grok_bslash_N( pRExC_state,&ret,((void*)0),((void*)0),flagp ,(pRExC_state->strict),depth) |
13856 | RExC_strict,S_grok_bslash_N( pRExC_state,&ret,((void*)0),((void*)0),flagp ,(pRExC_state->strict),depth) |
13857 | depth)S_grok_bslash_N( pRExC_state,&ret,((void*)0),((void*)0),flagp ,(pRExC_state->strict),depth) |
13858 | ) { |
13859 | break; |
13860 | } |
13861 | |
13862 | RETURN_FAIL_ON_RESTART_FLAGP(flagp)if (((*(flagp)) & (0x20))) return 0; |
13863 | |
13864 | /* Here, evaluates to a single code point. Go get that */ |
13865 | RExC_parse(pRExC_state->parse) = parse_start; |
13866 | goto defchar; |
13867 | |
13868 | case 'k': /* Handle \k<NAME> and \k'NAME' */ |
13869 | parse_named_seq: |
13870 | { |
13871 | char ch; |
13872 | if ( RExC_parse(pRExC_state->parse) >= RExC_end(pRExC_state->end) - 1 |
13873 | || (( ch = RExC_parse(pRExC_state->parse)[1]) != '<' |
13874 | && ch != '\'' |
13875 | && ch != '{')) |
13876 | { |
13877 | RExC_parse(pRExC_state->parse)++; |
13878 | /* diag_listed_as: Sequence \%s... not terminated in regex; marked by <-- HERE in m/%s/ */ |
13879 | vFAIL2("Sequence %.2s... not terminated", parse_start)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Sequence %.2s... not terminated" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", parse_start, (int)( ((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13879, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
13880 | } else { |
13881 | RExC_parse(pRExC_state->parse) += 2; |
13882 | ret = handle_named_backref(pRExC_state,S_handle_named_backref( pRExC_state,flagp,parse_start,(ch == '<' ) ? '>' : (ch == '{') ? '}' : '\'') |
13883 | flagp,S_handle_named_backref( pRExC_state,flagp,parse_start,(ch == '<' ) ? '>' : (ch == '{') ? '}' : '\'') |
13884 | parse_start,S_handle_named_backref( pRExC_state,flagp,parse_start,(ch == '<' ) ? '>' : (ch == '{') ? '}' : '\'') |
13885 | (ch == '<')S_handle_named_backref( pRExC_state,flagp,parse_start,(ch == '<' ) ? '>' : (ch == '{') ? '}' : '\'') |
13886 | ? '>'S_handle_named_backref( pRExC_state,flagp,parse_start,(ch == '<' ) ? '>' : (ch == '{') ? '}' : '\'') |
13887 | : (ch == '{')S_handle_named_backref( pRExC_state,flagp,parse_start,(ch == '<' ) ? '>' : (ch == '{') ? '}' : '\'') |
13888 | ? '}'S_handle_named_backref( pRExC_state,flagp,parse_start,(ch == '<' ) ? '>' : (ch == '{') ? '}' : '\'') |
13889 | : '\'')S_handle_named_backref( pRExC_state,flagp,parse_start,(ch == '<' ) ? '>' : (ch == '{') ? '}' : '\''); |
13890 | } |
13891 | break; |
13892 | } |
13893 | case 'g': |
13894 | case '1': case '2': case '3': case '4': |
13895 | case '5': case '6': case '7': case '8': case '9': |
13896 | { |
13897 | I32 num; |
13898 | bool_Bool hasbrace = 0; |
13899 | |
13900 | if (*RExC_parse(pRExC_state->parse) == 'g') { |
13901 | bool_Bool isrel = 0; |
13902 | |
13903 | RExC_parse(pRExC_state->parse)++; |
13904 | if (*RExC_parse(pRExC_state->parse) == '{') { |
13905 | RExC_parse(pRExC_state->parse)++; |
13906 | hasbrace = 1; |
13907 | } |
13908 | if (*RExC_parse(pRExC_state->parse) == '-') { |
13909 | RExC_parse(pRExC_state->parse)++; |
13910 | isrel = 1; |
13911 | } |
13912 | if (hasbrace && !isDIGIT(*RExC_parse)(((('9') >= ('0')) ? (void)0 : __assert2("re_comp.c", 13912 , __func__, "('9') >= ('0')")), ( (sizeof(*(pRExC_state-> parse)) == sizeof(U8)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c", 13912, __func__, "(NV) (('0')) >= 0" )), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 13912, __func__, "(NV) ((('9') - ('0'))) >= 0")), (((U64 ) (((((U8) (*(pRExC_state->parse))))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0))))) : (sizeof(*(pRExC_state-> parse)) == sizeof(U32)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c", 13912, __func__, "(NV) (('0')) >= 0" )), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 13912, __func__, "(NV) ((('9') - ('0'))) >= 0")), (((U64 ) (((((U32) (*(pRExC_state->parse))))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0))))) : (((sizeof(*(pRExC_state ->parse)) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 13912, __func__, "sizeof(*(pRExC_state->parse)) == sizeof(U64)" )), ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 13912, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 13912, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U64) (*(pRExC_state ->parse))))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0' ))) | 0))))))))) { |
13913 | if (isrel) RExC_parse(pRExC_state->parse)--; |
13914 | RExC_parse(pRExC_state->parse) -= 2; |
13915 | goto parse_named_seq; |
13916 | } |
13917 | |
13918 | if (RExC_parse(pRExC_state->parse) >= RExC_end(pRExC_state->end)) { |
13919 | goto unterminated_g; |
13920 | } |
13921 | num = S_backref_value(RExC_parse(pRExC_state->parse), RExC_end(pRExC_state->end)); |
13922 | if (num == 0) |
13923 | vFAIL("Reference to invalid group 0")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Reference to invalid group 0", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13923, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
13924 | else if (num == I32_MAX0x7fffffff) { |
13925 | if (isDIGIT(*RExC_parse)(((('9') >= ('0')) ? (void)0 : __assert2("re_comp.c", 13925 , __func__, "('9') >= ('0')")), ( (sizeof(*(pRExC_state-> parse)) == sizeof(U8)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c", 13925, __func__, "(NV) (('0')) >= 0" )), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 13925, __func__, "(NV) ((('9') - ('0'))) >= 0")), (((U64 ) (((((U8) (*(pRExC_state->parse))))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0))))) : (sizeof(*(pRExC_state-> parse)) == sizeof(U32)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c", 13925, __func__, "(NV) (('0')) >= 0" )), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 13925, __func__, "(NV) ((('9') - ('0'))) >= 0")), (((U64 ) (((((U32) (*(pRExC_state->parse))))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0))))) : (((sizeof(*(pRExC_state ->parse)) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 13925, __func__, "sizeof(*(pRExC_state->parse)) == sizeof(U64)" )), ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 13925, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 13925, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U64) (*(pRExC_state ->parse))))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0' ))) | 0))))))))) |
13926 | vFAIL("Reference to nonexistent group")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Reference to nonexistent group", (int)((((( pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : ( _Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state ->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13926, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
13927 | else |
13928 | unterminated_g: |
13929 | vFAIL("Unterminated \\g... pattern")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Unterminated \\g... pattern", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13929, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
13930 | } |
13931 | |
13932 | if (isrel) { |
13933 | num = RExC_npar(pRExC_state->npar) - num; |
13934 | if (num < 1) |
13935 | vFAIL("Reference to nonexistent or unclosed group")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Reference to nonexistent or unclosed group" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13935, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
13936 | } |
13937 | } |
13938 | else { |
13939 | num = S_backref_value(RExC_parse(pRExC_state->parse), RExC_end(pRExC_state->end)); |
13940 | /* bare \NNN might be backref or octal - if it is larger |
13941 | * than or equal RExC_npar then it is assumed to be an |
13942 | * octal escape. Note RExC_npar is +1 from the actual |
13943 | * number of parens. */ |
13944 | /* Note we do NOT check if num == I32_MAX here, as that is |
13945 | * handled by the RExC_npar check */ |
13946 | |
13947 | if ( |
13948 | /* any numeric escape < 10 is always a backref */ |
13949 | num > 9 |
13950 | /* any numeric escape < RExC_npar is a backref */ |
13951 | && num >= RExC_npar(pRExC_state->npar) |
13952 | /* cannot be an octal escape if it starts with 8 */ |
13953 | && *RExC_parse(pRExC_state->parse) != '8' |
13954 | /* cannot be an octal escape if it starts with 9 */ |
13955 | && *RExC_parse(pRExC_state->parse) != '9' |
13956 | ) { |
13957 | /* Probably not meant to be a backref, instead likely |
13958 | * to be an octal character escape, e.g. \35 or \777. |
13959 | * The above logic should make it obvious why using |
13960 | * octal escapes in patterns is problematic. - Yves */ |
13961 | RExC_parse(pRExC_state->parse) = parse_start; |
13962 | goto defchar; |
13963 | } |
13964 | } |
13965 | |
13966 | /* At this point RExC_parse points at a numeric escape like |
13967 | * \12 or \88 or something similar, which we should NOT treat |
13968 | * as an octal escape. It may or may not be a valid backref |
13969 | * escape. For instance \88888888 is unlikely to be a valid |
13970 | * backref. */ |
13971 | while (isDIGIT(*RExC_parse)(((('9') >= ('0')) ? (void)0 : __assert2("re_comp.c", 13971 , __func__, "('9') >= ('0')")), ( (sizeof(*(pRExC_state-> parse)) == sizeof(U8)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c", 13971, __func__, "(NV) (('0')) >= 0" )), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 13971, __func__, "(NV) ((('9') - ('0'))) >= 0")), (((U64 ) (((((U8) (*(pRExC_state->parse))))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0))))) : (sizeof(*(pRExC_state-> parse)) == sizeof(U32)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c", 13971, __func__, "(NV) (('0')) >= 0" )), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 13971, __func__, "(NV) ((('9') - ('0'))) >= 0")), (((U64 ) (((((U32) (*(pRExC_state->parse))))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0))))) : (((sizeof(*(pRExC_state ->parse)) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 13971, __func__, "sizeof(*(pRExC_state->parse)) == sizeof(U64)" )), ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 13971, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 13971, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U64) (*(pRExC_state ->parse))))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0' ))) | 0))))))))) |
13972 | RExC_parse(pRExC_state->parse)++; |
13973 | if (hasbrace) { |
13974 | if (*RExC_parse(pRExC_state->parse) != '}') |
13975 | vFAIL("Unterminated \\g{...} pattern")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Unterminated \\g{...} pattern", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13975, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
13976 | RExC_parse(pRExC_state->parse)++; |
13977 | } |
13978 | if (num >= (I32)RExC_npar(pRExC_state->npar)) { |
13979 | |
13980 | /* It might be a forward reference; we can't fail until we |
13981 | * know, by completing the parse to get all the groups, and |
13982 | * then reparsing */ |
13983 | if (ALL_PARENS_COUNTED((pRExC_state->total_par) > 0)) { |
13984 | if (num >= RExC_total_parens(pRExC_state->total_par)) { |
13985 | vFAIL("Reference to nonexistent group")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Reference to nonexistent group", (int)((((( pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : ( _Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state ->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 13985, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
13986 | } |
13987 | } |
13988 | else { |
13989 | REQUIRE_PARENS_PASSdo { if (! ((pRExC_state->total_par) > 0)) (pRExC_state ->total_par) = -1; } while (0); |
13990 | } |
13991 | } |
13992 | RExC_sawback(pRExC_state->sawback) = 1; |
13993 | ret = reganode(pRExC_state,S_reganode( pRExC_state,((! (((pRExC_state->flags) & ( 1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 67 : ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 71 : ((get_regex_charset((pRExC_state->flags)) >= REGEX_UNICODE_CHARSET )) ? 70 : ((get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) ? 69 : 68),num) |
13994 | ((! FOLD)S_reganode( pRExC_state,((! (((pRExC_state->flags) & ( 1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 67 : ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 71 : ((get_regex_charset((pRExC_state->flags)) >= REGEX_UNICODE_CHARSET )) ? 70 : ((get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) ? 69 : 68),num) |
13995 | ? REFS_reganode( pRExC_state,((! (((pRExC_state->flags) & ( 1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 67 : ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 71 : ((get_regex_charset((pRExC_state->flags)) >= REGEX_UNICODE_CHARSET )) ? 70 : ((get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) ? 69 : 68),num) |
13996 | : (ASCII_FOLD_RESTRICTED)S_reganode( pRExC_state,((! (((pRExC_state->flags) & ( 1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 67 : ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 71 : ((get_regex_charset((pRExC_state->flags)) >= REGEX_UNICODE_CHARSET )) ? 70 : ((get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) ? 69 : 68),num) |
13997 | ? REFFAS_reganode( pRExC_state,((! (((pRExC_state->flags) & ( 1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 67 : ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 71 : ((get_regex_charset((pRExC_state->flags)) >= REGEX_UNICODE_CHARSET )) ? 70 : ((get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) ? 69 : 68),num) |
13998 | : (AT_LEAST_UNI_SEMANTICS)S_reganode( pRExC_state,((! (((pRExC_state->flags) & ( 1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 67 : ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 71 : ((get_regex_charset((pRExC_state->flags)) >= REGEX_UNICODE_CHARSET )) ? 70 : ((get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) ? 69 : 68),num) |
13999 | ? REFFUS_reganode( pRExC_state,((! (((pRExC_state->flags) & ( 1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 67 : ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 71 : ((get_regex_charset((pRExC_state->flags)) >= REGEX_UNICODE_CHARSET )) ? 70 : ((get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) ? 69 : 68),num) |
14000 | : (LOC)S_reganode( pRExC_state,((! (((pRExC_state->flags) & ( 1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 67 : ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 71 : ((get_regex_charset((pRExC_state->flags)) >= REGEX_UNICODE_CHARSET )) ? 70 : ((get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) ? 69 : 68),num) |
14001 | ? REFFLS_reganode( pRExC_state,((! (((pRExC_state->flags) & ( 1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 67 : ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 71 : ((get_regex_charset((pRExC_state->flags)) >= REGEX_UNICODE_CHARSET )) ? 70 : ((get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) ? 69 : 68),num) |
14002 | : REFF),S_reganode( pRExC_state,((! (((pRExC_state->flags) & ( 1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 67 : ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 71 : ((get_regex_charset((pRExC_state->flags)) >= REGEX_UNICODE_CHARSET )) ? 70 : ((get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) ? 69 : 68),num) |
14003 | num)S_reganode( pRExC_state,((! (((pRExC_state->flags) & ( 1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 67 : ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 71 : ((get_regex_charset((pRExC_state->flags)) >= REGEX_UNICODE_CHARSET )) ? 70 : ((get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) ? 69 : 68),num); |
14004 | if (OP(REGNODE_p(ret))((((pRExC_state->emit_start) + (ret)))->type) == REFF68) { |
14005 | RExC_seen_d_op(pRExC_state->seen_d_op) = TRUE(1); |
14006 | } |
14007 | *flagp |= HASWIDTH0x01; |
14008 | |
14009 | /* override incorrect value set in reganode MJD */ |
14010 | Set_Node_Offset(REGNODE_p(ret), parse_start)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) offset of node %d is %d.\n", 14010, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)((parse_start)-(pRExC_state->start))); } while (0); if((((((pRExC_state->emit_start) + (ret))) - ( pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))-1] = ((parse_start)-(pRExC_state->start )); } } while (0); |
14011 | Set_Node_Cur_Length(REGNODE_p(ret), parse_start-1)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 14011, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)((pRExC_state->parse) - parse_start-1) );} while (0); if((((((pRExC_state->emit_start) + (ret))) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))] = ((pRExC_state->parse) - parse_start- 1); } } while (0); |
14012 | skip_to_be_ignored_text(pRExC_state, &RExC_parse,S_skip_to_be_ignored_text( pRExC_state,&(pRExC_state-> parse),(0)) |
14013 | FALSE /* Don't force to /x */ )S_skip_to_be_ignored_text( pRExC_state,&(pRExC_state-> parse),(0)); |
14014 | } |
14015 | break; |
14016 | case '\0': |
14017 | if (RExC_parse(pRExC_state->parse) >= RExC_end(pRExC_state->end)) |
14018 | FAIL("Trailing \\")do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "%s in regex m/%" "d%" "lu" "%4p" "%s/", "Trailing \\" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp )), ellipses); } while (0); |
14019 | /* FALLTHROUGH */ |
14020 | default: |
14021 | /* Do not generate "unrecognized" warnings here, we fall |
14022 | back into the quick-grab loop below */ |
14023 | RExC_parse(pRExC_state->parse) = parse_start; |
14024 | goto defchar; |
14025 | } /* end of switch on a \foo sequence */ |
14026 | break; |
14027 | |
14028 | case '#': |
14029 | |
14030 | /* '#' comments should have been spaced over before this function was |
14031 | * called */ |
14032 | assert((RExC_flags & RXf_PMf_EXTENDED) == 0)((((pRExC_state->flags) & (1U << (0 +3))) == 0) ? (void)0 : __assert2("re_comp.c", 14032, __func__, "(RExC_flags & RXf_PMf_EXTENDED) == 0" )); |
14033 | /* |
14034 | if (RExC_flags & RXf_PMf_EXTENDED) { |
14035 | RExC_parse = reg_skipcomment( pRExC_state, RExC_parse ); |
14036 | if (RExC_parse < RExC_end) |
14037 | goto tryagain; |
14038 | } |
14039 | */ |
14040 | |
14041 | /* FALLTHROUGH */ |
14042 | |
14043 | default: |
14044 | defchar: { |
14045 | |
14046 | /* Here, we have determined that the next thing is probably a |
14047 | * literal character. RExC_parse points to the first byte of its |
14048 | * definition. (It still may be an escape sequence that evaluates |
14049 | * to a single character) */ |
14050 | |
14051 | STRLEN len = 0; |
14052 | UV ender = 0; |
14053 | char *p; |
14054 | char *s, *old_s = NULL((void*)0), *old_old_s = NULL((void*)0); |
14055 | char *s0; |
14056 | U32 max_string_len = 255; |
14057 | |
14058 | /* We may have to reparse the node, artificially stopping filling |
14059 | * it early, based on info gleaned in the first parse. This |
14060 | * variable gives where we stop. Make it above the normal stopping |
14061 | * place first time through; otherwise it would stop too early */ |
14062 | U32 upper_fill = max_string_len + 1; |
14063 | |
14064 | /* We start out as an EXACT node, even if under /i, until we find a |
14065 | * character which is in a fold. The algorithm now segregates into |
14066 | * separate nodes, characters that fold from those that don't under |
14067 | * /i. (This hopefully will create nodes that are fixed strings |
14068 | * even under /i, giving the optimizer something to grab on to.) |
14069 | * So, if a node has something in it and the next character is in |
14070 | * the opposite category, that node is closed up, and the function |
14071 | * returns. Then regatom is called again, and a new node is |
14072 | * created for the new category. */ |
14073 | U8 node_type = EXACT40; |
14074 | |
14075 | /* Assume the node will be fully used; the excess is given back at |
14076 | * the end. Under /i, we may need to temporarily add the fold of |
14077 | * an extra character or two at the end to check for splitting |
14078 | * multi-char folds, so allocate extra space for that. We can't |
14079 | * make any other length assumptions, as a byte input sequence |
14080 | * could shrink down. */ |
14081 | Ptrdiff_tptrdiff_t current_string_nodes = STR_SZ(max_string_len(((max_string_len + ((! (((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 0 : 2 * (((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (((13)>(3 * ((((U64)(0x10FFFF )) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF ) < (32 * (1U << ( 6))) ? 2 : (UV) (0x10FFFF) < ( 16 * (1U << (2 * 6))) ? 3 : (UV) (0x10FFFF) < ( 8 * ( 1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF) < ((UV) 1U << (6 * 6)) ? 7 : 13))))?(13):(3 * ((((U64)(0x10FFFF)) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF) < (32 * (1U << ( 6))) ? 2 : (UV) (0x10FFFF) < (16 * (1U << (2 * 6) )) ? 3 : (UV) (0x10FFFF) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV ) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF ) < ((UV) 1U << (6 * 6)) ? 7 : 13)))) : 2))) + sizeof (regnode) - 1) / sizeof(regnode)) |
14082 | + ((! FOLD)(((max_string_len + ((! (((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 0 : 2 * (((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (((13)>(3 * ((((U64)(0x10FFFF )) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF ) < (32 * (1U << ( 6))) ? 2 : (UV) (0x10FFFF) < ( 16 * (1U << (2 * 6))) ? 3 : (UV) (0x10FFFF) < ( 8 * ( 1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF) < ((UV) 1U << (6 * 6)) ? 7 : 13))))?(13):(3 * ((((U64)(0x10FFFF)) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF) < (32 * (1U << ( 6))) ? 2 : (UV) (0x10FFFF) < (16 * (1U << (2 * 6) )) ? 3 : (UV) (0x10FFFF) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV ) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF ) < ((UV) 1U << (6 * 6)) ? 7 : 13)))) : 2))) + sizeof (regnode) - 1) / sizeof(regnode)) |
14083 | ? 0(((max_string_len + ((! (((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 0 : 2 * (((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (((13)>(3 * ((((U64)(0x10FFFF )) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF ) < (32 * (1U << ( 6))) ? 2 : (UV) (0x10FFFF) < ( 16 * (1U << (2 * 6))) ? 3 : (UV) (0x10FFFF) < ( 8 * ( 1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF) < ((UV) 1U << (6 * 6)) ? 7 : 13))))?(13):(3 * ((((U64)(0x10FFFF)) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF) < (32 * (1U << ( 6))) ? 2 : (UV) (0x10FFFF) < (16 * (1U << (2 * 6) )) ? 3 : (UV) (0x10FFFF) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV ) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF ) < ((UV) 1U << (6 * 6)) ? 7 : 13)))) : 2))) + sizeof (regnode) - 1) / sizeof(regnode)) |
14084 | : 2 * ((UTF)(((max_string_len + ((! (((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 0 : 2 * (((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (((13)>(3 * ((((U64)(0x10FFFF )) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF ) < (32 * (1U << ( 6))) ? 2 : (UV) (0x10FFFF) < ( 16 * (1U << (2 * 6))) ? 3 : (UV) (0x10FFFF) < ( 8 * ( 1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF) < ((UV) 1U << (6 * 6)) ? 7 : 13))))?(13):(3 * ((((U64)(0x10FFFF)) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF) < (32 * (1U << ( 6))) ? 2 : (UV) (0x10FFFF) < (16 * (1U << (2 * 6) )) ? 3 : (UV) (0x10FFFF) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV ) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF ) < ((UV) 1U << (6 * 6)) ? 7 : 13)))) : 2))) + sizeof (regnode) - 1) / sizeof(regnode)) |
14085 | ? UTF8_MAXBYTES_CASE(((max_string_len + ((! (((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 0 : 2 * (((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (((13)>(3 * ((((U64)(0x10FFFF )) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF ) < (32 * (1U << ( 6))) ? 2 : (UV) (0x10FFFF) < ( 16 * (1U << (2 * 6))) ? 3 : (UV) (0x10FFFF) < ( 8 * ( 1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF) < ((UV) 1U << (6 * 6)) ? 7 : 13))))?(13):(3 * ((((U64)(0x10FFFF)) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF) < (32 * (1U << ( 6))) ? 2 : (UV) (0x10FFFF) < (16 * (1U << (2 * 6) )) ? 3 : (UV) (0x10FFFF) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV ) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF ) < ((UV) 1U << (6 * 6)) ? 7 : 13)))) : 2))) + sizeof (regnode) - 1) / sizeof(regnode)) |
14086 | /* Max non-UTF-8 expansion is 2 */ : 2)))(((max_string_len + ((! (((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? 0 : 2 * (((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (((13)>(3 * ((((U64)(0x10FFFF )) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF ) < (32 * (1U << ( 6))) ? 2 : (UV) (0x10FFFF) < ( 16 * (1U << (2 * 6))) ? 3 : (UV) (0x10FFFF) < ( 8 * ( 1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF) < ((UV) 1U << (6 * 6)) ? 7 : 13))))?(13):(3 * ((((U64)(0x10FFFF)) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF) < (32 * (1U << ( 6))) ? 2 : (UV) (0x10FFFF) < (16 * (1U << (2 * 6) )) ? 3 : (UV) (0x10FFFF) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV ) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF ) < ((UV) 1U << (6 * 6)) ? 7 : 13)))) : 2))) + sizeof (regnode) - 1) / sizeof(regnode)); |
14087 | |
14088 | bool_Bool next_is_quantifier; |
14089 | char * oldp = NULL((void*)0); |
14090 | |
14091 | /* We can convert EXACTF nodes to EXACTFU if they contain only |
14092 | * characters that match identically regardless of the target |
14093 | * string's UTF8ness. The reason to do this is that EXACTF is not |
14094 | * trie-able, EXACTFU is, and EXACTFU requires fewer operations at |
14095 | * runtime. |
14096 | * |
14097 | * Similarly, we can convert EXACTFL nodes to EXACTFLU8 if they |
14098 | * contain only above-Latin1 characters (hence must be in UTF8), |
14099 | * which don't participate in folds with Latin1-range characters, |
14100 | * as the latter's folds aren't known until runtime. */ |
14101 | bool_Bool maybe_exactfu = FOLD(((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool )1 : (_Bool)0) && (DEPENDS_SEMANTICS(get_regex_charset((pRExC_state->flags)) == REGEX_DEPENDS_CHARSET ) || LOC(get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )); |
14102 | |
14103 | /* Single-character EXACTish nodes are almost always SIMPLE. This |
14104 | * allows us to override this as encountered */ |
14105 | U8 maybe_SIMPLE = SIMPLE0x02; |
14106 | |
14107 | /* Does this node contain something that can't match unless the |
14108 | * target string is (also) in UTF-8 */ |
14109 | bool_Bool requires_utf8_target = FALSE(0); |
14110 | |
14111 | /* The sequence 'ss' is problematic in non-UTF-8 patterns. */ |
14112 | bool_Bool has_ss = FALSE(0); |
14113 | |
14114 | /* So is the MICRO SIGN */ |
14115 | bool_Bool has_micro_sign = FALSE(0); |
14116 | |
14117 | /* Set when we fill up the current node and there is still more |
14118 | * text to process */ |
14119 | bool_Bool overflowed; |
14120 | |
14121 | /* Allocate an EXACT node. The node_type may change below to |
14122 | * another EXACTish node, but since the size of the node doesn't |
14123 | * change, it works */ |
14124 | ret = regnode_guts(pRExC_state, node_type, current_string_nodes,S_regnode_guts( pRExC_state,node_type,current_string_nodes,"exact" ) |
14125 | "exact")S_regnode_guts( pRExC_state,node_type,current_string_nodes,"exact" ); |
14126 | FILL_NODE(ret, node_type)do { ((((pRExC_state->emit_start) + (ret)))->type) = node_type ; ((((pRExC_state->emit_start) + (ret)))->next_off) = 0 ; } while (0); |
14127 | RExC_emit(pRExC_state->emit)++; |
14128 | |
14129 | s = STRING(REGNODE_p(ret))((((((pRExC_state->emit_start) + (ret)))->type) == 41 || ((((pRExC_state->emit_start) + (ret)))->type) == 51) ? (((((((pRExC_state->emit_start) + (ret)))->type) == 41 || ((((pRExC_state->emit_start) + (ret)))->type) == 51 ) ? (void)0 : __assert2("re_comp.c", 14129, __func__, "((((pRExC_state->emit_start) + (ret)))->type) == 41 || ((((pRExC_state->emit_start) + (ret)))->type) == 51" )), (((struct regnode_lstring *)((pRExC_state->emit_start) + (ret)))->string)) : (((((((pRExC_state->emit_start) + (ret)))->type) != 41 && ((((pRExC_state->emit_start ) + (ret)))->type) != 51) ? (void)0 : __assert2("re_comp.c" , 14129, __func__, "((((pRExC_state->emit_start) + (ret)))->type) != 41 && ((((pRExC_state->emit_start) + (ret)))->type) != 51" )), ((struct regnode_string *)((pRExC_state->emit_start) + (ret)))->string)); |
14130 | |
14131 | s0 = s; |
14132 | |
14133 | reparse: |
14134 | |
14135 | p = RExC_parse(pRExC_state->parse); |
14136 | len = 0; |
14137 | s = s0; |
14138 | node_type = EXACT40; |
14139 | oldp = NULL((void*)0); |
14140 | maybe_exactfu = FOLD(((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool )1 : (_Bool)0) && (DEPENDS_SEMANTICS(get_regex_charset((pRExC_state->flags)) == REGEX_DEPENDS_CHARSET ) || LOC(get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )); |
14141 | maybe_SIMPLE = SIMPLE0x02; |
14142 | requires_utf8_target = FALSE(0); |
14143 | has_ss = FALSE(0); |
14144 | has_micro_sign = FALSE(0); |
14145 | |
14146 | continue_parse: |
14147 | |
14148 | /* This breaks under rare circumstances. If folding, we do not |
14149 | * want to split a node at a character that is a non-final in a |
14150 | * multi-char fold, as an input string could just happen to want to |
14151 | * match across the node boundary. The code at the end of the loop |
14152 | * looks for this, and backs off until it finds not such a |
14153 | * character, but it is possible (though extremely, extremely |
14154 | * unlikely) for all characters in the node to be non-final fold |
14155 | * ones, in which case we just leave the node fully filled, and |
14156 | * hope that it doesn't match the string in just the wrong place */ |
14157 | |
14158 | assert( ! UTF /* Is at the beginning of a character */((! (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) || ((((U64 )(((UV) (((((int)*(const U8*)((pRExC_state->parse)))) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0))) || (((( (sizeof(((int)*(const U8*)((pRExC_state->parse)))) == 1) || !(((U64)((((int)*(const U8*)((pRExC_state->parse)))) | 0) ) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 14160, __func__ , "( (sizeof(((int)*(const U8*)((pRExC_state->parse)))) == 1) || !(((U64)((((int)*(const U8*)((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((((( (sizeof(((int)*(const U8*)((pRExC_state->parse)) )) == 1) || !(((U64)((((int)*(const U8*)((pRExC_state->parse )))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 14160 , __func__, "( (sizeof(((int)*(const U8*)((pRExC_state->parse)))) == 1) || !(((U64)((((int)*(const U8*)((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((((int)*(const U8*)((pRExC_state->parse)))) | 0 ))) >= (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) ? (void)0 : __assert2("re_comp.c", 14160, __func__, "! UTF || UTF8_IS_INVARIANT(UCHARAT(RExC_parse)) || UTF8_IS_START(UCHARAT(RExC_parse))" )) |
14159 | || UTF8_IS_INVARIANT(UCHARAT(RExC_parse))((! (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) || ((((U64 )(((UV) (((((int)*(const U8*)((pRExC_state->parse)))) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0))) || (((( (sizeof(((int)*(const U8*)((pRExC_state->parse)))) == 1) || !(((U64)((((int)*(const U8*)((pRExC_state->parse)))) | 0) ) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 14160, __func__ , "( (sizeof(((int)*(const U8*)((pRExC_state->parse)))) == 1) || !(((U64)((((int)*(const U8*)((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((((( (sizeof(((int)*(const U8*)((pRExC_state->parse)) )) == 1) || !(((U64)((((int)*(const U8*)((pRExC_state->parse )))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 14160 , __func__, "( (sizeof(((int)*(const U8*)((pRExC_state->parse)))) == 1) || !(((U64)((((int)*(const U8*)((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((((int)*(const U8*)((pRExC_state->parse)))) | 0 ))) >= (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) ? (void)0 : __assert2("re_comp.c", 14160, __func__, "! UTF || UTF8_IS_INVARIANT(UCHARAT(RExC_parse)) || UTF8_IS_START(UCHARAT(RExC_parse))" )) |
14160 | || UTF8_IS_START(UCHARAT(RExC_parse)))((! (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) || ((((U64 )(((UV) (((((int)*(const U8*)((pRExC_state->parse)))) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0))) || (((( (sizeof(((int)*(const U8*)((pRExC_state->parse)))) == 1) || !(((U64)((((int)*(const U8*)((pRExC_state->parse)))) | 0) ) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 14160, __func__ , "( (sizeof(((int)*(const U8*)((pRExC_state->parse)))) == 1) || !(((U64)((((int)*(const U8*)((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((((( (sizeof(((int)*(const U8*)((pRExC_state->parse)) )) == 1) || !(((U64)((((int)*(const U8*)((pRExC_state->parse )))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 14160 , __func__, "( (sizeof(((int)*(const U8*)((pRExC_state->parse)))) == 1) || !(((U64)((((int)*(const U8*)((pRExC_state->parse)))) | 0)) & ~0xFF))" )), ((U8) ((((int)*(const U8*)((pRExC_state->parse)))) | 0 ))) >= (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) ? (void)0 : __assert2("re_comp.c", 14160, __func__, "! UTF || UTF8_IS_INVARIANT(UCHARAT(RExC_parse)) || UTF8_IS_START(UCHARAT(RExC_parse))" )); |
14161 | |
14162 | overflowed = FALSE(0); |
14163 | |
14164 | /* Here, we have a literal character. Find the maximal string of |
14165 | * them in the input that we can fit into a single EXACTish node. |
14166 | * We quit at the first non-literal or when the node gets full, or |
14167 | * under /i the categorization of folding/non-folding character |
14168 | * changes */ |
14169 | while (p < RExC_end(pRExC_state->end) && len < upper_fill) { |
14170 | |
14171 | /* In most cases each iteration adds one byte to the output. |
14172 | * The exceptions override this */ |
14173 | Size_tsize_t added_len = 1; |
14174 | |
14175 | oldp = p; |
14176 | old_old_s = old_s; |
14177 | old_s = s; |
14178 | |
14179 | /* White space has already been ignored */ |
14180 | assert( (RExC_flags & RXf_PMf_EXTENDED) == 0((((pRExC_state->flags) & (1U << (0 +3))) == 0 || ! ( ( __builtin_expect(((((pRExC_state->end)) > ((p))) ? (_Bool)1 : (_Bool)0),(1)) ) ? ( ( ((((0x0D) >= (0x09)) ? (void)0 : __assert2("re_comp.c", 14181, __func__, "(0x0D) >= (0x09)" )), ( (sizeof(((const U8*)(p))[0]) == sizeof(U8)) ? ((((NV) ( (0x09)) >= 0) ? (void)0 : __assert2("re_comp.c", 14181, __func__ , "(NV) ((0x09)) >= 0")), (((NV) (((0x0D) - (0x09))) >= 0) ? (void)0 : __assert2("re_comp.c", 14181, __func__, "(NV) (((0x0D) - (0x09))) >= 0" )), (((U64) (((((U8) (((const U8*)(p))[0])))) - (((0x09)) | 0 ))) <= (((U64) ((((0x0D) - (0x09))) | 0))))) : (sizeof(((const U8*)(p))[0]) == sizeof(U32)) ? ((((NV) ((0x09)) >= 0) ? ( void)0 : __assert2("re_comp.c", 14181, __func__, "(NV) ((0x09)) >= 0" )), (((NV) (((0x0D) - (0x09))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 14181, __func__, "(NV) (((0x0D) - (0x09))) >= 0" )), (((U64) (((((U32) (((const U8*)(p))[0])))) - (((0x09)) | 0 ))) <= (((U64) ((((0x0D) - (0x09))) | 0))))) : (((sizeof(( (const U8*)(p))[0]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 14181, __func__, "sizeof(((const U8*)(p))[0]) == sizeof(U64)" )), ((((NV) ((0x09)) >= 0) ? (void)0 : __assert2("re_comp.c" , 14181, __func__, "(NV) ((0x09)) >= 0")), (((NV) (((0x0D) - (0x09))) >= 0) ? (void)0 : __assert2("re_comp.c", 14181 , __func__, "(NV) (((0x0D) - (0x09))) >= 0")), (((U64) ((( ((U64) (((const U8*)(p))[0])))) - (((0x09)) | 0))) <= (((U64 ) ((((0x0D) - (0x09))) | 0)))))))) || 0x20 == ((const U8*)(p) )[0] ) ? 1 : (! (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0) ) ? ( 0x85 == ((const U8*)(p))[0] ) : ( __builtin_expect( (((((pRExC_state->end)) - ((p))) >= PL_utf8skip[*(const U8*)((p))]) ? (_Bool)1 : (_Bool)0),(1)) ) ? ( ( 0xC2 == ((const U8*)(p))[0] ) ? ( ( 0x85 == ((const U8*)(p))[1] ) ? 2 : 0 ) : ( ( ( 0xE2 == ((const U8*)(p))[0] ) && ( 0x80 == ((const U8*)(p))[1] ) ) && ( ((((0x8F) >= (0x8E)) ? (void )0 : __assert2("re_comp.c", 14181, __func__, "(0x8F) >= (0x8E)" )), ( (sizeof(((const U8*)(p))[2]) == sizeof(U8)) ? ((((NV) ( (0x8E)) >= 0) ? (void)0 : __assert2("re_comp.c", 14181, __func__ , "(NV) ((0x8E)) >= 0")), (((NV) (((0x8F) - (0x8E))) >= 0) ? (void)0 : __assert2("re_comp.c", 14181, __func__, "(NV) (((0x8F) - (0x8E))) >= 0" )), (((U64) (((((U8) (((const U8*)(p))[2])))) - (((0x8E)) | 0 ))) <= (((U64) ((((0x8F) - (0x8E))) | 0))))) : (sizeof(((const U8*)(p))[2]) == sizeof(U32)) ? ((((NV) ((0x8E)) >= 0) ? ( void)0 : __assert2("re_comp.c", 14181, __func__, "(NV) ((0x8E)) >= 0" )), (((NV) (((0x8F) - (0x8E))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 14181, __func__, "(NV) (((0x8F) - (0x8E))) >= 0" )), (((U64) (((((U32) (((const U8*)(p))[2])))) - (((0x8E)) | 0 ))) <= (((U64) ((((0x8F) - (0x8E))) | 0))))) : (((sizeof(( (const U8*)(p))[2]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 14181, __func__, "sizeof(((const U8*)(p))[2]) == sizeof(U64)" )), ((((NV) ((0x8E)) >= 0) ? (void)0 : __assert2("re_comp.c" , 14181, __func__, "(NV) ((0x8E)) >= 0")), (((NV) (((0x8F) - (0x8E))) >= 0) ? (void)0 : __assert2("re_comp.c", 14181 , __func__, "(NV) (((0x8F) - (0x8E))) >= 0")), (((U64) ((( ((U64) (((const U8*)(p))[2])))) - (((0x8E)) | 0))) <= (((U64 ) ((((0x8F) - (0x8E))) | 0)))))))) || ((((0xA9) >= (0xA8)) ? (void)0 : __assert2("re_comp.c", 14181, __func__, "(0xA9) >= (0xA8)" )), ( (sizeof(((const U8*)(p))[2]) == sizeof(U8)) ? ((((NV) ( (0xA8)) >= 0) ? (void)0 : __assert2("re_comp.c", 14181, __func__ , "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_comp.c", 14181, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U8) (((const U8*)(p))[2])))) - (((0xA8)) | 0 ))) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (sizeof(((const U8*)(p))[2]) == sizeof(U32)) ? ((((NV) ((0xA8)) >= 0) ? ( void)0 : __assert2("re_comp.c", 14181, __func__, "(NV) ((0xA8)) >= 0" )), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 14181, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U32) (((const U8*)(p))[2])))) - (((0xA8)) | 0 ))) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (((sizeof(( (const U8*)(p))[2]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 14181, __func__, "sizeof(((const U8*)(p))[2]) == sizeof(U64)" )), ((((NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_comp.c" , 14181, __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_comp.c", 14181 , __func__, "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) ((( ((U64) (((const U8*)(p))[2])))) - (((0xA8)) | 0))) <= (((U64 ) ((((0xA9) - (0xA8))) | 0)))))))) ) ) ? 3 : 0 ) : 0 ) : 0 )) ? (void)0 : __assert2("re_comp.c", 14181, __func__, "(RExC_flags & RXf_PMf_EXTENDED) == 0 || ! is_PATWS_safe((p), RExC_end, UTF)" )) |
14181 | || ! is_PATWS_safe((p), RExC_end, UTF))((((pRExC_state->flags) & (1U << (0 +3))) == 0 || ! ( ( __builtin_expect(((((pRExC_state->end)) > ((p))) ? (_Bool)1 : (_Bool)0),(1)) ) ? ( ( ((((0x0D) >= (0x09)) ? (void)0 : __assert2("re_comp.c", 14181, __func__, "(0x0D) >= (0x09)" )), ( (sizeof(((const U8*)(p))[0]) == sizeof(U8)) ? ((((NV) ( (0x09)) >= 0) ? (void)0 : __assert2("re_comp.c", 14181, __func__ , "(NV) ((0x09)) >= 0")), (((NV) (((0x0D) - (0x09))) >= 0) ? (void)0 : __assert2("re_comp.c", 14181, __func__, "(NV) (((0x0D) - (0x09))) >= 0" )), (((U64) (((((U8) (((const U8*)(p))[0])))) - (((0x09)) | 0 ))) <= (((U64) ((((0x0D) - (0x09))) | 0))))) : (sizeof(((const U8*)(p))[0]) == sizeof(U32)) ? ((((NV) ((0x09)) >= 0) ? ( void)0 : __assert2("re_comp.c", 14181, __func__, "(NV) ((0x09)) >= 0" )), (((NV) (((0x0D) - (0x09))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 14181, __func__, "(NV) (((0x0D) - (0x09))) >= 0" )), (((U64) (((((U32) (((const U8*)(p))[0])))) - (((0x09)) | 0 ))) <= (((U64) ((((0x0D) - (0x09))) | 0))))) : (((sizeof(( (const U8*)(p))[0]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 14181, __func__, "sizeof(((const U8*)(p))[0]) == sizeof(U64)" )), ((((NV) ((0x09)) >= 0) ? (void)0 : __assert2("re_comp.c" , 14181, __func__, "(NV) ((0x09)) >= 0")), (((NV) (((0x0D) - (0x09))) >= 0) ? (void)0 : __assert2("re_comp.c", 14181 , __func__, "(NV) (((0x0D) - (0x09))) >= 0")), (((U64) ((( ((U64) (((const U8*)(p))[0])))) - (((0x09)) | 0))) <= (((U64 ) ((((0x0D) - (0x09))) | 0)))))))) || 0x20 == ((const U8*)(p) )[0] ) ? 1 : (! (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0) ) ? ( 0x85 == ((const U8*)(p))[0] ) : ( __builtin_expect( (((((pRExC_state->end)) - ((p))) >= PL_utf8skip[*(const U8*)((p))]) ? (_Bool)1 : (_Bool)0),(1)) ) ? ( ( 0xC2 == ((const U8*)(p))[0] ) ? ( ( 0x85 == ((const U8*)(p))[1] ) ? 2 : 0 ) : ( ( ( 0xE2 == ((const U8*)(p))[0] ) && ( 0x80 == ((const U8*)(p))[1] ) ) && ( ((((0x8F) >= (0x8E)) ? (void )0 : __assert2("re_comp.c", 14181, __func__, "(0x8F) >= (0x8E)" )), ( (sizeof(((const U8*)(p))[2]) == sizeof(U8)) ? ((((NV) ( (0x8E)) >= 0) ? (void)0 : __assert2("re_comp.c", 14181, __func__ , "(NV) ((0x8E)) >= 0")), (((NV) (((0x8F) - (0x8E))) >= 0) ? (void)0 : __assert2("re_comp.c", 14181, __func__, "(NV) (((0x8F) - (0x8E))) >= 0" )), (((U64) (((((U8) (((const U8*)(p))[2])))) - (((0x8E)) | 0 ))) <= (((U64) ((((0x8F) - (0x8E))) | 0))))) : (sizeof(((const U8*)(p))[2]) == sizeof(U32)) ? ((((NV) ((0x8E)) >= 0) ? ( void)0 : __assert2("re_comp.c", 14181, __func__, "(NV) ((0x8E)) >= 0" )), (((NV) (((0x8F) - (0x8E))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 14181, __func__, "(NV) (((0x8F) - (0x8E))) >= 0" )), (((U64) (((((U32) (((const U8*)(p))[2])))) - (((0x8E)) | 0 ))) <= (((U64) ((((0x8F) - (0x8E))) | 0))))) : (((sizeof(( (const U8*)(p))[2]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 14181, __func__, "sizeof(((const U8*)(p))[2]) == sizeof(U64)" )), ((((NV) ((0x8E)) >= 0) ? (void)0 : __assert2("re_comp.c" , 14181, __func__, "(NV) ((0x8E)) >= 0")), (((NV) (((0x8F) - (0x8E))) >= 0) ? (void)0 : __assert2("re_comp.c", 14181 , __func__, "(NV) (((0x8F) - (0x8E))) >= 0")), (((U64) ((( ((U64) (((const U8*)(p))[2])))) - (((0x8E)) | 0))) <= (((U64 ) ((((0x8F) - (0x8E))) | 0)))))))) || ((((0xA9) >= (0xA8)) ? (void)0 : __assert2("re_comp.c", 14181, __func__, "(0xA9) >= (0xA8)" )), ( (sizeof(((const U8*)(p))[2]) == sizeof(U8)) ? ((((NV) ( (0xA8)) >= 0) ? (void)0 : __assert2("re_comp.c", 14181, __func__ , "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_comp.c", 14181, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U8) (((const U8*)(p))[2])))) - (((0xA8)) | 0 ))) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (sizeof(((const U8*)(p))[2]) == sizeof(U32)) ? ((((NV) ((0xA8)) >= 0) ? ( void)0 : __assert2("re_comp.c", 14181, __func__, "(NV) ((0xA8)) >= 0" )), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 14181, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U32) (((const U8*)(p))[2])))) - (((0xA8)) | 0 ))) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (((sizeof(( (const U8*)(p))[2]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 14181, __func__, "sizeof(((const U8*)(p))[2]) == sizeof(U64)" )), ((((NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_comp.c" , 14181, __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_comp.c", 14181 , __func__, "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) ((( ((U64) (((const U8*)(p))[2])))) - (((0xA8)) | 0))) <= (((U64 ) ((((0xA9) - (0xA8))) | 0)))))))) ) ) ? 3 : 0 ) : 0 ) : 0 )) ? (void)0 : __assert2("re_comp.c", 14181, __func__, "(RExC_flags & RXf_PMf_EXTENDED) == 0 || ! is_PATWS_safe((p), RExC_end, UTF)" )); |
14182 | |
14183 | switch ((U8)*p) { |
14184 | const char* message; |
14185 | U32 packed_warn; |
14186 | U8 grok_c_char; |
14187 | |
14188 | case '^': |
14189 | case '$': |
14190 | case '.': |
14191 | case '[': |
14192 | case '(': |
14193 | case ')': |
14194 | case '|': |
14195 | goto loopdone; |
14196 | case '\\': |
14197 | /* Literal Escapes Switch |
14198 | |
14199 | This switch is meant to handle escape sequences that |
14200 | resolve to a literal character. |
14201 | |
14202 | Every escape sequence that represents something |
14203 | else, like an assertion or a char class, is handled |
14204 | in the switch marked 'Special Escapes' above in this |
14205 | routine, but also has an entry here as anything that |
14206 | isn't explicitly mentioned here will be treated as |
14207 | an unescaped equivalent literal. |
14208 | */ |
14209 | |
14210 | switch ((U8)*++p) { |
14211 | |
14212 | /* These are all the special escapes. */ |
14213 | case 'A': /* Start assertion */ |
14214 | case 'b': case 'B': /* Word-boundary assertion*/ |
14215 | case 'C': /* Single char !DANGEROUS! */ |
14216 | case 'd': case 'D': /* digit class */ |
14217 | case 'g': case 'G': /* generic-backref, pos assertion */ |
14218 | case 'h': case 'H': /* HORIZWS */ |
14219 | case 'k': case 'K': /* named backref, keep marker */ |
14220 | case 'p': case 'P': /* Unicode property */ |
14221 | case 'R': /* LNBREAK */ |
14222 | case 's': case 'S': /* space class */ |
14223 | case 'v': case 'V': /* VERTWS */ |
14224 | case 'w': case 'W': /* word class */ |
14225 | case 'X': /* eXtended Unicode "combining |
14226 | character sequence" */ |
14227 | case 'z': case 'Z': /* End of line/string assertion */ |
14228 | --p; |
14229 | goto loopdone; |
14230 | |
14231 | /* Anything after here is an escape that resolves to a |
14232 | literal. (Except digits, which may or may not) |
14233 | */ |
14234 | case 'n': |
14235 | ender = '\n'; |
14236 | p++; |
14237 | break; |
14238 | case 'N': /* Handle a single-code point named character. */ |
14239 | RExC_parse(pRExC_state->parse) = p + 1; |
14240 | if (! grok_bslash_N(pRExC_state,S_grok_bslash_N( pRExC_state,((void*)0),&ender,((void*)0) ,flagp,(pRExC_state->strict),depth) |
14241 | NULL, /* Fail if evaluates toS_grok_bslash_N( pRExC_state,((void*)0),&ender,((void*)0) ,flagp,(pRExC_state->strict),depth) |
14242 | anything other than aS_grok_bslash_N( pRExC_state,((void*)0),&ender,((void*)0) ,flagp,(pRExC_state->strict),depth) |
14243 | single code point */S_grok_bslash_N( pRExC_state,((void*)0),&ender,((void*)0) ,flagp,(pRExC_state->strict),depth) |
14244 | &ender, /* The returned single codeS_grok_bslash_N( pRExC_state,((void*)0),&ender,((void*)0) ,flagp,(pRExC_state->strict),depth) |
14245 | point */S_grok_bslash_N( pRExC_state,((void*)0),&ender,((void*)0) ,flagp,(pRExC_state->strict),depth) |
14246 | NULL, /* Don't need a count ofS_grok_bslash_N( pRExC_state,((void*)0),&ender,((void*)0) ,flagp,(pRExC_state->strict),depth) |
14247 | how many code points */S_grok_bslash_N( pRExC_state,((void*)0),&ender,((void*)0) ,flagp,(pRExC_state->strict),depth) |
14248 | flagp,S_grok_bslash_N( pRExC_state,((void*)0),&ender,((void*)0) ,flagp,(pRExC_state->strict),depth) |
14249 | RExC_strict,S_grok_bslash_N( pRExC_state,((void*)0),&ender,((void*)0) ,flagp,(pRExC_state->strict),depth) |
14250 | depth)S_grok_bslash_N( pRExC_state,((void*)0),&ender,((void*)0) ,flagp,(pRExC_state->strict),depth) |
14251 | ) { |
14252 | if (*flagp & NEED_UTF80x40) |
14253 | FAIL("panic: grok_bslash_N set NEED_UTF8")do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "%s in regex m/%" "d%" "lu" "%4p" "%s/", "panic: grok_bslash_N set NEED_UTF8" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp )), ellipses); } while (0); |
14254 | RETURN_FAIL_ON_RESTART_FLAGP(flagp)if (((*(flagp)) & (0x20))) return 0; |
14255 | |
14256 | /* Here, it wasn't a single code point. Go close |
14257 | * up this EXACTish node. The switch() prior to |
14258 | * this switch handles the other cases */ |
14259 | RExC_parse(pRExC_state->parse) = p = oldp; |
14260 | goto loopdone; |
14261 | } |
14262 | p = RExC_parse(pRExC_state->parse); |
14263 | RExC_parse(pRExC_state->parse) = parse_start; |
14264 | |
14265 | /* The \N{} means the pattern, if previously /d, |
14266 | * becomes /u. That means it can't be an EXACTF node, |
14267 | * but an EXACTFU */ |
14268 | if (node_type == EXACTF43) { |
14269 | node_type = EXACTFU45; |
14270 | |
14271 | /* If the node already contains something that |
14272 | * differs between EXACTF and EXACTFU, reparse it |
14273 | * as EXACTFU */ |
14274 | if (! maybe_exactfu) { |
14275 | len = 0; |
14276 | s = s0; |
Value stored to 's' is never read | |
14277 | goto reparse; |
14278 | } |
14279 | } |
14280 | |
14281 | break; |
14282 | case 'r': |
14283 | ender = '\r'; |
14284 | p++; |
14285 | break; |
14286 | case 't': |
14287 | ender = '\t'; |
14288 | p++; |
14289 | break; |
14290 | case 'f': |
14291 | ender = '\f'; |
14292 | p++; |
14293 | break; |
14294 | case 'e': |
14295 | ender = ESC_NATIVE0x1B; |
14296 | p++; |
14297 | break; |
14298 | case 'a': |
14299 | ender = '\a'; |
14300 | p++; |
14301 | break; |
14302 | case 'o': |
14303 | if (! grok_bslash_o(&p,Perl_grok_bslash_o( &p,(pRExC_state->end),&ender,& message,&packed_warn,(_Bool) (pRExC_state->strict),(0) ,(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
14304 | RExC_end,Perl_grok_bslash_o( &p,(pRExC_state->end),&ender,& message,&packed_warn,(_Bool) (pRExC_state->strict),(0) ,(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
14305 | &ender,Perl_grok_bslash_o( &p,(pRExC_state->end),&ender,& message,&packed_warn,(_Bool) (pRExC_state->strict),(0) ,(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
14306 | &message,Perl_grok_bslash_o( &p,(pRExC_state->end),&ender,& message,&packed_warn,(_Bool) (pRExC_state->strict),(0) ,(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
14307 | &packed_warn,Perl_grok_bslash_o( &p,(pRExC_state->end),&ender,& message,&packed_warn,(_Bool) (pRExC_state->strict),(0) ,(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
14308 | (bool) RExC_strict,Perl_grok_bslash_o( &p,(pRExC_state->end),&ender,& message,&packed_warn,(_Bool) (pRExC_state->strict),(0) ,(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
14309 | FALSE, /* No illegal cp's */Perl_grok_bslash_o( &p,(pRExC_state->end),&ender,& message,&packed_warn,(_Bool) (pRExC_state->strict),(0) ,(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
14310 | UTF)Perl_grok_bslash_o( &p,(pRExC_state->end),&ender,& message,&packed_warn,(_Bool) (pRExC_state->strict),(0) ,(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0))) |
14311 | { |
14312 | RExC_parse(pRExC_state->parse) = p; /* going to die anyway; point to |
14313 | exact spot of failure */ |
14314 | vFAIL(message)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", message, (int)(((((pRExC_state->utf8)) ? ( _Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 14314, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
14315 | } |
14316 | |
14317 | if (message && TO_OUTPUT_WARNINGS(p)( (pRExC_state->copy_start) && ((((pRExC_state-> copy_start_in_input) + (p - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state-> latest_warn_offset ))) { |
14318 | warn_non_literal_string(p, packed_warn, message)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 14318, p); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))) - (pRExC_state->precomp )) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ( (void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) & PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN *) & PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((packed_warn) & 0xFF))+1) / 8)] & (1 << ((2*(((packed_warn) & 0xFF))+1) % 8)))) || ((((packed_warn ) >>8) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*((((packed_warn) >>8) & 0xFF ))+1) / 8)] & (1 << ((2*((((packed_warn) >>8) & 0xFF))+1) % 8)))) || ((((packed_warn) >>16) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1)) [((2*((((packed_warn) >>16) & 0xFF))+1) / 8)] & (1 << ((2*((((packed_warn) >>16) & 0xFF))+1) % 8)))) || ((((packed_warn) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packed_warn ) >>24) & 0xFF))+1) / 8)] & (1 << ((2*((( (packed_warn) >>24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))),11); if ( (pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->open_parens))),10); if ((pRExC_state-> close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); Perl_warner( packed_warn , "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", message, (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (p - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + (p - (pRExC_state-> copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 14318, (IV) (((pRExC_state->copy_start_in_input) + (p - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)), (int) (((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool) 1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (p - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (p - (pRExC_state->copy_start) )) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (p - ( pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state ->latest_warn_offset ) = ((((pRExC_state->precomp))> (((((pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + (p - (pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))))))) - (pRExC_state->precomp); } } while (0); } } while (0); |
14319 | } |
14320 | break; |
14321 | case 'x': |
14322 | if (! grok_bslash_x(&p,Perl_grok_bslash_x( &p,(pRExC_state->end),&ender,& message,&packed_warn,(_Bool) (pRExC_state->strict),(0) ,(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
14323 | RExC_end,Perl_grok_bslash_x( &p,(pRExC_state->end),&ender,& message,&packed_warn,(_Bool) (pRExC_state->strict),(0) ,(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
14324 | &ender,Perl_grok_bslash_x( &p,(pRExC_state->end),&ender,& message,&packed_warn,(_Bool) (pRExC_state->strict),(0) ,(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
14325 | &message,Perl_grok_bslash_x( &p,(pRExC_state->end),&ender,& message,&packed_warn,(_Bool) (pRExC_state->strict),(0) ,(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
14326 | &packed_warn,Perl_grok_bslash_x( &p,(pRExC_state->end),&ender,& message,&packed_warn,(_Bool) (pRExC_state->strict),(0) ,(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
14327 | (bool) RExC_strict,Perl_grok_bslash_x( &p,(pRExC_state->end),&ender,& message,&packed_warn,(_Bool) (pRExC_state->strict),(0) ,(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
14328 | FALSE, /* No illegal cp's */Perl_grok_bslash_x( &p,(pRExC_state->end),&ender,& message,&packed_warn,(_Bool) (pRExC_state->strict),(0) ,(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
14329 | UTF)Perl_grok_bslash_x( &p,(pRExC_state->end),&ender,& message,&packed_warn,(_Bool) (pRExC_state->strict),(0) ,(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0))) |
14330 | { |
14331 | RExC_parse(pRExC_state->parse) = p; /* going to die anyway; point |
14332 | to exact spot of failure */ |
14333 | vFAIL(message)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", message, (int)(((((pRExC_state->utf8)) ? ( _Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 14333, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
14334 | } |
14335 | |
14336 | if (message && TO_OUTPUT_WARNINGS(p)( (pRExC_state->copy_start) && ((((pRExC_state-> copy_start_in_input) + (p - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state-> latest_warn_offset ))) { |
14337 | warn_non_literal_string(p, packed_warn, message)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 14337, p); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))) - (pRExC_state->precomp )) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ( (void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) & PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN *) & PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((packed_warn) & 0xFF))+1) / 8)] & (1 << ((2*(((packed_warn) & 0xFF))+1) % 8)))) || ((((packed_warn ) >>8) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*((((packed_warn) >>8) & 0xFF ))+1) / 8)] & (1 << ((2*((((packed_warn) >>8) & 0xFF))+1) % 8)))) || ((((packed_warn) >>16) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1)) [((2*((((packed_warn) >>16) & 0xFF))+1) / 8)] & (1 << ((2*((((packed_warn) >>16) & 0xFF))+1) % 8)))) || ((((packed_warn) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packed_warn ) >>24) & 0xFF))+1) / 8)] & (1 << ((2*((( (packed_warn) >>24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))),11); if ( (pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->open_parens))),10); if ((pRExC_state-> close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); Perl_warner( packed_warn , "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", message, (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (p - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + (p - (pRExC_state-> copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 14337, (IV) (((pRExC_state->copy_start_in_input) + (p - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)), (int) (((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool) 1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (p - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (p - (pRExC_state->copy_start) )) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (p - ( pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state ->latest_warn_offset ) = ((((pRExC_state->precomp))> (((((pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + (p - (pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))))))) - (pRExC_state->precomp); } } while (0); } } while (0); |
14338 | } |
14339 | |
14340 | #ifdef EBCDIC |
14341 | if (ender < 0x100) { |
14342 | if (RExC_recode_x_to_native(pRExC_state->recode_x_to_native)) { |
14343 | ender = LATIN1_TO_NATIVE(ender)(((( (sizeof(ender) == 1) || !(((U64)((ender) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_comp.c", 14343, __func__, "( (sizeof(ender) == 1) || !(((U64)((ender) | 0)) & ~0xFF))" )), ((U8) ((ender) | 0))); |
14344 | } |
14345 | } |
14346 | #endif |
14347 | break; |
14348 | case 'c': |
14349 | p++; |
14350 | if (! grok_bslash_c(*p, &grok_c_char,Perl_grok_bslash_c( *p,&grok_c_char,&message,&packed_warn ) |
14351 | &message, &packed_warn)Perl_grok_bslash_c( *p,&grok_c_char,&message,&packed_warn )) |
14352 | { |
14353 | /* going to die anyway; point to exact spot of |
14354 | * failure */ |
14355 | RExC_parse(pRExC_state->parse) = p + ((UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
14356 | ? UTF8_SAFE_SKIP(p, RExC_end)(((((pRExC_state->end)) >= (p)) ? (void)0 : __assert2("re_comp.c" , 14356, __func__, "((pRExC_state->end)) >= (p)")), ((( pRExC_state->end)) - (p)) <= 0 ? 0 : ((((((pRExC_state-> end)) - (p)))<(PL_utf8skip[*(const U8*)(p)]))?((((pRExC_state ->end)) - (p))):(PL_utf8skip[*(const U8*)(p)]))) |
14357 | : 1); |
14358 | vFAIL(message)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", message, (int)(((((pRExC_state->utf8)) ? ( _Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 14358, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
14359 | } |
14360 | |
14361 | ender = grok_c_char; |
14362 | p++; |
14363 | if (message && TO_OUTPUT_WARNINGS(p)( (pRExC_state->copy_start) && ((((pRExC_state-> copy_start_in_input) + (p - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state-> latest_warn_offset ))) { |
14364 | warn_non_literal_string(p, packed_warn, message)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 14364, p); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))) - (pRExC_state->precomp )) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ( (void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) & PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN *) & PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((packed_warn) & 0xFF))+1) / 8)] & (1 << ((2*(((packed_warn) & 0xFF))+1) % 8)))) || ((((packed_warn ) >>8) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*((((packed_warn) >>8) & 0xFF ))+1) / 8)] & (1 << ((2*((((packed_warn) >>8) & 0xFF))+1) % 8)))) || ((((packed_warn) >>16) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1)) [((2*((((packed_warn) >>16) & 0xFF))+1) / 8)] & (1 << ((2*((((packed_warn) >>16) & 0xFF))+1) % 8)))) || ((((packed_warn) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packed_warn ) >>24) & 0xFF))+1) / 8)] & (1 << ((2*((( (packed_warn) >>24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))),11); if ( (pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->open_parens))),10); if ((pRExC_state-> close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); Perl_warner( packed_warn , "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", message, (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (p - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + (p - (pRExC_state-> copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 14364, (IV) (((pRExC_state->copy_start_in_input) + (p - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)), (int) (((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool) 1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (p - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (p - (pRExC_state->copy_start) )) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (p - ( pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state ->latest_warn_offset ) = ((((pRExC_state->precomp))> (((((pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + (p - (pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))))))) - (pRExC_state->precomp); } } while (0); } } while (0); |
14365 | } |
14366 | |
14367 | break; |
14368 | case '8': case '9': /* must be a backreference */ |
14369 | --p; |
14370 | /* we have an escape like \8 which cannot be an octal escape |
14371 | * so we exit the loop, and let the outer loop handle this |
14372 | * escape which may or may not be a legitimate backref. */ |
14373 | goto loopdone; |
14374 | case '1': case '2': case '3':case '4': |
14375 | case '5': case '6': case '7': |
14376 | /* When we parse backslash escapes there is ambiguity |
14377 | * between backreferences and octal escapes. Any escape |
14378 | * from \1 - \9 is a backreference, any multi-digit |
14379 | * escape which does not start with 0 and which when |
14380 | * evaluated as decimal could refer to an already |
14381 | * parsed capture buffer is a back reference. Anything |
14382 | * else is octal. |
14383 | * |
14384 | * Note this implies that \118 could be interpreted as |
14385 | * 118 OR as "\11" . "8" depending on whether there |
14386 | * were 118 capture buffers defined already in the |
14387 | * pattern. */ |
14388 | |
14389 | /* NOTE, RExC_npar is 1 more than the actual number of |
14390 | * parens we have seen so far, hence the "<" as opposed |
14391 | * to "<=" */ |
14392 | if ( !isDIGIT(p[1])(((('9') >= ('0')) ? (void)0 : __assert2("re_comp.c", 14392 , __func__, "('9') >= ('0')")), ( (sizeof(p[1]) == sizeof( U8)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 14392, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 14392, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U8) (p[1]) ))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0))) )) : (sizeof(p[1]) == sizeof(U32)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c", 14392, __func__, "(NV) (('0')) >= 0" )), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 14392, __func__, "(NV) ((('9') - ('0'))) >= 0")), (((U64 ) (((((U32) (p[1])))) - ((('0')) | 0))) <= (((U64) (((('9' ) - ('0'))) | 0))))) : (((sizeof(p[1]) == sizeof(U64)) ? (void )0 : __assert2("re_comp.c", 14392, __func__, "sizeof(p[1]) == sizeof(U64)" )), ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 14392, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 14392, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U64) (p[1] )))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0)) )))))) || S_backref_value(p, RExC_end(pRExC_state->end)) < RExC_npar(pRExC_state->npar)) |
14393 | { /* Not to be treated as an octal constant, go |
14394 | find backref */ |
14395 | --p; |
14396 | goto loopdone; |
14397 | } |
14398 | /* FALLTHROUGH */ |
14399 | case '0': |
14400 | { |
14401 | I32 flags = PERL_SCAN_SILENT_ILLDIGIT0x08 |
14402 | | PERL_SCAN_NOTIFY_ILLDIGIT0x40; |
14403 | STRLEN numlen = 3; |
14404 | ender = grok_oct(p, &numlen, &flags, NULL)(*(&flags) |= 0x02, Perl_grok_bin_oct_hex( p,&numlen, &flags,((void*)0),3,24,'\0')); |
14405 | p += numlen; |
14406 | if ( (flags & PERL_SCAN_NOTIFY_ILLDIGIT0x40) |
14407 | && isDIGIT(*p)(((('9') >= ('0')) ? (void)0 : __assert2("re_comp.c", 14407 , __func__, "('9') >= ('0')")), ( (sizeof(*p) == sizeof(U8 )) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 14407, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 14407, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U8) (*p))) ) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0))))) : (sizeof(*p) == sizeof(U32)) ? ((((NV) (('0')) >= 0) ? ( void)0 : __assert2("re_comp.c", 14407, __func__, "(NV) (('0')) >= 0" )), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 14407, __func__, "(NV) ((('9') - ('0'))) >= 0")), (((U64 ) (((((U32) (*p)))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0))))) : (((sizeof(*p) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 14407, __func__, "sizeof(*p) == sizeof(U64)" )), ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 14407, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 14407, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U64) (*p)) )) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0)))) )))) /* like \08, \178 */ |
14408 | && ckWARN(WARN_REGEXP)Perl_ckwarn( (20 ))) |
14409 | { |
14410 | reg_warn_non_literal_string(do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 14413, p + 1); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", Perl_form_alien_digit_msg( 8,numlen,p,(pRExC_state-> end),(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0),(0)), ( int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) >= 0) ? (((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 14413, (IV) (((pRExC_state-> copy_start_in_input) + (p + 1 - (pRExC_state->copy_start)) ) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state->start)), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? 0 : ( pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start)))) - (pRExC_state->precomp )) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state-> precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
14411 | p + 1,do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 14413, p + 1); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", Perl_form_alien_digit_msg( 8,numlen,p,(pRExC_state-> end),(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0),(0)), ( int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) >= 0) ? (((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 14413, (IV) (((pRExC_state-> copy_start_in_input) + (p + 1 - (pRExC_state->copy_start)) ) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state->start)), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? 0 : ( pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start)))) - (pRExC_state->precomp )) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state-> precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
14412 | form_alien_digit_msg(8, numlen, p,do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 14413, p + 1); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", Perl_form_alien_digit_msg( 8,numlen,p,(pRExC_state-> end),(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0),(0)), ( int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) >= 0) ? (((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 14413, (IV) (((pRExC_state-> copy_start_in_input) + (p + 1 - (pRExC_state->copy_start)) ) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state->start)), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? 0 : ( pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start)))) - (pRExC_state->precomp )) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state-> precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
14413 | RExC_end, UTF, FALSE))do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 14413, p + 1); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_warner( (20 ), "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", Perl_form_alien_digit_msg( 8,numlen,p,(pRExC_state-> end),(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0),(0)), ( int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) >= 0) ? (((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 14413, (IV) (((pRExC_state-> copy_start_in_input) + (p + 1 - (pRExC_state->copy_start)) ) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state->start)), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? 0 : ( pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start)))) - (pRExC_state->precomp )) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state-> precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); |
14414 | } |
14415 | } |
14416 | break; |
14417 | case '\0': |
14418 | if (p >= RExC_end(pRExC_state->end)) |
14419 | FAIL("Trailing \\")do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "%s in regex m/%" "d%" "lu" "%4p" "%s/", "Trailing \\" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp )), ellipses); } while (0); |
14420 | /* FALLTHROUGH */ |
14421 | default: |
14422 | if (isALPHANUMERIC(*p)(( (sizeof(*p) == 1) || !(((U64)((*p) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*p)] & ((1U << (7)) | (1U << (14)))) == ((1U << (7)) | (1U << (14)))))) { |
14423 | /* An alpha followed by '{' is going to fail next |
14424 | * iteration, so don't output this warning in that |
14425 | * case */ |
14426 | if (! isALPHA(*p)(((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 14426 , __func__, "('Z') >= ('A')")), ( (sizeof((~('A' ^ 'a') & (*p))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 14426, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 14426, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U8) ((~('A' ^ 'a') & (*p)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & (*p))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 14426, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 14426, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) ((~('A' ^ 'a') & (*p)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a' ) & (*p))) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 14426, __func__, "sizeof((~('A' ^ 'a') & (*p))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 14426, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 14426, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & (*p)))))) - ((('A')) | 0))) <= (((U64) (((('Z' ) - ('A'))) | 0)))))))) || *(p + 1) != '{') { |
14427 | ckWARN2reg(p + 1, "Unrecognized escape \\%.1s"do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 14428, p + 1); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), "Unrecognized escape \\%.1s" " passed through" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", p, (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state-> copy_start_in_input) + (p + 1 - (pRExC_state->copy_start)) ) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 14428, (IV) (((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp) ), ((int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state->start)), 0))), (void*)((pRExC_state->precomp )), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
14428 | " passed through", p)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 14428, p + 1); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), "Unrecognized escape \\%.1s" " passed through" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", p, (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state-> copy_start_in_input) + (p + 1 - (pRExC_state->copy_start)) ) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 14428, (IV) (((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp) ), ((int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state->start)), 0))), (void*)((pRExC_state->precomp )), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start )))), (void*)((((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); |
14429 | } |
14430 | } |
14431 | goto normal_default; |
14432 | } /* End of switch on '\' */ |
14433 | break; |
14434 | case '{': |
14435 | /* Trying to gain new uses for '{' without breaking too |
14436 | * much existing code is hard. The solution currently |
14437 | * adopted is: |
14438 | * 1) If there is no ambiguity that a '{' should always |
14439 | * be taken literally, at the start of a construct, we |
14440 | * just do so. |
14441 | * 2) If the literal '{' conflicts with our desired use |
14442 | * of it as a metacharacter, we die. The deprecation |
14443 | * cycles for this have come and gone. |
14444 | * 3) If there is ambiguity, we raise a simple warning. |
14445 | * This could happen, for example, if the user |
14446 | * intended it to introduce a quantifier, but slightly |
14447 | * misspelled the quantifier. Without this warning, |
14448 | * the quantifier would silently be taken as a literal |
14449 | * string of characters instead of a meta construct */ |
14450 | if (len || (p > RExC_start(pRExC_state->start) && isALPHA_A(*(p - 1))(((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 14450 , __func__, "('Z') >= ('A')")), ( (sizeof((~('A' ^ 'a') & (*(p - 1)))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void )0 : __assert2("re_comp.c", 14450, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 14450, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U8) ((~('A' ^ 'a') & (*(p - 1))))))) - ((('A')) | 0 ))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & (*(p - 1)))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 14450, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 14450, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) ((~('A' ^ 'a') & (*(p - 1))))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof(( ~('A' ^ 'a') & (*(p - 1)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_comp.c", 14450, __func__, "sizeof((~('A' ^ 'a') & (*(p - 1)))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 14450, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 14450, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & (*(p - 1))))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)))))))))) { |
14451 | if ( RExC_strict(pRExC_state->strict) |
14452 | || ( p > parse_start + 1 |
14453 | && isALPHA_A(*(p - 1))(((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 14453 , __func__, "('Z') >= ('A')")), ( (sizeof((~('A' ^ 'a') & (*(p - 1)))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void )0 : __assert2("re_comp.c", 14453, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 14453, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U8) ((~('A' ^ 'a') & (*(p - 1))))))) - ((('A')) | 0 ))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & (*(p - 1)))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 14453, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 14453, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) ((~('A' ^ 'a') & (*(p - 1))))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof(( ~('A' ^ 'a') & (*(p - 1)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_comp.c", 14453, __func__, "sizeof((~('A' ^ 'a') & (*(p - 1)))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 14453, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 14453, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & (*(p - 1))))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)))))))) |
14454 | && *(p - 2) == '\\') |
14455 | || new_regcurlyS_new_regcurly(p, RExC_end(pRExC_state->end))) |
14456 | { |
14457 | RExC_parse(pRExC_state->parse) = p + 1; |
14458 | vFAIL("Unescaped left brace in regex is "do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Unescaped left brace in regex is " "illegal here" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 14459, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0) |
14459 | "illegal here")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Unescaped left brace in regex is " "illegal here" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 14459, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
14460 | } |
14461 | ckWARNreg(p + 1, "Unescaped left brace in regex is"do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 14462, p + 1); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), "Unescaped left brace in regex is" " passed through" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) >= 0) ? (((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 14462, (IV) (((pRExC_state-> copy_start_in_input) + (p + 1 - (pRExC_state->copy_start)) ) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state->start)), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? 0 : ( pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start)))) - (pRExC_state->precomp )) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state-> precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
14462 | " passed through")do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 14462, p + 1); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), "Unescaped left brace in regex is" " passed through" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) >= 0) ? (((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 14462, (IV) (((pRExC_state-> copy_start_in_input) + (p + 1 - (pRExC_state->copy_start)) ) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state->start)), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? 0 : ( pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start)))) - (pRExC_state->precomp )) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state-> precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); |
14463 | } |
14464 | goto normal_default; |
14465 | case '}': |
14466 | case ']': |
14467 | if (p > RExC_parse(pRExC_state->parse) && RExC_strict(pRExC_state->strict)) { |
14468 | ckWARN2reg(p + 1, "Unescaped literal '%c'", *p)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 14468, p + 1); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), "Unescaped literal '%c'" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", *p, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + (p + 1 - (pRExC_state->copy_start)) ) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 14468, (IV) (((pRExC_state-> copy_start_in_input) + (p + 1 - (pRExC_state->copy_start)) ) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state->start)), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? 0 : ( pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start)))) - (pRExC_state->precomp )) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state-> precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (p + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (p + 1 - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); |
14469 | } |
14470 | /*FALLTHROUGH*/ |
14471 | default: /* A literal character */ |
14472 | normal_default: |
14473 | if (! UTF8_IS_INVARIANT(*p)((((U64)(((UV) (((*p) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0))) && UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) { |
14474 | STRLEN numlen; |
14475 | ender = utf8n_to_uvchr((U8*)p, RExC_end - p,Perl_utf8n_to_uvchr_msgs((U8*)p, (pRExC_state->end) - p, & numlen, 0, 0, 0) |
14476 | &numlen, UTF8_ALLOW_DEFAULT)Perl_utf8n_to_uvchr_msgs((U8*)p, (pRExC_state->end) - p, & numlen, 0, 0, 0); |
14477 | p += numlen; |
14478 | } |
14479 | else |
14480 | ender = (U8) *p++; |
14481 | break; |
14482 | } /* End of switch on the literal */ |
14483 | |
14484 | /* Here, have looked at the literal character, and <ender> |
14485 | * contains its ordinal; <p> points to the character after it. |
14486 | * */ |
14487 | |
14488 | if (ender > 255) { |
14489 | REQUIRE_UTF8(flagp)do { if (!(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) { *flagp = 0x20|0x40; return 0; } } while (0); |
14490 | if ( UNICODE_IS_PERL_EXTENDED(ender)__builtin_expect((((UV) (ender) > 0x7FFFFFFF) ? (_Bool)1 : (_Bool)0),(0)) |
14491 | && TO_OUTPUT_WARNINGS(p)( (pRExC_state->copy_start) && ((((pRExC_state-> copy_start_in_input) + (p - (pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state-> latest_warn_offset ))) |
14492 | { |
14493 | ckWARN2_non_literal_string(p,do { char * format; size_t format_size = strlen(PL_extended_cp_format ) + strlen(" in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/")+ 1; (format = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof( format_size) || sizeof(char) > ((size_t)1 << 8*(sizeof (size_t) - sizeof(format_size)))) ? (size_t)(format_size) : ( (size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof(char))) ? ( _Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap() ,0)), (char*)(Perl_safesysmalloc((size_t)((format_size)*sizeof (char)))))); strlcpy(format, PL_extended_cp_format, format_size ); strlcat(format, " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", format_size ); Perl_save_pushptr( (void *)((char*)(format)),10); do { if ( ! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 14496, p); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))) - (pRExC_state->precomp )) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ( (void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) & PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN *) & PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((17 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((17 )) & 0xFF))+1) % 8)))) || (((((17 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((17 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((17 )) >>8) & 0xFF))+1) % 8)))) || (((((17 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((17 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((17 )) >>16) & 0xFF))+1) % 8)))) || (((((17 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((17 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((17 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (17 ), format, ender, (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + (p - (pRExC_state->copy_start) )) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state-> copy_start_in_input) + (p - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 14496, (IV) (((pRExC_state->copy_start_in_input) + (p - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)), (int) (((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool) 1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (p - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (p - (pRExC_state->copy_start) )) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (p - ( pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state ->latest_warn_offset ) = ((((pRExC_state->precomp))> (((((pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + (p - (pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))))))) - (pRExC_state->precomp); } } while (0); } } while (0); } while (0) |
14494 | packWARN(WARN_PORTABLE),do { char * format; size_t format_size = strlen(PL_extended_cp_format ) + strlen(" in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/")+ 1; (format = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof( format_size) || sizeof(char) > ((size_t)1 << 8*(sizeof (size_t) - sizeof(format_size)))) ? (size_t)(format_size) : ( (size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof(char))) ? ( _Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap() ,0)), (char*)(Perl_safesysmalloc((size_t)((format_size)*sizeof (char)))))); strlcpy(format, PL_extended_cp_format, format_size ); strlcat(format, " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", format_size ); Perl_save_pushptr( (void *)((char*)(format)),10); do { if ( ! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 14496, p); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))) - (pRExC_state->precomp )) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ( (void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) & PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN *) & PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((17 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((17 )) & 0xFF))+1) % 8)))) || (((((17 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((17 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((17 )) >>8) & 0xFF))+1) % 8)))) || (((((17 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((17 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((17 )) >>16) & 0xFF))+1) % 8)))) || (((((17 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((17 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((17 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (17 ), format, ender, (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + (p - (pRExC_state->copy_start) )) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state-> copy_start_in_input) + (p - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 14496, (IV) (((pRExC_state->copy_start_in_input) + (p - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)), (int) (((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool) 1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (p - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (p - (pRExC_state->copy_start) )) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (p - ( pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state ->latest_warn_offset ) = ((((pRExC_state->precomp))> (((((pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + (p - (pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))))))) - (pRExC_state->precomp); } } while (0); } } while (0); } while (0) |
14495 | PL_extended_cp_format,do { char * format; size_t format_size = strlen(PL_extended_cp_format ) + strlen(" in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/")+ 1; (format = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof( format_size) || sizeof(char) > ((size_t)1 << 8*(sizeof (size_t) - sizeof(format_size)))) ? (size_t)(format_size) : ( (size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof(char))) ? ( _Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap() ,0)), (char*)(Perl_safesysmalloc((size_t)((format_size)*sizeof (char)))))); strlcpy(format, PL_extended_cp_format, format_size ); strlcat(format, " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", format_size ); Perl_save_pushptr( (void *)((char*)(format)),10); do { if ( ! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 14496, p); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))) - (pRExC_state->precomp )) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ( (void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) & PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN *) & PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((17 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((17 )) & 0xFF))+1) % 8)))) || (((((17 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((17 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((17 )) >>8) & 0xFF))+1) % 8)))) || (((((17 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((17 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((17 )) >>16) & 0xFF))+1) % 8)))) || (((((17 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((17 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((17 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (17 ), format, ender, (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + (p - (pRExC_state->copy_start) )) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state-> copy_start_in_input) + (p - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 14496, (IV) (((pRExC_state->copy_start_in_input) + (p - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)), (int) (((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool) 1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (p - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (p - (pRExC_state->copy_start) )) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (p - ( pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state ->latest_warn_offset ) = ((((pRExC_state->precomp))> (((((pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + (p - (pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))))))) - (pRExC_state->precomp); } } while (0); } } while (0); } while (0) |
14496 | ender)do { char * format; size_t format_size = strlen(PL_extended_cp_format ) + strlen(" in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/")+ 1; (format = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof( format_size) || sizeof(char) > ((size_t)1 << 8*(sizeof (size_t) - sizeof(format_size)))) ? (size_t)(format_size) : ( (size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof(char))) ? ( _Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap() ,0)), (char*)(Perl_safesysmalloc((size_t)((format_size)*sizeof (char)))))); strlcpy(format, PL_extended_cp_format, format_size ); strlcat(format, " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", format_size ); Perl_save_pushptr( (void *)((char*)(format)),10); do { if ( ! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 14496, p); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))) - (pRExC_state->precomp )) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ( (void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) & PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN *) & PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((17 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((17 )) & 0xFF))+1) % 8)))) || (((((17 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((17 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((17 )) >>8) & 0xFF))+1) % 8)))) || (((((17 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((17 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((17 )) >>16) & 0xFF))+1) % 8)))) || (((((17 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((17 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((17 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (17 ), format, ender, (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + (p - (pRExC_state->copy_start) )) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state-> copy_start_in_input) + (p - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 14496, (IV) (((pRExC_state->copy_start_in_input) + (p - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)), (int) (((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool) 1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (p - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (p - (pRExC_state->copy_start) )) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (p - ( pRExC_state->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state ->latest_warn_offset ) = ((((pRExC_state->precomp))> (((((pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + (p - (pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))))))) - (pRExC_state->precomp); } } while (0); } } while (0); } while (0); |
14497 | } |
14498 | } |
14499 | |
14500 | /* We need to check if the next non-ignored thing is a |
14501 | * quantifier. Move <p> to after anything that should be |
14502 | * ignored, which, as a side effect, positions <p> for the next |
14503 | * loop iteration */ |
14504 | skip_to_be_ignored_text(pRExC_state, &p,S_skip_to_be_ignored_text( pRExC_state,&p,(0)) |
14505 | FALSE /* Don't force to /x */ )S_skip_to_be_ignored_text( pRExC_state,&p,(0)); |
14506 | |
14507 | /* If the next thing is a quantifier, it applies to this |
14508 | * character only, which means that this character has to be in |
14509 | * its own node and can't just be appended to the string in an |
14510 | * existing node, so if there are already other characters in |
14511 | * the node, close the node with just them, and set up to do |
14512 | * this character again next time through, when it will be the |
14513 | * only thing in its new node */ |
14514 | |
14515 | next_is_quantifier = LIKELY(p < RExC_end)__builtin_expect(((p < (pRExC_state->end)) ? (_Bool)1 : (_Bool)0),(1)) |
14516 | && UNLIKELY(ISMULT2(p))__builtin_expect(((((*p) == '*' || (*p) == '+' || (*p) == '?' || ((*p) == '{' && S_regcurly(p)))) ? (_Bool)1 : (_Bool )0),(0)); |
14517 | |
14518 | if (next_is_quantifier && LIKELY(len)__builtin_expect(((len) ? (_Bool)1 : (_Bool)0),(1))) { |
14519 | p = oldp; |
14520 | goto loopdone; |
14521 | } |
14522 | |
14523 | /* Ready to add 'ender' to the node */ |
14524 | |
14525 | if (! FOLD(((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool )1 : (_Bool)0)) { /* The simple case, just append the literal */ |
14526 | not_fold_common: |
14527 | |
14528 | /* Don't output if it would overflow */ |
14529 | if (UNLIKELY(len > max_string_len - ((UTF)__builtin_expect(((len > max_string_len - (((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( ((((U64)(((UV) ((ender ) | 0)))) < (((U8) (0xFF << 6)) & 0xB0))) ? 1 : ( (UV) (ender) < (32 * (1U << ( 6))) ? 2 : (UV) (ender ) < (16 * (1U << (2 * 6))) ? 3 : (UV) (ender) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (ender) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (ender) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (ender) < ((UV) 1U << (6 * 6)) ? 7 : 13)) : 1)) ? (_Bool)1 : (_Bool)0),(0)) |
14530 | ? UVCHR_SKIP(ender)__builtin_expect(((len > max_string_len - (((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( ((((U64)(((UV) ((ender ) | 0)))) < (((U8) (0xFF << 6)) & 0xB0))) ? 1 : ( (UV) (ender) < (32 * (1U << ( 6))) ? 2 : (UV) (ender ) < (16 * (1U << (2 * 6))) ? 3 : (UV) (ender) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (ender) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (ender) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (ender) < ((UV) 1U << (6 * 6)) ? 7 : 13)) : 1)) ? (_Bool)1 : (_Bool)0),(0)) |
14531 | : 1))__builtin_expect(((len > max_string_len - (((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( ((((U64)(((UV) ((ender ) | 0)))) < (((U8) (0xFF << 6)) & 0xB0))) ? 1 : ( (UV) (ender) < (32 * (1U << ( 6))) ? 2 : (UV) (ender ) < (16 * (1U << (2 * 6))) ? 3 : (UV) (ender) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (ender) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (ender) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (ender) < ((UV) 1U << (6 * 6)) ? 7 : 13)) : 1)) ? (_Bool)1 : (_Bool)0),(0))) |
14532 | { |
14533 | overflowed = TRUE(1); |
14534 | break; |
14535 | } |
14536 | |
14537 | if (UVCHR_IS_INVARIANT(ender)((((U64)(((UV) ((ender) | 0)))) < (((U8) (0xFF << 6) ) & 0xB0))) || ! UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) { |
14538 | *(s++) = (char) ender; |
14539 | } |
14540 | else { |
14541 | U8 * new_s = uvchr_to_utf8((U8*)s, ender)Perl_uvoffuni_to_utf8_flags_msgs( (U8*)s,((UV) ((ender) | 0)) ,0,0); |
14542 | added_len = (char *) new_s - s; |
14543 | s = (char *) new_s; |
14544 | |
14545 | if (ender > 255) { |
14546 | requires_utf8_target = TRUE(1); |
14547 | } |
14548 | } |
14549 | } |
14550 | else if (LOC(get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET ) && is_PROBLEMATIC_LOCALE_FOLD_cp(ender)( ender <= 0xFF || ( 0xFF < ender && ( 0x130 == ender || ( 0x130 < ender && ( 0x131 == ender || ( 0x131 < ender && ( 0x149 == ender || ( 0x149 < ender && ( 0x178 == ender || ( 0x178 < ender && ( 0x17F == ender || ( 0x17F < ender && ( 0x1F0 == ender || ( 0x1F0 < ender && ( 0x307 == ender || ( 0x307 < ender && ( 0x39C == ender || ( 0x39C < ender && ( 0x3BC == ender || ( 0x3BC < ender && ( ((((0x1E9A) >= (0x1E96)) ? (void)0 : __assert2("re_comp.c" , 14550, __func__, "(0x1E9A) >= (0x1E96)")), ( (sizeof(ender ) == sizeof(U8)) ? ((((NV) ((0x1E96)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 14550, __func__, "(NV) ((0x1E96)) >= 0")), ( ((NV) (((0x1E9A) - (0x1E96))) >= 0) ? (void)0 : __assert2( "re_comp.c", 14550, __func__, "(NV) (((0x1E9A) - (0x1E96))) >= 0" )), (((U64) (((((U8) (ender)))) - (((0x1E96)) | 0))) <= (( (U64) ((((0x1E9A) - (0x1E96))) | 0))))) : (sizeof(ender) == sizeof (U32)) ? ((((NV) ((0x1E96)) >= 0) ? (void)0 : __assert2("re_comp.c" , 14550, __func__, "(NV) ((0x1E96)) >= 0")), (((NV) (((0x1E9A ) - (0x1E96))) >= 0) ? (void)0 : __assert2("re_comp.c", 14550 , __func__, "(NV) (((0x1E9A) - (0x1E96))) >= 0")), (((U64) (((((U32) (ender)))) - (((0x1E96)) | 0))) <= (((U64) (((( 0x1E9A) - (0x1E96))) | 0))))) : (((sizeof(ender) == sizeof(U64 )) ? (void)0 : __assert2("re_comp.c", 14550, __func__, "sizeof(ender) == sizeof(U64)" )), ((((NV) ((0x1E96)) >= 0) ? (void)0 : __assert2("re_comp.c" , 14550, __func__, "(NV) ((0x1E96)) >= 0")), (((NV) (((0x1E9A ) - (0x1E96))) >= 0) ? (void)0 : __assert2("re_comp.c", 14550 , __func__, "(NV) (((0x1E9A) - (0x1E96))) >= 0")), (((U64) (((((U64) (ender)))) - (((0x1E96)) | 0))) <= (((U64) (((( 0x1E9A) - (0x1E96))) | 0)))))))) || ( 0x1E9A < ender && ( 0x1E9E == ender || ( 0x1E9E < ender && ( 0x212A == ender || ( 0x212A < ender && ( 0x212B == ender || ((((0xFB06) >= (0xFB00)) ? (void)0 : __assert2("re_comp.c" , 14550, __func__, "(0xFB06) >= (0xFB00)")), ( (sizeof(ender ) == sizeof(U8)) ? ((((NV) ((0xFB00)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 14550, __func__, "(NV) ((0xFB00)) >= 0")), ( ((NV) (((0xFB06) - (0xFB00))) >= 0) ? (void)0 : __assert2( "re_comp.c", 14550, __func__, "(NV) (((0xFB06) - (0xFB00))) >= 0" )), (((U64) (((((U8) (ender)))) - (((0xFB00)) | 0))) <= (( (U64) ((((0xFB06) - (0xFB00))) | 0))))) : (sizeof(ender) == sizeof (U32)) ? ((((NV) ((0xFB00)) >= 0) ? (void)0 : __assert2("re_comp.c" , 14550, __func__, "(NV) ((0xFB00)) >= 0")), (((NV) (((0xFB06 ) - (0xFB00))) >= 0) ? (void)0 : __assert2("re_comp.c", 14550 , __func__, "(NV) (((0xFB06) - (0xFB00))) >= 0")), (((U64) (((((U32) (ender)))) - (((0xFB00)) | 0))) <= (((U64) (((( 0xFB06) - (0xFB00))) | 0))))) : (((sizeof(ender) == sizeof(U64 )) ? (void)0 : __assert2("re_comp.c", 14550, __func__, "sizeof(ender) == sizeof(U64)" )), ((((NV) ((0xFB00)) >= 0) ? (void)0 : __assert2("re_comp.c" , 14550, __func__, "(NV) ((0xFB00)) >= 0")), (((NV) (((0xFB06 ) - (0xFB00))) >= 0) ? (void)0 : __assert2("re_comp.c", 14550 , __func__, "(NV) (((0xFB06) - (0xFB00))) >= 0")), (((U64) (((((U64) (ender)))) - (((0xFB00)) | 0))) <= (((U64) (((( 0xFB06) - (0xFB00))) | 0)))))))) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) )) { |
14551 | |
14552 | /* Here are folding under /l, and the code point is |
14553 | * problematic. If this is the first character in the |
14554 | * node, change the node type to folding. Otherwise, if |
14555 | * this is the first problematic character, close up the |
14556 | * existing node, so can start a new node with this one */ |
14557 | if (! len) { |
14558 | node_type = EXACTFL44; |
14559 | RExC_contains_locale(pRExC_state->contains_locale) = 1; |
14560 | } |
14561 | else if (node_type == EXACT40) { |
14562 | p = oldp; |
14563 | goto loopdone; |
14564 | } |
14565 | |
14566 | /* This problematic code point means we can't simplify |
14567 | * things */ |
14568 | maybe_exactfu = FALSE(0); |
14569 | |
14570 | /* Here, we are adding a problematic fold character. |
14571 | * "Problematic" in this context means that its fold isn't |
14572 | * known until runtime. (The non-problematic code points |
14573 | * are the above-Latin1 ones that fold to also all |
14574 | * above-Latin1. Their folds don't vary no matter what the |
14575 | * locale is.) But here we have characters whose fold |
14576 | * depends on the locale. We just add in the unfolded |
14577 | * character, and wait until runtime to fold it */ |
14578 | goto not_fold_common; |
14579 | } |
14580 | else /* regular fold; see if actually is in a fold */ |
14581 | if ( (ender < 256 && ! IS_IN_SOME_FOLD_L1(ender)((( (sizeof(ender) == 1) || !(((U64)((ender) | 0)) & ~0xFF )) && (PL_charclass[(U8) (ender)] & (1U << ( 22)))) ? (_Bool)1 : (_Bool)0)) |
14582 | || (ender > 255 |
14583 | && ! _invlist_contains_cpS__invlist_contains_cp(PL_in_some_fold, ender))) |
14584 | { |
14585 | /* Here, folding, but the character isn't in a fold. |
14586 | * |
14587 | * Start a new node if previous characters in the node were |
14588 | * folded */ |
14589 | if (len && node_type != EXACT40) { |
14590 | p = oldp; |
14591 | goto loopdone; |
14592 | } |
14593 | |
14594 | /* Here, continuing a node with non-folded characters. Add |
14595 | * this one */ |
14596 | goto not_fold_common; |
14597 | } |
14598 | else { /* Here, does participate in some fold */ |
14599 | |
14600 | /* If this is the first character in the node, change its |
14601 | * type to folding. Otherwise, if this is the first |
14602 | * folding character in the node, close up the existing |
14603 | * node, so can start a new node with this one. */ |
14604 | if (! len) { |
14605 | node_type = compute_EXACTishS_compute_EXACTish(pRExC_state); |
14606 | } |
14607 | else if (node_type == EXACT40) { |
14608 | p = oldp; |
14609 | goto loopdone; |
14610 | } |
14611 | |
14612 | if (UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) { /* Alway use the folded value for UTF-8 |
14613 | patterns */ |
14614 | if (UVCHR_IS_INVARIANT(ender)((((U64)(((UV) ((ender) | 0)))) < (((U8) (0xFF << 6) ) & 0xB0)))) { |
14615 | if (UNLIKELY(len + 1 > max_string_len)__builtin_expect(((len + 1 > max_string_len) ? (_Bool)1 : ( _Bool)0),(0))) { |
14616 | overflowed = TRUE(1); |
14617 | break; |
14618 | } |
14619 | |
14620 | *(s)++ = (U8) toFOLD(ender)((((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 14620 , __func__, "('Z') >= ('A')")), ( (sizeof(ender) == sizeof (U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 14620, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 14620, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) (ender )))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)) ))) : (sizeof(ender) == sizeof(U32)) ? ((((NV) (('A')) >= 0 ) ? (void)0 : __assert2("re_comp.c", 14620, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 14620, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) (ender)))) - ((('A')) | 0))) <= (((U64) (((('Z' ) - ('A'))) | 0))))) : (((sizeof(ender) == sizeof(U64)) ? (void )0 : __assert2("re_comp.c", 14620, __func__, "sizeof(ender) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 14620, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 14620, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) (ender )))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)) )))))) ? (U8)((ender) + ('a' - 'A')) : (ender)); |
14621 | } |
14622 | else { |
14623 | UV folded = _to_uni_fold_flags(Perl__to_uni_fold_flags( ender,(U8 *) s,&added_len,0x2 | ( ((get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 0x4 : 0)) |
14624 | ender,Perl__to_uni_fold_flags( ender,(U8 *) s,&added_len,0x2 | ( ((get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 0x4 : 0)) |
14625 | (U8 *) s, /* We have allocated extra spacePerl__to_uni_fold_flags( ender,(U8 *) s,&added_len,0x2 | ( ((get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 0x4 : 0)) |
14626 | in 's' so can't run off thePerl__to_uni_fold_flags( ender,(U8 *) s,&added_len,0x2 | ( ((get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 0x4 : 0)) |
14627 | end */Perl__to_uni_fold_flags( ender,(U8 *) s,&added_len,0x2 | ( ((get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 0x4 : 0)) |
14628 | &added_len,Perl__to_uni_fold_flags( ender,(U8 *) s,&added_len,0x2 | ( ((get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 0x4 : 0)) |
14629 | FOLD_FLAGS_FULL | ((ASCII_FOLD_RESTRICTED)Perl__to_uni_fold_flags( ender,(U8 *) s,&added_len,0x2 | ( ((get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 0x4 : 0)) |
14630 | ? FOLD_FLAGS_NOMIX_ASCIIPerl__to_uni_fold_flags( ender,(U8 *) s,&added_len,0x2 | ( ((get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 0x4 : 0)) |
14631 | : 0))Perl__to_uni_fold_flags( ender,(U8 *) s,&added_len,0x2 | ( ((get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 0x4 : 0)); |
14632 | if (UNLIKELY(len + added_len > max_string_len)__builtin_expect(((len + added_len > max_string_len) ? (_Bool )1 : (_Bool)0),(0))) { |
14633 | overflowed = TRUE(1); |
14634 | break; |
14635 | } |
14636 | |
14637 | s += added_len; |
14638 | |
14639 | if ( folded > 255 |
14640 | && LIKELY(folded != GREEK_SMALL_LETTER_MU)__builtin_expect(((folded != 0x03BC) ? (_Bool)1 : (_Bool)0),( 1))) |
14641 | { |
14642 | /* U+B5 folds to the MU, so its possible for a |
14643 | * non-UTF-8 target to match it */ |
14644 | requires_utf8_target = TRUE(1); |
14645 | } |
14646 | } |
14647 | } |
14648 | else { /* Here is non-UTF8. */ |
14649 | |
14650 | /* The fold will be one or (rarely) two characters. |
14651 | * Check that there's room for at least a single one |
14652 | * before setting any flags, etc. Because otherwise an |
14653 | * overflowing character could cause a flag to be set |
14654 | * even though it doesn't end up in this node. (For |
14655 | * the two character fold, we check again, before |
14656 | * setting any flags) */ |
14657 | if (UNLIKELY(len + 1 > max_string_len)__builtin_expect(((len + 1 > max_string_len) ? (_Bool)1 : ( _Bool)0),(0))) { |
14658 | overflowed = TRUE(1); |
14659 | break; |
14660 | } |
14661 | |
14662 | #if UNICODE_MAJOR_VERSION13 > 3 /* no multifolds in early Unicode */ \ |
14663 | || (UNICODE_MAJOR_VERSION13 == 3 && ( UNICODE_DOT_VERSION0 > 0) \ |
14664 | || UNICODE_DOT_DOT_VERSION0 > 0) |
14665 | |
14666 | /* On non-ancient Unicodes, check for the only possible |
14667 | * multi-char fold */ |
14668 | if (UNLIKELY(ender == LATIN_SMALL_LETTER_SHARP_S)__builtin_expect(((ender == 0xDF) ? (_Bool)1 : (_Bool)0),(0))) { |
14669 | |
14670 | /* This potential multi-char fold means the node |
14671 | * can't be simple (because it could match more |
14672 | * than a single char). And in some cases it will |
14673 | * match 'ss', so set that flag */ |
14674 | maybe_SIMPLE = 0; |
14675 | has_ss = TRUE(1); |
14676 | |
14677 | /* It can't change to be an EXACTFU (unless already |
14678 | * is one). We fold it iff under /u rules. */ |
14679 | if (node_type != EXACTFU45) { |
14680 | maybe_exactfu = FALSE(0); |
14681 | } |
14682 | else { |
14683 | if (UNLIKELY(len + 2 > max_string_len)__builtin_expect(((len + 2 > max_string_len) ? (_Bool)1 : ( _Bool)0),(0))) { |
14684 | overflowed = TRUE(1); |
14685 | break; |
14686 | } |
14687 | |
14688 | *(s++) = 's'; |
14689 | *(s++) = 's'; |
14690 | added_len = 2; |
14691 | |
14692 | goto done_with_this_char; |
14693 | } |
14694 | } |
14695 | else if ( UNLIKELY(isALPHA_FOLD_EQ(ender, 's'))__builtin_expect(((((((((('Z') >= ('A')) ? (void)0 : __assert2 ("re_comp.c", 14695, __func__, "('Z') >= ('A')")), ( (sizeof ((~('A' ^ 'a') & (ender))) == sizeof(U8)) ? ((((NV) (('A' )) >= 0) ? (void)0 : __assert2("re_comp.c", 14695, __func__ , "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 14695, __func__, "(NV) ((('Z') - ('A'))) >= 0" )), (((U64) (((((U8) ((~('A' ^ 'a') & (ender)))))) - ((('A' )) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof ((~('A' ^ 'a') & (ender))) == sizeof(U32)) ? ((((NV) (('A' )) >= 0) ? (void)0 : __assert2("re_comp.c", 14695, __func__ , "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 14695, __func__, "(NV) ((('Z') - ('A'))) >= 0" )), (((U64) (((((U32) ((~('A' ^ 'a') & (ender)))))) - ((( 'A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof ((~('A' ^ 'a') & (ender))) == sizeof(U64)) ? (void)0 : __assert2 ("re_comp.c", 14695, __func__, "sizeof((~('A' ^ 'a') & (ender))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 14695, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 14695, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & (ender)))))) - ((('A')) | 0))) <= (((U64) (( (('Z') - ('A'))) | 0)))))))) || (((('Z') >= ('A')) ? (void )0 : __assert2("re_comp.c", 14695, __func__, "('Z') >= ('A')" )), ( (sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U8)) ? (( ((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 14695 , __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A')) ) >= 0) ? (void)0 : __assert2("re_comp.c", 14695, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((( 'Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2 ("re_comp.c", 14695, __func__, "(NV) (('A')) >= 0")), (((NV ) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 14695, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 14695, __func__, "sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 14695, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 14695, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((( 'Z') - ('A'))) | 0))))))))) ? (void)0 : __assert2("re_comp.c" , 14695, __func__, "(((('Z') >= ('A')) ? (void)0 : __assert2(\"re_comp.c\", 14695, __func__, \"('Z') >= ('A')\")), ( (sizeof((~('A' ^ 'a') & (ender))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 14695, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 14695, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U8) ((~('A' ^ 'a') & (ender)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & (ender))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 14695, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 14695, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U32) ((~('A' ^ 'a') & (ender)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a') & (ender))) == sizeof(U64)) ? (void)0 : __assert2(\"re_comp.c\", 14695, __func__, \"sizeof((~('A' ^ 'a') & (ender))) == sizeof(U64)\")), ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 14695, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 14695, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U64) ((~('A' ^ 'a') & (ender)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)))))))) || (((('Z') >= ('A')) ? (void)0 : __assert2(\"re_comp.c\", 14695, __func__, \"('Z') >= ('A')\")), ( (sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 14695, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 14695, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U8) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 14695, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 14695, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U32) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U64)) ? (void)0 : __assert2(\"re_comp.c\", 14695, __func__, \"sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U64)\")), ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 14695, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 14695, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U64) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))))))" )), ((ender) & ~('A' ^ 'a')) == (('s') & ~('A' ^ 'a') ))) ? (_Bool)1 : (_Bool)0),(0)) |
14696 | && LIKELY(len > 0)__builtin_expect(((len > 0) ? (_Bool)1 : (_Bool)0),(1)) |
14697 | && UNLIKELY(isALPHA_FOLD_EQ(*(s-1), 's'))__builtin_expect(((((((((('Z') >= ('A')) ? (void)0 : __assert2 ("re_comp.c", 14697, __func__, "('Z') >= ('A')")), ( (sizeof ((~('A' ^ 'a') & (*(s-1)))) == sizeof(U8)) ? ((((NV) (('A' )) >= 0) ? (void)0 : __assert2("re_comp.c", 14697, __func__ , "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 14697, __func__, "(NV) ((('Z') - ('A'))) >= 0" )), (((U64) (((((U8) ((~('A' ^ 'a') & (*(s-1))))))) - ((( 'A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof ((~('A' ^ 'a') & (*(s-1)))) == sizeof(U32)) ? ((((NV) (('A' )) >= 0) ? (void)0 : __assert2("re_comp.c", 14697, __func__ , "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 14697, __func__, "(NV) ((('Z') - ('A'))) >= 0" )), (((U64) (((((U32) ((~('A' ^ 'a') & (*(s-1))))))) - (( ('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : ((( sizeof((~('A' ^ 'a') & (*(s-1)))) == sizeof(U64)) ? (void )0 : __assert2("re_comp.c", 14697, __func__, "sizeof((~('A' ^ 'a') & (*(s-1)))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 14697, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 14697, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & (*(s-1))))))) - ((('A')) | 0))) <= (((U64) ( ((('Z') - ('A'))) | 0)))))))) || (((('Z') >= ('A')) ? (void )0 : __assert2("re_comp.c", 14697, __func__, "('Z') >= ('A')" )), ( (sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U8)) ? (( ((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 14697 , __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A')) ) >= 0) ? (void)0 : __assert2("re_comp.c", 14697, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((( 'Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2 ("re_comp.c", 14697, __func__, "(NV) (('A')) >= 0")), (((NV ) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 14697, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 14697, __func__, "sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 14697, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 14697, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((( 'Z') - ('A'))) | 0))))))))) ? (void)0 : __assert2("re_comp.c" , 14697, __func__, "(((('Z') >= ('A')) ? (void)0 : __assert2(\"re_comp.c\", 14697, __func__, \"('Z') >= ('A')\")), ( (sizeof((~('A' ^ 'a') & (*(s-1)))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 14697, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 14697, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U8) ((~('A' ^ 'a') & (*(s-1))))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & (*(s-1)))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 14697, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 14697, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U32) ((~('A' ^ 'a') & (*(s-1))))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a') & (*(s-1)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_comp.c\", 14697, __func__, \"sizeof((~('A' ^ 'a') & (*(s-1)))) == sizeof(U64)\")), ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 14697, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 14697, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U64) ((~('A' ^ 'a') & (*(s-1))))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)))))))) || (((('Z') >= ('A')) ? (void)0 : __assert2(\"re_comp.c\", 14697, __func__, \"('Z') >= ('A')\")), ( (sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 14697, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 14697, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U8) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 14697, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 14697, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U32) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U64)) ? (void)0 : __assert2(\"re_comp.c\", 14697, __func__, \"sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U64)\")), ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 14697, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 14697, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U64) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))))))" )), ((*(s-1)) & ~('A' ^ 'a')) == (('s') & ~('A' ^ 'a' )))) ? (_Bool)1 : (_Bool)0),(0))) |
14698 | { |
14699 | /* Also, the sequence 'ss' is special when not |
14700 | * under /u. If the target string is UTF-8, it |
14701 | * should match SHARP S; otherwise it won't. So, |
14702 | * here we have to exclude the possibility of this |
14703 | * node moving to /u.*/ |
14704 | has_ss = TRUE(1); |
14705 | maybe_exactfu = FALSE(0); |
14706 | } |
14707 | #endif |
14708 | /* Here, the fold will be a single character */ |
14709 | |
14710 | if (UNLIKELY(ender == MICRO_SIGN)__builtin_expect(((ender == 0xB5) ? (_Bool)1 : (_Bool)0),(0))) { |
14711 | has_micro_sign = TRUE(1); |
14712 | } |
14713 | else if (PL_fold[ender] != PL_fold_latin1[ender]) { |
14714 | |
14715 | /* If the character's fold differs between /d and |
14716 | * /u, this can't change to be an EXACTFU node */ |
14717 | maybe_exactfu = FALSE(0); |
14718 | } |
14719 | |
14720 | *(s++) = (DEPENDS_SEMANTICS(get_regex_charset((pRExC_state->flags)) == REGEX_DEPENDS_CHARSET )) |
14721 | ? (char) toFOLD(ender)((((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 14721 , __func__, "('Z') >= ('A')")), ( (sizeof(ender) == sizeof (U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 14721, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 14721, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) (ender )))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)) ))) : (sizeof(ender) == sizeof(U32)) ? ((((NV) (('A')) >= 0 ) ? (void)0 : __assert2("re_comp.c", 14721, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 14721, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) (ender)))) - ((('A')) | 0))) <= (((U64) (((('Z' ) - ('A'))) | 0))))) : (((sizeof(ender) == sizeof(U64)) ? (void )0 : __assert2("re_comp.c", 14721, __func__, "sizeof(ender) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 14721, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 14721, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) (ender )))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)) )))))) ? (U8)((ender) + ('a' - 'A')) : (ender)) |
14722 | |
14723 | /* Under /u, the fold of any character in |
14724 | * the 0-255 range happens to be its |
14725 | * lowercase equivalent, except for LATIN |
14726 | * SMALL LETTER SHARP S, which was handled |
14727 | * above, and the MICRO SIGN, whose fold |
14728 | * requires UTF-8 to represent. */ |
14729 | : (char) toLOWER_L1(ender)((! ( (sizeof(ender) == 1) || !(((U64)((ender) | 0)) & ~0xFF ))) ? (ender) : PL_latin1_lc[ (U8) (ender) ]); |
14730 | } |
14731 | } /* End of adding current character to the node */ |
14732 | |
14733 | done_with_this_char: |
14734 | |
14735 | len += added_len; |
14736 | |
14737 | if (next_is_quantifier) { |
14738 | |
14739 | /* Here, the next input is a quantifier, and to get here, |
14740 | * the current character is the only one in the node. */ |
14741 | goto loopdone; |
14742 | } |
14743 | |
14744 | } /* End of loop through literal characters */ |
14745 | |
14746 | /* Here we have either exhausted the input or run out of room in |
14747 | * the node. If the former, we are done. (If we encountered a |
14748 | * character that can't be in the node, transfer is made directly |
14749 | * to <loopdone>, and so we wouldn't have fallen off the end of the |
14750 | * loop.) */ |
14751 | if (LIKELY(! overflowed)__builtin_expect(((! overflowed) ? (_Bool)1 : (_Bool)0),(1))) { |
14752 | goto loopdone; |
14753 | } |
14754 | |
14755 | /* Here we have run out of room. We can grow plain EXACT and |
14756 | * LEXACT nodes. If the pattern is gigantic enough, though, |
14757 | * eventually we'll have to artificially chunk the pattern into |
14758 | * multiple nodes. */ |
14759 | if (! LOC(get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET ) && (node_type == EXACT40 || node_type == LEXACT41)) { |
14760 | Size_tsize_t overhead = 1 + regarglen[OP(REGNODE_p(ret))((((pRExC_state->emit_start) + (ret)))->type)]; |
14761 | Size_tsize_t overhead_expansion = 0; |
14762 | char temp[256]; |
14763 | Size_tsize_t max_nodes_for_string; |
14764 | Size_tsize_t achievable; |
14765 | SSize_tssize_t delta; |
14766 | |
14767 | /* Here we couldn't fit the final character in the current |
14768 | * node, so it will have to be reparsed, no matter what else we |
14769 | * do */ |
14770 | p = oldp; |
14771 | |
14772 | /* If would have overflowed a regular EXACT node, switch |
14773 | * instead to an LEXACT. The code below is structured so that |
14774 | * the actual growing code is common to changing from an EXACT |
14775 | * or just increasing the LEXACT size. This means that we have |
14776 | * to save the string in the EXACT case before growing, and |
14777 | * then copy it afterwards to its new location */ |
14778 | if (node_type == EXACT40) { |
14779 | overhead_expansion = regarglen[LEXACT41] - regarglen[EXACT40]; |
14780 | RExC_emit(pRExC_state->emit) += overhead_expansion; |
14781 | Copy(s0, temp, len, char)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(len ) || sizeof(char) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(len)))) ? (size_t)(len) : ((size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof(char))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), ((((void*)(temp)) != 0) ? (void )0 : __assert2("re_comp.c", 14781, __func__, "((void*)(temp)) != 0" )), ((((void*)(s0)) != 0) ? (void)0 : __assert2("re_comp.c", 14781 , __func__, "((void*)(s0)) != 0")), (void)memcpy((char*)(temp ),(const char*)(s0), (len) * sizeof(char))); |
14782 | } |
14783 | |
14784 | /* Ready to grow. If it was a plain EXACT, the string was |
14785 | * saved, and the first few bytes of it overwritten by adding |
14786 | * an argument field. We assume, as we do elsewhere in this |
14787 | * file, that one byte of remaining input will translate into |
14788 | * one byte of output, and if that's too small, we grow again, |
14789 | * if too large the excess memory is freed at the end */ |
14790 | |
14791 | max_nodes_for_string = U16_MAX0xffff - overhead - overhead_expansion; |
14792 | achievable = MIN(max_nodes_for_string,(((max_nodes_for_string)<(current_string_nodes + ((((pRExC_state ->end) - p) + sizeof(regnode) - 1) / sizeof(regnode))))?(max_nodes_for_string ):(current_string_nodes + ((((pRExC_state->end) - p) + sizeof (regnode) - 1) / sizeof(regnode)))) |
14793 | current_string_nodes + STR_SZ(RExC_end - p))(((max_nodes_for_string)<(current_string_nodes + ((((pRExC_state ->end) - p) + sizeof(regnode) - 1) / sizeof(regnode))))?(max_nodes_for_string ):(current_string_nodes + ((((pRExC_state->end) - p) + sizeof (regnode) - 1) / sizeof(regnode)))); |
14794 | delta = achievable - current_string_nodes; |
14795 | |
14796 | /* If there is just no more room, go finish up this chunk of |
14797 | * the pattern. */ |
14798 | if (delta <= 0) { |
14799 | goto loopdone; |
14800 | } |
14801 | |
14802 | change_engine_size(pRExC_state, delta + overhead_expansion)S_change_engine_size( pRExC_state,delta + overhead_expansion); |
14803 | current_string_nodes += delta; |
14804 | max_string_len |
14805 | = sizeof(struct regnode) * current_string_nodes; |
14806 | upper_fill = max_string_len + 1; |
14807 | |
14808 | /* If the length was small, we know this was originally an |
14809 | * EXACT node now converted to LEXACT, and the string has to be |
14810 | * restored. Otherwise the string was untouched. 260 is just |
14811 | * a number safely above 255 so don't have to worry about |
14812 | * getting it precise */ |
14813 | if (len < 260) { |
14814 | node_type = LEXACT41; |
14815 | FILL_NODE(ret, node_type)do { ((((pRExC_state->emit_start) + (ret)))->type) = node_type ; ((((pRExC_state->emit_start) + (ret)))->next_off) = 0 ; } while (0); |
14816 | s0 = STRING(REGNODE_p(ret))((((((pRExC_state->emit_start) + (ret)))->type) == 41 || ((((pRExC_state->emit_start) + (ret)))->type) == 51) ? (((((((pRExC_state->emit_start) + (ret)))->type) == 41 || ((((pRExC_state->emit_start) + (ret)))->type) == 51 ) ? (void)0 : __assert2("re_comp.c", 14816, __func__, "((((pRExC_state->emit_start) + (ret)))->type) == 41 || ((((pRExC_state->emit_start) + (ret)))->type) == 51" )), (((struct regnode_lstring *)((pRExC_state->emit_start) + (ret)))->string)) : (((((((pRExC_state->emit_start) + (ret)))->type) != 41 && ((((pRExC_state->emit_start ) + (ret)))->type) != 51) ? (void)0 : __assert2("re_comp.c" , 14816, __func__, "((((pRExC_state->emit_start) + (ret)))->type) != 41 && ((((pRExC_state->emit_start) + (ret)))->type) != 51" )), ((struct regnode_string *)((pRExC_state->emit_start) + (ret)))->string)); |
14817 | Copy(temp, s0, len, char)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(len ) || sizeof(char) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(len)))) ? (size_t)(len) : ((size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof(char))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), ((((void*)(s0)) != 0) ? (void )0 : __assert2("re_comp.c", 14817, __func__, "((void*)(s0)) != 0" )), ((((void*)(temp)) != 0) ? (void)0 : __assert2("re_comp.c" , 14817, __func__, "((void*)(temp)) != 0")), (void)memcpy((char *)(s0),(const char*)(temp), (len) * sizeof(char))); |
14818 | s = s0 + len; |
14819 | } |
14820 | |
14821 | goto continue_parse; |
14822 | } |
14823 | else if (FOLD(((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool )1 : (_Bool)0)) { |
14824 | bool_Bool splittable = FALSE(0); |
14825 | bool_Bool backed_up = FALSE(0); |
14826 | char * e; /* should this be U8? */ |
14827 | char * s_start; /* should this be U8? */ |
14828 | |
14829 | /* Here is /i. Running out of room creates a problem if we are |
14830 | * folding, and the split happens in the middle of a |
14831 | * multi-character fold, as a match that should have occurred, |
14832 | * won't, due to the way nodes are matched, and our artificial |
14833 | * boundary. So back off until we aren't splitting such a |
14834 | * fold. If there is no such place to back off to, we end up |
14835 | * taking the entire node as-is. This can happen if the node |
14836 | * consists entirely of 'f' or entirely of 's' characters (or |
14837 | * things that fold to them) as 'ff' and 'ss' are |
14838 | * multi-character folds. |
14839 | * |
14840 | * The Unicode standard says that multi character folds consist |
14841 | * of either two or three characters. That means we would be |
14842 | * splitting one if the final character in the node is at the |
14843 | * beginning of either type, or is the second of a three |
14844 | * character fold. |
14845 | * |
14846 | * At this point: |
14847 | * ender is the code point of the character that won't fit |
14848 | * in the node |
14849 | * s points to just beyond the final byte in the node. |
14850 | * It's where we would place ender if there were |
14851 | * room, and where in fact we do place ender's fold |
14852 | * in the code below, as we've over-allocated space |
14853 | * for s0 (hence s) to allow for this |
14854 | * e starts at 's' and advances as we append things. |
14855 | * old_s is the same as 's'. (If ender had fit, 's' would |
14856 | * have been advanced to beyond it). |
14857 | * old_old_s points to the beginning byte of the final |
14858 | * character in the node |
14859 | * p points to the beginning byte in the input of the |
14860 | * character beyond 'ender'. |
14861 | * oldp points to the beginning byte in the input of |
14862 | * 'ender'. |
14863 | * |
14864 | * In the case of /il, we haven't folded anything that could be |
14865 | * affected by the locale. That means only above-Latin1 |
14866 | * characters that fold to other above-latin1 characters get |
14867 | * folded at compile time. To check where a good place to |
14868 | * split nodes is, everything in it will have to be folded. |
14869 | * The boolean 'maybe_exactfu' keeps track in /il if there are |
14870 | * any unfolded characters in the node. */ |
14871 | bool_Bool need_to_fold_loc = LOC(get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET ) && ! maybe_exactfu; |
14872 | |
14873 | /* If we do need to fold the node, we need a place to store the |
14874 | * folded copy, and a way to map back to the unfolded original |
14875 | * */ |
14876 | char * locfold_buf = NULL((void*)0); |
14877 | Size_tsize_t * loc_correspondence = NULL((void*)0); |
14878 | |
14879 | if (! need_to_fold_loc) { /* The normal case. Just |
14880 | initialize to the actual node */ |
14881 | e = s; |
14882 | s_start = s0; |
14883 | s = old_old_s; /* Point to the beginning of the final char |
14884 | that fits in the node */ |
14885 | } |
14886 | else { |
14887 | |
14888 | /* Here, we have filled a /il node, and there are unfolded |
14889 | * characters in it. If the runtime locale turns out to be |
14890 | * UTF-8, there are possible multi-character folds, just |
14891 | * like when not under /l. The node hence can't terminate |
14892 | * in the middle of such a fold. To determine this, we |
14893 | * have to create a folded copy of this node. That means |
14894 | * reparsing the node, folding everything assuming a UTF-8 |
14895 | * locale. (If at runtime it isn't such a locale, the |
14896 | * actions here wouldn't have been necessary, but we have |
14897 | * to assume the worst case.) If we find we need to back |
14898 | * off the folded string, we do so, and then map that |
14899 | * position back to the original unfolded node, which then |
14900 | * gets output, truncated at that spot */ |
14901 | |
14902 | char * redo_p = RExC_parse(pRExC_state->parse); |
14903 | char * redo_e; |
14904 | char * old_redo_e; |
14905 | |
14906 | /* Allow enough space assuming a single byte input folds to |
14907 | * a single byte output, plus assume that the two unparsed |
14908 | * characters (that we may need) fold to the largest number |
14909 | * of bytes possible, plus extra for one more worst case |
14910 | * scenario. In the loop below, if we start eating into |
14911 | * that final spare space, we enlarge this initial space */ |
14912 | Size_tsize_t size = max_string_len + (3 * UTF8_MAXBYTES_CASE(((13)>(3 * ((((U64)(0x10FFFF)) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF) < (32 * (1U << ( 6))) ? 2 : (UV) (0x10FFFF) < (16 * (1U << (2 * 6) )) ? 3 : (UV) (0x10FFFF) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV ) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF ) < ((UV) 1U << (6 * 6)) ? 7 : 13))))?(13):(3 * (((( U64)(0x10FFFF)) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF) < (32 * (1U << ( 6))) ? 2 : (UV ) (0x10FFFF) < (16 * (1U << (2 * 6))) ? 3 : (UV) (0x10FFFF ) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF) < ((UV) 1U << (6 * 6)) ? 7 : 13))))) + 1; |
14913 | |
14914 | Newxz(locfold_buf, size, char)(locfold_buf = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(size) || sizeof(char) > ((size_t)1 << 8*(sizeof (size_t) - sizeof(size)))) ? (size_t)(size) : ((size_t)-1)/sizeof (char)) > ((size_t)-1)/sizeof(char))) ? (_Bool)1 : (_Bool) 0),(0)) && (Perl_croak_memory_wrap(),0)), (char*)(Perl_safesyscalloc ((size),sizeof(char))))); |
14915 | Newxz(loc_correspondence, size, Size_t)(loc_correspondence = ((void)(__builtin_expect(((((( sizeof(size_t ) < sizeof(size) || sizeof(size_t) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(size)))) ? (size_t)(size) : ((size_t )-1)/sizeof(size_t)) > ((size_t)-1)/sizeof(size_t))) ? (_Bool )1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), (size_t*)(Perl_safesyscalloc((size),sizeof(size_t))))); |
14916 | |
14917 | /* Redo this node's parse, folding into 'locfold_buf' */ |
14918 | redo_p = RExC_parse(pRExC_state->parse); |
14919 | old_redo_e = redo_e = locfold_buf; |
14920 | while (redo_p <= oldp) { |
14921 | |
14922 | old_redo_e = redo_e; |
14923 | loc_correspondence[redo_e - locfold_buf] |
14924 | = redo_p - RExC_parse(pRExC_state->parse); |
14925 | |
14926 | if (UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) { |
14927 | Size_tsize_t added_len; |
14928 | |
14929 | (void) _to_utf8_fold_flags((U8 *) redo_p,Perl__to_utf8_fold_flags( (U8 *) redo_p,(U8 *) (pRExC_state-> end),(U8 *) redo_e,&added_len,0x2) |
14930 | (U8 *) RExC_end,Perl__to_utf8_fold_flags( (U8 *) redo_p,(U8 *) (pRExC_state-> end),(U8 *) redo_e,&added_len,0x2) |
14931 | (U8 *) redo_e,Perl__to_utf8_fold_flags( (U8 *) redo_p,(U8 *) (pRExC_state-> end),(U8 *) redo_e,&added_len,0x2) |
14932 | &added_len,Perl__to_utf8_fold_flags( (U8 *) redo_p,(U8 *) (pRExC_state-> end),(U8 *) redo_e,&added_len,0x2) |
14933 | FOLD_FLAGS_FULL)Perl__to_utf8_fold_flags( (U8 *) redo_p,(U8 *) (pRExC_state-> end),(U8 *) redo_e,&added_len,0x2); |
14934 | redo_e += added_len; |
14935 | redo_p += UTF8SKIP(redo_p)PL_utf8skip[*(const U8*)(redo_p)]; |
14936 | } |
14937 | else { |
14938 | |
14939 | /* Note that if this code is run on some ancient |
14940 | * Unicode versions, SHARP S doesn't fold to 'ss', |
14941 | * but rather than clutter the code with #ifdef's, |
14942 | * as is done above, we ignore that possibility. |
14943 | * This is ok because this code doesn't affect what |
14944 | * gets matched, but merely where the node gets |
14945 | * split */ |
14946 | if (UCHARAT(redo_p)((int)*(const U8*)(redo_p)) != LATIN_SMALL_LETTER_SHARP_S0xDF) { |
14947 | *redo_e++ = toLOWER_L1(UCHARAT(redo_p))((! ( (sizeof(((int)*(const U8*)(redo_p))) == 1) || !(((U64)( (((int)*(const U8*)(redo_p))) | 0)) & ~0xFF))) ? (((int)* (const U8*)(redo_p))) : PL_latin1_lc[ (U8) (((int)*(const U8* )(redo_p))) ]); |
14948 | } |
14949 | else { |
14950 | *redo_e++ = 's'; |
14951 | *redo_e++ = 's'; |
14952 | } |
14953 | redo_p++; |
14954 | } |
14955 | |
14956 | |
14957 | /* If we're getting so close to the end that a |
14958 | * worst-case fold in the next character would cause us |
14959 | * to overflow, increase, assuming one byte output byte |
14960 | * per one byte input one, plus room for another worst |
14961 | * case fold */ |
14962 | if ( redo_p <= oldp |
14963 | && redo_e > locfold_buf + size |
14964 | - (UTF8_MAXBYTES_CASE(((13)>(3 * ((((U64)(0x10FFFF)) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF) < (32 * (1U << ( 6))) ? 2 : (UV) (0x10FFFF) < (16 * (1U << (2 * 6) )) ? 3 : (UV) (0x10FFFF) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV ) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF ) < ((UV) 1U << (6 * 6)) ? 7 : 13))))?(13):(3 * (((( U64)(0x10FFFF)) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF) < (32 * (1U << ( 6))) ? 2 : (UV ) (0x10FFFF) < (16 * (1U << (2 * 6))) ? 3 : (UV) (0x10FFFF ) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF) < ((UV) 1U << (6 * 6)) ? 7 : 13)))) + 1)) |
14965 | { |
14966 | Size_tsize_t new_size = size |
14967 | + (oldp - redo_p) |
14968 | + UTF8_MAXBYTES_CASE(((13)>(3 * ((((U64)(0x10FFFF)) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF) < (32 * (1U << ( 6))) ? 2 : (UV) (0x10FFFF) < (16 * (1U << (2 * 6) )) ? 3 : (UV) (0x10FFFF) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV ) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF ) < ((UV) 1U << (6 * 6)) ? 7 : 13))))?(13):(3 * (((( U64)(0x10FFFF)) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF) < (32 * (1U << ( 6))) ? 2 : (UV ) (0x10FFFF) < (16 * (1U << (2 * 6))) ? 3 : (UV) (0x10FFFF ) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF) < ((UV) 1U << (6 * 6)) ? 7 : 13)))) + 1; |
14969 | Ptrdiff_tptrdiff_t e_offset = redo_e - locfold_buf; |
14970 | |
14971 | Renew(locfold_buf, new_size, char)(locfold_buf = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(new_size) || sizeof(char) > ((size_t)1 << 8* (sizeof(size_t) - sizeof(new_size)))) ? (size_t)(new_size) : ( (size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof(char))) ? ( _Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap() ,0)), (char*)(Perl_safesysrealloc((void *)(locfold_buf),(size_t )((new_size)*sizeof(char)))))); |
14972 | Renew(loc_correspondence, new_size, Size_t)(loc_correspondence = ((void)(__builtin_expect(((((( sizeof(size_t ) < sizeof(new_size) || sizeof(size_t) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(new_size)))) ? (size_t)(new_size) : ((size_t)-1)/sizeof(size_t)) > ((size_t)-1)/sizeof(size_t ))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (size_t*)(Perl_safesysrealloc((void *)(loc_correspondence ),(size_t)((new_size)*sizeof(size_t)))))); |
14973 | size = new_size; |
14974 | |
14975 | redo_e = locfold_buf + e_offset; |
14976 | } |
14977 | } |
14978 | |
14979 | /* Set so that things are in terms of the folded, temporary |
14980 | * string */ |
14981 | s = old_redo_e; |
14982 | s_start = locfold_buf; |
14983 | e = redo_e; |
14984 | |
14985 | } |
14986 | |
14987 | /* Here, we have 's', 's_start' and 'e' set up to point to the |
14988 | * input that goes into the node, folded. |
14989 | * |
14990 | * If the final character of the node and the fold of ender |
14991 | * form the first two characters of a three character fold, we |
14992 | * need to peek ahead at the next (unparsed) character in the |
14993 | * input to determine if the three actually do form such a |
14994 | * fold. Just looking at that character is not generally |
14995 | * sufficient, as it could be, for example, an escape sequence |
14996 | * that evaluates to something else, and it needs to be folded. |
14997 | * |
14998 | * khw originally thought to just go through the parse loop one |
14999 | * extra time, but that doesn't work easily as that iteration |
15000 | * could cause things to think that the parse is over and to |
15001 | * goto loopdone. The character could be a '$' for example, or |
15002 | * the character beyond could be a quantifier, and other |
15003 | * glitches as well. |
15004 | * |
15005 | * The solution used here for peeking ahead is to look at that |
15006 | * next character. If it isn't ASCII punctuation, then it will |
15007 | * be something that continues in an EXACTish node if there |
15008 | * were space. We append the fold of it to s, having reserved |
15009 | * enough room in s0 for the purpose. If we can't reasonably |
15010 | * peek ahead, we instead assume the worst case: that it is |
15011 | * something that would form the completion of a multi-char |
15012 | * fold. |
15013 | * |
15014 | * If we can't split between s and ender, we work backwards |
15015 | * character-by-character down to s0. At each current point |
15016 | * see if we are at the beginning of a multi-char fold. If so, |
15017 | * that means we would be splitting the fold across nodes, and |
15018 | * so we back up one and try again. |
15019 | * |
15020 | * If we're not at the beginning, we still could be at the |
15021 | * final two characters of a (rare) three character fold. We |
15022 | * check if the sequence starting at the character before the |
15023 | * current position (and including the current and next |
15024 | * characters) is a three character fold. If not, the node can |
15025 | * be split here. If it is, we have to backup two characters |
15026 | * and try again. |
15027 | * |
15028 | * Otherwise, the node can be split at the current position. |
15029 | * |
15030 | * The same logic is used for UTF-8 patterns and not */ |
15031 | if (UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) { |
15032 | Size_tsize_t added_len; |
15033 | |
15034 | /* Append the fold of ender */ |
15035 | (void) _to_uni_fold_flags(Perl__to_uni_fold_flags( ender,(U8 *) e,&added_len,0x2 | ( ((get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 0x4 : 0)) |
15036 | ender,Perl__to_uni_fold_flags( ender,(U8 *) e,&added_len,0x2 | ( ((get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 0x4 : 0)) |
15037 | (U8 *) e,Perl__to_uni_fold_flags( ender,(U8 *) e,&added_len,0x2 | ( ((get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 0x4 : 0)) |
15038 | &added_len,Perl__to_uni_fold_flags( ender,(U8 *) e,&added_len,0x2 | ( ((get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 0x4 : 0)) |
15039 | FOLD_FLAGS_FULL | ((ASCII_FOLD_RESTRICTED)Perl__to_uni_fold_flags( ender,(U8 *) e,&added_len,0x2 | ( ((get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 0x4 : 0)) |
15040 | ? FOLD_FLAGS_NOMIX_ASCIIPerl__to_uni_fold_flags( ender,(U8 *) e,&added_len,0x2 | ( ((get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 0x4 : 0)) |
15041 | : 0))Perl__to_uni_fold_flags( ender,(U8 *) e,&added_len,0x2 | ( ((get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 0x4 : 0)); |
15042 | e += added_len; |
15043 | |
15044 | /* 's' and the character folded to by ender may be the |
15045 | * first two of a three-character fold, in which case the |
15046 | * node should not be split here. That may mean examining |
15047 | * the so-far unparsed character starting at 'p'. But if |
15048 | * ender folded to more than one character, we already have |
15049 | * three characters to look at. Also, we first check if |
15050 | * the sequence consisting of s and the next character form |
15051 | * the first two of some three character fold. If not, |
15052 | * there's no need to peek ahead. */ |
15053 | if ( added_len <= UTF8SKIP(e - added_len)PL_utf8skip[*(const U8*)(e - added_len)] |
15054 | && UNLIKELY(is_THREE_CHAR_FOLD_HEAD_utf8_safe(s, e))__builtin_expect(((( ((e)-(s) > 3) ? ( ( 0x61 == ((const U8 *)s)[0] || ((((0x6A) >= (0x68)) ? (void)0 : __assert2("re_comp.c" , 15054, __func__, "(0x6A) >= (0x68)")), ( (sizeof(((const U8*)s)[0]) == sizeof(U8)) ? ((((NV) ((0x68)) >= 0) ? (void )0 : __assert2("re_comp.c", 15054, __func__, "(NV) ((0x68)) >= 0" )), (((NV) (((0x6A) - (0x68))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15054, __func__, "(NV) (((0x6A) - (0x68))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[0])))) - (((0x68)) | 0)) ) <= (((U64) ((((0x6A) - (0x68))) | 0))))) : (sizeof(((const U8*)s)[0]) == sizeof(U32)) ? ((((NV) ((0x68)) >= 0) ? (void )0 : __assert2("re_comp.c", 15054, __func__, "(NV) ((0x68)) >= 0" )), (((NV) (((0x6A) - (0x68))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15054, __func__, "(NV) (((0x6A) - (0x68))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[0])))) - (((0x68)) | 0) )) <= (((U64) ((((0x6A) - (0x68))) | 0))))) : (((sizeof((( const U8*)s)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 15054, __func__, "sizeof(((const U8*)s)[0]) == sizeof(U64)" )), ((((NV) ((0x68)) >= 0) ? (void)0 : __assert2("re_comp.c" , 15054, __func__, "(NV) ((0x68)) >= 0")), (((NV) (((0x6A) - (0x68))) >= 0) ? (void)0 : __assert2("re_comp.c", 15054 , __func__, "(NV) (((0x6A) - (0x68))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[0])))) - (((0x68)) | 0))) <= (((U64 ) ((((0x6A) - (0x68))) | 0)))))))) || ((((0x74) >= (0x73)) ? (void)0 : __assert2("re_comp.c", 15054, __func__, "(0x74) >= (0x73)" )), ( (sizeof(((const U8*)s)[0]) == sizeof(U8)) ? ((((NV) ((0x73 )) >= 0) ? (void)0 : __assert2("re_comp.c", 15054, __func__ , "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 15054, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[0])))) - (((0x73)) | 0)) ) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)s)[0]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 15054, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15054, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[0])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof((( const U8*)s)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 15054, __func__, "sizeof(((const U8*)s)[0]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 15054, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 15054 , __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[0])))) - (((0x73)) | 0))) <= (((U64 ) ((((0x74) - (0x73))) | 0)))))))) || 0x77 == ((const U8*)s)[ 0] || 0x79 == ((const U8*)s)[0] ) ? 1 : ( 0x66 == ((const U8* )s)[0] ) ? ( ( 0x66 == ((const U8*)s)[1] ) ? 2 : 1 ) : ( 0xCA == ((const U8*)s)[0] ) ? ( ( 0xBC == ((const U8*)s)[1] ) ? 2 : 0 ) : ( 0xCE == ((const U8*)s)[0] ) ? ( ( ( ((const U8*)s) [1] & 0xFD ) == 0xAC ) ? 2 : ( 0xB1 == ((const U8*)s)[1] || 0xB7 == ((const U8*)s)[1] ) ? ( ( ( 0xCD == ((const U8*)s)[2 ] ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 2 ) : ( 0xB9 == ((const U8*)s)[1] ) ? ( ( ( 0xCC == ((const U8*)s)[2] ) && ( 0x88 == ((const U8*)s)[3] ) ) ? 4 : 2 ) : 0 ) : ( 0xCF == ( (const U8*)s)[0] ) ? ( ( 0x81 == ((const U8*)s)[1] || 0x8E == ((const U8*)s)[1] ) ? 2 : ( 0x85 == ((const U8*)s)[1] ) ? ( ( ( 0xCC == ((const U8*)s)[2] ) && ( 0x88 == ((const U8 *)s)[3] || 0x93 == ((const U8*)s)[3] ) ) ? 4 : 2 ) : ( 0x89 == ((const U8*)s)[1] ) ? ( ( ( 0xCD == ((const U8*)s)[2] ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 2 ) : 0 ) : ( 0xD5 == ( (const U8*)s)[0] ) ? ( ( 0xA5 == ((const U8*)s)[1] || 0xB4 == ((const U8*)s)[1] || 0xBE == ((const U8*)s)[1] ) ? 2 : 0 ) : ( 0xE1 == ((const U8*)s)[0] ) ? ( ( 0xBC == ((const U8*)s)[1 ] ) ? ( ( ( ((const U8*)s)[2] & 0xD8 ) == 0x80 ) ? 3 : 0 ) : ( ( 0xBD == ((const U8*)s)[1] ) && ( ( ( ((const U8 *)s)[2] & 0xF8 ) == 0xA0 ) || ( ( ((const U8*)s)[2] & 0xFB ) == 0xB0 ) || ((const U8*)s)[2] == 0xBC ) ) ? 3 : 0 ) : 0 ) : ((e)-(s) > 2) ? ( ( 0x61 == ((const U8*)s)[0] || (( ((0x6A) >= (0x68)) ? (void)0 : __assert2("re_comp.c", 15054 , __func__, "(0x6A) >= (0x68)")), ( (sizeof(((const U8*)s) [0]) == sizeof(U8)) ? ((((NV) ((0x68)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15054, __func__, "(NV) ((0x68)) >= 0")), ((( NV) (((0x6A) - (0x68))) >= 0) ? (void)0 : __assert2("re_comp.c" , 15054, __func__, "(NV) (((0x6A) - (0x68))) >= 0")), (((U64 ) (((((U8) (((const U8*)s)[0])))) - (((0x68)) | 0))) <= (( (U64) ((((0x6A) - (0x68))) | 0))))) : (sizeof(((const U8*)s)[ 0]) == sizeof(U32)) ? ((((NV) ((0x68)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15054, __func__, "(NV) ((0x68)) >= 0")), ((( NV) (((0x6A) - (0x68))) >= 0) ? (void)0 : __assert2("re_comp.c" , 15054, __func__, "(NV) (((0x6A) - (0x68))) >= 0")), (((U64 ) (((((U32) (((const U8*)s)[0])))) - (((0x68)) | 0))) <= ( ((U64) ((((0x6A) - (0x68))) | 0))))) : (((sizeof(((const U8*) s)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 15054 , __func__, "sizeof(((const U8*)s)[0]) == sizeof(U64)")), ((( (NV) ((0x68)) >= 0) ? (void)0 : __assert2("re_comp.c", 15054 , __func__, "(NV) ((0x68)) >= 0")), (((NV) (((0x6A) - (0x68 ))) >= 0) ? (void)0 : __assert2("re_comp.c", 15054, __func__ , "(NV) (((0x6A) - (0x68))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[0])))) - (((0x68)) | 0))) <= (((U64) ((((0x6A ) - (0x68))) | 0)))))))) || ((((0x74) >= (0x73)) ? (void)0 : __assert2("re_comp.c", 15054, __func__, "(0x74) >= (0x73)" )), ( (sizeof(((const U8*)s)[0]) == sizeof(U8)) ? ((((NV) ((0x73 )) >= 0) ? (void)0 : __assert2("re_comp.c", 15054, __func__ , "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 15054, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[0])))) - (((0x73)) | 0)) ) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)s)[0]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 15054, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15054, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[0])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof((( const U8*)s)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 15054, __func__, "sizeof(((const U8*)s)[0]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 15054, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 15054 , __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[0])))) - (((0x73)) | 0))) <= (((U64 ) ((((0x74) - (0x73))) | 0)))))))) || 0x77 == ((const U8*)s)[ 0] || 0x79 == ((const U8*)s)[0] ) ? 1 : ( 0x66 == ((const U8* )s)[0] ) ? ( ( 0x66 == ((const U8*)s)[1] ) ? 2 : 1 ) : ( 0xCA == ((const U8*)s)[0] ) ? ( ( 0xBC == ((const U8*)s)[1] ) ? 2 : 0 ) : ( 0xCE == ((const U8*)s)[0] ) ? ( ( ( ( ((const U8*) s)[1] & 0xFD ) == 0xAC ) || ( ( ((const U8*)s)[1] & 0xF7 ) == 0xB1 ) || ((const U8*)s)[1] == 0xB7 ) ? 2 : 0 ) : ( 0xCF == ((const U8*)s)[0] ) ? ( ( ( ( ((const U8*)s)[1] & 0xFB ) == 0x81 ) || ((const U8*)s)[1] == 0x89 || ((const U8*)s)[1 ] == 0x8E ) ? 2 : 0 ) : ( 0xD5 == ((const U8*)s)[0] ) ? ( ( 0xA5 == ((const U8*)s)[1] || 0xB4 == ((const U8*)s)[1] || 0xBE == ((const U8*)s)[1] ) ? 2 : 0 ) : ( 0xE1 == ((const U8*)s)[0] ) ? ( ( 0xBC == ((const U8*)s)[1] ) ? ( ( ( ((const U8*)s)[2] & 0xD8 ) == 0x80 ) ? 3 : 0 ) : ( ( 0xBD == ((const U8*)s)[1] ) && ( ( ( ((const U8*)s)[2] & 0xF8 ) == 0xA0 ) || ( ( ((const U8*)s)[2] & 0xFB ) == 0xB0 ) || ((const U8*) s)[2] == 0xBC ) ) ? 3 : 0 ) : 0 ) : ((e)-(s) > 1) ? ( ( 0x61 == ((const U8*)s)[0] || ((((0x6A) >= (0x68)) ? (void)0 : __assert2 ("re_comp.c", 15054, __func__, "(0x6A) >= (0x68)")), ( (sizeof (((const U8*)s)[0]) == sizeof(U8)) ? ((((NV) ((0x68)) >= 0 ) ? (void)0 : __assert2("re_comp.c", 15054, __func__, "(NV) ((0x68)) >= 0" )), (((NV) (((0x6A) - (0x68))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15054, __func__, "(NV) (((0x6A) - (0x68))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[0])))) - (((0x68)) | 0)) ) <= (((U64) ((((0x6A) - (0x68))) | 0))))) : (sizeof(((const U8*)s)[0]) == sizeof(U32)) ? ((((NV) ((0x68)) >= 0) ? (void )0 : __assert2("re_comp.c", 15054, __func__, "(NV) ((0x68)) >= 0" )), (((NV) (((0x6A) - (0x68))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15054, __func__, "(NV) (((0x6A) - (0x68))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[0])))) - (((0x68)) | 0) )) <= (((U64) ((((0x6A) - (0x68))) | 0))))) : (((sizeof((( const U8*)s)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 15054, __func__, "sizeof(((const U8*)s)[0]) == sizeof(U64)" )), ((((NV) ((0x68)) >= 0) ? (void)0 : __assert2("re_comp.c" , 15054, __func__, "(NV) ((0x68)) >= 0")), (((NV) (((0x6A) - (0x68))) >= 0) ? (void)0 : __assert2("re_comp.c", 15054 , __func__, "(NV) (((0x6A) - (0x68))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[0])))) - (((0x68)) | 0))) <= (((U64 ) ((((0x6A) - (0x68))) | 0)))))))) || ((((0x74) >= (0x73)) ? (void)0 : __assert2("re_comp.c", 15054, __func__, "(0x74) >= (0x73)" )), ( (sizeof(((const U8*)s)[0]) == sizeof(U8)) ? ((((NV) ((0x73 )) >= 0) ? (void)0 : __assert2("re_comp.c", 15054, __func__ , "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 15054, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[0])))) - (((0x73)) | 0)) ) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)s)[0]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 15054, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15054, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[0])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof((( const U8*)s)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 15054, __func__, "sizeof(((const U8*)s)[0]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 15054, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 15054 , __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[0])))) - (((0x73)) | 0))) <= (((U64 ) ((((0x74) - (0x73))) | 0)))))))) || 0x77 == ((const U8*)s)[ 0] || 0x79 == ((const U8*)s)[0] ) ? 1 : ( 0x66 == ((const U8* )s)[0] ) ? ( ( 0x66 == ((const U8*)s)[1] ) ? 2 : 1 ) : ( 0xCA == ((const U8*)s)[0] ) ? ( ( 0xBC == ((const U8*)s)[1] ) ? 2 : 0 ) : ( 0xCE == ((const U8*)s)[0] ) ? ( ( ( ( ((const U8*) s)[1] & 0xFD ) == 0xAC ) || ( ( ((const U8*)s)[1] & 0xF7 ) == 0xB1 ) || ((const U8*)s)[1] == 0xB7 ) ? 2 : 0 ) : ( 0xCF == ((const U8*)s)[0] ) ? ( ( ( ( ((const U8*)s)[1] & 0xFB ) == 0x81 ) || ((const U8*)s)[1] == 0x89 || ((const U8*)s)[1 ] == 0x8E ) ? 2 : 0 ) : ( ( 0xD5 == ((const U8*)s)[0] ) && ( 0xA5 == ((const U8*)s)[1] || 0xB4 == ((const U8*)s)[1] || 0xBE == ((const U8*)s)[1] ) ) ? 2 : 0 ): ((e)-(s) > 0) ? ( 0x61 == ((const U8*)s)[0] || 0x66 == ((const U8*)s)[0] || ((((0x6A ) >= (0x68)) ? (void)0 : __assert2("re_comp.c", 15054, __func__ , "(0x6A) >= (0x68)")), ( (sizeof(((const U8*)s)[0]) == sizeof (U8)) ? ((((NV) ((0x68)) >= 0) ? (void)0 : __assert2("re_comp.c" , 15054, __func__, "(NV) ((0x68)) >= 0")), (((NV) (((0x6A) - (0x68))) >= 0) ? (void)0 : __assert2("re_comp.c", 15054 , __func__, "(NV) (((0x6A) - (0x68))) >= 0")), (((U64) ((( ((U8) (((const U8*)s)[0])))) - (((0x68)) | 0))) <= (((U64) ((((0x6A) - (0x68))) | 0))))) : (sizeof(((const U8*)s)[0]) == sizeof(U32)) ? ((((NV) ((0x68)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15054, __func__, "(NV) ((0x68)) >= 0")), ((( NV) (((0x6A) - (0x68))) >= 0) ? (void)0 : __assert2("re_comp.c" , 15054, __func__, "(NV) (((0x6A) - (0x68))) >= 0")), (((U64 ) (((((U32) (((const U8*)s)[0])))) - (((0x68)) | 0))) <= ( ((U64) ((((0x6A) - (0x68))) | 0))))) : (((sizeof(((const U8*) s)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 15054 , __func__, "sizeof(((const U8*)s)[0]) == sizeof(U64)")), ((( (NV) ((0x68)) >= 0) ? (void)0 : __assert2("re_comp.c", 15054 , __func__, "(NV) ((0x68)) >= 0")), (((NV) (((0x6A) - (0x68 ))) >= 0) ? (void)0 : __assert2("re_comp.c", 15054, __func__ , "(NV) (((0x6A) - (0x68))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[0])))) - (((0x68)) | 0))) <= (((U64) ((((0x6A ) - (0x68))) | 0)))))))) || ((((0x74) >= (0x73)) ? (void)0 : __assert2("re_comp.c", 15054, __func__, "(0x74) >= (0x73)" )), ( (sizeof(((const U8*)s)[0]) == sizeof(U8)) ? ((((NV) ((0x73 )) >= 0) ? (void)0 : __assert2("re_comp.c", 15054, __func__ , "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 15054, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[0])))) - (((0x73)) | 0)) ) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)s)[0]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 15054, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15054, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[0])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof((( const U8*)s)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 15054, __func__, "sizeof(((const U8*)s)[0]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 15054, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 15054 , __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[0])))) - (((0x73)) | 0))) <= (((U64 ) ((((0x74) - (0x73))) | 0)))))))) || 0x77 == ((const U8*)s)[ 0] || 0x79 == ((const U8*)s)[0] ): 0 )) ? (_Bool)1 : (_Bool)0 ),(0))) |
15055 | { |
15056 | /* Here, the two do form the beginning of a potential |
15057 | * three character fold. The unexamined character may |
15058 | * or may not complete it. Peek at it. It might be |
15059 | * something that ends the node or an escape sequence, |
15060 | * in which case we don't know without a lot of work |
15061 | * what it evaluates to, so we have to assume the worst |
15062 | * case: that it does complete the fold, and so we |
15063 | * can't split here. All such instances will have |
15064 | * that character be an ASCII punctuation character, |
15065 | * like a backslash. So, for that case, backup one and |
15066 | * drop down to try at that position */ |
15067 | if (isPUNCT(*p)(( (sizeof(*p) == 1) || !(((U64)((*p) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*p)] & ((1U << (5)) | (1U << (14)))) == ((1U << (5)) | (1U << (14)))))) { |
15068 | s = (char *) utf8_hop_backPerl_utf8_hop_back((U8 *) s, -1, |
15069 | (U8 *) s_start); |
15070 | backed_up = TRUE(1); |
15071 | } |
15072 | else { |
15073 | /* Here, since it's not punctuation, it must be a |
15074 | * real character, and we can append its fold to |
15075 | * 'e' (having deliberately reserved enough space |
15076 | * for this eventuality) and drop down to check if |
15077 | * the three actually do form a folded sequence */ |
15078 | (void) _to_utf8_fold_flags(Perl__to_utf8_fold_flags( (U8 *) p,(U8 *) (pRExC_state->end ),(U8 *) e,&added_len,0x2 | (((get_regex_charset((pRExC_state ->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET)) ? 0x4 : 0)) |
15079 | (U8 *) p, (U8 *) RExC_end,Perl__to_utf8_fold_flags( (U8 *) p,(U8 *) (pRExC_state->end ),(U8 *) e,&added_len,0x2 | (((get_regex_charset((pRExC_state ->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET)) ? 0x4 : 0)) |
15080 | (U8 *) e,Perl__to_utf8_fold_flags( (U8 *) p,(U8 *) (pRExC_state->end ),(U8 *) e,&added_len,0x2 | (((get_regex_charset((pRExC_state ->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET)) ? 0x4 : 0)) |
15081 | &added_len,Perl__to_utf8_fold_flags( (U8 *) p,(U8 *) (pRExC_state->end ),(U8 *) e,&added_len,0x2 | (((get_regex_charset((pRExC_state ->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET)) ? 0x4 : 0)) |
15082 | FOLD_FLAGS_FULL | ((ASCII_FOLD_RESTRICTED)Perl__to_utf8_fold_flags( (U8 *) p,(U8 *) (pRExC_state->end ),(U8 *) e,&added_len,0x2 | (((get_regex_charset((pRExC_state ->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET)) ? 0x4 : 0)) |
15083 | ? FOLD_FLAGS_NOMIX_ASCIIPerl__to_utf8_fold_flags( (U8 *) p,(U8 *) (pRExC_state->end ),(U8 *) e,&added_len,0x2 | (((get_regex_charset((pRExC_state ->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET)) ? 0x4 : 0)) |
15084 | : 0))Perl__to_utf8_fold_flags( (U8 *) p,(U8 *) (pRExC_state->end ),(U8 *) e,&added_len,0x2 | (((get_regex_charset((pRExC_state ->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET)) ? 0x4 : 0)); |
15085 | e += added_len; |
15086 | } |
15087 | } |
15088 | |
15089 | /* Here, we either have three characters available in |
15090 | * sequence starting at 's', or we have two characters and |
15091 | * know that the following one can't possibly be part of a |
15092 | * three character fold. We go through the node backwards |
15093 | * until we find a place where we can split it without |
15094 | * breaking apart a multi-character fold. At any given |
15095 | * point we have to worry about if such a fold begins at |
15096 | * the current 's', and also if a three-character fold |
15097 | * begins at s-1, (containing s and s+1). Splitting in |
15098 | * either case would break apart a fold */ |
15099 | do { |
15100 | char *prev_s = (char *) utf8_hop_backPerl_utf8_hop_back((U8 *) s, -1, |
15101 | (U8 *) s_start); |
15102 | |
15103 | /* If is a multi-char fold, can't split here. Backup |
15104 | * one char and try again */ |
15105 | if (UNLIKELY(is_MULTI_CHAR_FOLD_utf8_safe(s, e))__builtin_expect(((( ((e)-(s) > 5) ? ( ( 0x61 == ((const U8 *)s)[0] ) ? ( ( ( 0xCA == ((const U8*)s)[1] ) && ( 0xBE == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x66 == ((const U8*)s )[0] ) ? ( ( 0x66 == ((const U8*)s)[1] ) ? ( ( 0x69 == ((const U8*)s)[2] || 0x6C == ((const U8*)s)[2] ) ? 3 : 2 ) : ( 0x69 == ((const U8*)s)[1] || 0x6C == ((const U8*)s)[1] ) ? 2 : 0 ) : ( 0x68 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s) [1] ) && ( 0xB1 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x69 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1 ] ) && ( 0x87 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x6A == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x8C == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x73 == ((const U8*)s)[0] ) ? ( ( ((((0x74) >= (0x73)) ? (void)0 : __assert2 ("re_comp.c", 15105, __func__, "(0x74) >= (0x73)")), ( (sizeof (((const U8*)s)[1]) == sizeof(U8)) ? ((((NV) ((0x73)) >= 0 ) ? (void)0 : __assert2("re_comp.c", 15105, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15105, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[1])))) - (((0x73)) | 0)) ) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)s)[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 15105, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15105, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[1])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof((( const U8*)s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 15105, __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 15105, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 15105 , __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[1])))) - (((0x73)) | 0))) <= (((U64 ) ((((0x74) - (0x73))) | 0)))))))) ) ? 2 : 0 ) : ( 0x74 == (( const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x88 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x77 == ((const U8*)s)[0] || 0x79 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x8A == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0xC5 == ((const U8*)s)[0] ) ? ( ( ( ( 0xBF == ((const U8*)s)[1] ) && ( 0xC5 == ((const U8*)s)[2] ) ) && ( 0xBF == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xCA == ((const U8*)s)[0] ) ? ( ( ( 0xBC == ((const U8*)s)[1] ) && ( 0x6E == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0xCE == ((const U8 *)s)[0] ) ? ( ( ( ((const U8*)s)[1] & 0xFD ) == 0xAC ) ? ( ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xB1 == ((const U8*)s)[1] || 0xB7 == ((const U8*)s)[1] ) ? ( ( 0xCD == ((const U8*)s)[2] ) ? ( ( 0x82 == ((const U8*)s)[3] ) ? ( ( ( 0xCE == ((const U8*)s) [4] ) && ( 0xB9 == ((const U8*)s)[5] ) ) ? 6 : 4 ) : 0 ) : ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xB9 == ((const U8*)s)[1] ) ? ( ( 0xCC == ((const U8*)s)[2] ) ? ( ( 0x88 == ((const U8*)s)[3] ) ? ( ( 0xCC == ((const U8*)s)[4] ) ? ( ( ((((0x81) >= (0x80 )) ? (void)0 : __assert2("re_comp.c", 15105, __func__, "(0x81) >= (0x80)" )), ( (sizeof(((const U8*)s)[5]) == sizeof(U8)) ? ((((NV) ((0x80 )) >= 0) ? (void)0 : __assert2("re_comp.c", 15105, __func__ , "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_comp.c", 15105, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[5])))) - (((0x80)) | 0)) ) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (sizeof(((const U8*)s)[5]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? (void )0 : __assert2("re_comp.c", 15105, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15105, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[5])))) - (((0x80)) | 0) )) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (((sizeof((( const U8*)s)[5]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 15105, __func__, "sizeof(((const U8*)s)[5]) == sizeof(U64)" )), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c" , 15105, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_comp.c", 15105 , __func__, "(NV) (((0x81) - (0x80))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[5])))) - (((0x80)) | 0))) <= (((U64 ) ((((0x81) - (0x80))) | 0)))))))) ) ? 6 : 0 ) : ( ( 0xCD == ( (const U8*)s)[4] ) && ( 0x82 == ((const U8*)s)[5] ) ) ? 6 : 0 ) : 0 ) : ( ( 0xCD == ((const U8*)s)[2] ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : 0 ) : ( 0xCF == ( (const U8*)s)[0] ) ? ( ( 0x81 == ((const U8*)s)[1] ) ? ( ( ( 0xCC == ((const U8*)s)[2] ) && ( 0x93 == ((const U8*)s)[3 ] ) ) ? 4 : 0 ) : ( 0x85 == ((const U8*)s)[1] ) ? ( ( 0xCC == ((const U8*)s)[2] ) ? ( ( 0x88 == ((const U8*)s)[3] ) ? ( ( 0xCC == ((const U8*)s)[4] ) ? ( ( ((((0x81) >= (0x80)) ? (void )0 : __assert2("re_comp.c", 15105, __func__, "(0x81) >= (0x80)" )), ( (sizeof(((const U8*)s)[5]) == sizeof(U8)) ? ((((NV) ((0x80 )) >= 0) ? (void)0 : __assert2("re_comp.c", 15105, __func__ , "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_comp.c", 15105, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[5])))) - (((0x80)) | 0)) ) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (sizeof(((const U8*)s)[5]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? (void )0 : __assert2("re_comp.c", 15105, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15105, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[5])))) - (((0x80)) | 0) )) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (((sizeof((( const U8*)s)[5]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 15105, __func__, "sizeof(((const U8*)s)[5]) == sizeof(U64)" )), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c" , 15105, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_comp.c", 15105 , __func__, "(NV) (((0x81) - (0x80))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[5])))) - (((0x80)) | 0))) <= (((U64 ) ((((0x81) - (0x80))) | 0)))))))) ) ? 6 : 0 ) : ( ( 0xCD == ( (const U8*)s)[4] ) && ( 0x82 == ((const U8*)s)[5] ) ) ? 6 : 0 ) : ( 0x93 == ((const U8*)s)[3] ) ? ( ( 0xCC == ((const U8*)s)[4] ) ? ( ( ((((0x81) >= (0x80)) ? (void)0 : __assert2 ("re_comp.c", 15105, __func__, "(0x81) >= (0x80)")), ( (sizeof (((const U8*)s)[5]) == sizeof(U8)) ? ((((NV) ((0x80)) >= 0 ) ? (void)0 : __assert2("re_comp.c", 15105, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15105, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[5])))) - (((0x80)) | 0)) ) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (sizeof(((const U8*)s)[5]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? (void )0 : __assert2("re_comp.c", 15105, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15105, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[5])))) - (((0x80)) | 0) )) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (((sizeof((( const U8*)s)[5]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 15105, __func__, "sizeof(((const U8*)s)[5]) == sizeof(U64)" )), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c" , 15105, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_comp.c", 15105 , __func__, "(NV) (((0x81) - (0x80))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[5])))) - (((0x80)) | 0))) <= (((U64 ) ((((0x81) - (0x80))) | 0)))))))) ) ? 6 : 4 ) : ( ( 0xCD == ( (const U8*)s)[4] ) && ( 0x82 == ((const U8*)s)[5] ) ) ? 6 : 4 ) : 0 ) : ( ( 0xCD == ((const U8*)s)[2] ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0x89 == ((const U8*)s)[1] ) ? ( ( 0xCD == ((const U8*)s)[2] ) ? ( ( 0x82 == ( (const U8*)s)[3] ) ? ( ( ( 0xCE == ((const U8*)s)[4] ) && ( 0xB9 == ((const U8*)s)[5] ) ) ? 6 : 4 ) : 0 ) : ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( ( ( 0x8E == ((const U8*)s)[1] ) && ( 0xCE == ((const U8*)s)[2] ) ) && ( 0xB9 == ((const U8 *)s)[3] ) ) ? 4 : 0 ) : ( 0xD5 == ((const U8*)s)[0] ) ? ( ( 0xA5 == ((const U8*)s)[1] ) ? ( ( ( 0xD6 == ((const U8*)s)[2] ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xB4 == ((const U8*)s)[1] ) ? ( ( ( 0xD5 == ((const U8*)s)[2] ) && ( ( ( ((const U8*)s)[3] & 0xF7 ) == 0xA5 ) || ((const U8*) s)[3] == 0xAB || ((const U8*)s)[3] == 0xB6 ) ) ? 4 : 0 ) : ( ( ( 0xBE == ((const U8*)s)[1] ) && ( 0xD5 == ((const U8 *)s)[2] ) ) && ( 0xB6 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xE1 == ((const U8*)s)[0] ) ? ( ( 0xBC == ((const U8*) s)[1] ) ? ( ( ( ( ( ((const U8*)s)[2] & 0xD8 ) == 0x80 ) && ( 0xCE == ((const U8*)s)[3] ) ) && ( 0xB9 == ((const U8*)s)[4] ) ) ? 5 : 0 ) : ( ( ( ( 0xBD == ((const U8*)s)[1] ) && ( ( ( ((const U8*)s)[2] & 0xF8 ) == 0xA0 ) || ( ( ((const U8*)s)[2] & 0xFB ) == 0xB0 ) || ((const U8*) s)[2] == 0xBC ) ) && ( 0xCE == ((const U8*)s)[3] ) ) && ( 0xB9 == ((const U8*)s)[4] ) ) ? 5 : 0 ) : 0 ) : ((e)-(s) > 4) ? ( ( 0x61 == ((const U8*)s)[0] ) ? ( ( ( 0xCA == ((const U8*)s)[1] ) && ( 0xBE == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x66 == ((const U8*)s)[0] ) ? ( ( 0x66 == ((const U8 *)s)[1] ) ? ( ( 0x69 == ((const U8*)s)[2] || 0x6C == ((const U8 *)s)[2] ) ? 3 : 2 ) : ( 0x69 == ((const U8*)s)[1] || 0x6C == ( (const U8*)s)[1] ) ? 2 : 0 ) : ( 0x68 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0xB1 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x69 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x87 == ((const U8 *)s)[2] ) ) ? 3 : 0 ) : ( 0x6A == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x8C == ((const U8* )s)[2] ) ) ? 3 : 0 ) : ( 0x73 == ((const U8*)s)[0] ) ? ( ( (( ((0x74) >= (0x73)) ? (void)0 : __assert2("re_comp.c", 15105 , __func__, "(0x74) >= (0x73)")), ( (sizeof(((const U8*)s) [1]) == sizeof(U8)) ? ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15105, __func__, "(NV) ((0x73)) >= 0")), ((( NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c" , 15105, __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64 ) (((((U8) (((const U8*)s)[1])))) - (((0x73)) | 0))) <= (( (U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)s)[ 1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15105, __func__, "(NV) ((0x73)) >= 0")), ((( NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c" , 15105, __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64 ) (((((U32) (((const U8*)s)[1])))) - (((0x73)) | 0))) <= ( ((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof(((const U8*) s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 15105 , __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)")), ((( (NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c", 15105 , __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73 ))) >= 0) ? (void)0 : __assert2("re_comp.c", 15105, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0)))))))) ) ? 2 : 0 ) : ( 0x74 == ((const U8*) s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x88 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x77 == ((const U8*)s )[0] || 0x79 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8 *)s)[1] ) && ( 0x8A == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0xC5 == ((const U8*)s)[0] ) ? ( ( ( ( 0xBF == ((const U8 *)s)[1] ) && ( 0xC5 == ((const U8*)s)[2] ) ) && ( 0xBF == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xCA == ((const U8*)s)[0] ) ? ( ( ( 0xBC == ((const U8*)s)[1] ) && ( 0x6E == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0xCE == ((const U8 *)s)[0] ) ? ( ( ( ((const U8*)s)[1] & 0xFD ) == 0xAC ) ? ( ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xB1 == ((const U8*)s)[1] || 0xB7 == ((const U8*)s)[1] ) ? ( ( 0xCD == ((const U8*)s)[2] ) ? ( ( 0x82 == ((const U8*)s)[3] ) ? 4 : 0 ) : ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( ( ( 0xB9 == ((const U8*)s)[1] ) && ( 0xCD == ((const U8*)s)[2] ) ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xCF == ((const U8*)s)[0] ) ? ( ( 0x81 == ( (const U8*)s)[1] ) ? ( ( ( 0xCC == ((const U8*)s)[2] ) && ( 0x93 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0x85 == ((const U8*)s)[1] ) ? ( ( 0xCC == ((const U8*)s)[2] ) ? ( ( 0x93 == ( (const U8*)s)[3] ) ? 4 : 0 ) : ( ( 0xCD == ((const U8*)s)[2] ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0x89 == ((const U8*)s)[1] ) ? ( ( 0xCD == ((const U8*)s)[2] ) ? ( ( 0x82 == ((const U8*)s)[3] ) ? 4 : 0 ) : ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( ( ( 0x8E == ((const U8*)s)[1] ) && ( 0xCE == ((const U8*)s)[2] ) ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xD5 == ((const U8*)s)[0] ) ? ( ( 0xA5 == ( (const U8*)s)[1] ) ? ( ( ( 0xD6 == ((const U8*)s)[2] ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xB4 == ((const U8*)s)[1] ) ? ( ( ( 0xD5 == ((const U8*)s)[2] ) && ( ( ( ((const U8*)s)[3] & 0xF7 ) == 0xA5 ) || ((const U8*) s)[3] == 0xAB || ((const U8*)s)[3] == 0xB6 ) ) ? 4 : 0 ) : ( ( ( 0xBE == ((const U8*)s)[1] ) && ( 0xD5 == ((const U8 *)s)[2] ) ) && ( 0xB6 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xE1 == ((const U8*)s)[0] ) ? ( ( 0xBC == ((const U8*) s)[1] ) ? ( ( ( ( ( ((const U8*)s)[2] & 0xD8 ) == 0x80 ) && ( 0xCE == ((const U8*)s)[3] ) ) && ( 0xB9 == ((const U8*)s)[4] ) ) ? 5 : 0 ) : ( ( ( ( 0xBD == ((const U8*)s)[1] ) && ( ( ( ((const U8*)s)[2] & 0xF8 ) == 0xA0 ) || ( ( ((const U8*)s)[2] & 0xFB ) == 0xB0 ) || ((const U8*) s)[2] == 0xBC ) ) && ( 0xCE == ((const U8*)s)[3] ) ) && ( 0xB9 == ((const U8*)s)[4] ) ) ? 5 : 0 ) : 0 ) : ( ((e)-(s) > 3) ? ( ( 0x61 == ((const U8*)s)[0] ) ? ( ( ( 0xCA == (( const U8*)s)[1] ) && ( 0xBE == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x66 == ((const U8*)s)[0] ) ? ( ( 0x66 == ((const U8*)s)[1] ) ? ( ( 0x69 == ((const U8*)s)[2] || 0x6C == ((const U8*)s)[2] ) ? 3 : 2 ) : ( 0x69 == ((const U8*)s)[1] || 0x6C == ((const U8*)s)[1] ) ? 2 : 0 ) : ( 0x68 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0xB1 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x69 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x87 == ((const U8 *)s)[2] ) ) ? 3 : 0 ) : ( 0x6A == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x8C == ((const U8* )s)[2] ) ) ? 3 : 0 ) : ( 0x73 == ((const U8*)s)[0] ) ? ( ( (( ((0x74) >= (0x73)) ? (void)0 : __assert2("re_comp.c", 15105 , __func__, "(0x74) >= (0x73)")), ( (sizeof(((const U8*)s) [1]) == sizeof(U8)) ? ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15105, __func__, "(NV) ((0x73)) >= 0")), ((( NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c" , 15105, __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64 ) (((((U8) (((const U8*)s)[1])))) - (((0x73)) | 0))) <= (( (U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)s)[ 1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15105, __func__, "(NV) ((0x73)) >= 0")), ((( NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c" , 15105, __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64 ) (((((U32) (((const U8*)s)[1])))) - (((0x73)) | 0))) <= ( ((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof(((const U8*) s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 15105 , __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)")), ((( (NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c", 15105 , __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73 ))) >= 0) ? (void)0 : __assert2("re_comp.c", 15105, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0)))))))) ) ? 2 : 0 ) : ( 0x74 == ((const U8*) s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x88 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x77 == ((const U8*)s )[0] || 0x79 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8 *)s)[1] ) && ( 0x8A == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0xC5 == ((const U8*)s)[0] ) ? ( ( ( ( 0xBF == ((const U8 *)s)[1] ) && ( 0xC5 == ((const U8*)s)[2] ) ) && ( 0xBF == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xCA == ((const U8*)s)[0] ) ? ( ( ( 0xBC == ((const U8*)s)[1] ) && ( 0x6E == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0xCE == ((const U8 *)s)[0] ) ? ( ( ( ((const U8*)s)[1] & 0xFD ) == 0xAC ) ? ( ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xB1 == ((const U8*)s)[1] || 0xB7 == ((const U8*)s)[1] ) ? ( ( 0xCD == ((const U8*)s)[2] ) ? ( ( 0x82 == ((const U8*)s)[3] ) ? 4 : 0 ) : ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( ( ( 0xB9 == ((const U8*)s)[1] ) && ( 0xCD == ((const U8*)s)[2] ) ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xCF == ((const U8*)s)[0] ) ? ( ( 0x81 == ( (const U8*)s)[1] ) ? ( ( ( 0xCC == ((const U8*)s)[2] ) && ( 0x93 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0x85 == ((const U8*)s)[1] ) ? ( ( 0xCC == ((const U8*)s)[2] ) ? ( ( 0x93 == ( (const U8*)s)[3] ) ? 4 : 0 ) : ( ( 0xCD == ((const U8*)s)[2] ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0x89 == ((const U8*)s)[1] ) ? ( ( 0xCD == ((const U8*)s)[2] ) ? ( ( 0x82 == ((const U8*)s)[3] ) ? 4 : 0 ) : ( ( 0xCE == ((const U8*)s)[2] ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( ( ( 0x8E == ((const U8*)s)[1] ) && ( 0xCE == ((const U8*)s)[2] ) ) && ( 0xB9 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xD5 == ((const U8*)s)[0] ) ? ( ( 0xA5 == ( (const U8*)s)[1] ) ? ( ( ( 0xD6 == ((const U8*)s)[2] ) && ( 0x82 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : ( 0xB4 == ((const U8*)s)[1] ) ? ( ( ( 0xD5 == ((const U8*)s)[2] ) && ( ( ( ((const U8*)s)[3] & 0xF7 ) == 0xA5 ) || ((const U8*) s)[3] == 0xAB || ((const U8*)s)[3] == 0xB6 ) ) ? 4 : 0 ) : ( ( ( 0xBE == ((const U8*)s)[1] ) && ( 0xD5 == ((const U8 *)s)[2] ) ) && ( 0xB6 == ((const U8*)s)[3] ) ) ? 4 : 0 ) : 0 ) : ((e)-(s) > 2) ? ( ( 0x61 == ((const U8*)s)[0] ) ? ( ( ( 0xCA == ((const U8*)s)[1] ) && ( 0xBE == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x66 == ((const U8*)s)[0] ) ? ( ( 0x66 == ((const U8*)s)[1] ) ? ( ( 0x69 == ((const U8*)s)[2] || 0x6C == ((const U8*)s)[2] ) ? 3 : 2 ) : ( 0x69 == ((const U8 *)s)[1] || 0x6C == ((const U8*)s)[1] ) ? 2 : 0 ) : ( 0x68 == ( (const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0xB1 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x69 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x87 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x6A == ((const U8 *)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x8C == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x73 == ((const U8*)s )[0] ) ? ( ( ((((0x74) >= (0x73)) ? (void)0 : __assert2("re_comp.c" , 15105, __func__, "(0x74) >= (0x73)")), ( (sizeof(((const U8*)s)[1]) == sizeof(U8)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 15105, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15105, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[1])))) - (((0x73)) | 0)) ) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)s)[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 15105, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15105, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[1])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof((( const U8*)s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 15105, __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 15105, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 15105 , __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[1])))) - (((0x73)) | 0))) <= (((U64 ) ((((0x74) - (0x73))) | 0)))))))) ) ? 2 : 0 ) : ( 0x74 == (( const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x88 == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( 0x77 == ((const U8*)s)[0] || 0x79 == ((const U8*)s)[0] ) ? ( ( ( 0xCC == ((const U8*)s)[1] ) && ( 0x8A == ((const U8*)s)[2] ) ) ? 3 : 0 ) : ( ( ( 0xCA == ((const U8*)s)[0] ) && ( 0xBC == ((const U8*)s)[1] ) ) && ( 0x6E == ((const U8*)s)[2] ) ) ? 3 : 0 ): ((e)-(s) > 1) ? ( ( 0x66 == ((const U8*)s) [0] ) ? ( ( 0x66 == ((const U8*)s)[1] || 0x69 == ((const U8*) s)[1] || 0x6C == ((const U8*)s)[1] ) ? 2 : 0 ) : ( ( 0x73 == ( (const U8*)s)[0] ) && ( ((((0x74) >= (0x73)) ? (void )0 : __assert2("re_comp.c", 15105, __func__, "(0x74) >= (0x73)" )), ( (sizeof(((const U8*)s)[1]) == sizeof(U8)) ? ((((NV) ((0x73 )) >= 0) ? (void)0 : __assert2("re_comp.c", 15105, __func__ , "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 15105, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[1])))) - (((0x73)) | 0)) ) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)s)[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 15105, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15105, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[1])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof((( const U8*)s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 15105, __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 15105, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 15105 , __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[1])))) - (((0x73)) | 0))) <= (((U64 ) ((((0x74) - (0x73))) | 0)))))))) ) ) ? 2 : 0 ): 0 ) )) ? (_Bool )1 : (_Bool)0),(0))) { |
15106 | s = prev_s; |
15107 | backed_up = TRUE(1); |
15108 | continue; |
15109 | } |
15110 | |
15111 | /* If the two characters beginning at 's' are part of a |
15112 | * three character fold starting at the character |
15113 | * before s, we can't split either before or after s. |
15114 | * Backup two chars and try again */ |
15115 | if ( LIKELY(s > s_start)__builtin_expect(((s > s_start) ? (_Bool)1 : (_Bool)0),(1) ) |
15116 | && UNLIKELY(is_THREE_CHAR_FOLD_utf8_safe(prev_s, e))__builtin_expect(((( ((e)-(prev_s) > 5) ? ( ( 0x66 == ((const U8*)prev_s)[0] ) ? ( ( ( 0x66 == ((const U8*)prev_s)[1] ) && ( 0x69 == ((const U8*)prev_s)[2] || 0x6C == ((const U8*)prev_s )[2] ) ) ? 3 : 0 ) : ( 0xCE == ((const U8*)prev_s)[0] ) ? ( ( 0xB1 == ((const U8*)prev_s)[1] || 0xB7 == ((const U8*)prev_s )[1] ) ? ( ( ( ( ( 0xCD == ((const U8*)prev_s)[2] ) && ( 0x82 == ((const U8*)prev_s)[3] ) ) && ( 0xCE == (( const U8*)prev_s)[4] ) ) && ( 0xB9 == ((const U8*)prev_s )[5] ) ) ? 6 : 0 ) : ( ( ( 0xB9 == ((const U8*)prev_s)[1] ) && ( 0xCC == ((const U8*)prev_s)[2] ) ) && ( 0x88 == (( const U8*)prev_s)[3] ) ) ? ( ( 0xCC == ((const U8*)prev_s)[4] ) ? ( ( ((((0x81) >= (0x80)) ? (void)0 : __assert2("re_comp.c" , 15116, __func__, "(0x81) >= (0x80)")), ( (sizeof(((const U8*)prev_s)[5]) == sizeof(U8)) ? ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c", 15116, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15116, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U8) (((const U8*)prev_s)[5])))) - (((0x80)) | 0))) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (sizeof(( (const U8*)prev_s)[5]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c", 15116, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15116, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)prev_s)[5])))) - (((0x80)) | 0))) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (((sizeof (((const U8*)prev_s)[5]) == sizeof(U64)) ? (void)0 : __assert2 ("re_comp.c", 15116, __func__, "sizeof(((const U8*)prev_s)[5]) == sizeof(U64)" )), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c" , 15116, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_comp.c", 15116 , __func__, "(NV) (((0x81) - (0x80))) >= 0")), (((U64) ((( ((U64) (((const U8*)prev_s)[5])))) - (((0x80)) | 0))) <= ( ((U64) ((((0x81) - (0x80))) | 0)))))))) ) ? 6 : 0 ) : ( ( 0xCD == ((const U8*)prev_s)[4] ) && ( 0x82 == ((const U8* )prev_s)[5] ) ) ? 6 : 0 ) : 0 ) : ( 0xCF == ((const U8*)prev_s )[0] ) ? ( ( 0x85 == ((const U8*)prev_s)[1] ) ? ( ( ( 0xCC == ((const U8*)prev_s)[2] ) && ( 0x88 == ((const U8*)prev_s )[3] || 0x93 == ((const U8*)prev_s)[3] ) ) ? ( ( 0xCC == ((const U8*)prev_s)[4] ) ? ( ( ((((0x81) >= (0x80)) ? (void)0 : __assert2 ("re_comp.c", 15116, __func__, "(0x81) >= (0x80)")), ( (sizeof (((const U8*)prev_s)[5]) == sizeof(U8)) ? ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c", 15116, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15116, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U8) (((const U8*)prev_s)[5])))) - (((0x80)) | 0))) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (sizeof(( (const U8*)prev_s)[5]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c", 15116, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15116, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)prev_s)[5])))) - (((0x80)) | 0))) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (((sizeof (((const U8*)prev_s)[5]) == sizeof(U64)) ? (void)0 : __assert2 ("re_comp.c", 15116, __func__, "sizeof(((const U8*)prev_s)[5]) == sizeof(U64)" )), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_comp.c" , 15116, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_comp.c", 15116 , __func__, "(NV) (((0x81) - (0x80))) >= 0")), (((U64) ((( ((U64) (((const U8*)prev_s)[5])))) - (((0x80)) | 0))) <= ( ((U64) ((((0x81) - (0x80))) | 0)))))))) ) ? 6 : 0 ) : ( ( 0xCD == ((const U8*)prev_s)[4] ) && ( 0x82 == ((const U8* )prev_s)[5] ) ) ? 6 : 0 ) : 0 ) : ( ( ( ( ( 0x89 == ((const U8 *)prev_s)[1] ) && ( 0xCD == ((const U8*)prev_s)[2] ) ) && ( 0x82 == ((const U8*)prev_s)[3] ) ) && ( 0xCE == ((const U8*)prev_s)[4] ) ) && ( 0xB9 == ((const U8*)prev_s)[5] ) ) ? 6 : 0 ) : 0 ) : ( ( ( ((e)-(prev_s) > 2) && ( 0x66 == ((const U8*)prev_s)[0] ) ) && ( 0x66 == ((const U8*)prev_s)[1] ) ) && ( 0x69 == (( const U8*)prev_s)[2] || 0x6C == ((const U8*)prev_s)[2] ) ) ? 3 : 0 )) ? (_Bool)1 : (_Bool)0),(0))) |
15117 | { |
15118 | s = prev_s; |
15119 | s = (char *) utf8_hop_backPerl_utf8_hop_back((U8 *) s, -1, (U8 *) s_start); |
15120 | backed_up = TRUE(1); |
15121 | continue; |
15122 | } |
15123 | |
15124 | /* Here there's no multi-char fold between s and the |
15125 | * next character following it. We can split */ |
15126 | splittable = TRUE(1); |
15127 | break; |
15128 | |
15129 | } while (s > s_start); /* End of loops backing up through the node */ |
15130 | |
15131 | /* Here we either couldn't find a place to split the node, |
15132 | * or else we broke out of the loop setting 'splittable' to |
15133 | * true. In the latter case, the place to split is between |
15134 | * the first and second characters in the sequence starting |
15135 | * at 's' */ |
15136 | if (splittable) { |
15137 | s += UTF8SKIP(s)PL_utf8skip[*(const U8*)(s)]; |
15138 | } |
15139 | } |
15140 | else { /* Pattern not UTF-8 */ |
15141 | if ( ender != LATIN_SMALL_LETTER_SHARP_S0xDF |
15142 | || ASCII_FOLD_RESTRICTED(get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) |
15143 | { |
15144 | assert( toLOWER_L1(ender) < 256 )((((! ( (sizeof(ender) == 1) || !(((U64)((ender) | 0)) & ~ 0xFF))) ? (ender) : PL_latin1_lc[ (U8) (ender) ]) < 256) ? (void)0 : __assert2("re_comp.c", 15144, __func__, "toLOWER_L1(ender) < 256" )); |
15145 | *e++ = (char)(toLOWER_L1(ender)((! ( (sizeof(ender) == 1) || !(((U64)((ender) | 0)) & ~0xFF ))) ? (ender) : PL_latin1_lc[ (U8) (ender) ])); /* should e and the cast be U8? */ |
15146 | } |
15147 | else { |
15148 | *e++ = 's'; |
15149 | *e++ = 's'; |
15150 | } |
15151 | |
15152 | if ( e - s <= 1 |
15153 | && UNLIKELY(is_THREE_CHAR_FOLD_HEAD_latin1_safe(s, e))__builtin_expect(((( ((e)-(s) > 1) ? ( ( ( ( ((const U8*)s )[0] & 0xDF ) == 0x41 ) || ( ( ((const U8*)s)[0] & 0xDE ) == 0x48 ) || ( ( ((const U8*)s)[0] & 0xDF ) == 0x4A ) || ( ( ((const U8*)s)[0] & 0xDB ) == 0x53 ) || ( ( ((const U8 *)s)[0] & 0xDF ) == 0x54 ) || ( ( ((const U8*)s)[0] & 0xDF ) == 0x59 ) ) ? 1 : ( ( ((const U8*)s)[0] & 0xDF ) == 0x46 ) ? ( ( ( ((const U8*)s)[1] & 0xDF ) == 0x46 ) ? 2 : 1 ) : 0 ) : ((e)-(s) > 0) ? ( ( ( ((const U8*)s)[0] & 0xDF ) == 0x41 ) || ( ( ((const U8*)s)[0] & 0xDF ) == 0x46 ) || ( ( ((const U8*)s)[0] & 0xDE ) == 0x48 ) || ( ( ((const U8*)s)[0] & 0xDF ) == 0x4A ) || ( ( ((const U8*)s)[0] & 0xDB ) == 0x53 ) || ( ( ((const U8*)s)[0] & 0xDF ) == 0x54 ) || ( ( ((const U8*)s)[0] & 0xDF ) == 0x59 ) ): 0 )) ? ( _Bool)1 : (_Bool)0),(0))) |
15154 | { |
15155 | if (isPUNCT(*p)(( (sizeof(*p) == 1) || !(((U64)((*p) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*p)] & ((1U << (5)) | (1U << (14)))) == ((1U << (5)) | (1U << (14)))))) { |
15156 | s--; |
15157 | backed_up = TRUE(1); |
15158 | } |
15159 | else { |
15160 | if ( UCHARAT(p)((int)*(const U8*)(p)) != LATIN_SMALL_LETTER_SHARP_S0xDF |
15161 | || ASCII_FOLD_RESTRICTED(get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) |
15162 | { |
15163 | assert( toLOWER_L1(ender) < 256 )((((! ( (sizeof(ender) == 1) || !(((U64)((ender) | 0)) & ~ 0xFF))) ? (ender) : PL_latin1_lc[ (U8) (ender) ]) < 256) ? (void)0 : __assert2("re_comp.c", 15163, __func__, "toLOWER_L1(ender) < 256" )); |
15164 | *e++ = (char)(toLOWER_L1(ender)((! ( (sizeof(ender) == 1) || !(((U64)((ender) | 0)) & ~0xFF ))) ? (ender) : PL_latin1_lc[ (U8) (ender) ])); /* should e and the cast be U8? */ |
15165 | } |
15166 | else { |
15167 | *e++ = 's'; |
15168 | *e++ = 's'; |
15169 | } |
15170 | } |
15171 | } |
15172 | |
15173 | do { |
15174 | if (UNLIKELY(is_MULTI_CHAR_FOLD_latin1_safe(s, e))__builtin_expect(((( ((e)-(s) > 2) ? ( ( ( ((const U8*)s)[ 0] & 0xDF ) == 0x46 ) ? ( ( ( ((const U8*)s)[1] & 0xDF ) == 0x46 ) ? ( ( ( ( ((const U8*)s)[2] & 0xDF ) == 0x49 ) || ( ( ((const U8*)s)[2] & 0xDF ) == 0x4C ) ) ? 3 : 2 ) : ( ( ( ((const U8*)s)[1] & 0xDF ) == 0x49 ) || ( ( ((const U8*)s)[1] & 0xDF ) == 0x4C ) ) ? 2 : 0 ) : ( ( ( ((const U8*)s)[0] & 0xDF ) == 0x53 ) && ( ((((0x54) >= (0x53)) ? (void)0 : __assert2("re_comp.c", 15174, __func__, "(0x54) >= (0x53)" )), ( (sizeof(((const U8*)s)[1]) == sizeof(U8)) ? ((((NV) ((0x53 )) >= 0) ? (void)0 : __assert2("re_comp.c", 15174, __func__ , "(NV) ((0x53)) >= 0")), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2("re_comp.c", 15174, __func__, "(NV) (((0x54) - (0x53))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[1])))) - (((0x53)) | 0)) ) <= (((U64) ((((0x54) - (0x53))) | 0))))) : (sizeof(((const U8*)s)[1]) == sizeof(U32)) ? ((((NV) ((0x53)) >= 0) ? (void )0 : __assert2("re_comp.c", 15174, __func__, "(NV) ((0x53)) >= 0" )), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15174, __func__, "(NV) (((0x54) - (0x53))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[1])))) - (((0x53)) | 0) )) <= (((U64) ((((0x54) - (0x53))) | 0))))) : (((sizeof((( const U8*)s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 15174, __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)" )), ((((NV) ((0x53)) >= 0) ? (void)0 : __assert2("re_comp.c" , 15174, __func__, "(NV) ((0x53)) >= 0")), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2("re_comp.c", 15174 , __func__, "(NV) (((0x54) - (0x53))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[1])))) - (((0x53)) | 0))) <= (((U64 ) ((((0x54) - (0x53))) | 0)))))))) || ((((0x74) >= (0x73)) ? (void)0 : __assert2("re_comp.c", 15174, __func__, "(0x74) >= (0x73)" )), ( (sizeof(((const U8*)s)[1]) == sizeof(U8)) ? ((((NV) ((0x73 )) >= 0) ? (void)0 : __assert2("re_comp.c", 15174, __func__ , "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 15174, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[1])))) - (((0x73)) | 0)) ) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)s)[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 15174, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15174, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[1])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof((( const U8*)s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 15174, __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 15174, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 15174 , __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[1])))) - (((0x73)) | 0))) <= (((U64 ) ((((0x74) - (0x73))) | 0)))))))) ) ) ? 2 : 0 ): ((e)-(s) > 1) ? ( ( ( ((const U8*)s)[0] & 0xDF ) == 0x46 ) ? ( ( ( ( ((const U8*)s)[1] & 0xDF ) == 0x46 ) || ( ( ((const U8*) s)[1] & 0xDF ) == 0x49 ) || ( ( ((const U8*)s)[1] & 0xDF ) == 0x4C ) ) ? 2 : 0 ) : ( ( ( ((const U8*)s)[0] & 0xDF ) == 0x53 ) && ( ((((0x54) >= (0x53)) ? (void)0 : __assert2("re_comp.c", 15174, __func__, "(0x54) >= (0x53)" )), ( (sizeof(((const U8*)s)[1]) == sizeof(U8)) ? ((((NV) ((0x53 )) >= 0) ? (void)0 : __assert2("re_comp.c", 15174, __func__ , "(NV) ((0x53)) >= 0")), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2("re_comp.c", 15174, __func__, "(NV) (((0x54) - (0x53))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[1])))) - (((0x53)) | 0)) ) <= (((U64) ((((0x54) - (0x53))) | 0))))) : (sizeof(((const U8*)s)[1]) == sizeof(U32)) ? ((((NV) ((0x53)) >= 0) ? (void )0 : __assert2("re_comp.c", 15174, __func__, "(NV) ((0x53)) >= 0" )), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15174, __func__, "(NV) (((0x54) - (0x53))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[1])))) - (((0x53)) | 0) )) <= (((U64) ((((0x54) - (0x53))) | 0))))) : (((sizeof((( const U8*)s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 15174, __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)" )), ((((NV) ((0x53)) >= 0) ? (void)0 : __assert2("re_comp.c" , 15174, __func__, "(NV) ((0x53)) >= 0")), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2("re_comp.c", 15174 , __func__, "(NV) (((0x54) - (0x53))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[1])))) - (((0x53)) | 0))) <= (((U64 ) ((((0x54) - (0x53))) | 0)))))))) || ((((0x74) >= (0x73)) ? (void)0 : __assert2("re_comp.c", 15174, __func__, "(0x74) >= (0x73)" )), ( (sizeof(((const U8*)s)[1]) == sizeof(U8)) ? ((((NV) ((0x73 )) >= 0) ? (void)0 : __assert2("re_comp.c", 15174, __func__ , "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 15174, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[1])))) - (((0x73)) | 0)) ) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)s)[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void )0 : __assert2("re_comp.c", 15174, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15174, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[1])))) - (((0x73)) | 0) )) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof((( const U8*)s)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 15174, __func__, "sizeof(((const U8*)s)[1]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_comp.c" , 15174, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_comp.c", 15174 , __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64) ((( ((U64) (((const U8*)s)[1])))) - (((0x73)) | 0))) <= (((U64 ) ((((0x74) - (0x73))) | 0)))))))) ) ) ? 2 : 0 ): 0 )) ? (_Bool )1 : (_Bool)0),(0))) { |
15175 | s--; |
15176 | backed_up = TRUE(1); |
15177 | continue; |
15178 | } |
15179 | |
15180 | if ( LIKELY(s > s_start)__builtin_expect(((s > s_start) ? (_Bool)1 : (_Bool)0),(1) ) |
15181 | && UNLIKELY(is_THREE_CHAR_FOLD_latin1_safe(s - 1, e))__builtin_expect(((( ( ( ( ( ((e) - (s - 1)) >= 3 ) && ( ( ((const U8*)s - 1)[0] & 0xDF ) == 0x46 ) ) && ( ( ((const U8*)s - 1)[1] & 0xDF ) == 0x46 ) ) && ( ( ( ((const U8*)s - 1)[2] & 0xDF ) == 0x49 ) || ( ( (( const U8*)s - 1)[2] & 0xDF ) == 0x4C ) ) ) ? 3 : 0 )) ? ( _Bool)1 : (_Bool)0),(0))) |
15182 | { |
15183 | s -= 2; |
15184 | backed_up = TRUE(1); |
15185 | continue; |
15186 | } |
15187 | |
15188 | splittable = TRUE(1); |
15189 | break; |
15190 | |
15191 | } while (s > s_start); |
15192 | |
15193 | if (splittable) { |
15194 | s++; |
15195 | } |
15196 | } |
15197 | |
15198 | /* Here, we are done backing up. If we didn't backup at all |
15199 | * (the likely case), just proceed */ |
15200 | if (backed_up) { |
15201 | |
15202 | /* If we did find a place to split, reparse the entire node |
15203 | * stopping where we have calculated. */ |
15204 | if (splittable) { |
15205 | |
15206 | /* If we created a temporary folded string under /l, we |
15207 | * have to map that back to the original */ |
15208 | if (need_to_fold_loc) { |
15209 | upper_fill = loc_correspondence[s - s_start]; |
15210 | if (upper_fill == 0) { |
15211 | FAIL2("panic: loc_correspondence[%d] is 0",do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "panic: loc_correspondence[%d] is 0" " in regex m/%" "d%" "lu" "%4p" "%s/", (int) (s - s_start), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)(len), (void*)((pRExC_state->precomp)), ellipses); } while (0) |
15212 | (int) (s - s_start))do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "panic: loc_correspondence[%d] is 0" " in regex m/%" "d%" "lu" "%4p" "%s/", (int) (s - s_start), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)(len), (void*)((pRExC_state->precomp)), ellipses); } while (0); |
15213 | } |
15214 | Safefree(locfold_buf)Perl_safesysfree(((void *)(locfold_buf))); |
15215 | Safefree(loc_correspondence)Perl_safesysfree(((void *)(loc_correspondence))); |
15216 | } |
15217 | else { |
15218 | upper_fill = s - s0; |
15219 | } |
15220 | goto reparse; |
15221 | } |
15222 | |
15223 | /* Here the node consists entirely of non-final multi-char |
15224 | * folds. (Likely it is all 'f's or all 's's.) There's no |
15225 | * decent place to split it, so give up and just take the |
15226 | * whole thing */ |
15227 | len = old_s - s0; |
15228 | } |
15229 | |
15230 | if (need_to_fold_loc) { |
15231 | Safefree(locfold_buf)Perl_safesysfree(((void *)(locfold_buf))); |
15232 | Safefree(loc_correspondence)Perl_safesysfree(((void *)(loc_correspondence))); |
15233 | } |
15234 | } /* End of verifying node ends with an appropriate char */ |
15235 | |
15236 | /* We need to start the next node at the character that didn't fit |
15237 | * in this one */ |
15238 | p = oldp; |
15239 | |
15240 | loopdone: /* Jumped to when encounters something that shouldn't be |
15241 | in the node */ |
15242 | |
15243 | /* Free up any over-allocated space; cast is to silence bogus |
15244 | * warning in MS VC */ |
15245 | change_engine_size(pRExC_state,S_change_engine_size( pRExC_state,- (ptrdiff_t) (current_string_nodes - (((len) + sizeof(regnode) - 1) / sizeof(regnode)))) |
15246 | - (Ptrdiff_t) (current_string_nodes - STR_SZ(len)))S_change_engine_size( pRExC_state,- (ptrdiff_t) (current_string_nodes - (((len) + sizeof(regnode) - 1) / sizeof(regnode)))); |
15247 | |
15248 | /* I (khw) don't know if you can get here with zero length, but the |
15249 | * old code handled this situation by creating a zero-length EXACT |
15250 | * node. Might as well be NOTHING instead */ |
15251 | if (len == 0) { |
15252 | OP(REGNODE_p(ret))((((pRExC_state->emit_start) + (ret)))->type) = NOTHING54; |
15253 | } |
15254 | else { |
15255 | |
15256 | /* If the node type is EXACT here, check to see if it |
15257 | * should be EXACTL, or EXACT_REQ8. */ |
15258 | if (node_type == EXACT40) { |
15259 | if (LOC(get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) { |
15260 | node_type = EXACTL42; |
15261 | } |
15262 | else if (requires_utf8_target) { |
15263 | node_type = EXACT_REQ850; |
15264 | } |
15265 | } |
15266 | else if (node_type == LEXACT41) { |
15267 | if (requires_utf8_target) { |
15268 | node_type = LEXACT_REQ851; |
15269 | } |
15270 | } |
15271 | else if (FOLD(((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool )1 : (_Bool)0)) { |
15272 | if ( UNLIKELY(has_micro_sign || has_ss)__builtin_expect(((has_micro_sign || has_ss) ? (_Bool)1 : (_Bool )0),(0)) |
15273 | && (node_type == EXACTFU45 || ( node_type == EXACTF43 |
15274 | && maybe_exactfu))) |
15275 | { /* These two conditions are problematic in non-UTF-8 |
15276 | EXACTFU nodes. */ |
15277 | assert(! UTF)((! (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (void )0 : __assert2("re_comp.c", 15277, __func__, "! UTF")); |
15278 | node_type = EXACTFUP47; |
15279 | } |
15280 | else if (node_type == EXACTFL44) { |
15281 | |
15282 | /* 'maybe_exactfu' is deliberately set above to |
15283 | * indicate this node type, where all code points in it |
15284 | * are above 255 */ |
15285 | if (maybe_exactfu) { |
15286 | node_type = EXACTFLU848; |
15287 | } |
15288 | else if (UNLIKELY(__builtin_expect(((S__invlist_contains_cp(PL_HasMultiCharFold , ender)) ? (_Bool)1 : (_Bool)0),(0)) |
15289 | _invlist_contains_cp(PL_HasMultiCharFold, ender))__builtin_expect(((S__invlist_contains_cp(PL_HasMultiCharFold , ender)) ? (_Bool)1 : (_Bool)0),(0))) |
15290 | { |
15291 | /* A character that folds to more than one will |
15292 | * match multiple characters, so can't be SIMPLE. |
15293 | * We don't have to worry about this with EXACTFLU8 |
15294 | * nodes just above, as they have already been |
15295 | * folded (since the fold doesn't vary at run |
15296 | * time). Here, if the final character in the node |
15297 | * folds to multiple, it can't be simple. (This |
15298 | * only has an effect if the node has only a single |
15299 | * character, hence the final one, as elsewhere we |
15300 | * turn off simple for nodes whose length > 1 */ |
15301 | maybe_SIMPLE = 0; |
15302 | } |
15303 | } |
15304 | else if (node_type == EXACTF43) { /* Means is /di */ |
15305 | |
15306 | /* This intermediate variable is needed solely because |
15307 | * the asserts in the macro where used exceed Win32's |
15308 | * literal string capacity */ |
15309 | char first_char = * STRING(REGNODE_p(ret))((((((pRExC_state->emit_start) + (ret)))->type) == 41 || ((((pRExC_state->emit_start) + (ret)))->type) == 51) ? (((((((pRExC_state->emit_start) + (ret)))->type) == 41 || ((((pRExC_state->emit_start) + (ret)))->type) == 51 ) ? (void)0 : __assert2("re_comp.c", 15309, __func__, "((((pRExC_state->emit_start) + (ret)))->type) == 41 || ((((pRExC_state->emit_start) + (ret)))->type) == 51" )), (((struct regnode_lstring *)((pRExC_state->emit_start) + (ret)))->string)) : (((((((pRExC_state->emit_start) + (ret)))->type) != 41 && ((((pRExC_state->emit_start ) + (ret)))->type) != 51) ? (void)0 : __assert2("re_comp.c" , 15309, __func__, "((((pRExC_state->emit_start) + (ret)))->type) != 41 && ((((pRExC_state->emit_start) + (ret)))->type) != 51" )), ((struct regnode_string *)((pRExC_state->emit_start) + (ret)))->string)); |
15310 | |
15311 | /* If 'maybe_exactfu' is clear, then we need to stay |
15312 | * /di. If it is set, it means there are no code |
15313 | * points that match differently depending on UTF8ness |
15314 | * of the target string, so it can become an EXACTFU |
15315 | * node */ |
15316 | if (! maybe_exactfu) { |
15317 | RExC_seen_d_op(pRExC_state->seen_d_op) = TRUE(1); |
15318 | } |
15319 | else if ( isALPHA_FOLD_EQ(first_char, 's')((((((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 15319 , __func__, "('Z') >= ('A')")), ( (sizeof((~('A' ^ 'a') & (first_char))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? ( void)0 : __assert2("re_comp.c", 15319, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 15319, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U8) ((~('A' ^ 'a') & (first_char)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~( 'A' ^ 'a') & (first_char))) == sizeof(U32)) ? ((((NV) (('A' )) >= 0) ? (void)0 : __assert2("re_comp.c", 15319, __func__ , "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 15319, __func__, "(NV) ((('Z') - ('A'))) >= 0" )), (((U64) (((((U32) ((~('A' ^ 'a') & (first_char)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : ( ((sizeof((~('A' ^ 'a') & (first_char))) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 15319, __func__, "sizeof((~('A' ^ 'a') & (first_char))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 15319, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 15319, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & (first_char)))))) - ((('A')) | 0))) <= (((U64 ) (((('Z') - ('A'))) | 0)))))))) || (((('Z') >= ('A')) ? ( void)0 : __assert2("re_comp.c", 15319, __func__, "('Z') >= ('A')" )), ( (sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U8)) ? (( ((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 15319 , __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A')) ) >= 0) ? (void)0 : __assert2("re_comp.c", 15319, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((( 'Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15319, __func__, "(NV) (('A')) >= 0")), (((NV ) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 15319, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 15319, __func__, "sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 15319, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 15319, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((( 'Z') - ('A'))) | 0))))))))) ? (void)0 : __assert2("re_comp.c" , 15319, __func__, "(((('Z') >= ('A')) ? (void)0 : __assert2(\"re_comp.c\", 15319, __func__, \"('Z') >= ('A')\")), ( (sizeof((~('A' ^ 'a') & (first_char))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 15319, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 15319, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U8) ((~('A' ^ 'a') & (first_char)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & (first_char))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 15319, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 15319, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U32) ((~('A' ^ 'a') & (first_char)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a') & (first_char))) == sizeof(U64)) ? (void)0 : __assert2(\"re_comp.c\", 15319, __func__, \"sizeof((~('A' ^ 'a') & (first_char))) == sizeof(U64)\")), ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 15319, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 15319, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U64) ((~('A' ^ 'a') & (first_char)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)))))))) || (((('Z') >= ('A')) ? (void)0 : __assert2(\"re_comp.c\", 15319, __func__, \"('Z') >= ('A')\")), ( (sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 15319, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 15319, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U8) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 15319, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 15319, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U32) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U64)) ? (void)0 : __assert2(\"re_comp.c\", 15319, __func__, \"sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U64)\")), ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 15319, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 15319, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U64) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))))))" )), ((first_char) & ~('A' ^ 'a')) == (('s') & ~('A' ^ 'a'))) |
15320 | || isALPHA_FOLD_EQ(ender, 's')((((((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 15320 , __func__, "('Z') >= ('A')")), ( (sizeof((~('A' ^ 'a') & (ender))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void) 0 : __assert2("re_comp.c", 15320, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 15320, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U8) ((~('A' ^ 'a') & (ender)))))) - ((('A')) | 0)) ) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & (ender))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 15320, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 15320, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) ((~('A' ^ 'a') & (ender)))))) - ((('A')) | 0) )) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a') & (ender))) == sizeof(U64)) ? (void)0 : __assert2 ("re_comp.c", 15320, __func__, "sizeof((~('A' ^ 'a') & (ender))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 15320, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 15320, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & (ender)))))) - ((('A')) | 0))) <= (((U64) (( (('Z') - ('A'))) | 0)))))))) || (((('Z') >= ('A')) ? (void )0 : __assert2("re_comp.c", 15320, __func__, "('Z') >= ('A')" )), ( (sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U8)) ? (( ((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 15320 , __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A')) ) >= 0) ? (void)0 : __assert2("re_comp.c", 15320, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((( 'Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2 ("re_comp.c", 15320, __func__, "(NV) (('A')) >= 0")), (((NV ) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 15320, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 15320, __func__, "sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 15320, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 15320, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((( 'Z') - ('A'))) | 0))))))))) ? (void)0 : __assert2("re_comp.c" , 15320, __func__, "(((('Z') >= ('A')) ? (void)0 : __assert2(\"re_comp.c\", 15320, __func__, \"('Z') >= ('A')\")), ( (sizeof((~('A' ^ 'a') & (ender))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 15320, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 15320, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U8) ((~('A' ^ 'a') & (ender)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & (ender))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 15320, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 15320, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U32) ((~('A' ^ 'a') & (ender)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a') & (ender))) == sizeof(U64)) ? (void)0 : __assert2(\"re_comp.c\", 15320, __func__, \"sizeof((~('A' ^ 'a') & (ender))) == sizeof(U64)\")), ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 15320, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 15320, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U64) ((~('A' ^ 'a') & (ender)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)))))))) || (((('Z') >= ('A')) ? (void)0 : __assert2(\"re_comp.c\", 15320, __func__, \"('Z') >= ('A')\")), ( (sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 15320, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 15320, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U8) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 15320, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 15320, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U32) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U64)) ? (void)0 : __assert2(\"re_comp.c\", 15320, __func__, \"sizeof((~('A' ^ 'a') & ('s'))) == sizeof(U64)\")), ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 15320, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 15320, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U64) ((~('A' ^ 'a') & ('s')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))))))" )), ((ender) & ~('A' ^ 'a')) == (('s') & ~('A' ^ 'a') ))) |
15321 | { |
15322 | /* But, if the node begins or ends in an 's' we |
15323 | * have to defer changing it into an EXACTFU, as |
15324 | * the node could later get joined with another one |
15325 | * that ends or begins with 's' creating an 'ss' |
15326 | * sequence which would then wrongly match the |
15327 | * sharp s without the target being UTF-8. We |
15328 | * create a special node that we resolve later when |
15329 | * we join nodes together */ |
15330 | |
15331 | node_type = EXACTFU_S_EDGE53; |
15332 | } |
15333 | else { |
15334 | node_type = EXACTFU45; |
15335 | } |
15336 | } |
15337 | |
15338 | if (requires_utf8_target && node_type == EXACTFU45) { |
15339 | node_type = EXACTFU_REQ852; |
15340 | } |
15341 | } |
15342 | |
15343 | OP(REGNODE_p(ret))((((pRExC_state->emit_start) + (ret)))->type) = node_type; |
15344 | setSTR_LEN(REGNODE_p(ret), len)do{ if (((((pRExC_state->emit_start) + (ret)))->type) == 41 || ((((pRExC_state->emit_start) + (ret)))->type) == 51) ((struct regnode_lstring *)(((pRExC_state->emit_start ) + (ret))))->str_len = (len); else ((struct regnode_string *)(((pRExC_state->emit_start) + (ret))))->str_len = (len ); } while (0); |
15345 | RExC_emit(pRExC_state->emit) += STR_SZ(len)(((len) + sizeof(regnode) - 1) / sizeof(regnode)); |
15346 | |
15347 | /* If the node isn't a single character, it can't be SIMPLE */ |
15348 | if (len > (Size_tsize_t) ((UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? UTF8SKIP(STRING(REGNODE_p(ret)))PL_utf8skip[*(const U8*)(((((((pRExC_state->emit_start) + ( ret)))->type) == 41 || ((((pRExC_state->emit_start) + ( ret)))->type) == 51) ? (((((((pRExC_state->emit_start) + (ret)))->type) == 41 || ((((pRExC_state->emit_start) + (ret)))->type) == 51) ? (void)0 : __assert2("re_comp.c", 15348 , __func__, "((((pRExC_state->emit_start) + (ret)))->type) == 41 || ((((pRExC_state->emit_start) + (ret)))->type) == 51" )), (((struct regnode_lstring *)((pRExC_state->emit_start) + (ret)))->string)) : (((((((pRExC_state->emit_start) + (ret)))->type) != 41 && ((((pRExC_state->emit_start ) + (ret)))->type) != 51) ? (void)0 : __assert2("re_comp.c" , 15348, __func__, "((((pRExC_state->emit_start) + (ret)))->type) != 41 && ((((pRExC_state->emit_start) + (ret)))->type) != 51" )), ((struct regnode_string *)((pRExC_state->emit_start) + (ret)))->string)))] : 1)) { |
15349 | maybe_SIMPLE = 0; |
15350 | } |
15351 | |
15352 | *flagp |= HASWIDTH0x01 | maybe_SIMPLE; |
15353 | } |
15354 | |
15355 | Set_Node_Length(REGNODE_p(ret), p - parse_start - 1)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 15355, (int )(((((pRExC_state->emit_start) + (ret))) - (pRExC_state-> emit_start))), (int)(p - parse_start - 1));} while (0); if((( (((pRExC_state->emit_start) + (ret))) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))] = (p - parse_start - 1); } } while (0); |
15356 | RExC_parse(pRExC_state->parse) = p; |
15357 | |
15358 | { |
15359 | /* len is STRLEN which is unsigned, need to copy to signed */ |
15360 | IV iv = len; |
15361 | if (iv < 0) |
15362 | vFAIL("Internal disaster")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Internal disaster", (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 15362, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
15363 | } |
15364 | |
15365 | } /* End of label 'defchar:' */ |
15366 | break; |
15367 | } /* End of giant switch on input character */ |
15368 | |
15369 | /* Position parse to next real character */ |
15370 | skip_to_be_ignored_text(pRExC_state, &RExC_parse,S_skip_to_be_ignored_text( pRExC_state,&(pRExC_state-> parse),(0)) |
15371 | FALSE /* Don't force to /x */ )S_skip_to_be_ignored_text( pRExC_state,&(pRExC_state-> parse),(0)); |
15372 | if ( *RExC_parse(pRExC_state->parse) == '{' |
15373 | && OP(REGNODE_p(ret))((((pRExC_state->emit_start) + (ret)))->type) != SBOL2 && ! regcurlyS_regcurly(RExC_parse(pRExC_state->parse))) |
15374 | { |
15375 | if (RExC_strict(pRExC_state->strict) || new_regcurlyS_new_regcurly(RExC_parse(pRExC_state->parse), RExC_end(pRExC_state->end))) { |
15376 | RExC_parse(pRExC_state->parse)++; |
15377 | vFAIL("Unescaped left brace in regex is illegal here")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Unescaped left brace in regex is illegal here" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 15377, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
15378 | } |
15379 | ckWARNreg(RExC_parse + 1, "Unescaped left brace in regex is"do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 15380, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "Unescaped left brace in regex is" " passed through" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 15380, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)), ((int) ((pRExC_state->end) - (pRExC_state-> start))), (pRExC_state->start)), 0))), (void*)((pRExC_state ->precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))), (void*)((( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))))))) - (pRExC_state->precomp); } } while (0); } } while (0) |
15380 | " passed through")do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 15380, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "Unescaped left brace in regex is" " passed through" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 15380, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)), ((int) ((pRExC_state->end) - (pRExC_state-> start))), (pRExC_state->start)), 0))), (void*)((pRExC_state ->precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))), (void*)((( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))))))) - (pRExC_state->precomp); } } while (0); } } while (0); |
15381 | } |
15382 | |
15383 | return(ret); |
15384 | } |
15385 | |
15386 | |
15387 | STATICstatic void |
15388 | S_populate_ANYOF_from_invlist(pTHX_ regnode *node, SV** invlist_ptr) |
15389 | { |
15390 | /* Uses the inversion list '*invlist_ptr' to populate the ANYOF 'node'. It |
15391 | * sets up the bitmap and any flags, removing those code points from the |
15392 | * inversion list, setting it to NULL should it become completely empty */ |
15393 | |
15394 | dVARstruct Perl___notused_struct; |
15395 | |
15396 | PERL_ARGS_ASSERT_POPULATE_ANYOF_FROM_INVLIST((node) ? (void)0 : __assert2("re_comp.c", 15396, __func__, "node" )); ((invlist_ptr) ? (void)0 : __assert2("re_comp.c", 15396, __func__ , "invlist_ptr")); |
15397 | assert(PL_regkind[OP(node)] == ANYOF)((PL_regkind[((node)->type)] == 18) ? (void)0 : __assert2( "re_comp.c", 15397, __func__, "PL_regkind[OP(node)] == ANYOF" )); |
15398 | |
15399 | /* There is no bitmap for this node type */ |
15400 | if (inRANGE(OP(node), ANYOFH, ANYOFRb)((((27) >= (22)) ? (void)0 : __assert2("re_comp.c", 15400, __func__, "(27) >= (22)")), ( (sizeof(((node)->type)) == sizeof(U8)) ? ((((NV) ((22)) >= 0) ? (void)0 : __assert2( "re_comp.c", 15400, __func__, "(NV) ((22)) >= 0")), (((NV) (((27) - (22))) >= 0) ? (void)0 : __assert2("re_comp.c", 15400 , __func__, "(NV) (((27) - (22))) >= 0")), (((U64) (((((U8 ) (((node)->type))))) - (((22)) | 0))) <= (((U64) ((((27 ) - (22))) | 0))))) : (sizeof(((node)->type)) == sizeof(U32 )) ? ((((NV) ((22)) >= 0) ? (void)0 : __assert2("re_comp.c" , 15400, __func__, "(NV) ((22)) >= 0")), (((NV) (((27) - ( 22))) >= 0) ? (void)0 : __assert2("re_comp.c", 15400, __func__ , "(NV) (((27) - (22))) >= 0")), (((U64) (((((U32) (((node )->type))))) - (((22)) | 0))) <= (((U64) ((((27) - (22) )) | 0))))) : (((sizeof(((node)->type)) == sizeof(U64)) ? ( void)0 : __assert2("re_comp.c", 15400, __func__, "sizeof(((node)->type)) == sizeof(U64)" )), ((((NV) ((22)) >= 0) ? (void)0 : __assert2("re_comp.c" , 15400, __func__, "(NV) ((22)) >= 0")), (((NV) (((27) - ( 22))) >= 0) ? (void)0 : __assert2("re_comp.c", 15400, __func__ , "(NV) (((27) - (22))) >= 0")), (((U64) (((((U64) (((node )->type))))) - (((22)) | 0))) <= (((U64) ((((27) - (22) )) | 0))))))))) { |
15401 | return; |
15402 | } |
15403 | |
15404 | ANYOF_BITMAP_ZERO(node)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(((1 << 8) / 8)) || sizeof(char) > ((size_t)1 << 8 *(sizeof(size_t) - sizeof(((1 << 8) / 8))))) ? (size_t) (((1 << 8) / 8)) : ((size_t)-1)/sizeof(char)) > ((size_t )-1)/sizeof(char))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)(((regnode_charclass*)(node))->bitmap)) != 0) ? (void)0 : __assert2("re_comp.c", 15404, __func__, "((void*)(((regnode_charclass*)(node))->bitmap)) != 0" )), (void)memset((char*)(((regnode_charclass*)(node))->bitmap ),0,(((1 << 8) / 8)) * sizeof(char))); |
15405 | if (*invlist_ptr) { |
15406 | |
15407 | /* This gets set if we actually need to modify things */ |
15408 | bool_Bool change_invlist = FALSE(0); |
15409 | |
15410 | UV start, end; |
15411 | |
15412 | /* Start looking through *invlist_ptr */ |
15413 | invlist_iterinitS_invlist_iterinit(*invlist_ptr); |
15414 | while (invlist_iternextS_invlist_iternext(*invlist_ptr, &start, &end)) { |
15415 | UV high; |
15416 | int i; |
15417 | |
15418 | if (end == UV_MAX(~(UV)0) && start <= NUM_ANYOF_CODE_POINTS(1 << 8)) { |
15419 | ANYOF_FLAGS(node)((node)->flags) |= ANYOF_MATCHES_ALL_ABOVE_BITMAP0x20; |
15420 | } |
15421 | |
15422 | /* Quit if are above what we should change */ |
15423 | if (start >= NUM_ANYOF_CODE_POINTS(1 << 8)) { |
15424 | break; |
15425 | } |
15426 | |
15427 | change_invlist = TRUE(1); |
15428 | |
15429 | /* Set all the bits in the range, up to the max that we are doing */ |
15430 | high = (end < NUM_ANYOF_CODE_POINTS(1 << 8) - 1) |
15431 | ? end |
15432 | : NUM_ANYOF_CODE_POINTS(1 << 8) - 1; |
15433 | for (i = start; i <= (int) high; i++) { |
15434 | if (! ANYOF_BITMAP_TEST(node, i)(((( (U8*) ((regnode_charclass*)(node))->bitmap) [ ( ( (UV ) (i)) >> 3) ] ) & (1U << ((i) & 7))) ? ( _Bool)1 : (_Bool)0)) { |
15435 | ANYOF_BITMAP_SET(node, i)((( (U8*) ((regnode_charclass*)(node))->bitmap) [ ( ( (UV) (i)) >> 3) ] ) |= (1U << ((i) & 7))); |
15436 | } |
15437 | } |
15438 | } |
15439 | invlist_iterfinishS_invlist_iterfinish(*invlist_ptr); |
15440 | |
15441 | /* Done with loop; remove any code points that are in the bitmap from |
15442 | * *invlist_ptr; similarly for code points above the bitmap if we have |
15443 | * a flag to match all of them anyways */ |
15444 | if (change_invlist) { |
15445 | _invlist_subtract(*invlist_ptr, PL_InBitmap, invlist_ptr)Perl__invlist_intersection_maybe_complement_2nd( *invlist_ptr ,PL_InBitmap,(1),invlist_ptr); |
15446 | } |
15447 | if (ANYOF_FLAGS(node)((node)->flags) & ANYOF_MATCHES_ALL_ABOVE_BITMAP0x20) { |
15448 | _invlist_intersection(*invlist_ptr, PL_InBitmap, invlist_ptr)Perl__invlist_intersection_maybe_complement_2nd( *invlist_ptr ,PL_InBitmap,(0),invlist_ptr); |
15449 | } |
15450 | |
15451 | /* If have completely emptied it, remove it completely */ |
15452 | if (_invlist_lenS__invlist_len(*invlist_ptr) == 0) { |
15453 | SvREFCNT_dec_NN(*invlist_ptr)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (*invlist_ptr); _p ; }))); |
15454 | *invlist_ptr = NULL((void*)0); |
15455 | } |
15456 | } |
15457 | } |
15458 | |
15459 | /* Parse POSIX character classes: [[:foo:]], [[=foo=]], [[.foo.]]. |
15460 | Character classes ([:foo:]) can also be negated ([:^foo:]). |
15461 | Returns a named class id (ANYOF_XXX) if successful, -1 otherwise. |
15462 | Equivalence classes ([=foo=]) and composites ([.foo.]) are parsed, |
15463 | but trigger failures because they are currently unimplemented. */ |
15464 | |
15465 | #define POSIXCC_DONE(c)((c) == ':') ((c) == ':') |
15466 | #define POSIXCC_NOTYET(c)((c) == '=' || (c) == '.') ((c) == '=' || (c) == '.') |
15467 | #define POSIXCC(c)(((c) == ':') || ((c) == '=' || (c) == '.')) (POSIXCC_DONE(c)((c) == ':') || POSIXCC_NOTYET(c)((c) == '=' || (c) == '.')) |
15468 | #define MAYBE_POSIXCC(c)((((c) == ':') || ((c) == '=' || (c) == '.')) || (c) == '^' || (c) == ';') (POSIXCC(c)(((c) == ':') || ((c) == '=' || (c) == '.')) || (c) == '^' || (c) == ';') |
15469 | |
15470 | #define WARNING_PREFIX"Assuming NOT a POSIX class since " "Assuming NOT a POSIX class since " |
15471 | #define NO_BLANKS_POSIX_WARNING"no blanks are allowed in one" "no blanks are allowed in one" |
15472 | #define SEMI_COLON_POSIX_WARNING"a semi-colon was found instead of a colon" "a semi-colon was found instead of a colon" |
15473 | |
15474 | #define NOT_MEANT_TO_BE_A_POSIX_CLASS(-1 - 1) (OOB_NAMEDCLASS-1 - 1) |
15475 | |
15476 | /* 'posix_warnings' and 'warn_text' are names of variables in the following |
15477 | * routine. q.v. */ |
15478 | #define ADD_POSIX_WARNING(p, text) STMT_STARTdo { \ |
15479 | if (posix_warnings) { \ |
15480 | if (! RExC_warn_text(pRExC_state->warn_text) ) RExC_warn_text(pRExC_state->warn_text) = \ |
15481 | (AV *) sv_2mortal((SV *) newAV())Perl_sv_2mortal( (SV *) ((AV *)({ void *_p = (Perl_newSV_type ( SVt_PVAV)); _p; }))); \ |
15482 | av_push(RExC_warn_text, Perl_newSVpvf(aTHX_ \Perl_av_push( (pRExC_state->warn_text),Perl_newSVpvf( "Assuming NOT a POSIX class since " text " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + (p - (pRExC_state->copy_start) )) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state-> copy_start_in_input) + (p - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 15486, (IV) (((pRExC_state->copy_start_in_input) + (p - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)), (int) (((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool) 1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (p - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (p - (pRExC_state->copy_start) )) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start)))))) |
15483 | WARNING_PREFIX \Perl_av_push( (pRExC_state->warn_text),Perl_newSVpvf( "Assuming NOT a POSIX class since " text " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + (p - (pRExC_state->copy_start) )) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state-> copy_start_in_input) + (p - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 15486, (IV) (((pRExC_state->copy_start_in_input) + (p - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)), (int) (((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool) 1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (p - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (p - (pRExC_state->copy_start) )) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start)))))) |
15484 | text \Perl_av_push( (pRExC_state->warn_text),Perl_newSVpvf( "Assuming NOT a POSIX class since " text " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + (p - (pRExC_state->copy_start) )) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state-> copy_start_in_input) + (p - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 15486, (IV) (((pRExC_state->copy_start_in_input) + (p - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)), (int) (((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool) 1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (p - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (p - (pRExC_state->copy_start) )) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start)))))) |
15485 | REPORT_LOCATION, \Perl_av_push( (pRExC_state->warn_text),Perl_newSVpvf( "Assuming NOT a POSIX class since " text " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + (p - (pRExC_state->copy_start) )) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state-> copy_start_in_input) + (p - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 15486, (IV) (((pRExC_state->copy_start_in_input) + (p - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)), (int) (((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool) 1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (p - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (p - (pRExC_state->copy_start) )) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start)))))) |
15486 | REPORT_LOCATION_ARGS(p)))Perl_av_push( (pRExC_state->warn_text),Perl_newSVpvf( "Assuming NOT a POSIX class since " text " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + (p - (pRExC_state->copy_start) )) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state-> copy_start_in_input) + (p - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 15486, (IV) (((pRExC_state->copy_start_in_input) + (p - ( pRExC_state->copy_start))) - (pRExC_state->precomp)), ( (int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state ->start)), 0))), (void*)((pRExC_state->precomp)), (int) (((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool) 1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (p - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (p - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (p - (pRExC_state->copy_start) )) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (p - (pRExC_state ->copy_start)))))); \ |
15487 | } \ |
15488 | } STMT_ENDwhile (0) |
15489 | #define CLEAR_POSIX_WARNINGS()do { if (posix_warnings && (pRExC_state->warn_text )) Perl_av_clear( (pRExC_state->warn_text)); } while (0) \ |
15490 | STMT_STARTdo { \ |
15491 | if (posix_warnings && RExC_warn_text(pRExC_state->warn_text)) \ |
15492 | av_clear(RExC_warn_text)Perl_av_clear( (pRExC_state->warn_text)); \ |
15493 | } STMT_ENDwhile (0) |
15494 | |
15495 | #define CLEAR_POSIX_WARNINGS_AND_RETURN(ret)do { do { if (posix_warnings && (pRExC_state->warn_text )) Perl_av_clear( (pRExC_state->warn_text)); } while (0); return ret; } while (0) \ |
15496 | STMT_STARTdo { \ |
15497 | CLEAR_POSIX_WARNINGS()do { if (posix_warnings && (pRExC_state->warn_text )) Perl_av_clear( (pRExC_state->warn_text)); } while (0); \ |
15498 | return ret; \ |
15499 | } STMT_ENDwhile (0) |
15500 | |
15501 | STATICstatic int |
15502 | S_handle_possible_posix(pTHX_ RExC_state_t *pRExC_state, |
15503 | |
15504 | const char * const s, /* Where the putative posix class begins. |
15505 | Normally, this is one past the '['. This |
15506 | parameter exists so it can be somewhere |
15507 | besides RExC_parse. */ |
15508 | char ** updated_parse_ptr, /* Where to set the updated parse pointer, or |
15509 | NULL */ |
15510 | AV ** posix_warnings, /* Where to place any generated warnings, or |
15511 | NULL */ |
15512 | const bool_Bool check_only /* Don't die if error */ |
15513 | ) |
15514 | { |
15515 | /* This parses what the caller thinks may be one of the three POSIX |
15516 | * constructs: |
15517 | * 1) a character class, like [:blank:] |
15518 | * 2) a collating symbol, like [. .] |
15519 | * 3) an equivalence class, like [= =] |
15520 | * In the latter two cases, it croaks if it finds a syntactically legal |
15521 | * one, as these are not handled by Perl. |
15522 | * |
15523 | * The main purpose is to look for a POSIX character class. It returns: |
15524 | * a) the class number |
15525 | * if it is a completely syntactically and semantically legal class. |
15526 | * 'updated_parse_ptr', if not NULL, is set to point to just after the |
15527 | * closing ']' of the class |
15528 | * b) OOB_NAMEDCLASS |
15529 | * if it appears that one of the three POSIX constructs was meant, but |
15530 | * its specification was somehow defective. 'updated_parse_ptr', if |
15531 | * not NULL, is set to point to the character just after the end |
15532 | * character of the class. See below for handling of warnings. |
15533 | * c) NOT_MEANT_TO_BE_A_POSIX_CLASS |
15534 | * if it doesn't appear that a POSIX construct was intended. |
15535 | * 'updated_parse_ptr' is not changed. No warnings nor errors are |
15536 | * raised. |
15537 | * |
15538 | * In b) there may be errors or warnings generated. If 'check_only' is |
15539 | * TRUE, then any errors are discarded. Warnings are returned to the |
15540 | * caller via an AV* created into '*posix_warnings' if it is not NULL. If |
15541 | * instead it is NULL, warnings are suppressed. |
15542 | * |
15543 | * The reason for this function, and its complexity is that a bracketed |
15544 | * character class can contain just about anything. But it's easy to |
15545 | * mistype the very specific posix class syntax but yielding a valid |
15546 | * regular bracketed class, so it silently gets compiled into something |
15547 | * quite unintended. |
15548 | * |
15549 | * The solution adopted here maintains backward compatibility except that |
15550 | * it adds a warning if it looks like a posix class was intended but |
15551 | * improperly specified. The warning is not raised unless what is input |
15552 | * very closely resembles one of the 14 legal posix classes. To do this, |
15553 | * it uses fuzzy parsing. It calculates how many single-character edits it |
15554 | * would take to transform what was input into a legal posix class. Only |
15555 | * if that number is quite small does it think that the intention was a |
15556 | * posix class. Obviously these are heuristics, and there will be cases |
15557 | * where it errs on one side or another, and they can be tweaked as |
15558 | * experience informs. |
15559 | * |
15560 | * The syntax for a legal posix class is: |
15561 | * |
15562 | * qr/(?xa: \[ : \^? [[:lower:]]{4,6} : \] )/ |
15563 | * |
15564 | * What this routine considers syntactically to be an intended posix class |
15565 | * is this (the comments indicate some restrictions that the pattern |
15566 | * doesn't show): |
15567 | * |
15568 | * qr/(?x: \[? # The left bracket, possibly |
15569 | * # omitted |
15570 | * \h* # possibly followed by blanks |
15571 | * (?: \^ \h* )? # possibly a misplaced caret |
15572 | * [:;]? # The opening class character, |
15573 | * # possibly omitted. A typo |
15574 | * # semi-colon can also be used. |
15575 | * \h* |
15576 | * \^? # possibly a correctly placed |
15577 | * # caret, but not if there was also |
15578 | * # a misplaced one |
15579 | * \h* |
15580 | * .{3,15} # The class name. If there are |
15581 | * # deviations from the legal syntax, |
15582 | * # its edit distance must be close |
15583 | * # to a real class name in order |
15584 | * # for it to be considered to be |
15585 | * # an intended posix class. |
15586 | * \h* |
15587 | * [[:punct:]]? # The closing class character, |
15588 | * # possibly omitted. If not a colon |
15589 | * # nor semi colon, the class name |
15590 | * # must be even closer to a valid |
15591 | * # one |
15592 | * \h* |
15593 | * \]? # The right bracket, possibly |
15594 | * # omitted. |
15595 | * )/ |
15596 | * |
15597 | * In the above, \h must be ASCII-only. |
15598 | * |
15599 | * These are heuristics, and can be tweaked as field experience dictates. |
15600 | * There will be cases when someone didn't intend to specify a posix class |
15601 | * that this warns as being so. The goal is to minimize these, while |
15602 | * maximizing the catching of things intended to be a posix class that |
15603 | * aren't parsed as such. |
15604 | */ |
15605 | |
15606 | const char* p = s; |
15607 | const char * const e = RExC_end(pRExC_state->end); |
15608 | unsigned complement = 0; /* If to complement the class */ |
15609 | bool_Bool found_problem = FALSE(0); /* Assume OK until proven otherwise */ |
15610 | bool_Bool has_opening_bracket = FALSE(0); |
15611 | bool_Bool has_opening_colon = FALSE(0); |
15612 | int class_number = OOB_NAMEDCLASS-1; /* Out-of-bounds until find |
15613 | valid class */ |
15614 | const char * possible_end = NULL((void*)0); /* used for a 2nd parse pass */ |
15615 | const char* name_start; /* ptr to class name first char */ |
15616 | |
15617 | /* If the number of single-character typos the input name is away from a |
15618 | * legal name is no more than this number, it is considered to have meant |
15619 | * the legal name */ |
15620 | int max_distance = 2; |
15621 | |
15622 | /* to store the name. The size determines the maximum length before we |
15623 | * decide that no posix class was intended. Should be at least |
15624 | * sizeof("alphanumeric") */ |
15625 | UV input_text[15]; |
15626 | STATIC_ASSERT_DECL(C_ARRAY_LENGTH(input_text) >= sizeof "alphanumeric")_Static_assert((sizeof(input_text)/sizeof((input_text)[0])) >= sizeof "alphanumeric", "C_ARRAY_LENGTH(input_text) >= sizeof \"alphanumeric\"" ); |
15627 | |
15628 | PERL_ARGS_ASSERT_HANDLE_POSSIBLE_POSIX((pRExC_state) ? (void)0 : __assert2("re_comp.c", 15628, __func__ , "pRExC_state")); ((s) ? (void)0 : __assert2("re_comp.c", 15628 , __func__, "s")); |
15629 | |
15630 | CLEAR_POSIX_WARNINGS()do { if (posix_warnings && (pRExC_state->warn_text )) Perl_av_clear( (pRExC_state->warn_text)); } while (0); |
15631 | |
15632 | if (p >= e) { |
15633 | return NOT_MEANT_TO_BE_A_POSIX_CLASS(-1 - 1); |
15634 | } |
15635 | |
15636 | if (*(p - 1) != '[') { |
15637 | ADD_POSIX_WARNING(p, "it doesn't start with a '['"); |
15638 | found_problem = TRUE(1); |
15639 | } |
15640 | else { |
15641 | has_opening_bracket = TRUE(1); |
15642 | } |
15643 | |
15644 | /* They could be confused and think you can put spaces between the |
15645 | * components */ |
15646 | if (isBLANK(*p)(( (sizeof(*p) == 1) || !(((U64)((*p) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*p)] & ((1U << (11)) | (1U << (14)))) == ((1U << (11)) | (1U << (14)))))) { |
15647 | found_problem = TRUE(1); |
15648 | |
15649 | do { |
15650 | p++; |
15651 | } while (p < e && isBLANK(*p)(( (sizeof(*p) == 1) || !(((U64)((*p) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*p)] & ((1U << (11)) | (1U << (14)))) == ((1U << (11)) | (1U << (14)))))); |
15652 | |
15653 | ADD_POSIX_WARNING(p, NO_BLANKS_POSIX_WARNING"no blanks are allowed in one"); |
15654 | } |
15655 | |
15656 | /* For [. .] and [= =]. These are quite different internally from [: :], |
15657 | * so they are handled separately. */ |
15658 | if (POSIXCC_NOTYET(*p)((*p) == '=' || (*p) == '.') && p < e - 3) /* 1 for the close, and 1 for the ']' |
15659 | and 1 for at least one char in it |
15660 | */ |
15661 | { |
15662 | const char open_char = *p; |
15663 | const char * temp_ptr = p + 1; |
15664 | |
15665 | /* These two constructs are not handled by perl, and if we find a |
15666 | * syntactically valid one, we croak. khw, who wrote this code, finds |
15667 | * this explanation of them very unclear: |
15668 | * http://pubs.opengroup.org/onlinepubs/009696899/basedefs/xbd_chap09.html |
15669 | * And searching the rest of the internet wasn't very helpful either. |
15670 | * It looks like just about any byte can be in these constructs, |
15671 | * depending on the locale. But unless the pattern is being compiled |
15672 | * under /l, which is very rare, Perl runs under the C or POSIX locale. |
15673 | * In that case, it looks like [= =] isn't allowed at all, and that |
15674 | * [. .] could be any single code point, but for longer strings the |
15675 | * constituent characters would have to be the ASCII alphabetics plus |
15676 | * the minus-hyphen. Any sensible locale definition would limit itself |
15677 | * to these. And any portable one definitely should. Trying to parse |
15678 | * the general case is a nightmare (see [perl #127604]). So, this code |
15679 | * looks only for interiors of these constructs that match: |
15680 | * qr/.|[-\w]{2,}/ |
15681 | * Using \w relaxes the apparent rules a little, without adding much |
15682 | * danger of mistaking something else for one of these constructs. |
15683 | * |
15684 | * [. .] in some implementations described on the internet is usable to |
15685 | * escape a character that otherwise is special in bracketed character |
15686 | * classes. For example [.].] means a literal right bracket instead of |
15687 | * the ending of the class |
15688 | * |
15689 | * [= =] can legitimately contain a [. .] construct, but we don't |
15690 | * handle this case, as that [. .] construct will later get parsed |
15691 | * itself and croak then. And [= =] is checked for even when not under |
15692 | * /l, as Perl has long done so. |
15693 | * |
15694 | * The code below relies on there being a trailing NUL, so it doesn't |
15695 | * have to keep checking if the parse ptr < e. |
15696 | */ |
15697 | if (temp_ptr[1] == open_char) { |
15698 | temp_ptr++; |
15699 | } |
15700 | else while ( temp_ptr < e |
15701 | && (isWORDCHAR(*temp_ptr)(( (sizeof(*temp_ptr) == 1) || !(((U64)((*temp_ptr) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*temp_ptr)] & (( 1U << (0)) | (1U << (14)))) == ((1U << (0)) | (1U << (14))))) || *temp_ptr == '-')) |
15702 | { |
15703 | temp_ptr++; |
15704 | } |
15705 | |
15706 | if (*temp_ptr == open_char) { |
15707 | temp_ptr++; |
15708 | if (*temp_ptr == ']') { |
15709 | temp_ptr++; |
15710 | if (! found_problem && ! check_only) { |
15711 | RExC_parse(pRExC_state->parse) = (char *) temp_ptr; |
15712 | vFAIL3("POSIX syntax [%c %c] is reserved for future "do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "POSIX syntax [%c %c] is reserved for future " "extensions" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", open_char , open_char, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 15713, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0) |
15713 | "extensions", open_char, open_char)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "POSIX syntax [%c %c] is reserved for future " "extensions" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", open_char , open_char, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 15713, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
15714 | } |
15715 | |
15716 | /* Here, the syntax wasn't completely valid, or else the call |
15717 | * is to check-only */ |
15718 | if (updated_parse_ptr) { |
15719 | *updated_parse_ptr = (char *) temp_ptr; |
15720 | } |
15721 | |
15722 | CLEAR_POSIX_WARNINGS_AND_RETURN(OOB_NAMEDCLASS)do { do { if (posix_warnings && (pRExC_state->warn_text )) Perl_av_clear( (pRExC_state->warn_text)); } while (0); return -1; } while (0); |
15723 | } |
15724 | } |
15725 | |
15726 | /* If we find something that started out to look like one of these |
15727 | * constructs, but isn't, we continue below so that it can be checked |
15728 | * for being a class name with a typo of '.' or '=' instead of a colon. |
15729 | * */ |
15730 | } |
15731 | |
15732 | /* Here, we think there is a possibility that a [: :] class was meant, and |
15733 | * we have the first real character. It could be they think the '^' comes |
15734 | * first */ |
15735 | if (*p == '^') { |
15736 | found_problem = TRUE(1); |
15737 | ADD_POSIX_WARNING(p + 1, "the '^' must come after the colon"); |
15738 | complement = 1; |
15739 | p++; |
15740 | |
15741 | if (isBLANK(*p)(( (sizeof(*p) == 1) || !(((U64)((*p) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*p)] & ((1U << (11)) | (1U << (14)))) == ((1U << (11)) | (1U << (14)))))) { |
15742 | found_problem = TRUE(1); |
15743 | |
15744 | do { |
15745 | p++; |
15746 | } while (p < e && isBLANK(*p)(( (sizeof(*p) == 1) || !(((U64)((*p) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*p)] & ((1U << (11)) | (1U << (14)))) == ((1U << (11)) | (1U << (14)))))); |
15747 | |
15748 | ADD_POSIX_WARNING(p, NO_BLANKS_POSIX_WARNING"no blanks are allowed in one"); |
15749 | } |
15750 | } |
15751 | |
15752 | /* But the first character should be a colon, which they could have easily |
15753 | * mistyped on a qwerty keyboard as a semi-colon (and which may be hard to |
15754 | * distinguish from a colon, so treat that as a colon). */ |
15755 | if (*p == ':') { |
15756 | p++; |
15757 | has_opening_colon = TRUE(1); |
15758 | } |
15759 | else if (*p == ';') { |
15760 | found_problem = TRUE(1); |
15761 | p++; |
15762 | ADD_POSIX_WARNING(p, SEMI_COLON_POSIX_WARNING"a semi-colon was found instead of a colon"); |
15763 | has_opening_colon = TRUE(1); |
15764 | } |
15765 | else { |
15766 | found_problem = TRUE(1); |
15767 | ADD_POSIX_WARNING(p, "there must be a starting ':'"); |
15768 | |
15769 | /* Consider an initial punctuation (not one of the recognized ones) to |
15770 | * be a left terminator */ |
15771 | if (*p != '^' && *p != ']' && isPUNCT(*p)(( (sizeof(*p) == 1) || !(((U64)((*p) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*p)] & ((1U << (5)) | (1U << (14)))) == ((1U << (5)) | (1U << (14)))))) { |
15772 | p++; |
15773 | } |
15774 | } |
15775 | |
15776 | /* They may think that you can put spaces between the components */ |
15777 | if (isBLANK(*p)(( (sizeof(*p) == 1) || !(((U64)((*p) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*p)] & ((1U << (11)) | (1U << (14)))) == ((1U << (11)) | (1U << (14)))))) { |
15778 | found_problem = TRUE(1); |
15779 | |
15780 | do { |
15781 | p++; |
15782 | } while (p < e && isBLANK(*p)(( (sizeof(*p) == 1) || !(((U64)((*p) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*p)] & ((1U << (11)) | (1U << (14)))) == ((1U << (11)) | (1U << (14)))))); |
15783 | |
15784 | ADD_POSIX_WARNING(p, NO_BLANKS_POSIX_WARNING"no blanks are allowed in one"); |
15785 | } |
15786 | |
15787 | if (*p == '^') { |
15788 | |
15789 | /* We consider something like [^:^alnum:]] to not have been intended to |
15790 | * be a posix class, but XXX maybe we should */ |
15791 | if (complement) { |
15792 | CLEAR_POSIX_WARNINGS_AND_RETURN(NOT_MEANT_TO_BE_A_POSIX_CLASS)do { do { if (posix_warnings && (pRExC_state->warn_text )) Perl_av_clear( (pRExC_state->warn_text)); } while (0); return (-1 - 1); } while (0); |
15793 | } |
15794 | |
15795 | complement = 1; |
15796 | p++; |
15797 | } |
15798 | |
15799 | /* Again, they may think that you can put spaces between the components */ |
15800 | if (isBLANK(*p)(( (sizeof(*p) == 1) || !(((U64)((*p) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*p)] & ((1U << (11)) | (1U << (14)))) == ((1U << (11)) | (1U << (14)))))) { |
15801 | found_problem = TRUE(1); |
15802 | |
15803 | do { |
15804 | p++; |
15805 | } while (p < e && isBLANK(*p)(( (sizeof(*p) == 1) || !(((U64)((*p) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*p)] & ((1U << (11)) | (1U << (14)))) == ((1U << (11)) | (1U << (14)))))); |
15806 | |
15807 | ADD_POSIX_WARNING(p, NO_BLANKS_POSIX_WARNING"no blanks are allowed in one"); |
15808 | } |
15809 | |
15810 | if (*p == ']') { |
15811 | |
15812 | /* XXX This ']' may be a typo, and something else was meant. But |
15813 | * treating it as such creates enough complications, that that |
15814 | * possibility isn't currently considered here. So we assume that the |
15815 | * ']' is what is intended, and if we've already found an initial '[', |
15816 | * this leaves this construct looking like [:] or [:^], which almost |
15817 | * certainly weren't intended to be posix classes */ |
15818 | if (has_opening_bracket) { |
15819 | CLEAR_POSIX_WARNINGS_AND_RETURN(NOT_MEANT_TO_BE_A_POSIX_CLASS)do { do { if (posix_warnings && (pRExC_state->warn_text )) Perl_av_clear( (pRExC_state->warn_text)); } while (0); return (-1 - 1); } while (0); |
15820 | } |
15821 | |
15822 | /* But this function can be called when we parse the colon for |
15823 | * something like qr/[alpha:]]/, so we back up to look for the |
15824 | * beginning */ |
15825 | p--; |
15826 | |
15827 | if (*p == ';') { |
15828 | found_problem = TRUE(1); |
15829 | ADD_POSIX_WARNING(p, SEMI_COLON_POSIX_WARNING"a semi-colon was found instead of a colon"); |
15830 | } |
15831 | else if (*p != ':') { |
15832 | |
15833 | /* XXX We are currently very restrictive here, so this code doesn't |
15834 | * consider the possibility that, say, /[alpha.]]/ was intended to |
15835 | * be a posix class. */ |
15836 | CLEAR_POSIX_WARNINGS_AND_RETURN(NOT_MEANT_TO_BE_A_POSIX_CLASS)do { do { if (posix_warnings && (pRExC_state->warn_text )) Perl_av_clear( (pRExC_state->warn_text)); } while (0); return (-1 - 1); } while (0); |
15837 | } |
15838 | |
15839 | /* Here we have something like 'foo:]'. There was no initial colon, |
15840 | * and we back up over 'foo. XXX Unlike the going forward case, we |
15841 | * don't handle typos of non-word chars in the middle */ |
15842 | has_opening_colon = FALSE(0); |
15843 | p--; |
15844 | |
15845 | while (p > RExC_start(pRExC_state->start) && isWORDCHAR(*p)(( (sizeof(*p) == 1) || !(((U64)((*p) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*p)] & ((1U << (0)) | (1U << (14)))) == ((1U << (0)) | (1U << (14)))))) { |
15846 | p--; |
15847 | } |
15848 | p++; |
15849 | |
15850 | /* Here, we have positioned ourselves to where we think the first |
15851 | * character in the potential class is */ |
15852 | } |
15853 | |
15854 | /* Now the interior really starts. There are certain key characters that |
15855 | * can end the interior, or these could just be typos. To catch both |
15856 | * cases, we may have to do two passes. In the first pass, we keep on |
15857 | * going unless we come to a sequence that matches |
15858 | * qr/ [[:punct:]] [[:blank:]]* \] /xa |
15859 | * This means it takes a sequence to end the pass, so two typos in a row if |
15860 | * that wasn't what was intended. If the class is perfectly formed, just |
15861 | * this one pass is needed. We also stop if there are too many characters |
15862 | * being accumulated, but this number is deliberately set higher than any |
15863 | * real class. It is set high enough so that someone who thinks that |
15864 | * 'alphanumeric' is a correct name would get warned that it wasn't. |
15865 | * While doing the pass, we keep track of where the key characters were in |
15866 | * it. If we don't find an end to the class, and one of the key characters |
15867 | * was found, we redo the pass, but stop when we get to that character. |
15868 | * Thus the key character was considered a typo in the first pass, but a |
15869 | * terminator in the second. If two key characters are found, we stop at |
15870 | * the second one in the first pass. Again this can miss two typos, but |
15871 | * catches a single one |
15872 | * |
15873 | * In the first pass, 'possible_end' starts as NULL, and then gets set to |
15874 | * point to the first key character. For the second pass, it starts as -1. |
15875 | * */ |
15876 | |
15877 | name_start = p; |
15878 | parse_name: |
15879 | { |
15880 | bool_Bool has_blank = FALSE(0); |
15881 | bool_Bool has_upper = FALSE(0); |
15882 | bool_Bool has_terminating_colon = FALSE(0); |
15883 | bool_Bool has_terminating_bracket = FALSE(0); |
15884 | bool_Bool has_semi_colon = FALSE(0); |
15885 | unsigned int name_len = 0; |
15886 | int punct_count = 0; |
15887 | |
15888 | while (p < e) { |
15889 | |
15890 | /* Squeeze out blanks when looking up the class name below */ |
15891 | if (isBLANK(*p)(( (sizeof(*p) == 1) || !(((U64)((*p) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*p)] & ((1U << (11)) | (1U << (14)))) == ((1U << (11)) | (1U << (14))))) ) { |
15892 | has_blank = TRUE(1); |
15893 | found_problem = TRUE(1); |
15894 | p++; |
15895 | continue; |
15896 | } |
15897 | |
15898 | /* The name will end with a punctuation */ |
15899 | if (isPUNCT(*p)(( (sizeof(*p) == 1) || !(((U64)((*p) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*p)] & ((1U << (5)) | (1U << (14)))) == ((1U << (5)) | (1U << (14)))))) { |
15900 | const char * peek = p + 1; |
15901 | |
15902 | /* Treat any non-']' punctuation followed by a ']' (possibly |
15903 | * with intervening blanks) as trying to terminate the class. |
15904 | * ']]' is very likely to mean a class was intended (but |
15905 | * missing the colon), but the warning message that gets |
15906 | * generated shows the error position better if we exit the |
15907 | * loop at the bottom (eventually), so skip it here. */ |
15908 | if (*p != ']') { |
15909 | if (peek < e && isBLANK(*peek)(( (sizeof(*peek) == 1) || !(((U64)((*peek) | 0)) & ~0xFF )) && ((PL_charclass[(U8) (*peek)] & ((1U << (11)) | (1U << (14)))) == ((1U << (11)) | (1U << (14)))))) { |
15910 | has_blank = TRUE(1); |
15911 | found_problem = TRUE(1); |
15912 | do { |
15913 | peek++; |
15914 | } while (peek < e && isBLANK(*peek)(( (sizeof(*peek) == 1) || !(((U64)((*peek) | 0)) & ~0xFF )) && ((PL_charclass[(U8) (*peek)] & ((1U << (11)) | (1U << (14)))) == ((1U << (11)) | (1U << (14)))))); |
15915 | } |
15916 | |
15917 | if (peek < e && *peek == ']') { |
15918 | has_terminating_bracket = TRUE(1); |
15919 | if (*p == ':') { |
15920 | has_terminating_colon = TRUE(1); |
15921 | } |
15922 | else if (*p == ';') { |
15923 | has_semi_colon = TRUE(1); |
15924 | has_terminating_colon = TRUE(1); |
15925 | } |
15926 | else { |
15927 | found_problem = TRUE(1); |
15928 | } |
15929 | p = peek + 1; |
15930 | goto try_posix; |
15931 | } |
15932 | } |
15933 | |
15934 | /* Here we have punctuation we thought didn't end the class. |
15935 | * Keep track of the position of the key characters that are |
15936 | * more likely to have been class-enders */ |
15937 | if (*p == ']' || *p == '[' || *p == ':' || *p == ';') { |
15938 | |
15939 | /* Allow just one such possible class-ender not actually |
15940 | * ending the class. */ |
15941 | if (possible_end) { |
15942 | break; |
15943 | } |
15944 | possible_end = p; |
15945 | } |
15946 | |
15947 | /* If we have too many punctuation characters, no use in |
15948 | * keeping going */ |
15949 | if (++punct_count > max_distance) { |
15950 | break; |
15951 | } |
15952 | |
15953 | /* Treat the punctuation as a typo. */ |
15954 | input_text[name_len++] = *p; |
15955 | p++; |
15956 | } |
15957 | else if (isUPPER(*p)(((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 15957 , __func__, "('Z') >= ('A')")), ( (sizeof(*p) == sizeof(U8 )) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 15957, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 15957, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) (*p))) ) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof(*p) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? ( void)0 : __assert2("re_comp.c", 15957, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 15957, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) (*p)))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof(*p) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 15957, __func__, "sizeof(*p) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 15957, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 15957, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) (*p)) )) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)))) ))))) { /* Use lowercase for lookup */ |
15958 | input_text[name_len++] = toLOWER(*p)((((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 15958 , __func__, "('Z') >= ('A')")), ( (sizeof(*p) == sizeof(U8 )) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 15958, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 15958, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) (*p))) ) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof(*p) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? ( void)0 : __assert2("re_comp.c", 15958, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 15958, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) (*p)))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof(*p) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 15958, __func__, "sizeof(*p) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 15958, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 15958, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) (*p)) )) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)))) )))) ? (U8)((*p) + ('a' - 'A')) : (*p)); |
15959 | has_upper = TRUE(1); |
15960 | found_problem = TRUE(1); |
15961 | p++; |
15962 | } else if (! UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) || UTF8_IS_INVARIANT(*p)((((U64)(((UV) (((*p) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) { |
15963 | input_text[name_len++] = *p; |
15964 | p++; |
15965 | } |
15966 | else { |
15967 | input_text[name_len++] = utf8_to_uvchr_buf((U8 *) p, e, NULL)Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((U8 *) p),(const U8 *) e,((void*)0)); |
15968 | p+= UTF8SKIP(p)PL_utf8skip[*(const U8*)(p)]; |
15969 | } |
15970 | |
15971 | /* The declaration of 'input_text' is how long we allow a potential |
15972 | * class name to be, before saying they didn't mean a class name at |
15973 | * all */ |
15974 | if (name_len >= C_ARRAY_LENGTH(input_text)(sizeof(input_text)/sizeof((input_text)[0]))) { |
15975 | break; |
15976 | } |
15977 | } |
15978 | |
15979 | /* We get to here when the possible class name hasn't been properly |
15980 | * terminated before: |
15981 | * 1) we ran off the end of the pattern; or |
15982 | * 2) found two characters, each of which might have been intended to |
15983 | * be the name's terminator |
15984 | * 3) found so many punctuation characters in the purported name, |
15985 | * that the edit distance to a valid one is exceeded |
15986 | * 4) we decided it was more characters than anyone could have |
15987 | * intended to be one. */ |
15988 | |
15989 | found_problem = TRUE(1); |
15990 | |
15991 | /* In the final two cases, we know that looking up what we've |
15992 | * accumulated won't lead to a match, even a fuzzy one. */ |
15993 | if ( name_len >= C_ARRAY_LENGTH(input_text)(sizeof(input_text)/sizeof((input_text)[0])) |
15994 | || punct_count > max_distance) |
15995 | { |
15996 | /* If there was an intermediate key character that could have been |
15997 | * an intended end, redo the parse, but stop there */ |
15998 | if (possible_end && possible_end != (char *) -1) { |
15999 | possible_end = (char *) -1; /* Special signal value to say |
16000 | we've done a first pass */ |
16001 | p = name_start; |
16002 | goto parse_name; |
16003 | } |
16004 | |
16005 | /* Otherwise, it can't have meant to have been a class */ |
16006 | CLEAR_POSIX_WARNINGS_AND_RETURN(NOT_MEANT_TO_BE_A_POSIX_CLASS)do { do { if (posix_warnings && (pRExC_state->warn_text )) Perl_av_clear( (pRExC_state->warn_text)); } while (0); return (-1 - 1); } while (0); |
16007 | } |
16008 | |
16009 | /* If we ran off the end, and the final character was a punctuation |
16010 | * one, back up one, to look at that final one just below. Later, we |
16011 | * will restore the parse pointer if appropriate */ |
16012 | if (name_len && p == e && isPUNCT(*(p-1))(( (sizeof(*(p-1)) == 1) || !(((U64)((*(p-1)) | 0)) & ~0xFF )) && ((PL_charclass[(U8) (*(p-1))] & ((1U << (5)) | (1U << (14)))) == ((1U << (5)) | (1U << (14)))))) { |
16013 | p--; |
16014 | name_len--; |
16015 | } |
16016 | |
16017 | if (p < e && isPUNCT(*p)(( (sizeof(*p) == 1) || !(((U64)((*p) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*p)] & ((1U << (5)) | (1U << (14)))) == ((1U << (5)) | (1U << (14)))))) { |
16018 | if (*p == ']') { |
16019 | has_terminating_bracket = TRUE(1); |
16020 | |
16021 | /* If this is a 2nd ']', and the first one is just below this |
16022 | * one, consider that to be the real terminator. This gives a |
16023 | * uniform and better positioning for the warning message */ |
16024 | if ( possible_end |
16025 | && possible_end != (char *) -1 |
16026 | && *possible_end == ']' |
16027 | && name_len && input_text[name_len - 1] == ']') |
16028 | { |
16029 | name_len--; |
16030 | p = possible_end; |
16031 | |
16032 | /* And this is actually equivalent to having done the 2nd |
16033 | * pass now, so set it to not try again */ |
16034 | possible_end = (char *) -1; |
16035 | } |
16036 | } |
16037 | else { |
16038 | if (*p == ':') { |
16039 | has_terminating_colon = TRUE(1); |
16040 | } |
16041 | else if (*p == ';') { |
16042 | has_semi_colon = TRUE(1); |
16043 | has_terminating_colon = TRUE(1); |
16044 | } |
16045 | p++; |
16046 | } |
16047 | } |
16048 | |
16049 | try_posix: |
16050 | |
16051 | /* Here, we have a class name to look up. We can short circuit the |
16052 | * stuff below for short names that can't possibly be meant to be a |
16053 | * class name. (We can do this on the first pass, as any second pass |
16054 | * will yield an even shorter name) */ |
16055 | if (name_len < 3) { |
16056 | CLEAR_POSIX_WARNINGS_AND_RETURN(NOT_MEANT_TO_BE_A_POSIX_CLASS)do { do { if (posix_warnings && (pRExC_state->warn_text )) Perl_av_clear( (pRExC_state->warn_text)); } while (0); return (-1 - 1); } while (0); |
16057 | } |
16058 | |
16059 | /* Find which class it is. Initially switch on the length of the name. |
16060 | * */ |
16061 | switch (name_len) { |
16062 | case 4: |
16063 | if (memEQs(name_start, 4, "word")(((sizeof("word")-1) == (4)) && (memcmp(((const void * ) ((name_start))), ((const void *) (("" "word" ""))), (sizeof ("word")-1)) == 0))) { |
16064 | /* this is not POSIX, this is the Perl \w */ |
16065 | class_number = ANYOF_WORDCHAR((0) * 2); |
16066 | } |
16067 | break; |
16068 | case 5: |
16069 | /* Names all of length 5: alnum alpha ascii blank cntrl digit |
16070 | * graph lower print punct space upper |
16071 | * Offset 4 gives the best switch position. */ |
16072 | switch (name_start[4]) { |
16073 | case 'a': |
16074 | if (memBEGINs(name_start, 5, "alph")( (ptrdiff_t) (5) >= (ptrdiff_t) sizeof("alph") - 1 && (memcmp(((const void *) (name_start)), ((const void *) ("" "alph" "")), sizeof("alph")-1) == 0))) /* alpha */ |
16075 | class_number = ANYOF_ALPHA((2) * 2); |
16076 | break; |
16077 | case 'e': |
16078 | if (memBEGINs(name_start, 5, "spac")( (ptrdiff_t) (5) >= (ptrdiff_t) sizeof("spac") - 1 && (memcmp(((const void *) (name_start)), ((const void *) ("" "spac" "")), sizeof("spac")-1) == 0))) /* space */ |
16079 | class_number = ANYOF_SPACE((10) * 2); |
16080 | break; |
16081 | case 'h': |
16082 | if (memBEGINs(name_start, 5, "grap")( (ptrdiff_t) (5) >= (ptrdiff_t) sizeof("grap") - 1 && (memcmp(((const void *) (name_start)), ((const void *) ("" "grap" "")), sizeof("grap")-1) == 0))) /* graph */ |
16083 | class_number = ANYOF_GRAPH((8) * 2); |
16084 | break; |
16085 | case 'i': |
16086 | if (memBEGINs(name_start, 5, "asci")( (ptrdiff_t) (5) >= (ptrdiff_t) sizeof("asci") - 1 && (memcmp(((const void *) (name_start)), ((const void *) ("" "asci" "")), sizeof("asci")-1) == 0))) /* ascii */ |
16087 | class_number = ANYOF_ASCII((14) * 2); |
16088 | break; |
16089 | case 'k': |
16090 | if (memBEGINs(name_start, 5, "blan")( (ptrdiff_t) (5) >= (ptrdiff_t) sizeof("blan") - 1 && (memcmp(((const void *) (name_start)), ((const void *) ("" "blan" "")), sizeof("blan")-1) == 0))) /* blank */ |
16091 | class_number = ANYOF_BLANK((11) * 2); |
16092 | break; |
16093 | case 'l': |
16094 | if (memBEGINs(name_start, 5, "cntr")( (ptrdiff_t) (5) >= (ptrdiff_t) sizeof("cntr") - 1 && (memcmp(((const void *) (name_start)), ((const void *) ("" "cntr" "")), sizeof("cntr")-1) == 0))) /* cntrl */ |
16095 | class_number = ANYOF_CNTRL((13) * 2); |
16096 | break; |
16097 | case 'm': |
16098 | if (memBEGINs(name_start, 5, "alnu")( (ptrdiff_t) (5) >= (ptrdiff_t) sizeof("alnu") - 1 && (memcmp(((const void *) (name_start)), ((const void *) ("" "alnu" "")), sizeof("alnu")-1) == 0))) /* alnum */ |
16099 | class_number = ANYOF_ALPHANUMERIC((7) * 2); |
16100 | break; |
16101 | case 'r': |
16102 | if (memBEGINs(name_start, 5, "lowe")( (ptrdiff_t) (5) >= (ptrdiff_t) sizeof("lowe") - 1 && (memcmp(((const void *) (name_start)), ((const void *) ("" "lowe" "")), sizeof("lowe")-1) == 0))) /* lower */ |
16103 | class_number = (FOLD(((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool )1 : (_Bool)0)) ? ANYOF_CASED((9) * 2) : ANYOF_LOWER((3) * 2); |
16104 | else if (memBEGINs(name_start, 5, "uppe")( (ptrdiff_t) (5) >= (ptrdiff_t) sizeof("uppe") - 1 && (memcmp(((const void *) (name_start)), ((const void *) ("" "uppe" "")), sizeof("uppe")-1) == 0))) /* upper */ |
16105 | class_number = (FOLD(((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool )1 : (_Bool)0)) ? ANYOF_CASED((9) * 2) : ANYOF_UPPER((4) * 2); |
16106 | break; |
16107 | case 't': |
16108 | if (memBEGINs(name_start, 5, "digi")( (ptrdiff_t) (5) >= (ptrdiff_t) sizeof("digi") - 1 && (memcmp(((const void *) (name_start)), ((const void *) ("" "digi" "")), sizeof("digi")-1) == 0))) /* digit */ |
16109 | class_number = ANYOF_DIGIT((1) * 2); |
16110 | else if (memBEGINs(name_start, 5, "prin")( (ptrdiff_t) (5) >= (ptrdiff_t) sizeof("prin") - 1 && (memcmp(((const void *) (name_start)), ((const void *) ("" "prin" "")), sizeof("prin")-1) == 0))) /* print */ |
16111 | class_number = ANYOF_PRINT((6) * 2); |
16112 | else if (memBEGINs(name_start, 5, "punc")( (ptrdiff_t) (5) >= (ptrdiff_t) sizeof("punc") - 1 && (memcmp(((const void *) (name_start)), ((const void *) ("" "punc" "")), sizeof("punc")-1) == 0))) /* punct */ |
16113 | class_number = ANYOF_PUNCT((5) * 2); |
16114 | break; |
16115 | } |
16116 | break; |
16117 | case 6: |
16118 | if (memEQs(name_start, 6, "xdigit")(((sizeof("xdigit")-1) == (6)) && (memcmp(((const void *) ((name_start))), ((const void *) (("" "xdigit" ""))), (sizeof ("xdigit")-1)) == 0))) |
16119 | class_number = ANYOF_XDIGIT((12) * 2); |
16120 | break; |
16121 | } |
16122 | |
16123 | /* If the name exactly matches a posix class name the class number will |
16124 | * here be set to it, and the input almost certainly was meant to be a |
16125 | * posix class, so we can skip further checking. If instead the syntax |
16126 | * is exactly correct, but the name isn't one of the legal ones, we |
16127 | * will return that as an error below. But if neither of these apply, |
16128 | * it could be that no posix class was intended at all, or that one |
16129 | * was, but there was a typo. We tease these apart by doing fuzzy |
16130 | * matching on the name */ |
16131 | if (class_number == OOB_NAMEDCLASS-1 && found_problem) { |
16132 | const UV posix_names[][6] = { |
16133 | { 'a', 'l', 'n', 'u', 'm' }, |
16134 | { 'a', 'l', 'p', 'h', 'a' }, |
16135 | { 'a', 's', 'c', 'i', 'i' }, |
16136 | { 'b', 'l', 'a', 'n', 'k' }, |
16137 | { 'c', 'n', 't', 'r', 'l' }, |
16138 | { 'd', 'i', 'g', 'i', 't' }, |
16139 | { 'g', 'r', 'a', 'p', 'h' }, |
16140 | { 'l', 'o', 'w', 'e', 'r' }, |
16141 | { 'p', 'r', 'i', 'n', 't' }, |
16142 | { 'p', 'u', 'n', 'c', 't' }, |
16143 | { 's', 'p', 'a', 'c', 'e' }, |
16144 | { 'u', 'p', 'p', 'e', 'r' }, |
16145 | { 'w', 'o', 'r', 'd' }, |
16146 | { 'x', 'd', 'i', 'g', 'i', 't' } |
16147 | }; |
16148 | /* The names of the above all have added NULs to make them the same |
16149 | * size, so we need to also have the real lengths */ |
16150 | const UV posix_name_lengths[] = { |
16151 | sizeof("alnum") - 1, |
16152 | sizeof("alpha") - 1, |
16153 | sizeof("ascii") - 1, |
16154 | sizeof("blank") - 1, |
16155 | sizeof("cntrl") - 1, |
16156 | sizeof("digit") - 1, |
16157 | sizeof("graph") - 1, |
16158 | sizeof("lower") - 1, |
16159 | sizeof("print") - 1, |
16160 | sizeof("punct") - 1, |
16161 | sizeof("space") - 1, |
16162 | sizeof("upper") - 1, |
16163 | sizeof("word") - 1, |
16164 | sizeof("xdigit")- 1 |
16165 | }; |
16166 | unsigned int i; |
16167 | int temp_max = max_distance; /* Use a temporary, so if we |
16168 | reparse, we haven't changed the |
16169 | outer one */ |
16170 | |
16171 | /* Use a smaller max edit distance if we are missing one of the |
16172 | * delimiters */ |
16173 | if ( has_opening_bracket + has_opening_colon < 2 |
16174 | || has_terminating_bracket + has_terminating_colon < 2) |
16175 | { |
16176 | temp_max--; |
16177 | } |
16178 | |
16179 | /* See if the input name is close to a legal one */ |
16180 | for (i = 0; i < C_ARRAY_LENGTH(posix_names)(sizeof(posix_names)/sizeof((posix_names)[0])); i++) { |
16181 | |
16182 | /* Short circuit call if the lengths are too far apart to be |
16183 | * able to match */ |
16184 | if (abs( (int) (name_len - posix_name_lengths[i])) |
16185 | > temp_max) |
16186 | { |
16187 | continue; |
16188 | } |
16189 | |
16190 | if (edit_distanceS_edit_distance(input_text, |
16191 | posix_names[i], |
16192 | name_len, |
16193 | posix_name_lengths[i], |
16194 | temp_max |
16195 | ) |
16196 | > -1) |
16197 | { /* If it is close, it probably was intended to be a class */ |
16198 | goto probably_meant_to_be; |
16199 | } |
16200 | } |
16201 | |
16202 | /* Here the input name is not close enough to a valid class name |
16203 | * for us to consider it to be intended to be a posix class. If |
16204 | * we haven't already done so, and the parse found a character that |
16205 | * could have been terminators for the name, but which we absorbed |
16206 | * as typos during the first pass, repeat the parse, signalling it |
16207 | * to stop at that character */ |
16208 | if (possible_end && possible_end != (char *) -1) { |
16209 | possible_end = (char *) -1; |
16210 | p = name_start; |
16211 | goto parse_name; |
16212 | } |
16213 | |
16214 | /* Here neither pass found a close-enough class name */ |
16215 | CLEAR_POSIX_WARNINGS_AND_RETURN(NOT_MEANT_TO_BE_A_POSIX_CLASS)do { do { if (posix_warnings && (pRExC_state->warn_text )) Perl_av_clear( (pRExC_state->warn_text)); } while (0); return (-1 - 1); } while (0); |
16216 | } |
16217 | |
16218 | probably_meant_to_be: |
16219 | |
16220 | /* Here we think that a posix specification was intended. Update any |
16221 | * parse pointer */ |
16222 | if (updated_parse_ptr) { |
16223 | *updated_parse_ptr = (char *) p; |
16224 | } |
16225 | |
16226 | /* If a posix class name was intended but incorrectly specified, we |
16227 | * output or return the warnings */ |
16228 | if (found_problem) { |
16229 | |
16230 | /* We set flags for these issues in the parse loop above instead of |
16231 | * adding them to the list of warnings, because we can parse it |
16232 | * twice, and we only want one warning instance */ |
16233 | if (has_upper) { |
16234 | ADD_POSIX_WARNING(p, "the name must be all lowercase letters"); |
16235 | } |
16236 | if (has_blank) { |
16237 | ADD_POSIX_WARNING(p, NO_BLANKS_POSIX_WARNING"no blanks are allowed in one"); |
16238 | } |
16239 | if (has_semi_colon) { |
16240 | ADD_POSIX_WARNING(p, SEMI_COLON_POSIX_WARNING"a semi-colon was found instead of a colon"); |
16241 | } |
16242 | else if (! has_terminating_colon) { |
16243 | ADD_POSIX_WARNING(p, "there is no terminating ':'"); |
16244 | } |
16245 | if (! has_terminating_bracket) { |
16246 | ADD_POSIX_WARNING(p, "there is no terminating ']'"); |
16247 | } |
16248 | |
16249 | if ( posix_warnings |
16250 | && RExC_warn_text(pRExC_state->warn_text) |
16251 | && av_top_index(RExC_warn_text)Perl_av_top_index( (pRExC_state->warn_text)) > -1) |
16252 | { |
16253 | *posix_warnings = RExC_warn_text(pRExC_state->warn_text); |
16254 | } |
16255 | } |
16256 | else if (class_number != OOB_NAMEDCLASS-1) { |
16257 | /* If it is a known class, return the class. The class number |
16258 | * #defines are structured so each complement is +1 to the normal |
16259 | * one */ |
16260 | CLEAR_POSIX_WARNINGS_AND_RETURN(class_number + complement)do { do { if (posix_warnings && (pRExC_state->warn_text )) Perl_av_clear( (pRExC_state->warn_text)); } while (0); return class_number + complement; } while (0); |
16261 | } |
16262 | else if (! check_only) { |
16263 | |
16264 | /* Here, it is an unrecognized class. This is an error (unless the |
16265 | * call is to check only, which we've already handled above) */ |
16266 | const char * const complement_string = (complement) |
16267 | ? "^" |
16268 | : ""; |
16269 | RExC_parse(pRExC_state->parse) = (char *) p; |
16270 | vFAIL3utf8f("POSIX class [:%s%" UTF8f ":] unknown",do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "POSIX class [:%s%" "d%" "lu" "%4p" ":] unknown" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", complement_string , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((pRExC_state->parse) - name_start - 2), (void*)(name_start), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 16272, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0) |
16271 | complement_string,do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "POSIX class [:%s%" "d%" "lu" "%4p" ":] unknown" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", complement_string , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((pRExC_state->parse) - name_start - 2), (void*)(name_start), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 16272, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0) |
16272 | UTF8fARG(UTF, RExC_parse - name_start - 2, name_start))do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "POSIX class [:%s%" "d%" "lu" "%4p" ":] unknown" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", complement_string , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((pRExC_state->parse) - name_start - 2), (void*)(name_start), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 16272, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); |
16273 | } |
16274 | } |
16275 | |
16276 | return OOB_NAMEDCLASS-1; |
16277 | } |
16278 | #undef ADD_POSIX_WARNING |
16279 | |
16280 | STATICstatic unsigned int |
16281 | S_regex_set_precedence(const U8 my_operator) { |
16282 | |
16283 | /* Returns the precedence in the (?[...]) construct of the input operator, |
16284 | * specified by its character representation. The precedence follows |
16285 | * general Perl rules, but it extends this so that ')' and ']' have (low) |
16286 | * precedence even though they aren't really operators */ |
16287 | |
16288 | switch (my_operator) { |
16289 | case '!': |
16290 | return 5; |
16291 | case '&': |
16292 | return 4; |
16293 | case '^': |
16294 | case '|': |
16295 | case '+': |
16296 | case '-': |
16297 | return 3; |
16298 | case ')': |
16299 | return 2; |
16300 | case ']': |
16301 | return 1; |
16302 | } |
16303 | |
16304 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_comp.c", 16304 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
16305 | return 0; /* Silence compiler warning */ |
16306 | } |
16307 | |
16308 | STATICstatic regnode_offset |
16309 | S_handle_regex_sets(pTHX_ RExC_state_t *pRExC_state, SV** return_invlist, |
16310 | I32 *flagp, U32 depth, |
16311 | char * const oregcomp_parse) |
16312 | { |
16313 | /* Handle the (?[...]) construct to do set operations */ |
16314 | |
16315 | U8 curchar; /* Current character being parsed */ |
16316 | UV start, end; /* End points of code point ranges */ |
16317 | SV* final = NULL((void*)0); /* The end result inversion list */ |
16318 | SV* result_string; /* 'final' stringified */ |
16319 | AV* stack; /* stack of operators and operands not yet |
16320 | resolved */ |
16321 | AV* fence_stack = NULL((void*)0); /* A stack containing the positions in |
16322 | 'stack' of where the undealt-with left |
16323 | parens would be if they were actually |
16324 | put there */ |
16325 | /* The 'volatile' is a workaround for an optimiser bug |
16326 | * in Solaris Studio 12.3. See RT #127455 */ |
16327 | volatile IV fence = 0; /* Position of where most recent undealt- |
16328 | with left paren in stack is; -1 if none. |
16329 | */ |
16330 | STRLEN len; /* Temporary */ |
16331 | regnode_offset node; /* Temporary, and final regnode returned by |
16332 | this function */ |
16333 | const bool_Bool save_fold = FOLD(((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool )1 : (_Bool)0); /* Temporary */ |
16334 | char *save_end, *save_parse; /* Temporaries */ |
16335 | const bool_Bool in_locale = LOC(get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET ); /* we turn off /l during processing */ |
16336 | |
16337 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 16337, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 16337, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
16338 | |
16339 | PERL_ARGS_ASSERT_HANDLE_REGEX_SETS((pRExC_state) ? (void)0 : __assert2("re_comp.c", 16339, __func__ , "pRExC_state")); ((flagp) ? (void)0 : __assert2("re_comp.c" , 16339, __func__, "flagp")); ((oregcomp_parse) ? (void)0 : __assert2 ("re_comp.c", 16339, __func__, "oregcomp_parse")); |
16340 | PERL_UNUSED_ARG(oregcomp_parse)((void)sizeof(oregcomp_parse)); /* Only for Set_Node_Length */ |
16341 | |
16342 | DEBUG_PARSE("xcls")do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (("xcls")) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0); Perl_re_printf( "%4s" ,"\n"); };} while (0); |
16343 | |
16344 | if (in_locale) { |
16345 | set_regex_charset(&RExC_flags(pRExC_state->flags), REGEX_UNICODE_CHARSET); |
16346 | } |
16347 | |
16348 | /* The use of this operator implies /u. This is required so that the |
16349 | * compile time values are valid in all runtime cases */ |
16350 | REQUIRE_UNI_RULES(flagp, 0)do { if ((get_regex_charset((pRExC_state->flags)) == REGEX_DEPENDS_CHARSET )) { set_regex_charset(&(pRExC_state->flags), REGEX_UNICODE_CHARSET ); (pRExC_state->uni_semantics) = 1; if ((pRExC_state-> seen_d_op) && __builtin_expect(((! ((pRExC_state-> total_par) < 0)) ? (_Bool)1 : (_Bool)0),(1))) { *flagp |= 0x20 ; return 0; } } } while (0); |
16351 | |
16352 | ckWARNexperimental(RExC_parse,do { if (! (pRExC_state->sWARN_EXPERIMENTAL__REGEX_SETS)) { (pRExC_state->sWARN_EXPERIMENTAL__REGEX_SETS) = 1; do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 16354, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((53 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((53 )) & 0xFF))+1) % 8)))) || (((((53 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((53 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((53 )) >> 8) & 0xFF))+1) % 8)))) || (((((53 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((53 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((53 )) >>16) & 0xFF))+1) % 8)))) || (((((53 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((53 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((53 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner_d ( (53 ), "The regex_sets feature is experimental" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 16354, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); } } while (0) |
16353 | WARN_EXPERIMENTAL__REGEX_SETS,do { if (! (pRExC_state->sWARN_EXPERIMENTAL__REGEX_SETS)) { (pRExC_state->sWARN_EXPERIMENTAL__REGEX_SETS) = 1; do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 16354, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((53 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((53 )) & 0xFF))+1) % 8)))) || (((((53 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((53 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((53 )) >> 8) & 0xFF))+1) % 8)))) || (((((53 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((53 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((53 )) >>16) & 0xFF))+1) % 8)))) || (((((53 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((53 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((53 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner_d ( (53 ), "The regex_sets feature is experimental" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 16354, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); } } while (0) |
16354 | "The regex_sets feature is experimental")do { if (! (pRExC_state->sWARN_EXPERIMENTAL__REGEX_SETS)) { (pRExC_state->sWARN_EXPERIMENTAL__REGEX_SETS) = 1; do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 16354, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((53 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((53 )) & 0xFF))+1) % 8)))) || (((((53 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((53 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((53 )) >> 8) & 0xFF))+1) % 8)))) || (((((53 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((53 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((53 )) >>16) & 0xFF))+1) % 8)))) || (((((53 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((53 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((53 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner_d ( (53 ), "The regex_sets feature is experimental" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 16354, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); } } while (0); |
16355 | |
16356 | /* Everything in this construct is a metacharacter. Operands begin with |
16357 | * either a '\' (for an escape sequence), or a '[' for a bracketed |
16358 | * character class. Any other character should be an operator, or |
16359 | * parenthesis for grouping. Both types of operands are handled by calling |
16360 | * regclass() to parse them. It is called with a parameter to indicate to |
16361 | * return the computed inversion list. The parsing here is implemented via |
16362 | * a stack. Each entry on the stack is a single character representing one |
16363 | * of the operators; or else a pointer to an operand inversion list. */ |
16364 | |
16365 | #define IS_OPERATOR(a) SvIOK(a)((a)->sv_flags & 0x00000100) |
16366 | #define IS_OPERAND(a) (! IS_OPERATOR(a)) |
16367 | |
16368 | /* The stack is kept in Åukasiewicz order. (That's pronounced similar |
16369 | * to luke-a-shave-itch (or -itz), but people who didn't want to bother |
16370 | * with pronouncing it called it Reverse Polish instead, but now that YOU |
16371 | * know how to pronounce it you can use the correct term, thus giving due |
16372 | * credit to the person who invented it, and impressing your geek friends. |
16373 | * Wikipedia says that the pronounciation of "Å" has been changing so that |
16374 | * it is now more like an English initial W (as in wonk) than an L.) |
16375 | * |
16376 | * This means that, for example, 'a | b & c' is stored on the stack as |
16377 | * |
16378 | * c [4] |
16379 | * b [3] |
16380 | * & [2] |
16381 | * a [1] |
16382 | * | [0] |
16383 | * |
16384 | * where the numbers in brackets give the stack [array] element number. |
16385 | * In this implementation, parentheses are not stored on the stack. |
16386 | * Instead a '(' creates a "fence" so that the part of the stack below the |
16387 | * fence is invisible except to the corresponding ')' (this allows us to |
16388 | * replace testing for parens, by using instead subtraction of the fence |
16389 | * position). As new operands are processed they are pushed onto the stack |
16390 | * (except as noted in the next paragraph). New operators of higher |
16391 | * precedence than the current final one are inserted on the stack before |
16392 | * the lhs operand (so that when the rhs is pushed next, everything will be |
16393 | * in the correct positions shown above. When an operator of equal or |
16394 | * lower precedence is encountered in parsing, all the stacked operations |
16395 | * of equal or higher precedence are evaluated, leaving the result as the |
16396 | * top entry on the stack. This makes higher precedence operations |
16397 | * evaluate before lower precedence ones, and causes operations of equal |
16398 | * precedence to left associate. |
16399 | * |
16400 | * The only unary operator '!' is immediately pushed onto the stack when |
16401 | * encountered. When an operand is encountered, if the top of the stack is |
16402 | * a '!", the complement is immediately performed, and the '!' popped. The |
16403 | * resulting value is treated as a new operand, and the logic in the |
16404 | * previous paragraph is executed. Thus in the expression |
16405 | * [a] + ! [b] |
16406 | * the stack looks like |
16407 | * |
16408 | * ! |
16409 | * a |
16410 | * + |
16411 | * |
16412 | * as 'b' gets parsed, the latter gets evaluated to '!b', and the stack |
16413 | * becomes |
16414 | * |
16415 | * !b |
16416 | * a |
16417 | * + |
16418 | * |
16419 | * A ')' is treated as an operator with lower precedence than all the |
16420 | * aforementioned ones, which causes all operations on the stack above the |
16421 | * corresponding '(' to be evaluated down to a single resultant operand. |
16422 | * Then the fence for the '(' is removed, and the operand goes through the |
16423 | * algorithm above, without the fence. |
16424 | * |
16425 | * A separate stack is kept of the fence positions, so that the position of |
16426 | * the latest so-far unbalanced '(' is at the top of it. |
16427 | * |
16428 | * The ']' ending the construct is treated as the lowest operator of all, |
16429 | * so that everything gets evaluated down to a single operand, which is the |
16430 | * result */ |
16431 | |
16432 | sv_2mortal((SV *)(stack = newAV()))Perl_sv_2mortal( (SV *)(stack = ((AV *)({ void *_p = (Perl_newSV_type ( SVt_PVAV)); _p; })))); |
16433 | sv_2mortal((SV *)(fence_stack = newAV()))Perl_sv_2mortal( (SV *)(fence_stack = ((AV *)({ void *_p = (Perl_newSV_type ( SVt_PVAV)); _p; })))); |
16434 | |
16435 | while (RExC_parse(pRExC_state->parse) < RExC_end(pRExC_state->end)) { |
16436 | I32 top_index; /* Index of top-most element in 'stack' */ |
16437 | SV** top_ptr; /* Pointer to top 'stack' element */ |
16438 | SV* current = NULL((void*)0); /* To contain the current inversion list |
16439 | operand */ |
16440 | SV* only_to_avoid_leaks; |
16441 | |
16442 | skip_to_be_ignored_text(pRExC_state, &RExC_parse,S_skip_to_be_ignored_text( pRExC_state,&(pRExC_state-> parse),(1)) |
16443 | TRUE /* Force /x */ )S_skip_to_be_ignored_text( pRExC_state,&(pRExC_state-> parse),(1)); |
16444 | if (RExC_parse(pRExC_state->parse) >= RExC_end(pRExC_state->end)) { /* Fail */ |
16445 | break; |
16446 | } |
16447 | |
16448 | curchar = UCHARAT(RExC_parse)((int)*(const U8*)((pRExC_state->parse))); |
16449 | |
16450 | redo_curchar: |
16451 | |
16452 | #ifdef ENABLE_REGEX_SETS_DEBUGGING |
16453 | /* Enable with -Accflags=-DENABLE_REGEX_SETS_DEBUGGING */ |
16454 | DEBUG_U(dump_regex_sets_structures(pRExC_state,do { if (__builtin_expect(((PL_debug & 0x00001000) ? (_Bool )1 : (_Bool)0),(0))) do {dump_regex_sets_structures(pRExC_state , stack, fence, fence_stack);} while (0); } while (0) |
16455 | stack, fence, fence_stack))do { if (__builtin_expect(((PL_debug & 0x00001000) ? (_Bool )1 : (_Bool)0),(0))) do {dump_regex_sets_structures(pRExC_state , stack, fence, fence_stack);} while (0); } while (0); |
16456 | #endif |
16457 | |
16458 | top_index = av_tindex_skip_len_mg(stack)(((((svtype)((stack)->sv_flags & 0xff)) == SVt_PVAV) ? (void)0 : __assert2("re_comp.c", 16458, __func__, "((svtype)((stack)->sv_flags & 0xff)) == SVt_PVAV" )), ((XPVAV*) (stack)->sv_any)->xav_fill); |
16459 | |
16460 | switch (curchar) { |
16461 | SV** stacked_ptr; /* Ptr to something already on 'stack' */ |
16462 | char stacked_operator; /* The topmost operator on the 'stack'. */ |
16463 | SV* lhs; /* Operand to the left of the operator */ |
16464 | SV* rhs; /* Operand to the right of the operator */ |
16465 | SV* fence_ptr; /* Pointer to top element of the fence |
16466 | stack */ |
16467 | case '(': |
16468 | |
16469 | if ( RExC_parse(pRExC_state->parse) < RExC_end(pRExC_state->end) - 2 |
16470 | && UCHARAT(RExC_parse + 1)((int)*(const U8*)((pRExC_state->parse) + 1)) == '?' |
16471 | && UCHARAT(RExC_parse + 2)((int)*(const U8*)((pRExC_state->parse) + 2)) == '^') |
16472 | { |
16473 | const regnode_offset orig_emit = RExC_emit(pRExC_state->emit); |
16474 | SV * resultant_invlist; |
16475 | |
16476 | /* If is a '(?^', could be an embedded '(?^flags:(?[...])'. |
16477 | * This happens when we have some thing like |
16478 | * |
16479 | * my $thai_or_lao = qr/(?[ \p{Thai} + \p{Lao} ])/; |
16480 | * ... |
16481 | * qr/(?[ \p{Digit} & $thai_or_lao ])/; |
16482 | * |
16483 | * Here we would be handling the interpolated |
16484 | * '$thai_or_lao'. We handle this by a recursive call to |
16485 | * reg which returns the inversion list the |
16486 | * interpolated expression evaluates to. Actually, the |
16487 | * return is a special regnode containing a pointer to that |
16488 | * inversion list. If the return isn't that regnode alone, |
16489 | * we know that this wasn't such an interpolation, which is |
16490 | * an error: we need to get a single inversion list back |
16491 | * from the recursion */ |
16492 | |
16493 | RExC_parse(pRExC_state->parse)++; |
16494 | RExC_sets_depth(pRExC_state->sets_depth)++; |
16495 | |
16496 | node = reg(pRExC_state, 2, flagp, depth+1)S_reg( pRExC_state,2,flagp,depth+1); |
16497 | RETURN_FAIL_ON_RESTART(*flagp, flagp)do { if ((*flagp) & (0x20|0x40|(0))) { *(flagp) = (*flagp ) & (0x20|0x40|(0)); return 0; } } while (0); |
16498 | |
16499 | if ( OP(REGNODE_p(node))((((pRExC_state->emit_start) + (node)))->type) != REGEX_SET109 |
16500 | /* If more than a single node returned, the nested |
16501 | * parens evaluated to more than just a (?[...]), |
16502 | * which isn't legal */ |
16503 | || RExC_emit(pRExC_state->emit) != orig_emit |
16504 | + NODE_STEP_REGNODE1 |
16505 | + regarglen[REGEX_SET109]) |
16506 | { |
16507 | vFAIL("Expecting interpolated extended charclass")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Expecting interpolated extended charclass", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 16507, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
16508 | } |
16509 | resultant_invlist = (SV *) ARGp(REGNODE_p(node))((((struct regnode_p *)((pRExC_state->emit_start) + (node) ))->arg1)); |
16510 | current = invlist_clone(resultant_invlist, NULL)Perl_invlist_clone( resultant_invlist,((void*)0)); |
16511 | SvREFCNT_dec(resultant_invlist)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (resultant_invlist); _p ; }))); |
16512 | |
16513 | RExC_sets_depth(pRExC_state->sets_depth)--; |
16514 | RExC_emit(pRExC_state->emit) = orig_emit; |
16515 | goto handle_operand; |
16516 | } |
16517 | |
16518 | /* A regular '('. Look behind for illegal syntax */ |
16519 | if (top_index - fence >= 0) { |
16520 | /* If the top entry on the stack is an operator, it had |
16521 | * better be a '!', otherwise the entry below the top |
16522 | * operand should be an operator */ |
16523 | if ( ! (top_ptr = av_fetch(stack, top_index, FALSE)Perl_av_fetch( stack,top_index,(0))) |
16524 | || (IS_OPERATOR(*top_ptr) && SvUV(*top_ptr)((((*top_ptr)->sv_flags & (0x00000100|0x80000000|0x00200000 )) == (0x00000100|0x80000000)) ? (*({ const SV *const _svuvx = (const SV *)(*top_ptr); ((PL_valid_types_IVX[((svtype)((_svuvx )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 16524, __func__, "PL_valid_types_IVX[SvTYPE(_svuvx) & SVt_MASK]" )); ((!((((_svuvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svuvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svuvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 16524, __func__ , "!isGV_with_GP(_svuvx)")); &(((XPVUV*) ({ void *_p = (( _svuvx)->sv_any); _p; }))->xuv_u.xivu_uv); })) : Perl_sv_2uv_flags ( *top_ptr,2)) != '!') |
16525 | || ( IS_OPERAND(*top_ptr) |
16526 | && ( top_index - fence < 1 |
16527 | || ! (stacked_ptr = av_fetch(stack,Perl_av_fetch( stack,top_index - 1,(0)) |
16528 | top_index - 1,Perl_av_fetch( stack,top_index - 1,(0)) |
16529 | FALSE)Perl_av_fetch( stack,top_index - 1,(0))) |
16530 | || ! IS_OPERATOR(*stacked_ptr)))) |
16531 | { |
16532 | RExC_parse(pRExC_state->parse)++; |
16533 | vFAIL("Unexpected '(' with no preceding operator")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Unexpected '(' with no preceding operator", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 16533, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
16534 | } |
16535 | } |
16536 | |
16537 | /* Stack the position of this undealt-with left paren */ |
16538 | av_push(fence_stack, newSViv(fence))Perl_av_push( fence_stack,Perl_newSViv( fence)); |
16539 | fence = top_index + 1; |
16540 | break; |
16541 | |
16542 | case '\\': |
16543 | /* regclass() can only return RESTART_PARSE and NEED_UTF8 if |
16544 | * multi-char folds are allowed. */ |
16545 | if (!regclass(pRExC_state, flagp, depth+1,S_regclass( pRExC_state,flagp,depth+1,(1),(0),(0),(1),(0),& current) |
16546 | TRUE, /* means parse just the next thing */S_regclass( pRExC_state,flagp,depth+1,(1),(0),(0),(1),(0),& current) |
16547 | FALSE, /* don't allow multi-char folds */S_regclass( pRExC_state,flagp,depth+1,(1),(0),(0),(1),(0),& current) |
16548 | FALSE, /* don't silence non-portable warnings. */S_regclass( pRExC_state,flagp,depth+1,(1),(0),(0),(1),(0),& current) |
16549 | TRUE, /* strict */S_regclass( pRExC_state,flagp,depth+1,(1),(0),(0),(1),(0),& current) |
16550 | FALSE, /* Require return to be an ANYOF */S_regclass( pRExC_state,flagp,depth+1,(1),(0),(0),(1),(0),& current) |
16551 | ¤t)S_regclass( pRExC_state,flagp,depth+1,(1),(0),(0),(1),(0),& current)) |
16552 | { |
16553 | RETURN_FAIL_ON_RESTART(*flagp, flagp)do { if ((*flagp) & (0x20|0x40|(0))) { *(flagp) = (*flagp ) & (0x20|0x40|(0)); return 0; } } while (0); |
16554 | goto regclass_failed; |
16555 | } |
16556 | |
16557 | assert(current)((current) ? (void)0 : __assert2("re_comp.c", 16557, __func__ , "current")); |
16558 | |
16559 | /* regclass() will return with parsing just the \ sequence, |
16560 | * leaving the parse pointer at the next thing to parse */ |
16561 | RExC_parse(pRExC_state->parse)--; |
16562 | goto handle_operand; |
16563 | |
16564 | case '[': /* Is a bracketed character class */ |
16565 | { |
16566 | /* See if this is a [:posix:] class. */ |
16567 | bool_Bool is_posix_class = (OOB_NAMEDCLASS-1 |
16568 | < handle_possible_posix(pRExC_state,S_handle_possible_posix( pRExC_state,(pRExC_state->parse) + 1,((void*)0),((void*)0),(1)) |
16569 | RExC_parse + 1,S_handle_possible_posix( pRExC_state,(pRExC_state->parse) + 1,((void*)0),((void*)0),(1)) |
16570 | NULL,S_handle_possible_posix( pRExC_state,(pRExC_state->parse) + 1,((void*)0),((void*)0),(1)) |
16571 | NULL,S_handle_possible_posix( pRExC_state,(pRExC_state->parse) + 1,((void*)0),((void*)0),(1)) |
16572 | TRUE /* checking only */)S_handle_possible_posix( pRExC_state,(pRExC_state->parse) + 1,((void*)0),((void*)0),(1))); |
16573 | /* If it is a posix class, leave the parse pointer at the '[' |
16574 | * to fool regclass() into thinking it is part of a |
16575 | * '[[:posix:]]'. */ |
16576 | if (! is_posix_class) { |
16577 | RExC_parse(pRExC_state->parse)++; |
16578 | } |
16579 | |
16580 | /* regclass() can only return RESTART_PARSE and NEED_UTF8 if |
16581 | * multi-char folds are allowed. */ |
16582 | if (!regclass(pRExC_state, flagp, depth+1,S_regclass( pRExC_state,flagp,depth+1,is_posix_class,(0),(1), (1),(0),¤t) |
16583 | is_posix_class, /* parse the whole charS_regclass( pRExC_state,flagp,depth+1,is_posix_class,(0),(1), (1),(0),¤t) |
16584 | class only if not aS_regclass( pRExC_state,flagp,depth+1,is_posix_class,(0),(1), (1),(0),¤t) |
16585 | posix class */S_regclass( pRExC_state,flagp,depth+1,is_posix_class,(0),(1), (1),(0),¤t) |
16586 | FALSE, /* don't allow multi-char folds */S_regclass( pRExC_state,flagp,depth+1,is_posix_class,(0),(1), (1),(0),¤t) |
16587 | TRUE, /* silence non-portable warnings. */S_regclass( pRExC_state,flagp,depth+1,is_posix_class,(0),(1), (1),(0),¤t) |
16588 | TRUE, /* strict */S_regclass( pRExC_state,flagp,depth+1,is_posix_class,(0),(1), (1),(0),¤t) |
16589 | FALSE, /* Require return to be an ANYOF */S_regclass( pRExC_state,flagp,depth+1,is_posix_class,(0),(1), (1),(0),¤t) |
16590 | ¤t)S_regclass( pRExC_state,flagp,depth+1,is_posix_class,(0),(1), (1),(0),¤t)) |
16591 | { |
16592 | RETURN_FAIL_ON_RESTART(*flagp, flagp)do { if ((*flagp) & (0x20|0x40|(0))) { *(flagp) = (*flagp ) & (0x20|0x40|(0)); return 0; } } while (0); |
16593 | goto regclass_failed; |
16594 | } |
16595 | |
16596 | assert(current)((current) ? (void)0 : __assert2("re_comp.c", 16596, __func__ , "current")); |
16597 | |
16598 | /* function call leaves parse pointing to the ']', except if we |
16599 | * faked it */ |
16600 | if (is_posix_class) { |
16601 | RExC_parse(pRExC_state->parse)--; |
16602 | } |
16603 | |
16604 | goto handle_operand; |
16605 | } |
16606 | |
16607 | case ']': |
16608 | if (top_index >= 1) { |
16609 | goto join_operators; |
16610 | } |
16611 | |
16612 | /* Only a single operand on the stack: are done */ |
16613 | goto done; |
16614 | |
16615 | case ')': |
16616 | if (av_tindex_skip_len_mg(fence_stack)(((((svtype)((fence_stack)->sv_flags & 0xff)) == SVt_PVAV ) ? (void)0 : __assert2("re_comp.c", 16616, __func__, "((svtype)((fence_stack)->sv_flags & 0xff)) == SVt_PVAV" )), ((XPVAV*) (fence_stack)->sv_any)->xav_fill) < 0) { |
16617 | if (UCHARAT(RExC_parse - 1)((int)*(const U8*)((pRExC_state->parse) - 1)) == ']') { |
16618 | break; |
16619 | } |
16620 | RExC_parse(pRExC_state->parse)++; |
16621 | vFAIL("Unexpected ')'")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Unexpected ')'", (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 16621, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
16622 | } |
16623 | |
16624 | /* If nothing after the fence, is missing an operand */ |
16625 | if (top_index - fence < 0) { |
16626 | RExC_parse(pRExC_state->parse)++; |
16627 | goto bad_syntax; |
16628 | } |
16629 | /* If at least two things on the stack, treat this as an |
16630 | * operator */ |
16631 | if (top_index - fence >= 1) { |
16632 | goto join_operators; |
16633 | } |
16634 | |
16635 | /* Here only a single thing on the fenced stack, and there is a |
16636 | * fence. Get rid of it */ |
16637 | fence_ptr = av_pop(fence_stack)Perl_av_pop( fence_stack); |
16638 | assert(fence_ptr)((fence_ptr) ? (void)0 : __assert2("re_comp.c", 16638, __func__ , "fence_ptr")); |
16639 | fence = SvIV(fence_ptr)((((fence_ptr)->sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(fence_ptr ); ((PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 16639 , __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 16639, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( fence_ptr,2)); |
16640 | SvREFCNT_dec_NN(fence_ptr)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (fence_ptr); _p; } ))); |
16641 | fence_ptr = NULL((void*)0); |
16642 | |
16643 | if (fence < 0) { |
16644 | fence = 0; |
16645 | } |
16646 | |
16647 | /* Having gotten rid of the fence, we pop the operand at the |
16648 | * stack top and process it as a newly encountered operand */ |
16649 | current = av_pop(stack)Perl_av_pop( stack); |
16650 | if (IS_OPERAND(current)) { |
16651 | goto handle_operand; |
16652 | } |
16653 | |
16654 | RExC_parse(pRExC_state->parse)++; |
16655 | goto bad_syntax; |
16656 | |
16657 | case '&': |
16658 | case '|': |
16659 | case '+': |
16660 | case '-': |
16661 | case '^': |
16662 | |
16663 | /* These binary operators should have a left operand already |
16664 | * parsed */ |
16665 | if ( top_index - fence < 0 |
16666 | || top_index - fence == 1 |
16667 | || ( ! (top_ptr = av_fetch(stack, top_index, FALSE)Perl_av_fetch( stack,top_index,(0)))) |
16668 | || ! IS_OPERAND(*top_ptr)) |
16669 | { |
16670 | goto unexpected_binary; |
16671 | } |
16672 | |
16673 | /* If only the one operand is on the part of the stack visible |
16674 | * to us, we just place this operator in the proper position */ |
16675 | if (top_index - fence < 2) { |
16676 | |
16677 | /* Place the operator before the operand */ |
16678 | |
16679 | SV* lhs = av_pop(stack)Perl_av_pop( stack); |
16680 | av_push(stack, newSVuv(curchar))Perl_av_push( stack,Perl_newSVuv( curchar)); |
16681 | av_push(stack, lhs)Perl_av_push( stack,lhs); |
16682 | break; |
16683 | } |
16684 | |
16685 | /* But if there is something else on the stack, we need to |
16686 | * process it before this new operator if and only if the |
16687 | * stacked operation has equal or higher precedence than the |
16688 | * new one */ |
16689 | |
16690 | join_operators: |
16691 | |
16692 | /* The operator on the stack is supposed to be below both its |
16693 | * operands */ |
16694 | if ( ! (stacked_ptr = av_fetch(stack, top_index - 2, FALSE)Perl_av_fetch( stack,top_index - 2,(0))) |
16695 | || IS_OPERAND(*stacked_ptr)) |
16696 | { |
16697 | /* But if not, it's legal and indicates we are completely |
16698 | * done if and only if we're currently processing a ']', |
16699 | * which should be the final thing in the expression */ |
16700 | if (curchar == ']') { |
16701 | goto done; |
16702 | } |
16703 | |
16704 | unexpected_binary: |
16705 | RExC_parse(pRExC_state->parse)++; |
16706 | vFAIL2("Unexpected binary operator '%c' with no "do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Unexpected binary operator '%c' with no " "preceding operand" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", curchar , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 16707, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0) |
16707 | "preceding operand", curchar)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Unexpected binary operator '%c' with no " "preceding operand" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", curchar , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 16707, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
16708 | } |
16709 | stacked_operator = (char) SvUV(*stacked_ptr)((((*stacked_ptr)->sv_flags & (0x00000100|0x80000000|0x00200000 )) == (0x00000100|0x80000000)) ? (*({ const SV *const _svuvx = (const SV *)(*stacked_ptr); ((PL_valid_types_IVX[((svtype)(( _svuvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 16709, __func__, "PL_valid_types_IVX[SvTYPE(_svuvx) & SVt_MASK]" )); ((!((((_svuvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svuvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svuvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 16709, __func__ , "!isGV_with_GP(_svuvx)")); &(((XPVUV*) ({ void *_p = (( _svuvx)->sv_any); _p; }))->xuv_u.xivu_uv); })) : Perl_sv_2uv_flags ( *stacked_ptr,2)); |
16710 | |
16711 | if (regex_set_precedenceS_regex_set_precedence(curchar) |
16712 | > regex_set_precedenceS_regex_set_precedence(stacked_operator)) |
16713 | { |
16714 | /* Here, the new operator has higher precedence than the |
16715 | * stacked one. This means we need to add the new one to |
16716 | * the stack to await its rhs operand (and maybe more |
16717 | * stuff). We put it before the lhs operand, leaving |
16718 | * untouched the stacked operator and everything below it |
16719 | * */ |
16720 | lhs = av_pop(stack)Perl_av_pop( stack); |
16721 | assert(IS_OPERAND(lhs))((IS_OPERAND(lhs)) ? (void)0 : __assert2("re_comp.c", 16721, __func__ , "IS_OPERAND(lhs)")); |
16722 | |
16723 | av_push(stack, newSVuv(curchar))Perl_av_push( stack,Perl_newSVuv( curchar)); |
16724 | av_push(stack, lhs)Perl_av_push( stack,lhs); |
16725 | break; |
16726 | } |
16727 | |
16728 | /* Here, the new operator has equal or lower precedence than |
16729 | * what's already there. This means the operation already |
16730 | * there should be performed now, before the new one. */ |
16731 | |
16732 | rhs = av_pop(stack)Perl_av_pop( stack); |
16733 | if (! IS_OPERAND(rhs)) { |
16734 | |
16735 | /* This can happen when a ! is not followed by an operand, |
16736 | * like in /(?[\t &!])/ */ |
16737 | goto bad_syntax; |
16738 | } |
16739 | |
16740 | lhs = av_pop(stack)Perl_av_pop( stack); |
16741 | |
16742 | if (! IS_OPERAND(lhs)) { |
16743 | |
16744 | /* This can happen when there is an empty (), like in |
16745 | * /(?[[0]+()+])/ */ |
16746 | goto bad_syntax; |
16747 | } |
16748 | |
16749 | switch (stacked_operator) { |
16750 | case '&': |
16751 | _invlist_intersection(lhs, rhs, &rhs)Perl__invlist_intersection_maybe_complement_2nd( lhs,rhs,(0), &rhs); |
16752 | break; |
16753 | |
16754 | case '|': |
16755 | case '+': |
16756 | _invlist_union(lhs, rhs, &rhs)Perl__invlist_union_maybe_complement_2nd( lhs,rhs,(0),&rhs ); |
16757 | break; |
16758 | |
16759 | case '-': |
16760 | _invlist_subtract(lhs, rhs, &rhs)Perl__invlist_intersection_maybe_complement_2nd( lhs,rhs,(1), &rhs); |
16761 | break; |
16762 | |
16763 | case '^': /* The union minus the intersection */ |
16764 | { |
16765 | SV* i = NULL((void*)0); |
16766 | SV* u = NULL((void*)0); |
16767 | |
16768 | _invlist_union(lhs, rhs, &u)Perl__invlist_union_maybe_complement_2nd( lhs,rhs,(0),&u); |
16769 | _invlist_intersection(lhs, rhs, &i)Perl__invlist_intersection_maybe_complement_2nd( lhs,rhs,(0), &i); |
16770 | _invlist_subtract(u, i, &rhs)Perl__invlist_intersection_maybe_complement_2nd( u,i,(1),& rhs); |
16771 | SvREFCNT_dec_NN(i)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (i); _p; }))); |
16772 | SvREFCNT_dec_NN(u)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (u); _p; }))); |
16773 | break; |
16774 | } |
16775 | } |
16776 | SvREFCNT_dec(lhs)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (lhs); _p; }))); |
16777 | |
16778 | /* Here, the higher precedence operation has been done, and the |
16779 | * result is in 'rhs'. We overwrite the stacked operator with |
16780 | * the result. Then we redo this code to either push the new |
16781 | * operator onto the stack or perform any higher precedence |
16782 | * stacked operation */ |
16783 | only_to_avoid_leaks = av_pop(stack)Perl_av_pop( stack); |
16784 | SvREFCNT_dec(only_to_avoid_leaks)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (only_to_avoid_leaks) ; _p; }))); |
16785 | av_push(stack, rhs)Perl_av_push( stack,rhs); |
16786 | goto redo_curchar; |
16787 | |
16788 | case '!': /* Highest priority, right associative */ |
16789 | |
16790 | /* If what's already at the top of the stack is another '!", |
16791 | * they just cancel each other out */ |
16792 | if ( (top_ptr = av_fetch(stack, top_index, FALSE)Perl_av_fetch( stack,top_index,(0))) |
16793 | && (IS_OPERATOR(*top_ptr) && SvUV(*top_ptr)((((*top_ptr)->sv_flags & (0x00000100|0x80000000|0x00200000 )) == (0x00000100|0x80000000)) ? (*({ const SV *const _svuvx = (const SV *)(*top_ptr); ((PL_valid_types_IVX[((svtype)((_svuvx )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 16793, __func__, "PL_valid_types_IVX[SvTYPE(_svuvx) & SVt_MASK]" )); ((!((((_svuvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svuvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svuvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 16793, __func__ , "!isGV_with_GP(_svuvx)")); &(((XPVUV*) ({ void *_p = (( _svuvx)->sv_any); _p; }))->xuv_u.xivu_uv); })) : Perl_sv_2uv_flags ( *top_ptr,2)) == '!')) |
16794 | { |
16795 | only_to_avoid_leaks = av_pop(stack)Perl_av_pop( stack); |
16796 | SvREFCNT_dec(only_to_avoid_leaks)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (only_to_avoid_leaks) ; _p; }))); |
16797 | } |
16798 | else { /* Otherwise, since it's right associative, just push |
16799 | onto the stack */ |
16800 | av_push(stack, newSVuv(curchar))Perl_av_push( stack,Perl_newSVuv( curchar)); |
16801 | } |
16802 | break; |
16803 | |
16804 | default: |
16805 | RExC_parse(pRExC_state->parse) += (UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? UTF8SKIP(RExC_parse)PL_utf8skip[*(const U8*)((pRExC_state->parse))] : 1; |
16806 | if (RExC_parse(pRExC_state->parse) >= RExC_end(pRExC_state->end)) { |
16807 | break; |
16808 | } |
16809 | vFAIL("Unexpected character")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Unexpected character", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 16809, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
16810 | |
16811 | handle_operand: |
16812 | |
16813 | /* Here 'current' is the operand. If something is already on the |
16814 | * stack, we have to check if it is a !. But first, the code above |
16815 | * may have altered the stack in the time since we earlier set |
16816 | * 'top_index'. */ |
16817 | |
16818 | top_index = av_tindex_skip_len_mg(stack)(((((svtype)((stack)->sv_flags & 0xff)) == SVt_PVAV) ? (void)0 : __assert2("re_comp.c", 16818, __func__, "((svtype)((stack)->sv_flags & 0xff)) == SVt_PVAV" )), ((XPVAV*) (stack)->sv_any)->xav_fill); |
16819 | if (top_index - fence >= 0) { |
16820 | /* If the top entry on the stack is an operator, it had better |
16821 | * be a '!', otherwise the entry below the top operand should |
16822 | * be an operator */ |
16823 | top_ptr = av_fetch(stack, top_index, FALSE)Perl_av_fetch( stack,top_index,(0)); |
16824 | assert(top_ptr)((top_ptr) ? (void)0 : __assert2("re_comp.c", 16824, __func__ , "top_ptr")); |
16825 | if (IS_OPERATOR(*top_ptr)) { |
16826 | |
16827 | /* The only permissible operator at the top of the stack is |
16828 | * '!', which is applied immediately to this operand. */ |
16829 | curchar = (char) SvUV(*top_ptr)((((*top_ptr)->sv_flags & (0x00000100|0x80000000|0x00200000 )) == (0x00000100|0x80000000)) ? (*({ const SV *const _svuvx = (const SV *)(*top_ptr); ((PL_valid_types_IVX[((svtype)((_svuvx )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 16829, __func__, "PL_valid_types_IVX[SvTYPE(_svuvx) & SVt_MASK]" )); ((!((((_svuvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svuvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svuvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 16829, __func__ , "!isGV_with_GP(_svuvx)")); &(((XPVUV*) ({ void *_p = (( _svuvx)->sv_any); _p; }))->xuv_u.xivu_uv); })) : Perl_sv_2uv_flags ( *top_ptr,2)); |
16830 | if (curchar != '!') { |
16831 | SvREFCNT_dec(current)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (current); _p; }))); |
16832 | vFAIL2("Unexpected binary operator '%c' with no "do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Unexpected binary operator '%c' with no " "preceding operand" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", curchar , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 16833, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0) |
16833 | "preceding operand", curchar)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Unexpected binary operator '%c' with no " "preceding operand" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", curchar , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 16833, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
16834 | } |
16835 | |
16836 | _invlist_invert(current)Perl__invlist_invert( current); |
16837 | |
16838 | only_to_avoid_leaks = av_pop(stack)Perl_av_pop( stack); |
16839 | SvREFCNT_dec(only_to_avoid_leaks)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (only_to_avoid_leaks) ; _p; }))); |
16840 | |
16841 | /* And we redo with the inverted operand. This allows |
16842 | * handling multiple ! in a row */ |
16843 | goto handle_operand; |
16844 | } |
16845 | /* Single operand is ok only for the non-binary ')' |
16846 | * operator */ |
16847 | else if ((top_index - fence == 0 && curchar != ')') |
16848 | || (top_index - fence > 0 |
16849 | && (! (stacked_ptr = av_fetch(stack,Perl_av_fetch( stack,top_index - 1,(0)) |
16850 | top_index - 1,Perl_av_fetch( stack,top_index - 1,(0)) |
16851 | FALSE)Perl_av_fetch( stack,top_index - 1,(0))) |
16852 | || IS_OPERAND(*stacked_ptr)))) |
16853 | { |
16854 | SvREFCNT_dec(current)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (current); _p; }))); |
16855 | vFAIL("Operand with no preceding operator")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Operand with no preceding operator", (int)( ((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 16855, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
16856 | } |
16857 | } |
16858 | |
16859 | /* Here there was nothing on the stack or the top element was |
16860 | * another operand. Just add this new one */ |
16861 | av_push(stack, current)Perl_av_push( stack,current); |
16862 | |
16863 | } /* End of switch on next parse token */ |
16864 | |
16865 | RExC_parse(pRExC_state->parse) += (UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? UTF8SKIP(RExC_parse)PL_utf8skip[*(const U8*)((pRExC_state->parse))] : 1; |
16866 | } /* End of loop parsing through the construct */ |
16867 | |
16868 | vFAIL("Syntax error in (?[...])")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Syntax error in (?[...])", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 16868, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
16869 | |
16870 | done: |
16871 | |
16872 | if (RExC_parse(pRExC_state->parse) >= RExC_end(pRExC_state->end) || RExC_parse(pRExC_state->parse)[1] != ')') { |
16873 | if (RExC_parse(pRExC_state->parse) < RExC_end(pRExC_state->end)) { |
16874 | RExC_parse(pRExC_state->parse)++; |
16875 | } |
16876 | |
16877 | vFAIL("Unexpected ']' with no following ')' in (?[...")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Unexpected ']' with no following ')' in (?[..." , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 16877, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
16878 | } |
16879 | |
16880 | if (av_tindex_skip_len_mg(fence_stack)(((((svtype)((fence_stack)->sv_flags & 0xff)) == SVt_PVAV ) ? (void)0 : __assert2("re_comp.c", 16880, __func__, "((svtype)((fence_stack)->sv_flags & 0xff)) == SVt_PVAV" )), ((XPVAV*) (fence_stack)->sv_any)->xav_fill) >= 0) { |
16881 | vFAIL("Unmatched (")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Unmatched (", (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 16881, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
16882 | } |
16883 | |
16884 | if (av_tindex_skip_len_mg(stack)(((((svtype)((stack)->sv_flags & 0xff)) == SVt_PVAV) ? (void)0 : __assert2("re_comp.c", 16884, __func__, "((svtype)((stack)->sv_flags & 0xff)) == SVt_PVAV" )), ((XPVAV*) (stack)->sv_any)->xav_fill) < 0 /* Was empty */ |
16885 | || ((final = av_pop(stack)Perl_av_pop( stack)) == NULL((void*)0)) |
16886 | || ! IS_OPERAND(final) |
16887 | || ! is_invlistS_is_invlist(final) |
16888 | || av_tindex_skip_len_mg(stack)(((((svtype)((stack)->sv_flags & 0xff)) == SVt_PVAV) ? (void)0 : __assert2("re_comp.c", 16888, __func__, "((svtype)((stack)->sv_flags & 0xff)) == SVt_PVAV" )), ((XPVAV*) (stack)->sv_any)->xav_fill) >= 0) /* More left on stack */ |
16889 | { |
16890 | bad_syntax: |
16891 | SvREFCNT_dec(final)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (final); _p; }))); |
16892 | vFAIL("Incomplete expression within '(?[ ])'")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Incomplete expression within '(?[ ])'", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 16892, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
16893 | } |
16894 | |
16895 | /* Here, 'final' is the resultant inversion list from evaluating the |
16896 | * expression. Return it if so requested */ |
16897 | if (return_invlist) { |
16898 | *return_invlist = final; |
16899 | return END0; |
16900 | } |
16901 | |
16902 | if (RExC_sets_depth(pRExC_state->sets_depth)) { /* If within a recursive call, return in a special |
16903 | regnode */ |
16904 | RExC_parse(pRExC_state->parse)++; |
16905 | node = regpnode(pRExC_state, REGEX_SET, final)S_regpnode( pRExC_state,109,final); |
16906 | } |
16907 | else { |
16908 | |
16909 | /* Otherwise generate a resultant node, based on 'final'. regclass() |
16910 | * is expecting a string of ranges and individual code points */ |
16911 | invlist_iterinitS_invlist_iterinit(final); |
16912 | result_string = newSVpvs("")Perl_newSVpvn( ("" "" ""), (sizeof("")-1)); |
16913 | while (invlist_iternextS_invlist_iternext(final, &start, &end)) { |
16914 | if (start == end) { |
16915 | Perl_sv_catpvf(aTHX_ result_string, "\\x{%" UVXf"lX" "}", start); |
16916 | } |
16917 | else { |
16918 | Perl_sv_catpvf(aTHX_ result_string, "\\x{%" UVXf"lX" "}-\\x{%" |
16919 | UVXf"lX" "}", start, end); |
16920 | } |
16921 | } |
16922 | |
16923 | /* About to generate an ANYOF (or similar) node from the inversion list |
16924 | * we have calculated */ |
16925 | save_parse = RExC_parse(pRExC_state->parse); |
16926 | RExC_parse(pRExC_state->parse) = SvPV(result_string, len)((((result_string)->sv_flags & (0x00000400|0x00200000) ) == 0x00000400) ? ((len = (*({ const SV *const _svcur = (const SV *)(result_string); ((PL_valid_types_PVX[((svtype)((_svcur )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 16926, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 16926, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 16926, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))), (*({ SV *const _svpvx = ((SV *)({ void * _p = (result_string); _p; })); ((PL_valid_types_PVX[((svtype) ((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 16926, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 16926, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 16926, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))) : Perl_sv_2pv_flags ( result_string,&len,2)); |
16927 | save_end = RExC_end(pRExC_state->end); |
16928 | RExC_end(pRExC_state->end) = RExC_parse(pRExC_state->parse) + len; |
16929 | TURN_OFF_WARNINGS_IN_SUBSTITUTE_PARSEdo { (pRExC_state->save_copy_start) = (pRExC_state->copy_start ); (pRExC_state->copy_start) = ((void*)0); } while (0); |
16930 | |
16931 | /* We turn off folding around the call, as the class we have |
16932 | * constructed already has all folding taken into consideration, and we |
16933 | * don't want regclass() to add to that */ |
16934 | RExC_flags(pRExC_state->flags) &= ~RXf_PMf_FOLD(1U << (0 +2)); |
16935 | /* regclass() can only return RESTART_PARSE and NEED_UTF8 if multi-char |
16936 | * folds are allowed. */ |
16937 | node = regclass(pRExC_state, flagp, depth+1,S_regclass( pRExC_state,flagp,depth+1,(0),(0),(1),(0),! in_locale ,((void*)0)) |
16938 | FALSE, /* means parse the whole char class */S_regclass( pRExC_state,flagp,depth+1,(0),(0),(1),(0),! in_locale ,((void*)0)) |
16939 | FALSE, /* don't allow multi-char folds */S_regclass( pRExC_state,flagp,depth+1,(0),(0),(1),(0),! in_locale ,((void*)0)) |
16940 | TRUE, /* silence non-portable warnings. The above mayS_regclass( pRExC_state,flagp,depth+1,(0),(0),(1),(0),! in_locale ,((void*)0)) |
16941 | very well have generated non-portable codeS_regclass( pRExC_state,flagp,depth+1,(0),(0),(1),(0),! in_locale ,((void*)0)) |
16942 | points, but they're valid on this machine */S_regclass( pRExC_state,flagp,depth+1,(0),(0),(1),(0),! in_locale ,((void*)0)) |
16943 | FALSE, /* similarly, no need for strict */S_regclass( pRExC_state,flagp,depth+1,(0),(0),(1),(0),! in_locale ,((void*)0)) |
16944 | |
16945 | /* We can optimize into something besides an ANYOF,S_regclass( pRExC_state,flagp,depth+1,(0),(0),(1),(0),! in_locale ,((void*)0)) |
16946 | * except under /l, which needs to be ANYOF because ofS_regclass( pRExC_state,flagp,depth+1,(0),(0),(1),(0),! in_locale ,((void*)0)) |
16947 | * runtime checks for locale sanity, etc */S_regclass( pRExC_state,flagp,depth+1,(0),(0),(1),(0),! in_locale ,((void*)0)) |
16948 | ! in_locale,S_regclass( pRExC_state,flagp,depth+1,(0),(0),(1),(0),! in_locale ,((void*)0)) |
16949 | NULLS_regclass( pRExC_state,flagp,depth+1,(0),(0),(1),(0),! in_locale ,((void*)0)) |
16950 | )S_regclass( pRExC_state,flagp,depth+1,(0),(0),(1),(0),! in_locale ,((void*)0)); |
16951 | |
16952 | RESTORE_WARNINGS(pRExC_state->copy_start) = (pRExC_state->save_copy_start ); |
16953 | RExC_parse(pRExC_state->parse) = save_parse + 1; |
16954 | RExC_end(pRExC_state->end) = save_end; |
16955 | SvREFCNT_dec_NN(final)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (final); _p; }))); |
16956 | SvREFCNT_dec_NN(result_string)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (result_string); _p ; }))); |
16957 | |
16958 | if (save_fold) { |
16959 | RExC_flags(pRExC_state->flags) |= RXf_PMf_FOLD(1U << (0 +2)); |
16960 | } |
16961 | |
16962 | if (!node) { |
16963 | RETURN_FAIL_ON_RESTART(*flagp, flagp)do { if ((*flagp) & (0x20|0x40|(0))) { *(flagp) = (*flagp ) & (0x20|0x40|(0)); return 0; } } while (0); |
16964 | goto regclass_failed; |
16965 | } |
16966 | |
16967 | /* Fix up the node type if we are in locale. (We have pretended we are |
16968 | * under /u for the purposes of regclass(), as this construct will only |
16969 | * work under UTF-8 locales. But now we change the opcode to be ANYOFL |
16970 | * (so as to cause any warnings about bad locales to be output in |
16971 | * regexec.c), and add the flag that indicates to check if not in a |
16972 | * UTF-8 locale. The reason we above forbid optimization into |
16973 | * something other than an ANYOF node is simply to minimize the number |
16974 | * of code changes in regexec.c. Otherwise we would have to create new |
16975 | * EXACTish node types and deal with them. This decision could be |
16976 | * revisited should this construct become popular. |
16977 | * |
16978 | * (One might think we could look at the resulting ANYOF node and |
16979 | * suppress the flag if everything is above 255, as those would be |
16980 | * UTF-8 only, but this isn't true, as the components that led to that |
16981 | * result could have been locale-affected, and just happen to cancel |
16982 | * each other out under UTF-8 locales.) */ |
16983 | if (in_locale) { |
16984 | set_regex_charset(&RExC_flags(pRExC_state->flags), REGEX_LOCALE_CHARSET); |
16985 | |
16986 | assert(OP(REGNODE_p(node)) == ANYOF)((((((pRExC_state->emit_start) + (node)))->type) == 18) ? (void)0 : __assert2("re_comp.c", 16986, __func__, "OP(REGNODE_p(node)) == ANYOF" )); |
16987 | |
16988 | OP(REGNODE_p(node))((((pRExC_state->emit_start) + (node)))->type) = ANYOFL20; |
16989 | ANYOF_FLAGS(REGNODE_p(node))((((pRExC_state->emit_start) + (node)))->flags) |
16990 | |= ANYOFL_SHARED_UTF8_LOCALE_fold_HAS_MATCHES_nonfold_REQD0x08; |
16991 | } |
16992 | } |
16993 | |
16994 | nextchar(pRExC_state)S_nextchar( pRExC_state); |
16995 | Set_Node_Length(REGNODE_p(node), RExC_parse - oregcomp_parse + 1)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 16995, (int )(((((pRExC_state->emit_start) + (node))) - (pRExC_state-> emit_start))), (int)((pRExC_state->parse) - oregcomp_parse + 1));} while (0); if((((((pRExC_state->emit_start) + (node ))) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((((pRExC_state->emit_start) + (node))) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (node))) - (pRExC_state ->emit_start)))] = ((pRExC_state->parse) - oregcomp_parse + 1); } } while (0); /* MJD */ |
16996 | return node; |
16997 | |
16998 | regclass_failed: |
16999 | FAIL2("panic: regclass returned failure to handle_sets, " "flags=%#" UVxf,do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "panic: regclass returned failure to handle_sets, " "flags=%#" "lx" " in regex m/%" "d%" "lu" "%4p" "%s/", (UV) * flagp, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0 )) ? (_Bool)1 : (_Bool)0), (UV)(len), (void*)((pRExC_state-> precomp)), ellipses); } while (0) |
17000 | (UV) *flagp)do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "panic: regclass returned failure to handle_sets, " "flags=%#" "lx" " in regex m/%" "d%" "lu" "%4p" "%s/", (UV) * flagp, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0 )) ? (_Bool)1 : (_Bool)0), (UV)(len), (void*)((pRExC_state-> precomp)), ellipses); } while (0); |
17001 | } |
17002 | |
17003 | #ifdef ENABLE_REGEX_SETS_DEBUGGING |
17004 | |
17005 | STATICstatic void |
17006 | S_dump_regex_sets_structures(pTHX_ RExC_state_t *pRExC_state, |
17007 | AV * stack, const IV fence, AV * fence_stack) |
17008 | { /* Dumps the stacks in handle_regex_sets() */ |
17009 | |
17010 | const SSize_tssize_t stack_top = av_tindex_skip_len_mg(stack)(((((svtype)((stack)->sv_flags & 0xff)) == SVt_PVAV) ? (void)0 : __assert2("re_comp.c", 17010, __func__, "((svtype)((stack)->sv_flags & 0xff)) == SVt_PVAV" )), ((XPVAV*) (stack)->sv_any)->xav_fill); |
17011 | const SSize_tssize_t fence_stack_top = av_tindex_skip_len_mg(fence_stack)(((((svtype)((fence_stack)->sv_flags & 0xff)) == SVt_PVAV ) ? (void)0 : __assert2("re_comp.c", 17011, __func__, "((svtype)((fence_stack)->sv_flags & 0xff)) == SVt_PVAV" )), ((XPVAV*) (fence_stack)->sv_any)->xav_fill); |
17012 | SSize_tssize_t i; |
17013 | |
17014 | PERL_ARGS_ASSERT_DUMP_REGEX_SETS_STRUCTURES; |
17015 | |
17016 | PerlIO_printf(Perl_debug_logPerl_PerlIO_stderr(), "\nParse position is:%s\n", RExC_parse(pRExC_state->parse)); |
17017 | |
17018 | if (stack_top < 0) { |
17019 | PerlIO_printf(Perl_debug_logPerl_PerlIO_stderr(), "Nothing on stack\n"); |
17020 | } |
17021 | else { |
17022 | PerlIO_printf(Perl_debug_logPerl_PerlIO_stderr(), "Stack: (fence=%d)\n", (int) fence); |
17023 | for (i = stack_top; i >= 0; i--) { |
17024 | SV ** element_ptr = av_fetch(stack, i, FALSE)Perl_av_fetch( stack,i,(0)); |
17025 | if (! element_ptr) { |
17026 | } |
17027 | |
17028 | if (IS_OPERATOR(*element_ptr)) { |
17029 | PerlIO_printf(Perl_debug_logPerl_PerlIO_stderr(), "[%d]: %c\n", |
17030 | (int) i, (int) SvIV(*element_ptr)((((*element_ptr)->sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)( *element_ptr); ((PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 17030, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 17030, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( *element_ptr,2))); |
17031 | } |
17032 | else { |
17033 | PerlIO_printf(Perl_debug_logPerl_PerlIO_stderr(), "[%d] ", (int) i); |
17034 | sv_dump(*element_ptr)Perl_sv_dump( *element_ptr); |
17035 | } |
17036 | } |
17037 | } |
17038 | |
17039 | if (fence_stack_top < 0) { |
17040 | PerlIO_printf(Perl_debug_logPerl_PerlIO_stderr(), "Nothing on fence_stack\n"); |
17041 | } |
17042 | else { |
17043 | PerlIO_printf(Perl_debug_logPerl_PerlIO_stderr(), "Fence_stack: \n"); |
17044 | for (i = fence_stack_top; i >= 0; i--) { |
17045 | SV ** element_ptr = av_fetch(fence_stack, i, FALSE)Perl_av_fetch( fence_stack,i,(0)); |
17046 | if (! element_ptr) { |
17047 | } |
17048 | |
17049 | PerlIO_printf(Perl_debug_logPerl_PerlIO_stderr(), "[%d]: %d\n", |
17050 | (int) i, (int) SvIV(*element_ptr)((((*element_ptr)->sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)( *element_ptr); ((PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 17050, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 17050, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( *element_ptr,2))); |
17051 | } |
17052 | } |
17053 | } |
17054 | |
17055 | #endif |
17056 | |
17057 | #undef IS_OPERATOR |
17058 | #undef IS_OPERAND |
17059 | |
17060 | STATICstatic void |
17061 | S_add_above_Latin1_folds(pTHX_ RExC_state_t *pRExC_state, const U8 cp, SV** invlist) |
17062 | { |
17063 | /* This adds the Latin1/above-Latin1 folding rules. |
17064 | * |
17065 | * This should be called only for a Latin1-range code points, cp, which is |
17066 | * known to be involved in a simple fold with other code points above |
17067 | * Latin1. It would give false results if /aa has been specified. |
17068 | * Multi-char folds are outside the scope of this, and must be handled |
17069 | * specially. */ |
17070 | |
17071 | PERL_ARGS_ASSERT_ADD_ABOVE_LATIN1_FOLDS((pRExC_state) ? (void)0 : __assert2("re_comp.c", 17071, __func__ , "pRExC_state")); ((invlist) ? (void)0 : __assert2("re_comp.c" , 17071, __func__, "invlist")); |
17072 | |
17073 | assert(HAS_NONLATIN1_SIMPLE_FOLD_CLOSURE(cp))((((! ((( (sizeof(cp) == 1) || !(((U64)((cp) | 0)) & ~0xFF ))) ? (_Bool)1 : (_Bool)0)) || (PL_charclass[(U8) (cp)] & (1U << (19))))) ? (void)0 : __assert2("re_comp.c", 17073 , __func__, "HAS_NONLATIN1_SIMPLE_FOLD_CLOSURE(cp)")); |
17074 | |
17075 | /* The rules that are valid for all Unicode versions are hard-coded in */ |
17076 | switch (cp) { |
17077 | case 'k': |
17078 | case 'K': |
17079 | *invlist = |
17080 | add_cp_to_invlist(*invlist, KELVIN_SIGN)S_add_cp_to_invlist( *invlist,0x212A); |
17081 | break; |
17082 | case 's': |
17083 | case 'S': |
17084 | *invlist = add_cp_to_invlist(*invlist, LATIN_SMALL_LETTER_LONG_S)S_add_cp_to_invlist( *invlist,0x017F); |
17085 | break; |
17086 | case MICRO_SIGN0xB5: |
17087 | *invlist = add_cp_to_invlist(*invlist, GREEK_CAPITAL_LETTER_MU)S_add_cp_to_invlist( *invlist,0x039C); |
17088 | *invlist = add_cp_to_invlist(*invlist, GREEK_SMALL_LETTER_MU)S_add_cp_to_invlist( *invlist,0x03BC); |
17089 | break; |
17090 | case LATIN_CAPITAL_LETTER_A_WITH_RING_ABOVE0xC5: |
17091 | case LATIN_SMALL_LETTER_A_WITH_RING_ABOVE0xE5: |
17092 | *invlist = add_cp_to_invlist(*invlist, ANGSTROM_SIGN)S_add_cp_to_invlist( *invlist,0x212B); |
17093 | break; |
17094 | case LATIN_SMALL_LETTER_Y_WITH_DIAERESIS0xFF: |
17095 | *invlist = add_cp_to_invlist(*invlist,S_add_cp_to_invlist( *invlist,0x0178) |
17096 | LATIN_CAPITAL_LETTER_Y_WITH_DIAERESIS)S_add_cp_to_invlist( *invlist,0x0178); |
17097 | break; |
17098 | |
17099 | default: /* Other code points are checked against the data for the |
17100 | current Unicode version */ |
17101 | { |
17102 | Size_tsize_t folds_count; |
17103 | U32 first_fold; |
17104 | const U32 * remaining_folds; |
17105 | UV folded_cp; |
17106 | |
17107 | if (isASCII(cp)((U64)((cp) | 0) < 128)) { |
17108 | folded_cp = toFOLD(cp)((((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 17108 , __func__, "('Z') >= ('A')")), ( (sizeof(cp) == sizeof(U8 )) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 17108, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 17108, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) (cp))) ) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof(cp) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? ( void)0 : __assert2("re_comp.c", 17108, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 17108, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) (cp)))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof(cp) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 17108, __func__, "sizeof(cp) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 17108, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 17108, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) (cp)) )) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)))) )))) ? (U8)((cp) + ('a' - 'A')) : (cp)); |
17109 | } |
17110 | else { |
17111 | U8 dummy_fold[UTF8_MAXBYTES_CASE(((13)>(3 * ((((U64)(0x10FFFF)) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF) < (32 * (1U << ( 6))) ? 2 : (UV) (0x10FFFF) < (16 * (1U << (2 * 6) )) ? 3 : (UV) (0x10FFFF) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV ) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF ) < ((UV) 1U << (6 * 6)) ? 7 : 13))))?(13):(3 * (((( U64)(0x10FFFF)) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF) < (32 * (1U << ( 6))) ? 2 : (UV ) (0x10FFFF) < (16 * (1U << (2 * 6))) ? 3 : (UV) (0x10FFFF ) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF) < ((UV) 1U << (6 * 6)) ? 7 : 13))))+1]; |
17112 | Size_tsize_t dummy_len; |
17113 | folded_cp = _to_fold_latin1Perl__to_fold_latin1(cp, dummy_fold, &dummy_len, 0); |
17114 | } |
17115 | |
17116 | if (folded_cp > 255) { |
17117 | *invlist = add_cp_to_invlist(*invlist, folded_cp)S_add_cp_to_invlist( *invlist,folded_cp); |
17118 | } |
17119 | |
17120 | folds_count = _inverse_folds(folded_cp, &first_fold,Perl__inverse_folds( folded_cp,&first_fold,&remaining_folds ) |
17121 | &remaining_folds)Perl__inverse_folds( folded_cp,&first_fold,&remaining_folds ); |
17122 | if (folds_count == 0) { |
17123 | |
17124 | /* Use deprecated warning to increase the chances of this being |
17125 | * output */ |
17126 | ckWARN2reg_d(RExC_parse,do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 17128, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner_d ( (20 ), "Perl folding rules are not up-to-date for 0x%02X;" " please use the perlbug utility to report;" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", cp, (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 17128, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
17127 | "Perl folding rules are not up-to-date for 0x%02X;"do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 17128, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner_d ( (20 ), "Perl folding rules are not up-to-date for 0x%02X;" " please use the perlbug utility to report;" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", cp, (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 17128, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
17128 | " please use the perlbug utility to report;", cp)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 17128, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner_d ( (20 ), "Perl folding rules are not up-to-date for 0x%02X;" " please use the perlbug utility to report;" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", cp, (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 17128, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); |
17129 | } |
17130 | else { |
17131 | unsigned int i; |
17132 | |
17133 | if (first_fold > 255) { |
17134 | *invlist = add_cp_to_invlist(*invlist, first_fold)S_add_cp_to_invlist( *invlist,first_fold); |
17135 | } |
17136 | for (i = 0; i < folds_count - 1; i++) { |
17137 | if (remaining_folds[i] > 255) { |
17138 | *invlist = add_cp_to_invlist(*invlist,S_add_cp_to_invlist( *invlist,remaining_folds[i]) |
17139 | remaining_folds[i])S_add_cp_to_invlist( *invlist,remaining_folds[i]); |
17140 | } |
17141 | } |
17142 | } |
17143 | break; |
17144 | } |
17145 | } |
17146 | } |
17147 | |
17148 | STATICstatic void |
17149 | S_output_posix_warnings(pTHX_ RExC_state_t *pRExC_state, AV* posix_warnings) |
17150 | { |
17151 | /* Output the elements of the array given by '*posix_warnings' as REGEXP |
17152 | * warnings. */ |
17153 | |
17154 | SV * msg; |
17155 | const bool_Bool first_is_fatal = ckDEAD(packWARN(WARN_REGEXP))(PL_curcop && !((PL_curcop->cop_warnings) == ((void *)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_NONE ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* ((((20 )) & 0xFF))+1) / 8)] & (1 << ((2*((((20 ) ) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF ))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8))))))))))); |
17156 | |
17157 | PERL_ARGS_ASSERT_OUTPUT_POSIX_WARNINGS((pRExC_state) ? (void)0 : __assert2("re_comp.c", 17157, __func__ , "pRExC_state")); ((posix_warnings) ? (void)0 : __assert2("re_comp.c" , 17157, __func__, "posix_warnings")); |
17158 | |
17159 | if (! TO_OUTPUT_WARNINGS(RExC_parse)( (pRExC_state->copy_start) && ((((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { |
17160 | CLEAR_POSIX_WARNINGS()do { if (posix_warnings && (pRExC_state->warn_text )) Perl_av_clear( (pRExC_state->warn_text)); } while (0); |
17161 | return; |
17162 | } |
17163 | |
17164 | while ((msg = av_shift(posix_warnings)Perl_av_shift( posix_warnings)) != &PL_sv_undef(PL_sv_immortals[1])) { |
17165 | if (first_is_fatal) { /* Avoid leaking this */ |
17166 | av_undef(posix_warnings)Perl_av_undef( posix_warnings); /* This isn't necessary if the |
17167 | array is mortal, but is a |
17168 | fail-safe */ |
17169 | (void) sv_2mortal(msg)Perl_sv_2mortal( msg); |
17170 | PREPARE_TO_DIEdo { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *) (((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))),11) ; if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); |
17171 | } |
17172 | Perl_warner(aTHX_ packWARN(WARN_REGEXP)(20 ), "%s", SvPVX(msg)(*({ SV *const _svpvx = ((SV *)({ void *_p = (msg); _p; })); ( (PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 17172, __func__ , "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]")); ((!( (((_svpvx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 17172, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 17172, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))); |
17173 | SvREFCNT_dec_NN(msg)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (msg); _p; }))); |
17174 | } |
17175 | |
17176 | UPDATE_WARNINGS_LOC(RExC_parse)do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); |
17177 | } |
17178 | |
17179 | PERL_STATIC_INLINEstatic __inline__ Size_tsize_t |
17180 | S_find_first_differing_byte_pos(const U8 * s1, const U8 * s2, const Size_tsize_t max) |
17181 | { |
17182 | const U8 * const start = s1; |
17183 | const U8 * const send = start + max; |
17184 | |
17185 | PERL_ARGS_ASSERT_FIND_FIRST_DIFFERING_BYTE_POS((s1) ? (void)0 : __assert2("re_comp.c", 17185, __func__, "s1" )); ((s2) ? (void)0 : __assert2("re_comp.c", 17185, __func__, "s2")); |
17186 | |
17187 | while (s1 < send && *s1 == *s2) { |
17188 | s1++; s2++; |
17189 | } |
17190 | |
17191 | return s1 - start; |
17192 | } |
17193 | |
17194 | |
17195 | STATICstatic AV * |
17196 | S_add_multi_match(pTHX_ AV* multi_char_matches, SV* multi_string, const STRLEN cp_count) |
17197 | { |
17198 | /* This adds the string scalar <multi_string> to the array |
17199 | * <multi_char_matches>. <multi_string> is known to have exactly |
17200 | * <cp_count> code points in it. This is used when constructing a |
17201 | * bracketed character class and we find something that needs to match more |
17202 | * than a single character. |
17203 | * |
17204 | * <multi_char_matches> is actually an array of arrays. Each top-level |
17205 | * element is an array that contains all the strings known so far that are |
17206 | * the same length. And that length (in number of code points) is the same |
17207 | * as the index of the top-level array. Hence, the [2] element is an |
17208 | * array, each element thereof is a string containing TWO code points; |
17209 | * while element [3] is for strings of THREE characters, and so on. Since |
17210 | * this is for multi-char strings there can never be a [0] nor [1] element. |
17211 | * |
17212 | * When we rewrite the character class below, we will do so such that the |
17213 | * longest strings are written first, so that it prefers the longest |
17214 | * matching strings first. This is done even if it turns out that any |
17215 | * quantifier is non-greedy, out of this programmer's (khw) laziness. Tom |
17216 | * Christiansen has agreed that this is ok. This makes the test for the |
17217 | * ligature 'ffi' come before the test for 'ff', for example */ |
17218 | |
17219 | AV* this_array; |
17220 | AV** this_array_ptr; |
17221 | |
17222 | PERL_ARGS_ASSERT_ADD_MULTI_MATCH((multi_string) ? (void)0 : __assert2("re_comp.c", 17222, __func__ , "multi_string")); |
17223 | |
17224 | if (! multi_char_matches) { |
17225 | multi_char_matches = newAV()((AV *)({ void *_p = (Perl_newSV_type( SVt_PVAV)); _p; })); |
17226 | } |
17227 | |
17228 | if (av_exists(multi_char_matches, cp_count)Perl_av_exists( multi_char_matches,cp_count)) { |
17229 | this_array_ptr = (AV**) av_fetch(multi_char_matches, cp_count, FALSE)Perl_av_fetch( multi_char_matches,cp_count,(0)); |
17230 | this_array = *this_array_ptr; |
17231 | } |
17232 | else { |
17233 | this_array = newAV()((AV *)({ void *_p = (Perl_newSV_type( SVt_PVAV)); _p; })); |
17234 | av_store(multi_char_matches, cp_count,Perl_av_store( multi_char_matches,cp_count,(SV*) this_array) |
17235 | (SV*) this_array)Perl_av_store( multi_char_matches,cp_count,(SV*) this_array); |
17236 | } |
17237 | av_push(this_array, multi_string)Perl_av_push( this_array,multi_string); |
17238 | |
17239 | return multi_char_matches; |
17240 | } |
17241 | |
17242 | /* The names of properties whose definitions are not known at compile time are |
17243 | * stored in this SV, after a constant heading. So if the length has been |
17244 | * changed since initialization, then there is a run-time definition. */ |
17245 | #define HAS_NONLOCALE_RUNTIME_PROPERTY_DEFINITION \ |
17246 | (SvCUR(listsv)(*({ const SV *const _svcur = (const SV *)(listsv); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 17246, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 17246, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 17246, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) != initial_listsv_len) |
17247 | |
17248 | /* There is a restricted set of white space characters that are legal when |
17249 | * ignoring white space in a bracketed character class. This generates the |
17250 | * code to skip them. |
17251 | * |
17252 | * There is a line below that uses the same white space criteria but is outside |
17253 | * this macro. Both here and there must use the same definition */ |
17254 | #define SKIP_BRACKETED_WHITE_SPACE(do_skip, p, stop_p)do { if (do_skip) { while (p < stop_p && (( (sizeof (((int)*(const U8*)(p))) == 1) || !(((U64)((((int)*(const U8* )(p))) | 0)) & ~0xFF)) && ((PL_charclass[(U8) ((( int)*(const U8*)(p)))] & ((1U << (11)) | (1U << (14)))) == ((1U << (11)) | (1U << (14)))))) { p++ ; } } } while (0) \ |
17255 | STMT_STARTdo { \ |
17256 | if (do_skip) { \ |
17257 | while (p < stop_p && isBLANK_A(UCHARAT(p))(( (sizeof(((int)*(const U8*)(p))) == 1) || !(((U64)((((int)* (const U8*)(p))) | 0)) & ~0xFF)) && ((PL_charclass [(U8) (((int)*(const U8*)(p)))] & ((1U << (11)) | ( 1U << (14)))) == ((1U << (11)) | (1U << (14 )))))) \ |
17258 | { \ |
17259 | p++; \ |
17260 | } \ |
17261 | } \ |
17262 | } STMT_ENDwhile (0) |
17263 | |
17264 | STATICstatic regnode_offset |
17265 | S_regclass(pTHX_ RExC_state_t *pRExC_state, I32 *flagp, U32 depth, |
17266 | const bool_Bool stop_at_1, /* Just parse the next thing, don't |
17267 | look for a full character class */ |
17268 | bool_Bool allow_mutiple_chars, |
17269 | const bool_Bool silence_non_portable, /* Don't output warnings |
17270 | about too large |
17271 | characters */ |
17272 | const bool_Bool strict, |
17273 | bool_Bool optimizable, /* ? Allow a non-ANYOF return |
17274 | node */ |
17275 | SV** ret_invlist /* Return an inversion list, not a node */ |
17276 | ) |
17277 | { |
17278 | /* parse a bracketed class specification. Most of these will produce an |
17279 | * ANYOF node; but something like [a] will produce an EXACT node; [aA], an |
17280 | * EXACTFish node; [[:ascii:]], a POSIXA node; etc. It is more complex |
17281 | * under /i with multi-character folds: it will be rewritten following the |
17282 | * paradigm of this example, where the <multi-fold>s are characters which |
17283 | * fold to multiple character sequences: |
17284 | * /[abc\x{multi-fold1}def\x{multi-fold2}ghi]/i |
17285 | * gets effectively rewritten as: |
17286 | * /(?:\x{multi-fold1}|\x{multi-fold2}|[abcdefghi]/i |
17287 | * reg() gets called (recursively) on the rewritten version, and this |
17288 | * function will return what it constructs. (Actually the <multi-fold>s |
17289 | * aren't physically removed from the [abcdefghi], it's just that they are |
17290 | * ignored in the recursion by means of a flag: |
17291 | * <RExC_in_multi_char_class>.) |
17292 | * |
17293 | * ANYOF nodes contain a bit map for the first NUM_ANYOF_CODE_POINTS |
17294 | * characters, with the corresponding bit set if that character is in the |
17295 | * list. For characters above this, an inversion list is used. There |
17296 | * are extra bits for \w, etc. in locale ANYOFs, as what these match is not |
17297 | * determinable at compile time |
17298 | * |
17299 | * On success, returns the offset at which any next node should be placed |
17300 | * into the regex engine program being compiled. |
17301 | * |
17302 | * Returns 0 otherwise, setting flagp to RESTART_PARSE if the parse needs |
17303 | * to be restarted, or'd with NEED_UTF8 if the pattern needs to be upgraded to |
17304 | * UTF-8 |
17305 | */ |
17306 | |
17307 | dVARstruct Perl___notused_struct; |
17308 | UV prevvalue = OOB_UNICODE0xDEADBEEF, save_prevvalue = OOB_UNICODE0xDEADBEEF; |
17309 | IV range = 0; |
17310 | UV value = OOB_UNICODE0xDEADBEEF, save_value = OOB_UNICODE0xDEADBEEF; |
17311 | regnode_offset ret = -1; /* Initialized to an illegal value */ |
17312 | STRLEN numlen; |
17313 | int namedclass = OOB_NAMEDCLASS-1; |
17314 | char *rangebegin = NULL((void*)0); |
17315 | SV *listsv = NULL((void*)0); /* List of \p{user-defined} whose definitions |
17316 | aren't available at the time this was called */ |
17317 | STRLEN initial_listsv_len = 0; /* Kind of a kludge to see if it is more |
17318 | than just initialized. */ |
17319 | SV* properties = NULL((void*)0); /* Code points that match \p{} \P{} */ |
17320 | SV* posixes = NULL((void*)0); /* Code points that match classes like [:word:], |
17321 | extended beyond the Latin1 range. These have to |
17322 | be kept separate from other code points for much |
17323 | of this function because their handling is |
17324 | different under /i, and for most classes under |
17325 | /d as well */ |
17326 | SV* nposixes = NULL((void*)0); /* Similarly for [:^word:]. These are kept |
17327 | separate for a while from the non-complemented |
17328 | versions because of complications with /d |
17329 | matching */ |
17330 | SV* simple_posixes = NULL((void*)0); /* But under some conditions, the classes can be |
17331 | treated more simply than the general case, |
17332 | leading to less compilation and execution |
17333 | work */ |
17334 | UV element_count = 0; /* Number of distinct elements in the class. |
17335 | Optimizations may be possible if this is tiny */ |
17336 | AV * multi_char_matches = NULL((void*)0); /* Code points that fold to more than one |
17337 | character; used under /i */ |
17338 | UV n; |
17339 | char * stop_ptr = RExC_end(pRExC_state->end); /* where to stop parsing */ |
17340 | |
17341 | /* ignore unescaped whitespace? */ |
17342 | const bool_Bool skip_white = cBOOL( ret_invlist((ret_invlist || ((pRExC_state->flags) & (1U << ( 0 +4)))) ? (_Bool)1 : (_Bool)0) |
17343 | || (RExC_flags & RXf_PMf_EXTENDED_MORE))((ret_invlist || ((pRExC_state->flags) & (1U << ( 0 +4)))) ? (_Bool)1 : (_Bool)0); |
17344 | |
17345 | /* inversion list of code points this node matches only when the target |
17346 | * string is in UTF-8. These are all non-ASCII, < 256. (Because is under |
17347 | * /d) */ |
17348 | SV* upper_latin1_only_utf8_matches = NULL((void*)0); |
17349 | |
17350 | /* Inversion list of code points this node matches regardless of things |
17351 | * like locale, folding, utf8ness of the target string */ |
17352 | SV* cp_list = NULL((void*)0); |
17353 | |
17354 | /* Like cp_list, but code points on this list need to be checked for things |
17355 | * that fold to/from them under /i */ |
17356 | SV* cp_foldable_list = NULL((void*)0); |
17357 | |
17358 | /* Like cp_list, but code points on this list are valid only when the |
17359 | * runtime locale is UTF-8 */ |
17360 | SV* only_utf8_locale_list = NULL((void*)0); |
17361 | |
17362 | /* In a range, if one of the endpoints is non-character-set portable, |
17363 | * meaning that it hard-codes a code point that may mean a different |
17364 | * charactger in ASCII vs. EBCDIC, as opposed to, say, a literal 'A' or a |
17365 | * mnemonic '\t' which each mean the same character no matter which |
17366 | * character set the platform is on. */ |
17367 | unsigned int non_portable_endpoint = 0; |
17368 | |
17369 | /* Is the range unicode? which means on a platform that isn't 1-1 native |
17370 | * to Unicode (i.e. non-ASCII), each code point in it should be considered |
17371 | * to be a Unicode value. */ |
17372 | bool_Bool unicode_range = FALSE(0); |
17373 | bool_Bool invert = FALSE(0); /* Is this class to be complemented */ |
17374 | |
17375 | bool_Bool warn_super = ALWAYS_WARN_SUPER(PL_curcop && !((PL_curcop->cop_warnings) == ((void *)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_NONE ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* ((((48 )) & 0xFF))+1) / 8)] & (1 << ((2*((((48 ) ) & 0xFF))+1) % 8)))) || (((((48 )) >>8) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((48 )) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((((48 )) >>8) & 0xFF))+1) % 8)))) || (((((48 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((48 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((48 )) >>16) & 0xFF ))+1) % 8)))) || (((((48 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((48 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((48 )) >> 24) & 0xFF))+1) % 8))))))))))); |
17376 | |
17377 | const char * orig_parse = RExC_parse(pRExC_state->parse); |
17378 | |
17379 | /* This variable is used to mark where the end in the input is of something |
17380 | * that looks like a POSIX construct but isn't. During the parse, when |
17381 | * something looks like it could be such a construct is encountered, it is |
17382 | * checked for being one, but not if we've already checked this area of the |
17383 | * input. Only after this position is reached do we check again */ |
17384 | char *not_posix_region_end = RExC_parse(pRExC_state->parse) - 1; |
17385 | |
17386 | AV* posix_warnings = NULL((void*)0); |
17387 | const bool_Bool do_posix_warnings = ckWARN(WARN_REGEXP)Perl_ckwarn( (20 )); |
17388 | U8 op = END0; /* The returned node-type, initialized to an impossible |
17389 | one. */ |
17390 | U8 anyof_flags = 0; /* flag bits if the node is an ANYOF-type */ |
17391 | U32 posixl = 0; /* bit field of posix classes matched under /l */ |
17392 | |
17393 | |
17394 | /* Flags as to what things aren't knowable until runtime. (Note that these are |
17395 | * mutually exclusive.) */ |
17396 | #define HAS_USER_DEFINED_PROPERTY0x01 0x01 /* /u any user-defined properties that |
17397 | haven't been defined as of yet */ |
17398 | #define HAS_D_RUNTIME_DEPENDENCY0x02 0x02 /* /d if the target being matched is |
17399 | UTF-8 or not */ |
17400 | #define HAS_L_RUNTIME_DEPENDENCY0x04 0x04 /* /l what the posix classes match and |
17401 | what gets folded */ |
17402 | U32 has_runtime_dependency = 0; /* OR of the above flags */ |
17403 | |
17404 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 17404, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 17404, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
17405 | |
17406 | PERL_ARGS_ASSERT_REGCLASS((pRExC_state) ? (void)0 : __assert2("re_comp.c", 17406, __func__ , "pRExC_state")); ((flagp) ? (void)0 : __assert2("re_comp.c" , 17406, __func__, "flagp")); |
17407 | #ifndef DEBUGGING |
17408 | PERL_UNUSED_ARG(depth)((void)sizeof(depth)); |
17409 | #endif |
17410 | |
17411 | assert(! (ret_invlist && allow_mutiple_chars))((! (ret_invlist && allow_mutiple_chars)) ? (void)0 : __assert2("re_comp.c", 17411, __func__, "! (ret_invlist && allow_mutiple_chars)" )); |
17412 | |
17413 | /* If wants an inversion list returned, we can't optimize to something |
17414 | * else. */ |
17415 | if (ret_invlist) { |
17416 | optimizable = FALSE(0); |
17417 | } |
17418 | |
17419 | DEBUG_PARSE("clas")do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (("clas")) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0); Perl_re_printf( "%4s" ,"\n"); };} while (0); |
17420 | |
17421 | #if UNICODE_MAJOR_VERSION13 < 3 /* no multifolds in early Unicode */ \ |
17422 | || (UNICODE_MAJOR_VERSION13 == 3 && UNICODE_DOT_VERSION0 == 0 \ |
17423 | && UNICODE_DOT_DOT_VERSION0 == 0) |
17424 | allow_mutiple_chars = FALSE(0); |
17425 | #endif |
17426 | |
17427 | /* We include the /i status at the beginning of this so that we can |
17428 | * know it at runtime */ |
17429 | listsv = sv_2mortal(Perl_newSVpvf(aTHX_ "#%d\n", cBOOL(FOLD)))Perl_sv_2mortal( Perl_newSVpvf( "#%d\n", (((((pRExC_state-> flags) & (1U << (0 +2))) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0))); |
17430 | initial_listsv_len = SvCUR(listsv)(*({ const SV *const _svcur = (const SV *)(listsv); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 17430, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 17430, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 17430, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })); |
17431 | SvTEMP_off(listsv)((listsv)->sv_flags &= ~0x00080000); /* Grr, TEMPs and mortals are conflated. */ |
17432 | |
17433 | SKIP_BRACKETED_WHITE_SPACE(skip_white, RExC_parse, RExC_end)do { if (skip_white) { while ((pRExC_state->parse) < (pRExC_state ->end) && (( (sizeof(((int)*(const U8*)((pRExC_state ->parse)))) == 1) || !(((U64)((((int)*(const U8*)((pRExC_state ->parse)))) | 0)) & ~0xFF)) && ((PL_charclass[ (U8) (((int)*(const U8*)((pRExC_state->parse))))] & (( 1U << (11)) | (1U << (14)))) == ((1U << (11 )) | (1U << (14)))))) { (pRExC_state->parse)++; } } } while (0); |
17434 | |
17435 | assert(RExC_parse <= RExC_end)(((pRExC_state->parse) <= (pRExC_state->end)) ? (void )0 : __assert2("re_comp.c", 17435, __func__, "RExC_parse <= RExC_end" )); |
17436 | |
17437 | if (UCHARAT(RExC_parse)((int)*(const U8*)((pRExC_state->parse))) == '^') { /* Complement the class */ |
17438 | RExC_parse(pRExC_state->parse)++; |
17439 | invert = TRUE(1); |
17440 | allow_mutiple_chars = FALSE(0); |
17441 | MARK_NAUGHTY(1)if ((pRExC_state->naughty) < (10)) (pRExC_state->naughty ) += (1); |
17442 | SKIP_BRACKETED_WHITE_SPACE(skip_white, RExC_parse, RExC_end)do { if (skip_white) { while ((pRExC_state->parse) < (pRExC_state ->end) && (( (sizeof(((int)*(const U8*)((pRExC_state ->parse)))) == 1) || !(((U64)((((int)*(const U8*)((pRExC_state ->parse)))) | 0)) & ~0xFF)) && ((PL_charclass[ (U8) (((int)*(const U8*)((pRExC_state->parse))))] & (( 1U << (11)) | (1U << (14)))) == ((1U << (11 )) | (1U << (14)))))) { (pRExC_state->parse)++; } } } while (0); |
17443 | } |
17444 | |
17445 | /* Check that they didn't say [:posix:] instead of [[:posix:]] */ |
17446 | if (! ret_invlist && MAYBE_POSIXCC(UCHARAT(RExC_parse))((((((int)*(const U8*)((pRExC_state->parse)))) == ':') || ( (((int)*(const U8*)((pRExC_state->parse)))) == '=' || (((int )*(const U8*)((pRExC_state->parse)))) == '.')) || (((int)* (const U8*)((pRExC_state->parse)))) == '^' || (((int)*(const U8*)((pRExC_state->parse)))) == ';')) { |
17447 | int maybe_class = handle_possible_posix(pRExC_state,S_handle_possible_posix( pRExC_state,(pRExC_state->parse), ¬_posix_region_end,((void*)0),(1)) |
17448 | RExC_parse,S_handle_possible_posix( pRExC_state,(pRExC_state->parse), ¬_posix_region_end,((void*)0),(1)) |
17449 | ¬_posix_region_end,S_handle_possible_posix( pRExC_state,(pRExC_state->parse), ¬_posix_region_end,((void*)0),(1)) |
17450 | NULL,S_handle_possible_posix( pRExC_state,(pRExC_state->parse), ¬_posix_region_end,((void*)0),(1)) |
17451 | TRUE /* checking only */)S_handle_possible_posix( pRExC_state,(pRExC_state->parse), ¬_posix_region_end,((void*)0),(1)); |
17452 | if (maybe_class >= OOB_NAMEDCLASS-1 && do_posix_warnings) { |
17453 | ckWARN4reg(not_posix_region_end,do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 17461, not_posix_region_end ); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + (not_posix_region_end - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "POSIX syntax [%c %c] belongs inside character classes%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", *(pRExC_state->parse ), *(pRExC_state->parse), (maybe_class == -1) ? ((((*(pRExC_state ->parse)) == '=' || (*(pRExC_state->parse)) == '.')) ? " (but this one isn't implemented)" : " (but this one isn't fully valid)") : "", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) >= 0) ? (((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 17461, (IV) (((pRExC_state-> copy_start_in_input) + (not_posix_region_end - (pRExC_state-> copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))), ( void*)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + (not_posix_region_end - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))))? ((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))))) )?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))))))) - (pRExC_state->precomp ); } } while (0); } } while (0) |
17454 | "POSIX syntax [%c %c] belongs inside character classes%s",do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 17461, not_posix_region_end ); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + (not_posix_region_end - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "POSIX syntax [%c %c] belongs inside character classes%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", *(pRExC_state->parse ), *(pRExC_state->parse), (maybe_class == -1) ? ((((*(pRExC_state ->parse)) == '=' || (*(pRExC_state->parse)) == '.')) ? " (but this one isn't implemented)" : " (but this one isn't fully valid)") : "", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) >= 0) ? (((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 17461, (IV) (((pRExC_state-> copy_start_in_input) + (not_posix_region_end - (pRExC_state-> copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))), ( void*)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + (not_posix_region_end - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))))? ((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))))) )?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))))))) - (pRExC_state->precomp ); } } while (0); } } while (0) |
17455 | *RExC_parse, *RExC_parse,do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 17461, not_posix_region_end ); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + (not_posix_region_end - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "POSIX syntax [%c %c] belongs inside character classes%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", *(pRExC_state->parse ), *(pRExC_state->parse), (maybe_class == -1) ? ((((*(pRExC_state ->parse)) == '=' || (*(pRExC_state->parse)) == '.')) ? " (but this one isn't implemented)" : " (but this one isn't fully valid)") : "", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) >= 0) ? (((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 17461, (IV) (((pRExC_state-> copy_start_in_input) + (not_posix_region_end - (pRExC_state-> copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))), ( void*)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + (not_posix_region_end - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))))? ((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))))) )?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))))))) - (pRExC_state->precomp ); } } while (0); } } while (0) |
17456 | (maybe_class == OOB_NAMEDCLASS)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 17461, not_posix_region_end ); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + (not_posix_region_end - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "POSIX syntax [%c %c] belongs inside character classes%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", *(pRExC_state->parse ), *(pRExC_state->parse), (maybe_class == -1) ? ((((*(pRExC_state ->parse)) == '=' || (*(pRExC_state->parse)) == '.')) ? " (but this one isn't implemented)" : " (but this one isn't fully valid)") : "", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) >= 0) ? (((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 17461, (IV) (((pRExC_state-> copy_start_in_input) + (not_posix_region_end - (pRExC_state-> copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))), ( void*)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + (not_posix_region_end - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))))? ((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))))) )?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))))))) - (pRExC_state->precomp ); } } while (0); } } while (0) |
17457 | ? ((POSIXCC_NOTYET(*RExC_parse))do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 17461, not_posix_region_end ); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + (not_posix_region_end - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "POSIX syntax [%c %c] belongs inside character classes%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", *(pRExC_state->parse ), *(pRExC_state->parse), (maybe_class == -1) ? ((((*(pRExC_state ->parse)) == '=' || (*(pRExC_state->parse)) == '.')) ? " (but this one isn't implemented)" : " (but this one isn't fully valid)") : "", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) >= 0) ? (((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 17461, (IV) (((pRExC_state-> copy_start_in_input) + (not_posix_region_end - (pRExC_state-> copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))), ( void*)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + (not_posix_region_end - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))))? ((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))))) )?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))))))) - (pRExC_state->precomp ); } } while (0); } } while (0) |
17458 | ? " (but this one isn't implemented)"do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 17461, not_posix_region_end ); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + (not_posix_region_end - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "POSIX syntax [%c %c] belongs inside character classes%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", *(pRExC_state->parse ), *(pRExC_state->parse), (maybe_class == -1) ? ((((*(pRExC_state ->parse)) == '=' || (*(pRExC_state->parse)) == '.')) ? " (but this one isn't implemented)" : " (but this one isn't fully valid)") : "", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) >= 0) ? (((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 17461, (IV) (((pRExC_state-> copy_start_in_input) + (not_posix_region_end - (pRExC_state-> copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))), ( void*)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + (not_posix_region_end - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))))? ((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))))) )?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))))))) - (pRExC_state->precomp ); } } while (0); } } while (0) |
17459 | : " (but this one isn't fully valid)")do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 17461, not_posix_region_end ); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + (not_posix_region_end - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "POSIX syntax [%c %c] belongs inside character classes%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", *(pRExC_state->parse ), *(pRExC_state->parse), (maybe_class == -1) ? ((((*(pRExC_state ->parse)) == '=' || (*(pRExC_state->parse)) == '.')) ? " (but this one isn't implemented)" : " (but this one isn't fully valid)") : "", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) >= 0) ? (((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 17461, (IV) (((pRExC_state-> copy_start_in_input) + (not_posix_region_end - (pRExC_state-> copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))), ( void*)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + (not_posix_region_end - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))))? ((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))))) )?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))))))) - (pRExC_state->precomp ); } } while (0); } } while (0) |
17460 | : ""do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 17461, not_posix_region_end ); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + (not_posix_region_end - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "POSIX syntax [%c %c] belongs inside character classes%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", *(pRExC_state->parse ), *(pRExC_state->parse), (maybe_class == -1) ? ((((*(pRExC_state ->parse)) == '=' || (*(pRExC_state->parse)) == '.')) ? " (but this one isn't implemented)" : " (but this one isn't fully valid)") : "", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) >= 0) ? (((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 17461, (IV) (((pRExC_state-> copy_start_in_input) + (not_posix_region_end - (pRExC_state-> copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))), ( void*)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + (not_posix_region_end - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))))? ((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))))) )?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))))))) - (pRExC_state->precomp ); } } while (0); } } while (0) |
17461 | )do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 17461, not_posix_region_end ); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + (not_posix_region_end - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "POSIX syntax [%c %c] belongs inside character classes%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", *(pRExC_state->parse ), *(pRExC_state->parse), (maybe_class == -1) ? ((((*(pRExC_state ->parse)) == '=' || (*(pRExC_state->parse)) == '.')) ? " (but this one isn't implemented)" : " (but this one isn't fully valid)") : "", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) - (pRExC_state->precomp ) : (((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) >= 0) ? (((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 17461, (IV) (((pRExC_state-> copy_start_in_input) + (not_posix_region_end - (pRExC_state-> copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))), ( void*)((((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))) > (pRExC_state->precomp_end )) ? (pRExC_state->precomp_end) : ((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + (not_posix_region_end - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))))? ((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (not_posix_region_end - (pRExC_state->copy_start)))))) )?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start)))))?((pRExC_state->precomp_end )):(((pRExC_state->copy_start_in_input) + (not_posix_region_end - (pRExC_state->copy_start))))))) - (pRExC_state->precomp ); } } while (0); } } while (0); |
17462 | } |
17463 | } |
17464 | |
17465 | /* If the caller wants us to just parse a single element, accomplish this |
17466 | * by faking the loop ending condition */ |
17467 | if (stop_at_1 && RExC_end(pRExC_state->end) > RExC_parse(pRExC_state->parse)) { |
17468 | stop_ptr = RExC_parse(pRExC_state->parse) + 1; |
17469 | } |
17470 | |
17471 | /* allow 1st char to be ']' (allowing it to be '-' is dealt with later) */ |
17472 | if (UCHARAT(RExC_parse)((int)*(const U8*)((pRExC_state->parse))) == ']') |
17473 | goto charclassloop; |
17474 | |
17475 | while (1) { |
17476 | |
17477 | if ( posix_warnings |
17478 | && av_tindex_skip_len_mg(posix_warnings)(((((svtype)((posix_warnings)->sv_flags & 0xff)) == SVt_PVAV ) ? (void)0 : __assert2("re_comp.c", 17478, __func__, "((svtype)((posix_warnings)->sv_flags & 0xff)) == SVt_PVAV" )), ((XPVAV*) (posix_warnings)->sv_any)->xav_fill) >= 0 |
17479 | && RExC_parse(pRExC_state->parse) > not_posix_region_end) |
17480 | { |
17481 | /* Warnings about posix class issues are considered tentative until |
17482 | * we are far enough along in the parse that we can no longer |
17483 | * change our mind, at which point we output them. This is done |
17484 | * each time through the loop so that a later class won't zap them |
17485 | * before they have been dealt with. */ |
17486 | output_posix_warnings(pRExC_state, posix_warnings)S_output_posix_warnings( pRExC_state,posix_warnings); |
17487 | } |
17488 | |
17489 | SKIP_BRACKETED_WHITE_SPACE(skip_white, RExC_parse, RExC_end)do { if (skip_white) { while ((pRExC_state->parse) < (pRExC_state ->end) && (( (sizeof(((int)*(const U8*)((pRExC_state ->parse)))) == 1) || !(((U64)((((int)*(const U8*)((pRExC_state ->parse)))) | 0)) & ~0xFF)) && ((PL_charclass[ (U8) (((int)*(const U8*)((pRExC_state->parse))))] & (( 1U << (11)) | (1U << (14)))) == ((1U << (11 )) | (1U << (14)))))) { (pRExC_state->parse)++; } } } while (0); |
17490 | |
17491 | if (RExC_parse(pRExC_state->parse) >= stop_ptr) { |
17492 | break; |
17493 | } |
17494 | |
17495 | if (UCHARAT(RExC_parse)((int)*(const U8*)((pRExC_state->parse))) == ']') { |
17496 | break; |
17497 | } |
17498 | |
17499 | charclassloop: |
17500 | |
17501 | namedclass = OOB_NAMEDCLASS-1; /* initialize as illegal */ |
17502 | save_value = value; |
17503 | save_prevvalue = prevvalue; |
17504 | |
17505 | if (!range) { |
17506 | rangebegin = RExC_parse(pRExC_state->parse); |
17507 | element_count++; |
17508 | non_portable_endpoint = 0; |
17509 | } |
17510 | if (UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) && ! UTF8_IS_INVARIANT(* RExC_parse)((((U64)(((UV) (((* (pRExC_state->parse)) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) { |
17511 | value = utf8n_to_uvchr((U8*)RExC_parse,Perl_utf8n_to_uvchr_msgs((U8*)(pRExC_state->parse), (pRExC_state ->end) - (pRExC_state->parse), &numlen, 0, 0, 0) |
17512 | RExC_end - RExC_parse,Perl_utf8n_to_uvchr_msgs((U8*)(pRExC_state->parse), (pRExC_state ->end) - (pRExC_state->parse), &numlen, 0, 0, 0) |
17513 | &numlen, UTF8_ALLOW_DEFAULT)Perl_utf8n_to_uvchr_msgs((U8*)(pRExC_state->parse), (pRExC_state ->end) - (pRExC_state->parse), &numlen, 0, 0, 0); |
17514 | RExC_parse(pRExC_state->parse) += numlen; |
17515 | } |
17516 | else |
17517 | value = UCHARAT(RExC_parse++)((int)*(const U8*)((pRExC_state->parse)++)); |
17518 | |
17519 | if (value == '[') { |
17520 | char * posix_class_end; |
17521 | namedclass = handle_possible_posix(pRExC_state,S_handle_possible_posix( pRExC_state,(pRExC_state->parse), &posix_class_end,do_posix_warnings ? &posix_warnings : ((void*)0),(0)) |
17522 | RExC_parse,S_handle_possible_posix( pRExC_state,(pRExC_state->parse), &posix_class_end,do_posix_warnings ? &posix_warnings : ((void*)0),(0)) |
17523 | &posix_class_end,S_handle_possible_posix( pRExC_state,(pRExC_state->parse), &posix_class_end,do_posix_warnings ? &posix_warnings : ((void*)0),(0)) |
17524 | do_posix_warnings ? &posix_warnings : NULL,S_handle_possible_posix( pRExC_state,(pRExC_state->parse), &posix_class_end,do_posix_warnings ? &posix_warnings : ((void*)0),(0)) |
17525 | FALSE /* die if error */)S_handle_possible_posix( pRExC_state,(pRExC_state->parse), &posix_class_end,do_posix_warnings ? &posix_warnings : ((void*)0),(0)); |
17526 | if (namedclass > OOB_NAMEDCLASS-1) { |
17527 | |
17528 | /* If there was an earlier attempt to parse this particular |
17529 | * posix class, and it failed, it was a false alarm, as this |
17530 | * successful one proves */ |
17531 | if ( posix_warnings |
17532 | && av_tindex_skip_len_mg(posix_warnings)(((((svtype)((posix_warnings)->sv_flags & 0xff)) == SVt_PVAV ) ? (void)0 : __assert2("re_comp.c", 17532, __func__, "((svtype)((posix_warnings)->sv_flags & 0xff)) == SVt_PVAV" )), ((XPVAV*) (posix_warnings)->sv_any)->xav_fill) >= 0 |
17533 | && not_posix_region_end >= RExC_parse(pRExC_state->parse) |
17534 | && not_posix_region_end <= posix_class_end) |
17535 | { |
17536 | av_undef(posix_warnings)Perl_av_undef( posix_warnings); |
17537 | } |
17538 | |
17539 | RExC_parse(pRExC_state->parse) = posix_class_end; |
17540 | } |
17541 | else if (namedclass == OOB_NAMEDCLASS-1) { |
17542 | not_posix_region_end = posix_class_end; |
17543 | } |
17544 | else { |
17545 | namedclass = OOB_NAMEDCLASS-1; |
17546 | } |
17547 | } |
17548 | else if ( RExC_parse(pRExC_state->parse) - 1 > not_posix_region_end |
17549 | && MAYBE_POSIXCC(value)((((value) == ':') || ((value) == '=' || (value) == '.')) || ( value) == '^' || (value) == ';')) |
17550 | { |
17551 | (void) handle_possible_posix(S_handle_possible_posix( pRExC_state,(pRExC_state->parse) - 1,¬_posix_region_end,do_posix_warnings ? &posix_warnings : ((void*)0),(1)) |
17552 | pRExC_state,S_handle_possible_posix( pRExC_state,(pRExC_state->parse) - 1,¬_posix_region_end,do_posix_warnings ? &posix_warnings : ((void*)0),(1)) |
17553 | RExC_parse - 1, /* -1 because parse has already beenS_handle_possible_posix( pRExC_state,(pRExC_state->parse) - 1,¬_posix_region_end,do_posix_warnings ? &posix_warnings : ((void*)0),(1)) |
17554 | advanced */S_handle_possible_posix( pRExC_state,(pRExC_state->parse) - 1,¬_posix_region_end,do_posix_warnings ? &posix_warnings : ((void*)0),(1)) |
17555 | ¬_posix_region_end,S_handle_possible_posix( pRExC_state,(pRExC_state->parse) - 1,¬_posix_region_end,do_posix_warnings ? &posix_warnings : ((void*)0),(1)) |
17556 | do_posix_warnings ? &posix_warnings : NULL,S_handle_possible_posix( pRExC_state,(pRExC_state->parse) - 1,¬_posix_region_end,do_posix_warnings ? &posix_warnings : ((void*)0),(1)) |
17557 | TRUE /* checking only */)S_handle_possible_posix( pRExC_state,(pRExC_state->parse) - 1,¬_posix_region_end,do_posix_warnings ? &posix_warnings : ((void*)0),(1)); |
17558 | } |
17559 | else if ( strict && ! skip_white |
17560 | && ( _generic_isCC(value, _CC_VERTSPACE)((( (sizeof(value) == 1) || !(((U64)((value) | 0)) & ~0xFF )) && (PL_charclass[(U8) (value)] & (1U << ( 15)))) ? (_Bool)1 : (_Bool)0) |
17561 | || is_VERTWS_cp_high(value)( 0x2028 == value || 0x2029 == value ))) |
17562 | { |
17563 | vFAIL("Literal vertical space in [] is illegal except under /x")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Literal vertical space in [] is illegal except under /x" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 17563, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
17564 | } |
17565 | else if (value == '\\') { |
17566 | /* Is a backslash; get the code point of the char after it */ |
17567 | |
17568 | if (RExC_parse(pRExC_state->parse) >= RExC_end(pRExC_state->end)) { |
17569 | vFAIL("Unmatched [")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Unmatched [", (int)(((((pRExC_state->utf8 )) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 17569, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
17570 | } |
17571 | |
17572 | if (UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) && ! UTF8_IS_INVARIANT(UCHARAT(RExC_parse))((((U64)(((UV) (((((int)*(const U8*)((pRExC_state->parse)) )) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) { |
17573 | value = utf8n_to_uvchr((U8*)RExC_parse,Perl_utf8n_to_uvchr_msgs((U8*)(pRExC_state->parse), (pRExC_state ->end) - (pRExC_state->parse), &numlen, 0, 0, 0) |
17574 | RExC_end - RExC_parse,Perl_utf8n_to_uvchr_msgs((U8*)(pRExC_state->parse), (pRExC_state ->end) - (pRExC_state->parse), &numlen, 0, 0, 0) |
17575 | &numlen, UTF8_ALLOW_DEFAULT)Perl_utf8n_to_uvchr_msgs((U8*)(pRExC_state->parse), (pRExC_state ->end) - (pRExC_state->parse), &numlen, 0, 0, 0); |
17576 | RExC_parse(pRExC_state->parse) += numlen; |
17577 | } |
17578 | else |
17579 | value = UCHARAT(RExC_parse++)((int)*(const U8*)((pRExC_state->parse)++)); |
17580 | |
17581 | /* Some compilers cannot handle switching on 64-bit integer |
17582 | * values, therefore value cannot be an UV. Yes, this will |
17583 | * be a problem later if we want switch on Unicode. |
17584 | * A similar issue a little bit later when switching on |
17585 | * namedclass. --jhi */ |
17586 | |
17587 | /* If the \ is escaping white space when white space is being |
17588 | * skipped, it means that that white space is wanted literally, and |
17589 | * is already in 'value'. Otherwise, need to translate the escape |
17590 | * into what it signifies. */ |
17591 | if (! skip_white || ! isBLANK_A(value)(( (sizeof(value) == 1) || !(((U64)((value) | 0)) & ~0xFF )) && ((PL_charclass[(U8) (value)] & ((1U << (11)) | (1U << (14)))) == ((1U << (11)) | (1U << (14)))))) switch ((I32)value) { |
17592 | const char * message; |
17593 | U32 packed_warn; |
17594 | U8 grok_c_char; |
17595 | |
17596 | case 'w': namedclass = ANYOF_WORDCHAR((0) * 2); break; |
17597 | case 'W': namedclass = ANYOF_NWORDCHAR((((0) * 2)) + 1); break; |
17598 | case 's': namedclass = ANYOF_SPACE((10) * 2); break; |
17599 | case 'S': namedclass = ANYOF_NSPACE((((10) * 2)) + 1); break; |
17600 | case 'd': namedclass = ANYOF_DIGIT((1) * 2); break; |
17601 | case 'D': namedclass = ANYOF_NDIGIT((((1) * 2)) + 1); break; |
17602 | case 'v': namedclass = ANYOF_VERTWS((15) * 2); break; |
17603 | case 'V': namedclass = ANYOF_NVERTWS((((15) * 2))+1); break; |
17604 | case 'h': namedclass = ANYOF_HORIZWS(((((15) * 2)))+2); break; |
17605 | case 'H': namedclass = ANYOF_NHORIZWS(((((15) * 2)))+3); break; |
17606 | case 'N': /* Handle \N{NAME} in class */ |
17607 | { |
17608 | const char * const backslash_N_beg = RExC_parse(pRExC_state->parse) - 2; |
17609 | int cp_count; |
17610 | |
17611 | if (! grok_bslash_N(pRExC_state,S_grok_bslash_N( pRExC_state,((void*)0),&value,&cp_count ,flagp,strict,depth) |
17612 | NULL, /* No regnode */S_grok_bslash_N( pRExC_state,((void*)0),&value,&cp_count ,flagp,strict,depth) |
17613 | &value, /* Yes single value */S_grok_bslash_N( pRExC_state,((void*)0),&value,&cp_count ,flagp,strict,depth) |
17614 | &cp_count, /* Multiple code pt count */S_grok_bslash_N( pRExC_state,((void*)0),&value,&cp_count ,flagp,strict,depth) |
17615 | flagp,S_grok_bslash_N( pRExC_state,((void*)0),&value,&cp_count ,flagp,strict,depth) |
17616 | strict,S_grok_bslash_N( pRExC_state,((void*)0),&value,&cp_count ,flagp,strict,depth) |
17617 | depth)S_grok_bslash_N( pRExC_state,((void*)0),&value,&cp_count ,flagp,strict,depth) |
17618 | ) { |
17619 | |
17620 | if (*flagp & NEED_UTF80x40) |
17621 | FAIL("panic: grok_bslash_N set NEED_UTF8")do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "%s in regex m/%" "d%" "lu" "%4p" "%s/", "panic: grok_bslash_N set NEED_UTF8" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp )), ellipses); } while (0); |
17622 | |
17623 | RETURN_FAIL_ON_RESTART_FLAGP(flagp)if (((*(flagp)) & (0x20))) return 0; |
17624 | |
17625 | if (cp_count < 0) { |
17626 | vFAIL("\\N in a character class must be a named character: \\N{...}")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "\\N in a character class must be a named character: \\N{...}" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 17626, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
17627 | } |
17628 | else if (cp_count == 0) { |
17629 | ckWARNreg(RExC_parse,do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 17630, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "Ignoring zero length \\N{} in character class" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 17630, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
17630 | "Ignoring zero length \\N{} in character class")do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 17630, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "Ignoring zero length \\N{} in character class" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 17630, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); |
17631 | } |
17632 | else { /* cp_count > 1 */ |
17633 | assert(cp_count > 1)((cp_count > 1) ? (void)0 : __assert2("re_comp.c", 17633, __func__ , "cp_count > 1")); |
17634 | if (! RExC_in_multi_char_class(pRExC_state->in_multi_char_class)) { |
17635 | if ( ! allow_mutiple_chars |
17636 | || invert |
17637 | || range |
17638 | || *RExC_parse(pRExC_state->parse) == '-') |
17639 | { |
17640 | if (strict) { |
17641 | RExC_parse(pRExC_state->parse)--; |
17642 | vFAIL("\\N{} here is restricted to one character")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "\\N{} here is restricted to one character", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 17642, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
17643 | } |
17644 | ckWARNreg(RExC_parse, "Using just the first character returned by \\N{} in character class")do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 17644, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "Using just the first character returned by \\N{} in character class" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 17644, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); |
17645 | break; /* <value> contains the first code |
17646 | point. Drop out of the switch to |
17647 | process it */ |
17648 | } |
17649 | else { |
17650 | SV * multi_char_N = newSVpvn(backslash_N_beg,Perl_newSVpvn( backslash_N_beg,(pRExC_state->parse) - backslash_N_beg ) |
17651 | RExC_parse - backslash_N_beg)Perl_newSVpvn( backslash_N_beg,(pRExC_state->parse) - backslash_N_beg ); |
17652 | multi_char_matches |
17653 | = add_multi_match(multi_char_matches,S_add_multi_match( multi_char_matches,multi_char_N,cp_count) |
17654 | multi_char_N,S_add_multi_match( multi_char_matches,multi_char_N,cp_count) |
17655 | cp_count)S_add_multi_match( multi_char_matches,multi_char_N,cp_count); |
17656 | } |
17657 | } |
17658 | } /* End of cp_count != 1 */ |
17659 | |
17660 | /* This element should not be processed further in this |
17661 | * class */ |
17662 | element_count--; |
17663 | value = save_value; |
17664 | prevvalue = save_prevvalue; |
17665 | continue; /* Back to top of loop to get next char */ |
17666 | } |
17667 | |
17668 | /* Here, is a single code point, and <value> contains it */ |
17669 | unicode_range = TRUE(1); /* \N{} are Unicode */ |
17670 | } |
17671 | break; |
17672 | case 'p': |
17673 | case 'P': |
17674 | { |
17675 | char *e; |
17676 | |
17677 | if (RExC_pm_flags(pRExC_state->pm_flags) & PMf_WILDCARD(1U<<(((0 +12)+2)+17))) { |
17678 | RExC_parse(pRExC_state->parse)++; |
17679 | /* diag_listed_as: Use of %s is not allowed in Unicode |
17680 | property wildcard subpatterns in regex; marked by <-- |
17681 | HERE in m/%s/ */ |
17682 | vFAIL3("Use of '\\%c%c' is not allowed in Unicode property"do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Use of '\\%c%c' is not allowed in Unicode property" " wildcard subpatterns" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (char) value, *((pRExC_state->parse) - 1), (int)(((( (pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : ( _Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state ->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 17683, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0) |
17683 | " wildcard subpatterns", (char) value, *(RExC_parse - 1))do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Use of '\\%c%c' is not allowed in Unicode property" " wildcard subpatterns" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (char) value, *((pRExC_state->parse) - 1), (int)(((( (pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : ( _Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state ->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 17683, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
17684 | } |
17685 | |
17686 | /* \p means they want Unicode semantics */ |
17687 | REQUIRE_UNI_RULES(flagp, 0)do { if ((get_regex_charset((pRExC_state->flags)) == REGEX_DEPENDS_CHARSET )) { set_regex_charset(&(pRExC_state->flags), REGEX_UNICODE_CHARSET ); (pRExC_state->uni_semantics) = 1; if ((pRExC_state-> seen_d_op) && __builtin_expect(((! ((pRExC_state-> total_par) < 0)) ? (_Bool)1 : (_Bool)0),(1))) { *flagp |= 0x20 ; return 0; } } } while (0); |
17688 | |
17689 | if (RExC_parse(pRExC_state->parse) >= RExC_end(pRExC_state->end)) |
17690 | vFAIL2("Empty \\%c", (U8)value)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Empty \\%c" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (U8)value, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 17690, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
17691 | if (*RExC_parse(pRExC_state->parse) == '{') { |
17692 | const U8 c = (U8)value; |
17693 | e = (char *) memchr(RExC_parse(pRExC_state->parse), '}', RExC_end(pRExC_state->end) - RExC_parse(pRExC_state->parse)); |
17694 | if (!e) { |
17695 | RExC_parse(pRExC_state->parse)++; |
17696 | vFAIL2("Missing right brace on \\%c{}", c)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Missing right brace on \\%c{}" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", c, (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 17696, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
17697 | } |
17698 | |
17699 | RExC_parse(pRExC_state->parse)++; |
17700 | |
17701 | /* White space is allowed adjacent to the braces and after |
17702 | * any '^', even when not under /x */ |
17703 | while (isSPACE(*RExC_parse)(( (sizeof(*(pRExC_state->parse)) == 1) || !(((U64)((*(pRExC_state ->parse)) | 0)) & ~0xFF)) && ((PL_charclass[(U8 ) (*(pRExC_state->parse))] & ((1U << (10)) | (1U << (14)))) == ((1U << (10)) | (1U << (14)) )))) { |
17704 | RExC_parse(pRExC_state->parse)++; |
17705 | } |
17706 | |
17707 | if (UCHARAT(RExC_parse)((int)*(const U8*)((pRExC_state->parse))) == '^') { |
17708 | |
17709 | /* toggle. (The rhs xor gets the single bit that |
17710 | * differs between P and p; the other xor inverts just |
17711 | * that bit) */ |
17712 | value ^= 'P' ^ 'p'; |
17713 | |
17714 | RExC_parse(pRExC_state->parse)++; |
17715 | while (isSPACE(*RExC_parse)(( (sizeof(*(pRExC_state->parse)) == 1) || !(((U64)((*(pRExC_state ->parse)) | 0)) & ~0xFF)) && ((PL_charclass[(U8 ) (*(pRExC_state->parse))] & ((1U << (10)) | (1U << (14)))) == ((1U << (10)) | (1U << (14)) )))) { |
17716 | RExC_parse(pRExC_state->parse)++; |
17717 | } |
17718 | } |
17719 | |
17720 | if (e == RExC_parse(pRExC_state->parse)) |
17721 | vFAIL2("Empty \\%c{}", c)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Empty \\%c{}" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", c, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 17721, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
17722 | |
17723 | n = e - RExC_parse(pRExC_state->parse); |
17724 | while (isSPACE(*(RExC_parse + n - 1))(( (sizeof(*((pRExC_state->parse) + n - 1)) == 1) || !(((U64 )((*((pRExC_state->parse) + n - 1)) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*((pRExC_state->parse) + n - 1))] & ((1U << (10)) | (1U << (14)))) == ((1U << ( 10)) | (1U << (14)))))) |
17725 | n--; |
17726 | |
17727 | } /* The \p isn't immediately followed by a '{' */ |
17728 | else if (! isALPHA(*RExC_parse)(((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 17728 , __func__, "('Z') >= ('A')")), ( (sizeof((~('A' ^ 'a') & (*(pRExC_state->parse)))) == sizeof(U8)) ? ((((NV) (('A') ) >= 0) ? (void)0 : __assert2("re_comp.c", 17728, __func__ , "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 17728, __func__, "(NV) ((('Z') - ('A'))) >= 0" )), (((U64) (((((U8) ((~('A' ^ 'a') & (*(pRExC_state-> parse))))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A') )) | 0))))) : (sizeof((~('A' ^ 'a') & (*(pRExC_state-> parse)))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void) 0 : __assert2("re_comp.c", 17728, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 17728, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) ((~('A' ^ 'a') & (*(pRExC_state->parse)))) ))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))) )) : (((sizeof((~('A' ^ 'a') & (*(pRExC_state->parse)) )) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 17728, __func__ , "sizeof((~('A' ^ 'a') & (*(pRExC_state->parse)))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 17728, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 17728, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & (*(pRExC_state->parse))))))) - ((('A')) | 0) )) <= (((U64) (((('Z') - ('A'))) | 0))))))))) { |
17729 | RExC_parse(pRExC_state->parse) += (UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
17730 | ? UTF8_SAFE_SKIP(RExC_parse, RExC_end)(((((pRExC_state->end)) >= ((pRExC_state->parse))) ? (void)0 : __assert2("re_comp.c", 17730, __func__, "((pRExC_state->end)) >= ((pRExC_state->parse))" )), (((pRExC_state->end)) - ((pRExC_state->parse))) <= 0 ? 0 : ((((((pRExC_state->end)) - ((pRExC_state->parse ))))<(PL_utf8skip[*(const U8*)((pRExC_state->parse))])) ?((((pRExC_state->end)) - ((pRExC_state->parse)))):(PL_utf8skip [*(const U8*)((pRExC_state->parse))]))) |
17731 | : 1; |
17732 | vFAIL2("Character following \\%c must be '{' or a "do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Character following \\%c must be '{' or a " "single-character Unicode property name" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (U8) value, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 17734, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0) |
17733 | "single-character Unicode property name",do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Character following \\%c must be '{' or a " "single-character Unicode property name" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (U8) value, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 17734, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0) |
17734 | (U8) value)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Character following \\%c must be '{' or a " "single-character Unicode property name" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (U8) value, (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 17734, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
17735 | } |
17736 | else { |
17737 | e = RExC_parse(pRExC_state->parse); |
17738 | n = 1; |
17739 | } |
17740 | { |
17741 | char* name = RExC_parse(pRExC_state->parse); |
17742 | |
17743 | /* Any message returned about expanding the definition */ |
17744 | SV* msg = newSVpvs_flags("", SVs_TEMP)Perl_newSVpvn_flags( ("" "" ""), (sizeof("")-1), 0x00080000); |
17745 | |
17746 | /* If set TRUE, the property is user-defined as opposed to |
17747 | * official Unicode */ |
17748 | bool_Bool user_defined = FALSE(0); |
17749 | AV * strings = NULL((void*)0); |
17750 | |
17751 | SV * prop_definition = parse_uniprop_string(S_parse_uniprop_string( name,n,(((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0),(((pRExC_state->flags) & (1U << ( 0 +2))) ? (_Bool)1 : (_Bool)0),(0),! ((ret_invlist) ? (_Bool) 1 : (_Bool)0),&strings,&user_defined,msg,0) |
17752 | name, n, UTF, FOLD,S_parse_uniprop_string( name,n,(((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0),(((pRExC_state->flags) & (1U << ( 0 +2))) ? (_Bool)1 : (_Bool)0),(0),! ((ret_invlist) ? (_Bool) 1 : (_Bool)0),&strings,&user_defined,msg,0) |
17753 | FALSE, /* This is compile-time */S_parse_uniprop_string( name,n,(((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0),(((pRExC_state->flags) & (1U << ( 0 +2))) ? (_Bool)1 : (_Bool)0),(0),! ((ret_invlist) ? (_Bool) 1 : (_Bool)0),&strings,&user_defined,msg,0) |
17754 | |
17755 | /* We can't defer this defn whenS_parse_uniprop_string( name,n,(((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0),(((pRExC_state->flags) & (1U << ( 0 +2))) ? (_Bool)1 : (_Bool)0),(0),! ((ret_invlist) ? (_Bool) 1 : (_Bool)0),&strings,&user_defined,msg,0) |
17756 | * the full result is required inS_parse_uniprop_string( name,n,(((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0),(((pRExC_state->flags) & (1U << ( 0 +2))) ? (_Bool)1 : (_Bool)0),(0),! ((ret_invlist) ? (_Bool) 1 : (_Bool)0),&strings,&user_defined,msg,0) |
17757 | * this call */S_parse_uniprop_string( name,n,(((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0),(((pRExC_state->flags) & (1U << ( 0 +2))) ? (_Bool)1 : (_Bool)0),(0),! ((ret_invlist) ? (_Bool) 1 : (_Bool)0),&strings,&user_defined,msg,0) |
17758 | ! cBOOL(ret_invlist),S_parse_uniprop_string( name,n,(((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0),(((pRExC_state->flags) & (1U << ( 0 +2))) ? (_Bool)1 : (_Bool)0),(0),! ((ret_invlist) ? (_Bool) 1 : (_Bool)0),&strings,&user_defined,msg,0) |
17759 | |
17760 | &strings,S_parse_uniprop_string( name,n,(((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0),(((pRExC_state->flags) & (1U << ( 0 +2))) ? (_Bool)1 : (_Bool)0),(0),! ((ret_invlist) ? (_Bool) 1 : (_Bool)0),&strings,&user_defined,msg,0) |
17761 | &user_defined,S_parse_uniprop_string( name,n,(((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0),(((pRExC_state->flags) & (1U << ( 0 +2))) ? (_Bool)1 : (_Bool)0),(0),! ((ret_invlist) ? (_Bool) 1 : (_Bool)0),&strings,&user_defined,msg,0) |
17762 | msg,S_parse_uniprop_string( name,n,(((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0),(((pRExC_state->flags) & (1U << ( 0 +2))) ? (_Bool)1 : (_Bool)0),(0),! ((ret_invlist) ? (_Bool) 1 : (_Bool)0),&strings,&user_defined,msg,0) |
17763 | 0 /* Base level */S_parse_uniprop_string( name,n,(((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0),(((pRExC_state->flags) & (1U << ( 0 +2))) ? (_Bool)1 : (_Bool)0),(0),! ((ret_invlist) ? (_Bool) 1 : (_Bool)0),&strings,&user_defined,msg,0) |
17764 | )S_parse_uniprop_string( name,n,(((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0),(((pRExC_state->flags) & (1U << ( 0 +2))) ? (_Bool)1 : (_Bool)0),(0),! ((ret_invlist) ? (_Bool) 1 : (_Bool)0),&strings,&user_defined,msg,0); |
17765 | if (SvCUR(msg)(*({ const SV *const _svcur = (const SV *)(msg); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 17765, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 17765, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 17765, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))) { /* Assumes any error causes a msg */ |
17766 | assert(prop_definition == NULL)((prop_definition == ((void*)0)) ? (void)0 : __assert2("re_comp.c" , 17766, __func__, "prop_definition == NULL")); |
17767 | RExC_parse(pRExC_state->parse) = e + 1; |
17768 | if (SvUTF8(msg)((msg)->sv_flags & 0x20000000)) { /* msg being UTF-8 makes the whole |
17769 | thing so, or else the display is |
17770 | mojibake */ |
17771 | RExC_utf8(pRExC_state->utf8) = TRUE(1); |
17772 | } |
17773 | /* diag_listed_as: Can't find Unicode property definition "%s" in regex; marked by <-- HERE in m/%s/ */ |
17774 | vFAIL2utf8f("%" UTF8f, UTF8fARG(SvUTF8(msg),do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "%" "d%" "lu" "%4p" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)((((msg)->sv_flags & 0x20000000) ) ? (_Bool)1 : (_Bool)0), (UV)((*({ const SV *const _svcur = ( const SV *)(msg); ((PL_valid_types_PVX[((svtype)((_svcur)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c" , 17775, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 17775, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 17775, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))), (void*)((*({ SV *const _svpvx = ((SV *) ({ void *_p = (msg); _p; })); ((PL_valid_types_PVX[((svtype)( (_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 17775, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 17775, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 17775, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 17775, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0) |
17775 | SvCUR(msg), SvPVX(msg)))do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "%" "d%" "lu" "%4p" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)((((msg)->sv_flags & 0x20000000) ) ? (_Bool)1 : (_Bool)0), (UV)((*({ const SV *const _svcur = ( const SV *)(msg); ((PL_valid_types_PVX[((svtype)((_svcur)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c" , 17775, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 17775, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 17775, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))), (void*)((*({ SV *const _svpvx = ((SV *) ({ void *_p = (msg); _p; })); ((PL_valid_types_PVX[((svtype)( (_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 17775, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 17775, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 17775, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 17775, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); |
17776 | } |
17777 | |
17778 | assert(prop_definition || strings)((prop_definition || strings) ? (void)0 : __assert2("re_comp.c" , 17778, __func__, "prop_definition || strings")); |
17779 | |
17780 | if (strings) { |
17781 | if (ret_invlist) { |
17782 | if (! prop_definition) { |
17783 | RExC_parse(pRExC_state->parse) = e + 1; |
17784 | vFAIL("Unicode string properties are not implemented in (?[...])")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Unicode string properties are not implemented in (?[...])" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 17784, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
17785 | } |
17786 | else { |
17787 | ckWARNreg(e + 1,do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 17789, e + 1); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (e + 1 - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), "Using just the single character results" " returned by \\p{} in (?[...])" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (e + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( e + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp )) >= 0) ? (((pRExC_state->copy_start_in_input) + (e + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 17789, (IV) (((pRExC_state-> copy_start_in_input) + (e + 1 - (pRExC_state->copy_start)) ) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state->start)), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + (e + 1 - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? 0 : ( pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (e + 1 - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (e + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (e + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (e + 1 - (pRExC_state->copy_start)))) - (pRExC_state->precomp )) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state-> precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (e + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (e + 1 - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (e + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (e + 1 - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
17788 | "Using just the single character results"do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 17789, e + 1); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (e + 1 - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), "Using just the single character results" " returned by \\p{} in (?[...])" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (e + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( e + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp )) >= 0) ? (((pRExC_state->copy_start_in_input) + (e + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 17789, (IV) (((pRExC_state-> copy_start_in_input) + (e + 1 - (pRExC_state->copy_start)) ) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state->start)), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + (e + 1 - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? 0 : ( pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (e + 1 - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (e + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (e + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (e + 1 - (pRExC_state->copy_start)))) - (pRExC_state->precomp )) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state-> precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (e + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (e + 1 - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (e + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (e + 1 - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
17789 | " returned by \\p{} in (?[...])")do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 17789, e + 1); } if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + (e + 1 - (pRExC_state->copy_start)))) - (pRExC_state-> precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings ) == ((void*)0) || (PL_curcop->cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop->cop_warnings) == (STRLEN * ) &PL_WARN_NONE) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF))+1) / 8)] & (1 << ( (2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8) & 0xFF))+1) / 8)] & ( 1 << ((2*(((((20 )) >>8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF) && (((((U8 *)(PL_curcop ->cop_warnings + 1))[((2*(((((20 )) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >> 24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state-> rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner( (20 ), "Using just the single character results" " returned by \\p{} in (?[...])" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + (e + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( e + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp )) >= 0) ? (((pRExC_state->copy_start_in_input) + (e + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp) ) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 17789, (IV) (((pRExC_state-> copy_start_in_input) + (e + 1 - (pRExC_state->copy_start)) ) - (pRExC_state->precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start))), (pRExC_state->start)), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state-> utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(( ((pRExC_state->copy_start_in_input) + (e + 1 - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? 0 : ( pRExC_state->precomp_end) - ((pRExC_state->copy_start_in_input ) + (e + 1 - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + (e + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + (e + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + (e + 1 - (pRExC_state->copy_start)))) - (pRExC_state->precomp )) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state-> precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (e + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (e + 1 - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + (e + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + (e + 1 - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); |
17790 | } |
17791 | } |
17792 | else if (! RExC_in_multi_char_class(pRExC_state->in_multi_char_class)) { |
17793 | if (invert ^ (value == 'P')) { |
17794 | RExC_parse(pRExC_state->parse) = e + 1; |
17795 | vFAIL("Inverting a character class which contains"do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Inverting a character class which contains" " a multi-character sequence is illegal", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 17796, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0) |
17796 | " a multi-character sequence is illegal")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Inverting a character class which contains" " a multi-character sequence is illegal", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 17796, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
17797 | } |
17798 | |
17799 | /* For each multi-character string ... */ |
17800 | while (av_tindex(strings)Perl_av_top_index( strings) >= 0) { |
17801 | /* ... Each entry is itself an array of code |
17802 | * points. */ |
17803 | AV * this_string = (AV *) av_shift( strings)Perl_av_shift( strings); |
17804 | STRLEN cp_count = av_tindex(this_string)Perl_av_top_index( this_string) + 1; |
17805 | SV * final = newSV(cp_count * 4)Perl_newSV( cp_count * 4); |
17806 | SvPVCLEAR(final)Perl_sv_setpv_bufsize( final,0,0); |
17807 | |
17808 | /* Create another string of sequences of \x{...} */ |
17809 | while (av_tindex(this_string)Perl_av_top_index( this_string) >= 0) { |
17810 | SV * character = av_shift(this_string)Perl_av_shift( this_string); |
17811 | UV cp = SvUV(character)((((character)->sv_flags & (0x00000100|0x80000000|0x00200000 )) == (0x00000100|0x80000000)) ? (*({ const SV *const _svuvx = (const SV *)(character); ((PL_valid_types_IVX[((svtype)((_svuvx )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 17811, __func__, "PL_valid_types_IVX[SvTYPE(_svuvx) & SVt_MASK]" )); ((!((((_svuvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svuvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svuvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 17811, __func__ , "!isGV_with_GP(_svuvx)")); &(((XPVUV*) ({ void *_p = (( _svuvx)->sv_any); _p; }))->xuv_u.xivu_uv); })) : Perl_sv_2uv_flags ( character,2)); |
17812 | |
17813 | if (cp > 255) { |
17814 | REQUIRE_UTF8(flagp)do { if (!(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) { *flagp = 0x20|0x40; return 0; } } while (0); |
17815 | } |
17816 | Perl_sv_catpvf(aTHX_ final, "\\x{%" UVXf"lX" "}", |
17817 | cp); |
17818 | SvREFCNT_dec_NN(character)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (character); _p; } ))); |
17819 | } |
17820 | SvREFCNT_dec_NN(this_string)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (this_string); _p; }))); |
17821 | |
17822 | /* And add that to the list of such things */ |
17823 | multi_char_matches |
17824 | = add_multi_match(multi_char_matches,S_add_multi_match( multi_char_matches,final,cp_count) |
17825 | final,S_add_multi_match( multi_char_matches,final,cp_count) |
17826 | cp_count)S_add_multi_match( multi_char_matches,final,cp_count); |
17827 | } |
17828 | } |
17829 | SvREFCNT_dec_NN(strings)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (strings); _p; })) ); |
17830 | } |
17831 | |
17832 | if (! prop_definition) { /* If we got only a string, |
17833 | this iteration didn't really |
17834 | find a character */ |
17835 | element_count--; |
17836 | } |
17837 | else if (! is_invlistS_is_invlist(prop_definition)) { |
17838 | |
17839 | /* Here, the definition isn't known, so we have gotten |
17840 | * returned a string that will be evaluated if and when |
17841 | * encountered at runtime. We add it to the list of |
17842 | * such properties, along with whether it should be |
17843 | * complemented or not */ |
17844 | if (value == 'P') { |
17845 | sv_catpvs(listsv, "!")Perl_sv_catpvn_flags( listsv, ("" "!" ""), (sizeof("!")-1), 2 ); |
17846 | } |
17847 | else { |
17848 | sv_catpvs(listsv, "+")Perl_sv_catpvn_flags( listsv, ("" "+" ""), (sizeof("+")-1), 2 ); |
17849 | } |
17850 | sv_catsv(listsv, prop_definition)Perl_sv_catsv_flags( listsv,prop_definition,2); |
17851 | |
17852 | has_runtime_dependency |= HAS_USER_DEFINED_PROPERTY0x01; |
17853 | |
17854 | /* We don't know yet what this matches, so have to flag |
17855 | * it */ |
17856 | anyof_flags |= ANYOF_SHARED_d_UPPER_LATIN1_UTF8_STRING_MATCHES_non_d_RUNTIME_USER_PROP0x40; |
17857 | } |
17858 | else { |
17859 | assert (prop_definition && is_invlist(prop_definition))((prop_definition && S_is_invlist(prop_definition)) ? (void)0 : __assert2("re_comp.c", 17859, __func__, "prop_definition && is_invlist(prop_definition)" )); |
17860 | |
17861 | /* Here we do have the complete property definition |
17862 | * |
17863 | * Temporary workaround for [perl #133136]. For this |
17864 | * precise input that is in the .t that is failing, |
17865 | * load utf8.pm, which is what the test wants, so that |
17866 | * that .t passes */ |
17867 | if ( memEQs(RExC_start, e + 1 - RExC_start,(((sizeof("foo\\p{Alnum}")-1) == (e + 1 - (pRExC_state->start ))) && (memcmp(((const void *) (((pRExC_state->start )))), ((const void *) (("" "foo\\p{Alnum}" ""))), (sizeof("foo\\p{Alnum}" )-1)) == 0)) |
17868 | "foo\\p{Alnum}")(((sizeof("foo\\p{Alnum}")-1) == (e + 1 - (pRExC_state->start ))) && (memcmp(((const void *) (((pRExC_state->start )))), ((const void *) (("" "foo\\p{Alnum}" ""))), (sizeof("foo\\p{Alnum}" )-1)) == 0)) |
17869 | && ! hv_common(GvHVn(PL_incgv),Perl_hv_common( ((0+(*({GV *const _gvgp = (GV *) (PL_incgv); ( (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ( (svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVLV) ? (void )0 : __assert2("re_comp.c", 17869, __func__, "SvTYPE(_gvgp) == SVt_PVGV || SvTYPE(_gvgp) == SVt_PVLV" )); ((((((_gvgp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 17869, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_hv ? (0+(*({GV *const _gvgp = (GV *) (PL_incgv); ((( (svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype )((_gvgp)->sv_flags & 0xff)) == SVt_PVLV) ? (void)0 : __assert2 ("re_comp.c", 17869, __func__, "SvTYPE(_gvgp) == SVt_PVGV || SvTYPE(_gvgp) == SVt_PVLV" )); ((((((_gvgp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 17869, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_hv : (0+(*({GV *const _gvgp = (GV *) (Perl_gv_add_by_type ( (PL_incgv),SVt_PVHV)); ((((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff )) == SVt_PVLV) ? (void)0 : __assert2("re_comp.c", 17869, __func__ , "SvTYPE(_gvgp) == SVt_PVGV || SvTYPE(_gvgp) == SVt_PVLV")); ((((((_gvgp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVLV)) ) ? (void)0 : __assert2("re_comp.c", 17869, __func__, "isGV_with_GP(_gvgp)" )); &((_gvgp)->sv_u.svu_gp);})))->gp_hv),((void*)0) ,"utf8.pm",sizeof("utf8.pm") - 1,0,0x08,((void*)0),0) |
17870 | NULL,Perl_hv_common( ((0+(*({GV *const _gvgp = (GV *) (PL_incgv); ( (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ( (svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVLV) ? (void )0 : __assert2("re_comp.c", 17869, __func__, "SvTYPE(_gvgp) == SVt_PVGV || SvTYPE(_gvgp) == SVt_PVLV" )); ((((((_gvgp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 17869, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_hv ? (0+(*({GV *const _gvgp = (GV *) (PL_incgv); ((( (svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype )((_gvgp)->sv_flags & 0xff)) == SVt_PVLV) ? (void)0 : __assert2 ("re_comp.c", 17869, __func__, "SvTYPE(_gvgp) == SVt_PVGV || SvTYPE(_gvgp) == SVt_PVLV" )); ((((((_gvgp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 17869, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_hv : (0+(*({GV *const _gvgp = (GV *) (Perl_gv_add_by_type ( (PL_incgv),SVt_PVHV)); ((((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff )) == SVt_PVLV) ? (void)0 : __assert2("re_comp.c", 17869, __func__ , "SvTYPE(_gvgp) == SVt_PVGV || SvTYPE(_gvgp) == SVt_PVLV")); ((((((_gvgp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVLV)) ) ? (void)0 : __assert2("re_comp.c", 17869, __func__, "isGV_with_GP(_gvgp)" )); &((_gvgp)->sv_u.svu_gp);})))->gp_hv),((void*)0) ,"utf8.pm",sizeof("utf8.pm") - 1,0,0x08,((void*)0),0) |
17871 | "utf8.pm", sizeof("utf8.pm") - 1,Perl_hv_common( ((0+(*({GV *const _gvgp = (GV *) (PL_incgv); ( (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ( (svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVLV) ? (void )0 : __assert2("re_comp.c", 17869, __func__, "SvTYPE(_gvgp) == SVt_PVGV || SvTYPE(_gvgp) == SVt_PVLV" )); ((((((_gvgp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 17869, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_hv ? (0+(*({GV *const _gvgp = (GV *) (PL_incgv); ((( (svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype )((_gvgp)->sv_flags & 0xff)) == SVt_PVLV) ? (void)0 : __assert2 ("re_comp.c", 17869, __func__, "SvTYPE(_gvgp) == SVt_PVGV || SvTYPE(_gvgp) == SVt_PVLV" )); ((((((_gvgp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 17869, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_hv : (0+(*({GV *const _gvgp = (GV *) (Perl_gv_add_by_type ( (PL_incgv),SVt_PVHV)); ((((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff )) == SVt_PVLV) ? (void)0 : __assert2("re_comp.c", 17869, __func__ , "SvTYPE(_gvgp) == SVt_PVGV || SvTYPE(_gvgp) == SVt_PVLV")); ((((((_gvgp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVLV)) ) ? (void)0 : __assert2("re_comp.c", 17869, __func__, "isGV_with_GP(_gvgp)" )); &((_gvgp)->sv_u.svu_gp);})))->gp_hv),((void*)0) ,"utf8.pm",sizeof("utf8.pm") - 1,0,0x08,((void*)0),0) |
17872 | 0, HV_FETCH_ISEXISTS, NULL, 0)Perl_hv_common( ((0+(*({GV *const _gvgp = (GV *) (PL_incgv); ( (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ( (svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVLV) ? (void )0 : __assert2("re_comp.c", 17869, __func__, "SvTYPE(_gvgp) == SVt_PVGV || SvTYPE(_gvgp) == SVt_PVLV" )); ((((((_gvgp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 17869, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_hv ? (0+(*({GV *const _gvgp = (GV *) (PL_incgv); ((( (svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype )((_gvgp)->sv_flags & 0xff)) == SVt_PVLV) ? (void)0 : __assert2 ("re_comp.c", 17869, __func__, "SvTYPE(_gvgp) == SVt_PVGV || SvTYPE(_gvgp) == SVt_PVLV" )); ((((((_gvgp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 17869, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_hv : (0+(*({GV *const _gvgp = (GV *) (Perl_gv_add_by_type ( (PL_incgv),SVt_PVHV)); ((((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff )) == SVt_PVLV) ? (void)0 : __assert2("re_comp.c", 17869, __func__ , "SvTYPE(_gvgp) == SVt_PVGV || SvTYPE(_gvgp) == SVt_PVLV")); ((((((_gvgp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVLV)) ) ? (void)0 : __assert2("re_comp.c", 17869, __func__, "isGV_with_GP(_gvgp)" )); &((_gvgp)->sv_u.svu_gp);})))->gp_hv),((void*)0) ,"utf8.pm",sizeof("utf8.pm") - 1,0,0x08,((void*)0),0)) |
17873 | { |
17874 | require_pv("utf8.pm")Perl_require_pv( "utf8.pm"); |
17875 | } |
17876 | |
17877 | if (! user_defined && |
17878 | /* We warn on matching an above-Unicode code point |
17879 | * if the match would return true, except don't |
17880 | * warn for \p{All}, which has exactly one element |
17881 | * = 0 */ |
17882 | (_invlist_contains_cpS__invlist_contains_cp(prop_definition, 0x110000) |
17883 | && (! (_invlist_lenS__invlist_len(prop_definition) == 1 |
17884 | && *invlist_arrayS_invlist_array(prop_definition) == 0)))) |
17885 | { |
17886 | warn_super = TRUE(1); |
17887 | } |
17888 | |
17889 | /* Invert if asking for the complement */ |
17890 | if (value == 'P') { |
17891 | _invlist_union_complement_2nd(properties,Perl__invlist_union_maybe_complement_2nd( properties,prop_definition ,(1),&properties) |
17892 | prop_definition,Perl__invlist_union_maybe_complement_2nd( properties,prop_definition ,(1),&properties) |
17893 | &properties)Perl__invlist_union_maybe_complement_2nd( properties,prop_definition ,(1),&properties); |
17894 | } |
17895 | else { |
17896 | _invlist_union(properties, prop_definition, &properties)Perl__invlist_union_maybe_complement_2nd( properties,prop_definition ,(0),&properties); |
17897 | } |
17898 | } |
17899 | } |
17900 | |
17901 | RExC_parse(pRExC_state->parse) = e + 1; |
17902 | namedclass = ANYOF_UNIPROP(((((15) * 2)))+4); /* no official name, but it's |
17903 | named */ |
17904 | } |
17905 | break; |
17906 | case 'n': value = '\n'; break; |
17907 | case 'r': value = '\r'; break; |
17908 | case 't': value = '\t'; break; |
17909 | case 'f': value = '\f'; break; |
17910 | case 'b': value = '\b'; break; |
17911 | case 'e': value = ESC_NATIVE0x1B; break; |
17912 | case 'a': value = '\a'; break; |
17913 | case 'o': |
17914 | RExC_parse(pRExC_state->parse)--; /* function expects to be pointed at the 'o' */ |
17915 | if (! grok_bslash_o(&RExC_parse,Perl_grok_bslash_o( &(pRExC_state->parse),(pRExC_state ->end),&value,&message,&packed_warn,strict,((range ) ? (_Bool)1 : (_Bool)0),(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
17916 | RExC_end,Perl_grok_bslash_o( &(pRExC_state->parse),(pRExC_state ->end),&value,&message,&packed_warn,strict,((range ) ? (_Bool)1 : (_Bool)0),(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
17917 | &value,Perl_grok_bslash_o( &(pRExC_state->parse),(pRExC_state ->end),&value,&message,&packed_warn,strict,((range ) ? (_Bool)1 : (_Bool)0),(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
17918 | &message,Perl_grok_bslash_o( &(pRExC_state->parse),(pRExC_state ->end),&value,&message,&packed_warn,strict,((range ) ? (_Bool)1 : (_Bool)0),(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
17919 | &packed_warn,Perl_grok_bslash_o( &(pRExC_state->parse),(pRExC_state ->end),&value,&message,&packed_warn,strict,((range ) ? (_Bool)1 : (_Bool)0),(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
17920 | strict,Perl_grok_bslash_o( &(pRExC_state->parse),(pRExC_state ->end),&value,&message,&packed_warn,strict,((range ) ? (_Bool)1 : (_Bool)0),(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
17921 | cBOOL(range), /* MAX_UV allowed for rangePerl_grok_bslash_o( &(pRExC_state->parse),(pRExC_state ->end),&value,&message,&packed_warn,strict,((range ) ? (_Bool)1 : (_Bool)0),(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
17922 | upper limit */Perl_grok_bslash_o( &(pRExC_state->parse),(pRExC_state ->end),&value,&message,&packed_warn,strict,((range ) ? (_Bool)1 : (_Bool)0),(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
17923 | UTF)Perl_grok_bslash_o( &(pRExC_state->parse),(pRExC_state ->end),&value,&message,&packed_warn,strict,((range ) ? (_Bool)1 : (_Bool)0),(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0))) |
17924 | { |
17925 | vFAIL(message)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", message, (int)(((((pRExC_state->utf8)) ? ( _Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 17925, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
17926 | } |
17927 | else if (message && TO_OUTPUT_WARNINGS(RExC_parse)( (pRExC_state->copy_start) && ((((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { |
17928 | warn_non_literal_string(RExC_parse, packed_warn, message)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 17928, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((packed_warn) & 0xFF))+1) / 8)] & (1 << ((2*(((packed_warn) & 0xFF ))+1) % 8)))) || ((((packed_warn) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packed_warn ) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((( packed_warn) >>8) & 0xFF))+1) % 8)))) || ((((packed_warn ) >>16) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*((((packed_warn) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*((((packed_warn) >>16 ) & 0xFF))+1) % 8)))) || ((((packed_warn) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[ ((2*((((packed_warn) >>24) & 0xFF))+1) / 8)] & ( 1 << ((2*((((packed_warn) >>24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( packed_warn, "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", message , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 17928, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); |
17929 | } |
17930 | |
17931 | if (value < 256) { |
17932 | non_portable_endpoint++; |
17933 | } |
17934 | break; |
17935 | case 'x': |
17936 | RExC_parse(pRExC_state->parse)--; /* function expects to be pointed at the 'x' */ |
17937 | if (! grok_bslash_x(&RExC_parse,Perl_grok_bslash_x( &(pRExC_state->parse),(pRExC_state ->end),&value,&message,&packed_warn,strict,((range ) ? (_Bool)1 : (_Bool)0),(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
17938 | RExC_end,Perl_grok_bslash_x( &(pRExC_state->parse),(pRExC_state ->end),&value,&message,&packed_warn,strict,((range ) ? (_Bool)1 : (_Bool)0),(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
17939 | &value,Perl_grok_bslash_x( &(pRExC_state->parse),(pRExC_state ->end),&value,&message,&packed_warn,strict,((range ) ? (_Bool)1 : (_Bool)0),(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
17940 | &message,Perl_grok_bslash_x( &(pRExC_state->parse),(pRExC_state ->end),&value,&message,&packed_warn,strict,((range ) ? (_Bool)1 : (_Bool)0),(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
17941 | &packed_warn,Perl_grok_bslash_x( &(pRExC_state->parse),(pRExC_state ->end),&value,&message,&packed_warn,strict,((range ) ? (_Bool)1 : (_Bool)0),(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
17942 | strict,Perl_grok_bslash_x( &(pRExC_state->parse),(pRExC_state ->end),&value,&message,&packed_warn,strict,((range ) ? (_Bool)1 : (_Bool)0),(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
17943 | cBOOL(range), /* MAX_UV allowed for rangePerl_grok_bslash_x( &(pRExC_state->parse),(pRExC_state ->end),&value,&message,&packed_warn,strict,((range ) ? (_Bool)1 : (_Bool)0),(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
17944 | upper limit */Perl_grok_bslash_x( &(pRExC_state->parse),(pRExC_state ->end),&value,&message,&packed_warn,strict,((range ) ? (_Bool)1 : (_Bool)0),(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
17945 | UTF)Perl_grok_bslash_x( &(pRExC_state->parse),(pRExC_state ->end),&value,&message,&packed_warn,strict,((range ) ? (_Bool)1 : (_Bool)0),(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0))) |
17946 | { |
17947 | vFAIL(message)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", message, (int)(((((pRExC_state->utf8)) ? ( _Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 17947, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
17948 | } |
17949 | else if (message && TO_OUTPUT_WARNINGS(RExC_parse)( (pRExC_state->copy_start) && ((((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { |
17950 | warn_non_literal_string(RExC_parse, packed_warn, message)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 17950, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((packed_warn) & 0xFF))+1) / 8)] & (1 << ((2*(((packed_warn) & 0xFF ))+1) % 8)))) || ((((packed_warn) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packed_warn ) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((( packed_warn) >>8) & 0xFF))+1) % 8)))) || ((((packed_warn ) >>16) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*((((packed_warn) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*((((packed_warn) >>16 ) & 0xFF))+1) % 8)))) || ((((packed_warn) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[ ((2*((((packed_warn) >>24) & 0xFF))+1) / 8)] & ( 1 << ((2*((((packed_warn) >>24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( packed_warn, "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", message , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 17950, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); |
17951 | } |
17952 | |
17953 | if (value < 256) { |
17954 | non_portable_endpoint++; |
17955 | } |
17956 | break; |
17957 | case 'c': |
17958 | if (! grok_bslash_c(*RExC_parse, &grok_c_char, &message,Perl_grok_bslash_c( *(pRExC_state->parse),&grok_c_char ,&message,&packed_warn) |
17959 | &packed_warn)Perl_grok_bslash_c( *(pRExC_state->parse),&grok_c_char ,&message,&packed_warn)) |
17960 | { |
17961 | /* going to die anyway; point to exact spot of |
17962 | * failure */ |
17963 | RExC_parse(pRExC_state->parse) += (UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
17964 | ? UTF8_SAFE_SKIP(RExC_parse, RExC_end)(((((pRExC_state->end)) >= ((pRExC_state->parse))) ? (void)0 : __assert2("re_comp.c", 17964, __func__, "((pRExC_state->end)) >= ((pRExC_state->parse))" )), (((pRExC_state->end)) - ((pRExC_state->parse))) <= 0 ? 0 : ((((((pRExC_state->end)) - ((pRExC_state->parse ))))<(PL_utf8skip[*(const U8*)((pRExC_state->parse))])) ?((((pRExC_state->end)) - ((pRExC_state->parse)))):(PL_utf8skip [*(const U8*)((pRExC_state->parse))]))) |
17965 | : 1; |
17966 | vFAIL(message)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", message, (int)(((((pRExC_state->utf8)) ? ( _Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 17966, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
17967 | } |
17968 | |
17969 | value = grok_c_char; |
17970 | RExC_parse(pRExC_state->parse)++; |
17971 | if (message && TO_OUTPUT_WARNINGS(RExC_parse)( (pRExC_state->copy_start) && ((((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { |
17972 | warn_non_literal_string(RExC_parse, packed_warn, message)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 17972, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((packed_warn) & 0xFF))+1) / 8)] & (1 << ((2*(((packed_warn) & 0xFF ))+1) % 8)))) || ((((packed_warn) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((packed_warn ) >>8) & 0xFF))+1) / 8)] & (1 << ((2*(((( packed_warn) >>8) & 0xFF))+1) % 8)))) || ((((packed_warn ) >>16) & 0xFF) && (((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*((((packed_warn) >>16) & 0xFF ))+1) / 8)] & (1 << ((2*((((packed_warn) >>16 ) & 0xFF))+1) % 8)))) || ((((packed_warn) >>24) & 0xFF) && ((((U8 *)(PL_curcop->cop_warnings + 1))[ ((2*((((packed_warn) >>24) & 0xFF))+1) / 8)] & ( 1 << ((2*((((packed_warn) >>24) & 0xFF))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( packed_warn, "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", message , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 17972, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); |
17973 | } |
17974 | |
17975 | non_portable_endpoint++; |
17976 | break; |
17977 | case '0': case '1': case '2': case '3': case '4': |
17978 | case '5': case '6': case '7': |
17979 | { |
17980 | /* Take 1-3 octal digits */ |
17981 | I32 flags = PERL_SCAN_SILENT_ILLDIGIT0x08 |
17982 | | PERL_SCAN_NOTIFY_ILLDIGIT0x40; |
17983 | numlen = (strict) ? 4 : 3; |
17984 | value = grok_oct(--RExC_parse, &numlen, &flags, NULL)(*(&flags) |= 0x02, Perl_grok_bin_oct_hex( --(pRExC_state ->parse),&numlen,&flags,((void*)0),3,24,'\0')); |
17985 | RExC_parse(pRExC_state->parse) += numlen; |
17986 | if (numlen != 3) { |
17987 | if (strict) { |
17988 | RExC_parse(pRExC_state->parse) += (UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
17989 | ? UTF8_SAFE_SKIP(RExC_parse, RExC_end)(((((pRExC_state->end)) >= ((pRExC_state->parse))) ? (void)0 : __assert2("re_comp.c", 17989, __func__, "((pRExC_state->end)) >= ((pRExC_state->parse))" )), (((pRExC_state->end)) - ((pRExC_state->parse))) <= 0 ? 0 : ((((((pRExC_state->end)) - ((pRExC_state->parse ))))<(PL_utf8skip[*(const U8*)((pRExC_state->parse))])) ?((((pRExC_state->end)) - ((pRExC_state->parse)))):(PL_utf8skip [*(const U8*)((pRExC_state->parse))]))) |
17990 | : 1; |
17991 | vFAIL("Need exactly 3 octal digits")do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", "Need exactly 3 octal digits", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 17991, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
17992 | } |
17993 | else if ( (flags & PERL_SCAN_NOTIFY_ILLDIGIT0x40) |
17994 | && RExC_parse(pRExC_state->parse) < RExC_end(pRExC_state->end) |
17995 | && isDIGIT(*RExC_parse)(((('9') >= ('0')) ? (void)0 : __assert2("re_comp.c", 17995 , __func__, "('9') >= ('0')")), ( (sizeof(*(pRExC_state-> parse)) == sizeof(U8)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c", 17995, __func__, "(NV) (('0')) >= 0" )), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 17995, __func__, "(NV) ((('9') - ('0'))) >= 0")), (((U64 ) (((((U8) (*(pRExC_state->parse))))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0))))) : (sizeof(*(pRExC_state-> parse)) == sizeof(U32)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c", 17995, __func__, "(NV) (('0')) >= 0" )), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 17995, __func__, "(NV) ((('9') - ('0'))) >= 0")), (((U64 ) (((((U32) (*(pRExC_state->parse))))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0))))) : (((sizeof(*(pRExC_state ->parse)) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 17995, __func__, "sizeof(*(pRExC_state->parse)) == sizeof(U64)" )), ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 17995, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 17995, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U64) (*(pRExC_state ->parse))))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0' ))) | 0)))))))) |
17996 | && ckWARN(WARN_REGEXP)Perl_ckwarn( (20 ))) |
17997 | { |
17998 | reg_warn_non_literal_string(do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18001, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", Perl_form_alien_digit_msg ( 8,numlen,(pRExC_state->parse),(pRExC_state->end),(((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0),(0)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18001, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)), ((int) ((pRExC_state->end) - (pRExC_state-> start))), (pRExC_state->start)), 0))), (void*)((pRExC_state ->precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))), (void*)((( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))))))) - (pRExC_state->precomp); } } while (0); } } while (0) |
17999 | RExC_parse + 1,do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18001, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", Perl_form_alien_digit_msg ( 8,numlen,(pRExC_state->parse),(pRExC_state->end),(((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0),(0)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18001, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)), ((int) ((pRExC_state->end) - (pRExC_state-> start))), (pRExC_state->start)), 0))), (void*)((pRExC_state ->precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))), (void*)((( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))))))) - (pRExC_state->precomp); } } while (0); } } while (0) |
18000 | form_alien_digit_msg(8, numlen, RExC_parse,do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18001, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", Perl_form_alien_digit_msg ( 8,numlen,(pRExC_state->parse),(pRExC_state->end),(((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0),(0)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18001, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)), ((int) ((pRExC_state->end) - (pRExC_state-> start))), (pRExC_state->start)), 0))), (void*)((pRExC_state ->precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))), (void*)((( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))))))) - (pRExC_state->precomp); } } while (0); } } while (0) |
18001 | RExC_end, UTF, FALSE))do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18001, (pRExC_state->parse ) + 1); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", Perl_form_alien_digit_msg ( 8,numlen,(pRExC_state->parse),(pRExC_state->end),(((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0),(0)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) + 1 - (pRExC_state->copy_start))) > (pRExC_state ->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state ->precomp) : (((((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18001, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start))) - (pRExC_state ->precomp)), ((int) ((pRExC_state->end) - (pRExC_state-> start))), (pRExC_state->start)), 0))), (void*)((pRExC_state ->precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state-> precomp_end) - ((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))), (void*)((( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) + 1 - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) : ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) + 1 - (pRExC_state->copy_start)))) - (pRExC_state ->precomp)) > (ptrdiff_t) (pRExC_state->latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state ->precomp))>(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state ->copy_start)))))))?((pRExC_state->precomp)):(((((pRExC_state ->precomp_end))<(((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start )))))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) + 1 - (pRExC_state->copy_start ))))))) - (pRExC_state->precomp); } } while (0); } } while (0); |
18002 | } |
18003 | } |
18004 | if (value < 256) { |
18005 | non_portable_endpoint++; |
18006 | } |
18007 | break; |
18008 | } |
18009 | default: |
18010 | /* Allow \_ to not give an error */ |
18011 | if (isWORDCHAR(value)(( (sizeof(value) == 1) || !(((U64)((value) | 0)) & ~0xFF )) && ((PL_charclass[(U8) (value)] & ((1U << (0)) | (1U << (14)))) == ((1U << (0)) | (1U << (14))))) && value != '_') { |
18012 | if (strict) { |
18013 | vFAIL2("Unrecognized escape \\%c in character class",do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Unrecognized escape \\%c in character class" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)value, (int)(( (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (( pRExC_state->parse) - (pRExC_state->copy_start))) > ( pRExC_state->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18014, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0) |
18014 | (int)value)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Unrecognized escape \\%c in character class" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)value, (int)(( (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (( pRExC_state->parse) - (pRExC_state->copy_start))) > ( pRExC_state->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18014, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
18015 | } |
18016 | else { |
18017 | ckWARN2reg(RExC_parse,do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18019, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "Unrecognized escape \\%c in character class passed through" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)value, (int)(( (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (( pRExC_state->parse) - (pRExC_state->copy_start))) > ( pRExC_state->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18019, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
18018 | "Unrecognized escape \\%c in character class passed through",do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18019, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "Unrecognized escape \\%c in character class passed through" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)value, (int)(( (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (( pRExC_state->parse) - (pRExC_state->copy_start))) > ( pRExC_state->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18019, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
18019 | (int)value)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18019, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "Unrecognized escape \\%c in character class passed through" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)value, (int)(( (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + (( pRExC_state->parse) - (pRExC_state->copy_start))) > ( pRExC_state->precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18019, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); |
18020 | } |
18021 | } |
18022 | break; |
18023 | } /* End of switch on char following backslash */ |
18024 | } /* end of handling backslash escape sequences */ |
18025 | |
18026 | /* Here, we have the current token in 'value' */ |
18027 | |
18028 | if (namedclass > OOB_NAMEDCLASS-1) { /* this is a named class \blah */ |
18029 | U8 classnum; |
18030 | |
18031 | /* a bad range like a-\d, a-[:digit:]. The '-' is taken as a |
18032 | * literal, as is the character that began the false range, i.e. |
18033 | * the 'a' in the examples */ |
18034 | if (range) { |
18035 | const int w = (RExC_parse(pRExC_state->parse) >= rangebegin) |
18036 | ? RExC_parse(pRExC_state->parse) - rangebegin |
18037 | : 0; |
18038 | if (strict) { |
18039 | vFAIL2utf8f(do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "False [] range \"%" "d%" "lu" "%4p" "\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(w), (void*)(rangebegin), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18041, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0) |
18040 | "False [] range \"%" UTF8f "\"",do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "False [] range \"%" "d%" "lu" "%4p" "\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(w), (void*)(rangebegin), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18041, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0) |
18041 | UTF8fARG(UTF, w, rangebegin))do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "False [] range \"%" "d%" "lu" "%4p" "\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(w), (void*)(rangebegin), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18041, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); |
18042 | } |
18043 | else { |
18044 | ckWARN2reg(RExC_parse,do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18046, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "False [] range \"%" "d%" "lu" "%4p" "\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(w), (void*)(rangebegin ), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18046, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
18045 | "False [] range \"%" UTF8f "\"",do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18046, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "False [] range \"%" "d%" "lu" "%4p" "\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(w), (void*)(rangebegin ), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18046, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
18046 | UTF8fARG(UTF, w, rangebegin))do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18046, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (20 ), "False [] range \"%" "d%" "lu" "%4p" "\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(w), (void*)(rangebegin ), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18046, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); |
18047 | cp_list = add_cp_to_invlist(cp_list, '-')S_add_cp_to_invlist( cp_list,'-'); |
18048 | cp_foldable_list = add_cp_to_invlist(cp_foldable_list,S_add_cp_to_invlist( cp_foldable_list,prevvalue) |
18049 | prevvalue)S_add_cp_to_invlist( cp_foldable_list,prevvalue); |
18050 | } |
18051 | |
18052 | range = 0; /* this was not a true range */ |
18053 | element_count += 2; /* So counts for three values */ |
18054 | } |
18055 | |
18056 | classnum = namedclass_to_classnum(namedclass)((int) ((namedclass) / 2)); |
18057 | |
18058 | if (LOC(get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET ) && namedclass < ANYOF_POSIXL_MAX(((15) * 2)) |
18059 | #ifndef HAS_ISASCII |
18060 | && classnum != _CC_ASCII14 |
18061 | #endif |
18062 | ) { |
18063 | SV* scratch_list = NULL((void*)0); |
18064 | |
18065 | /* What the Posix classes (like \w, [:space:]) match isn't |
18066 | * generally knowable under locale until actual match time. A |
18067 | * special node is used for these which has extra space for a |
18068 | * bitmap, with a bit reserved for each named class that is to |
18069 | * be matched against. (This isn't needed for \p{} and |
18070 | * pseudo-classes, as they are not affected by locale, and |
18071 | * hence are dealt with separately.) However, if a named class |
18072 | * and its complement are both present, then it matches |
18073 | * everything, and there is no runtime dependency. Odd numbers |
18074 | * are the complements of the next lower number, so xor works. |
18075 | * (Note that something like [\w\D] should match everything, |
18076 | * because \d should be a proper subset of \w. But rather than |
18077 | * trust that the locale is well behaved, we leave this to |
18078 | * runtime to sort out) */ |
18079 | if (POSIXL_TEST(posixl, namedclass ^ 1)((posixl) & (1U << (namedclass ^ 1)))) { |
18080 | cp_list = _add_range_to_invlist(cp_list, 0, UV_MAX)Perl__add_range_to_invlist( cp_list,0,(~(UV)0)); |
18081 | POSIXL_ZERO(posixl)do { (posixl) = 0; } while (0); |
18082 | has_runtime_dependency &= ~HAS_L_RUNTIME_DEPENDENCY0x04; |
18083 | anyof_flags &= ~ANYOF_MATCHES_POSIXL0x02; |
18084 | continue; /* We could ignore the rest of the class, but |
18085 | best to parse it for any errors */ |
18086 | } |
18087 | else { /* Here, isn't the complement of any already parsed |
18088 | class */ |
18089 | POSIXL_SET(posixl, namedclass)((posixl) |= (1U << (namedclass))); |
18090 | has_runtime_dependency |= HAS_L_RUNTIME_DEPENDENCY0x04; |
18091 | anyof_flags |= ANYOF_MATCHES_POSIXL0x02; |
18092 | |
18093 | /* The above-Latin1 characters are not subject to locale |
18094 | * rules. Just add them to the unconditionally-matched |
18095 | * list */ |
18096 | |
18097 | /* Get the list of the above-Latin1 code points this |
18098 | * matches */ |
18099 | _invlist_intersection_maybe_complement_2nd(PL_AboveLatin1,Perl__invlist_intersection_maybe_complement_2nd( PL_AboveLatin1 ,PL_XPosix_ptrs[classnum],namedclass % 2 != 0,&scratch_list ) |
18100 | PL_XPosix_ptrs[classnum],Perl__invlist_intersection_maybe_complement_2nd( PL_AboveLatin1 ,PL_XPosix_ptrs[classnum],namedclass % 2 != 0,&scratch_list ) |
18101 | |
18102 | /* Odd numbers are complements,Perl__invlist_intersection_maybe_complement_2nd( PL_AboveLatin1 ,PL_XPosix_ptrs[classnum],namedclass % 2 != 0,&scratch_list ) |
18103 | * like NDIGIT, NASCII, ... */Perl__invlist_intersection_maybe_complement_2nd( PL_AboveLatin1 ,PL_XPosix_ptrs[classnum],namedclass % 2 != 0,&scratch_list ) |
18104 | namedclass % 2 != 0,Perl__invlist_intersection_maybe_complement_2nd( PL_AboveLatin1 ,PL_XPosix_ptrs[classnum],namedclass % 2 != 0,&scratch_list ) |
18105 | &scratch_list)Perl__invlist_intersection_maybe_complement_2nd( PL_AboveLatin1 ,PL_XPosix_ptrs[classnum],namedclass % 2 != 0,&scratch_list ); |
18106 | /* Checking if 'cp_list' is NULL first saves an extra |
18107 | * clone. Its reference count will be decremented at the |
18108 | * next union, etc, or if this is the only instance, at the |
18109 | * end of the routine */ |
18110 | if (! cp_list) { |
18111 | cp_list = scratch_list; |
18112 | } |
18113 | else { |
18114 | _invlist_union(cp_list, scratch_list, &cp_list)Perl__invlist_union_maybe_complement_2nd( cp_list,scratch_list ,(0),&cp_list); |
18115 | SvREFCNT_dec_NN(scratch_list)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (scratch_list); _p ; }))); |
18116 | } |
18117 | continue; /* Go get next character */ |
18118 | } |
18119 | } |
18120 | else { |
18121 | |
18122 | /* Here, is not /l, or is a POSIX class for which /l doesn't |
18123 | * matter (or is a Unicode property, which is skipped here). */ |
18124 | if (namedclass >= ANYOF_POSIXL_MAX(((15) * 2))) { /* If a special class */ |
18125 | if (namedclass != ANYOF_UNIPROP(((((15) * 2)))+4)) { /* UNIPROP = \p and \P */ |
18126 | |
18127 | /* Here, should be \h, \H, \v, or \V. None of /d, /i |
18128 | * nor /l make a difference in what these match, |
18129 | * therefore we just add what they match to cp_list. */ |
18130 | if (classnum != _CC_VERTSPACE15) { |
18131 | assert( namedclass == ANYOF_HORIZWS((namedclass == (((((15) * 2)))+2) || namedclass == (((((15) * 2)))+3)) ? (void)0 : __assert2("re_comp.c", 18132, __func__, "namedclass == ANYOF_HORIZWS || namedclass == ANYOF_NHORIZWS" )) |
18132 | || namedclass == ANYOF_NHORIZWS)((namedclass == (((((15) * 2)))+2) || namedclass == (((((15) * 2)))+3)) ? (void)0 : __assert2("re_comp.c", 18132, __func__, "namedclass == ANYOF_HORIZWS || namedclass == ANYOF_NHORIZWS" )); |
18133 | |
18134 | /* It turns out that \h is just a synonym for |
18135 | * XPosixBlank */ |
18136 | classnum = _CC_BLANK11; |
18137 | } |
18138 | |
18139 | _invlist_union_maybe_complement_2nd(Perl__invlist_union_maybe_complement_2nd( cp_list,PL_XPosix_ptrs [classnum],namedclass % 2 != 0,&cp_list) |
18140 | cp_list,Perl__invlist_union_maybe_complement_2nd( cp_list,PL_XPosix_ptrs [classnum],namedclass % 2 != 0,&cp_list) |
18141 | PL_XPosix_ptrs[classnum],Perl__invlist_union_maybe_complement_2nd( cp_list,PL_XPosix_ptrs [classnum],namedclass % 2 != 0,&cp_list) |
18142 | namedclass % 2 != 0, /* Complement if oddPerl__invlist_union_maybe_complement_2nd( cp_list,PL_XPosix_ptrs [classnum],namedclass % 2 != 0,&cp_list) |
18143 | (NHORIZWS, NVERTWS)Perl__invlist_union_maybe_complement_2nd( cp_list,PL_XPosix_ptrs [classnum],namedclass % 2 != 0,&cp_list) |
18144 | */Perl__invlist_union_maybe_complement_2nd( cp_list,PL_XPosix_ptrs [classnum],namedclass % 2 != 0,&cp_list) |
18145 | &cp_list)Perl__invlist_union_maybe_complement_2nd( cp_list,PL_XPosix_ptrs [classnum],namedclass % 2 != 0,&cp_list); |
18146 | } |
18147 | } |
18148 | else if ( AT_LEAST_UNI_SEMANTICS(get_regex_charset((pRExC_state->flags)) >= REGEX_UNICODE_CHARSET ) |
18149 | || classnum == _CC_ASCII14 |
18150 | || (DEPENDS_SEMANTICS(get_regex_charset((pRExC_state->flags)) == REGEX_DEPENDS_CHARSET ) && ( classnum == _CC_DIGIT1 |
18151 | || classnum == _CC_XDIGIT12))) |
18152 | { |
18153 | /* We usually have to worry about /d affecting what POSIX |
18154 | * classes match, with special code needed because we won't |
18155 | * know until runtime what all matches. But there is no |
18156 | * extra work needed under /u and /a; and [:ascii:] is |
18157 | * unaffected by /d; and :digit: and :xdigit: don't have |
18158 | * runtime differences under /d. So we can special case |
18159 | * these, and avoid some extra work below, and at runtime. |
18160 | * */ |
18161 | _invlist_union_maybe_complement_2nd(Perl__invlist_union_maybe_complement_2nd( simple_posixes,(((get_regex_charset ((pRExC_state->flags)) >= REGEX_ASCII_RESTRICTED_CHARSET )) ? PL_Posix_ptrs[classnum] : PL_XPosix_ptrs[classnum]),namedclass % 2 != 0,&simple_posixes) |
18162 | simple_posixes,Perl__invlist_union_maybe_complement_2nd( simple_posixes,(((get_regex_charset ((pRExC_state->flags)) >= REGEX_ASCII_RESTRICTED_CHARSET )) ? PL_Posix_ptrs[classnum] : PL_XPosix_ptrs[classnum]),namedclass % 2 != 0,&simple_posixes) |
18163 | ((AT_LEAST_ASCII_RESTRICTED)Perl__invlist_union_maybe_complement_2nd( simple_posixes,(((get_regex_charset ((pRExC_state->flags)) >= REGEX_ASCII_RESTRICTED_CHARSET )) ? PL_Posix_ptrs[classnum] : PL_XPosix_ptrs[classnum]),namedclass % 2 != 0,&simple_posixes) |
18164 | ? PL_Posix_ptrs[classnum]Perl__invlist_union_maybe_complement_2nd( simple_posixes,(((get_regex_charset ((pRExC_state->flags)) >= REGEX_ASCII_RESTRICTED_CHARSET )) ? PL_Posix_ptrs[classnum] : PL_XPosix_ptrs[classnum]),namedclass % 2 != 0,&simple_posixes) |
18165 | : PL_XPosix_ptrs[classnum]),Perl__invlist_union_maybe_complement_2nd( simple_posixes,(((get_regex_charset ((pRExC_state->flags)) >= REGEX_ASCII_RESTRICTED_CHARSET )) ? PL_Posix_ptrs[classnum] : PL_XPosix_ptrs[classnum]),namedclass % 2 != 0,&simple_posixes) |
18166 | namedclass % 2 != 0,Perl__invlist_union_maybe_complement_2nd( simple_posixes,(((get_regex_charset ((pRExC_state->flags)) >= REGEX_ASCII_RESTRICTED_CHARSET )) ? PL_Posix_ptrs[classnum] : PL_XPosix_ptrs[classnum]),namedclass % 2 != 0,&simple_posixes) |
18167 | &simple_posixes)Perl__invlist_union_maybe_complement_2nd( simple_posixes,(((get_regex_charset ((pRExC_state->flags)) >= REGEX_ASCII_RESTRICTED_CHARSET )) ? PL_Posix_ptrs[classnum] : PL_XPosix_ptrs[classnum]),namedclass % 2 != 0,&simple_posixes); |
18168 | } |
18169 | else { /* Garden variety class. If is NUPPER, NALPHA, ... |
18170 | complement and use nposixes */ |
18171 | SV** posixes_ptr = namedclass % 2 == 0 |
18172 | ? &posixes |
18173 | : &nposixes; |
18174 | _invlist_union_maybe_complement_2nd(Perl__invlist_union_maybe_complement_2nd( *posixes_ptr,PL_XPosix_ptrs [classnum],namedclass % 2 != 0,posixes_ptr) |
18175 | *posixes_ptr,Perl__invlist_union_maybe_complement_2nd( *posixes_ptr,PL_XPosix_ptrs [classnum],namedclass % 2 != 0,posixes_ptr) |
18176 | PL_XPosix_ptrs[classnum],Perl__invlist_union_maybe_complement_2nd( *posixes_ptr,PL_XPosix_ptrs [classnum],namedclass % 2 != 0,posixes_ptr) |
18177 | namedclass % 2 != 0,Perl__invlist_union_maybe_complement_2nd( *posixes_ptr,PL_XPosix_ptrs [classnum],namedclass % 2 != 0,posixes_ptr) |
18178 | posixes_ptr)Perl__invlist_union_maybe_complement_2nd( *posixes_ptr,PL_XPosix_ptrs [classnum],namedclass % 2 != 0,posixes_ptr); |
18179 | } |
18180 | } |
18181 | } /* end of namedclass \blah */ |
18182 | |
18183 | SKIP_BRACKETED_WHITE_SPACE(skip_white, RExC_parse, RExC_end)do { if (skip_white) { while ((pRExC_state->parse) < (pRExC_state ->end) && (( (sizeof(((int)*(const U8*)((pRExC_state ->parse)))) == 1) || !(((U64)((((int)*(const U8*)((pRExC_state ->parse)))) | 0)) & ~0xFF)) && ((PL_charclass[ (U8) (((int)*(const U8*)((pRExC_state->parse))))] & (( 1U << (11)) | (1U << (14)))) == ((1U << (11 )) | (1U << (14)))))) { (pRExC_state->parse)++; } } } while (0); |
18184 | |
18185 | /* If 'range' is set, 'value' is the ending of a range--check its |
18186 | * validity. (If value isn't a single code point in the case of a |
18187 | * range, we should have figured that out above in the code that |
18188 | * catches false ranges). Later, we will handle each individual code |
18189 | * point in the range. If 'range' isn't set, this could be the |
18190 | * beginning of a range, so check for that by looking ahead to see if |
18191 | * the next real character to be processed is the range indicator--the |
18192 | * minus sign */ |
18193 | |
18194 | if (range) { |
18195 | #ifdef EBCDIC |
18196 | /* For unicode ranges, we have to test that the Unicode as opposed |
18197 | * to the native values are not decreasing. (Above 255, there is |
18198 | * no difference between native and Unicode) */ |
18199 | if (unicode_range && prevvalue < 255 && value < 255) { |
18200 | if (NATIVE_TO_LATIN1(prevvalue)(((( (sizeof(prevvalue) == 1) || !(((U64)((prevvalue) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 18200, __func__, "( (sizeof(prevvalue) == 1) || !(((U64)((prevvalue) | 0)) & ~0xFF))" )), ((U8) ((prevvalue) | 0))) > NATIVE_TO_LATIN1(value)(((( (sizeof(value) == 1) || !(((U64)((value) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_comp.c", 18200, __func__, "( (sizeof(value) == 1) || !(((U64)((value) | 0)) & ~0xFF))" )), ((U8) ((value) | 0)))) { |
18201 | goto backwards_range; |
18202 | } |
18203 | } |
18204 | else |
18205 | #endif |
18206 | if (prevvalue > value) /* b-a */ { |
18207 | int w; |
18208 | #ifdef EBCDIC |
18209 | backwards_range: |
18210 | #endif |
18211 | w = RExC_parse(pRExC_state->parse) - rangebegin; |
18212 | vFAIL2utf8f(do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Invalid [] range \"%" "d%" "lu" "%4p" "\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(w), (void*)(rangebegin), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18214, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0) |
18213 | "Invalid [] range \"%" UTF8f "\"",do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Invalid [] range \"%" "d%" "lu" "%4p" "\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(w), (void*)(rangebegin), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18214, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0) |
18214 | UTF8fARG(UTF, w, rangebegin))do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "Invalid [] range \"%" "d%" "lu" "%4p" "\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int )(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)(w), (void*)(rangebegin), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18214, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); |
18215 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_comp.c", 18215 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
18216 | } |
18217 | } |
18218 | else { |
18219 | prevvalue = value; /* save the beginning of the potential range */ |
18220 | if (! stop_at_1 /* Can't be a range if parsing just one thing */ |
18221 | && *RExC_parse(pRExC_state->parse) == '-') |
18222 | { |
18223 | char* next_char_ptr = RExC_parse(pRExC_state->parse) + 1; |
18224 | |
18225 | /* Get the next real char after the '-' */ |
18226 | SKIP_BRACKETED_WHITE_SPACE(skip_white, next_char_ptr, RExC_end)do { if (skip_white) { while (next_char_ptr < (pRExC_state ->end) && (( (sizeof(((int)*(const U8*)(next_char_ptr ))) == 1) || !(((U64)((((int)*(const U8*)(next_char_ptr))) | 0 )) & ~0xFF)) && ((PL_charclass[(U8) (((int)*(const U8*)(next_char_ptr)))] & ((1U << (11)) | (1U << (14)))) == ((1U << (11)) | (1U << (14)))))) { next_char_ptr ++; } } } while (0); |
18227 | |
18228 | /* If the '-' is at the end of the class (just before the ']', |
18229 | * it is a literal minus; otherwise it is a range */ |
18230 | if (next_char_ptr < RExC_end(pRExC_state->end) && *next_char_ptr != ']') { |
18231 | RExC_parse(pRExC_state->parse) = next_char_ptr; |
18232 | |
18233 | /* a bad range like \w-, [:word:]- ? */ |
18234 | if (namedclass > OOB_NAMEDCLASS-1) { |
18235 | if (strict || ckWARN(WARN_REGEXP)Perl_ckwarn( (20 ))) { |
18236 | const int w = RExC_parse(pRExC_state->parse) >= rangebegin |
18237 | ? RExC_parse(pRExC_state->parse) - rangebegin |
18238 | : 0; |
18239 | if (strict) { |
18240 | vFAIL4("False [] range \"%*.*s\"",do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "False [] range \"%*.*s\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", w, w, rangebegin, ( int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18241, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0) |
18241 | w, w, rangebegin)do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { S_re_croak( (((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0), "False [] range \"%*.*s\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", w, w, rangebegin, ( int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool )1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18241, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
18242 | } |
18243 | else { |
18244 | vWARN4(RExC_parse,do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18246, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "False [] range \"%*.*s\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", w, w, rangebegin, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 18246, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state-> latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp))>(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))))))) - (pRExC_state->precomp); } } while (0); } } while (0) |
18245 | "False [] range \"%*.*s\"",do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18246, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "False [] range \"%*.*s\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", w, w, rangebegin, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 18246, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state-> latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp))>(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))))))) - (pRExC_state->precomp); } } while (0); } } while (0) |
18246 | w, w, rangebegin)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18246, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "False [] range \"%*.*s\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", w, w, rangebegin, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 18246, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state-> latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp))>(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))))))) - (pRExC_state->precomp); } } while (0); } } while (0); |
18247 | } |
18248 | } |
18249 | cp_list = add_cp_to_invlist(cp_list, '-')S_add_cp_to_invlist( cp_list,'-'); |
18250 | element_count++; |
18251 | } else |
18252 | range = 1; /* yeah, it's a range! */ |
18253 | continue; /* but do it the next time */ |
18254 | } |
18255 | } |
18256 | } |
18257 | |
18258 | if (namedclass > OOB_NAMEDCLASS-1) { |
18259 | continue; |
18260 | } |
18261 | |
18262 | /* Here, we have a single value this time through the loop, and |
18263 | * <prevvalue> is the beginning of the range, if any; or <value> if |
18264 | * not. */ |
18265 | |
18266 | /* non-Latin1 code point implies unicode semantics. */ |
18267 | if (value > 255) { |
18268 | if (value > MAX_LEGAL_CP((UV)((IV) ((~(UV)0) >> 1))) && ( value != UV_MAX(~(UV)0) |
18269 | || prevvalue > MAX_LEGAL_CP((UV)((IV) ((~(UV)0) >> 1))))) |
18270 | { |
18271 | vFAIL(form_cp_too_large_msg(16, NULL, 0, value))do { do { if ((pRExC_state->rx_sv)) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p; }))), 11); if ((pRExC_state->open_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens))),10); if ((pRExC_state ->close_parens)) Perl_save_pushptr( (void *)((char*)((pRExC_state ->close_parens))),10); } while (0); do { Perl_croak( "%s" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", Perl_form_cp_too_large_msg( 16,((void*)0),0, value), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool) 0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18271, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); } while (0); } while (0); |
18272 | } |
18273 | REQUIRE_UNI_RULES(flagp, 0)do { if ((get_regex_charset((pRExC_state->flags)) == REGEX_DEPENDS_CHARSET )) { set_regex_charset(&(pRExC_state->flags), REGEX_UNICODE_CHARSET ); (pRExC_state->uni_semantics) = 1; if ((pRExC_state-> seen_d_op) && __builtin_expect(((! ((pRExC_state-> total_par) < 0)) ? (_Bool)1 : (_Bool)0),(1))) { *flagp |= 0x20 ; return 0; } } } while (0); |
18274 | if ( ! silence_non_portable |
18275 | && UNICODE_IS_PERL_EXTENDED(value)__builtin_expect((((UV) (value) > 0x7FFFFFFF) ? (_Bool)1 : (_Bool)0),(0)) |
18276 | && TO_OUTPUT_WARNINGS(RExC_parse)( (pRExC_state->copy_start) && ((((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) |
18277 | { |
18278 | ckWARN2_non_literal_string(RExC_parse,do { char * format; size_t format_size = strlen(PL_extended_cp_format ) + strlen(" in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/")+ 1; (format = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof( format_size) || sizeof(char) > ((size_t)1 << 8*(sizeof (size_t) - sizeof(format_size)))) ? (size_t)(format_size) : ( (size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof(char))) ? ( _Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap() ,0)), (char*)(Perl_safesysmalloc((size_t)((format_size)*sizeof (char)))))); strlcpy(format, PL_extended_cp_format, format_size ); strlcat(format, " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", format_size ); Perl_save_pushptr( (void *)((char*)(format)),10); do { if ( ! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18281, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((17 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((17 )) & 0xFF))+1) % 8)))) || (((((17 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((17 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((17 )) >> 8) & 0xFF))+1) % 8)))) || (((((17 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((17 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((17 )) >>16) & 0xFF))+1) % 8)))) || (((((17 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((17 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((17 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (17 ), format, value, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 18281, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state-> latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp))>(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))))))) - (pRExC_state->precomp); } } while (0); } } while (0); } while (0) |
18279 | packWARN(WARN_PORTABLE),do { char * format; size_t format_size = strlen(PL_extended_cp_format ) + strlen(" in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/")+ 1; (format = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof( format_size) || sizeof(char) > ((size_t)1 << 8*(sizeof (size_t) - sizeof(format_size)))) ? (size_t)(format_size) : ( (size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof(char))) ? ( _Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap() ,0)), (char*)(Perl_safesysmalloc((size_t)((format_size)*sizeof (char)))))); strlcpy(format, PL_extended_cp_format, format_size ); strlcat(format, " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", format_size ); Perl_save_pushptr( (void *)((char*)(format)),10); do { if ( ! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18281, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((17 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((17 )) & 0xFF))+1) % 8)))) || (((((17 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((17 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((17 )) >> 8) & 0xFF))+1) % 8)))) || (((((17 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((17 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((17 )) >>16) & 0xFF))+1) % 8)))) || (((((17 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((17 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((17 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (17 ), format, value, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 18281, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state-> latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp))>(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))))))) - (pRExC_state->precomp); } } while (0); } } while (0); } while (0) |
18280 | PL_extended_cp_format,do { char * format; size_t format_size = strlen(PL_extended_cp_format ) + strlen(" in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/")+ 1; (format = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof( format_size) || sizeof(char) > ((size_t)1 << 8*(sizeof (size_t) - sizeof(format_size)))) ? (size_t)(format_size) : ( (size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof(char))) ? ( _Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap() ,0)), (char*)(Perl_safesysmalloc((size_t)((format_size)*sizeof (char)))))); strlcpy(format, PL_extended_cp_format, format_size ); strlcat(format, " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", format_size ); Perl_save_pushptr( (void *)((char*)(format)),10); do { if ( ! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18281, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((17 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((17 )) & 0xFF))+1) % 8)))) || (((((17 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((17 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((17 )) >> 8) & 0xFF))+1) % 8)))) || (((((17 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((17 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((17 )) >>16) & 0xFF))+1) % 8)))) || (((((17 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((17 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((17 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (17 ), format, value, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 18281, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state-> latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp))>(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))))))) - (pRExC_state->precomp); } } while (0); } } while (0); } while (0) |
18281 | value)do { char * format; size_t format_size = strlen(PL_extended_cp_format ) + strlen(" in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/")+ 1; (format = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof( format_size) || sizeof(char) > ((size_t)1 << 8*(sizeof (size_t) - sizeof(format_size)))) ? (size_t)(format_size) : ( (size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof(char))) ? ( _Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap() ,0)), (char*)(Perl_safesysmalloc((size_t)((format_size)*sizeof (char)))))); strlcpy(format, PL_extended_cp_format, format_size ); strlcat(format, " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", format_size ); Perl_save_pushptr( (void *)((char*)(format)),10); do { if ( ! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18281, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((17 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((17 )) & 0xFF))+1) % 8)))) || (((((17 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((17 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((17 )) >> 8) & 0xFF))+1) % 8)))) || (((((17 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((17 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((17 )) >>16) & 0xFF))+1) % 8)))) || (((((17 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((17 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((17 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_ck_warner ( (17 ), format, value, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 18281, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state-> latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp))>(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))))))) - (pRExC_state->precomp); } } while (0); } } while (0); } while (0); |
18282 | } |
18283 | } |
18284 | |
18285 | /* Ready to process either the single value, or the completed range. |
18286 | * For single-valued non-inverted ranges, we consider the possibility |
18287 | * of multi-char folds. (We made a conscious decision to not do this |
18288 | * for the other cases because it can often lead to non-intuitive |
18289 | * results. For example, you have the peculiar case that: |
18290 | * "s s" =~ /^[^\xDF]+$/i => Y |
18291 | * "ss" =~ /^[^\xDF]+$/i => N |
18292 | * |
18293 | * See [perl #89750] */ |
18294 | if (FOLD(((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool )1 : (_Bool)0) && allow_mutiple_chars && value == prevvalue) { |
18295 | if ( value == LATIN_SMALL_LETTER_SHARP_S0xDF |
18296 | || (value > 255 && _invlist_contains_cpS__invlist_contains_cp(PL_HasMultiCharFold, |
18297 | value))) |
18298 | { |
18299 | /* Here <value> is indeed a multi-char fold. Get what it is */ |
18300 | |
18301 | U8 foldbuf[UTF8_MAXBYTES_CASE(((13)>(3 * ((((U64)(0x10FFFF)) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF) < (32 * (1U << ( 6))) ? 2 : (UV) (0x10FFFF) < (16 * (1U << (2 * 6) )) ? 3 : (UV) (0x10FFFF) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV ) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF ) < ((UV) 1U << (6 * 6)) ? 7 : 13))))?(13):(3 * (((( U64)(0x10FFFF)) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF) < (32 * (1U << ( 6))) ? 2 : (UV ) (0x10FFFF) < (16 * (1U << (2 * 6))) ? 3 : (UV) (0x10FFFF ) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF) < ((UV) 1U << (6 * 6)) ? 7 : 13))))+1]; |
18302 | STRLEN foldlen; |
18303 | |
18304 | UV folded = _to_uni_fold_flags(Perl__to_uni_fold_flags( value,foldbuf,&foldlen,0x2 | ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET ) ? 0x4 : 0)) |
18305 | value,Perl__to_uni_fold_flags( value,foldbuf,&foldlen,0x2 | ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET ) ? 0x4 : 0)) |
18306 | foldbuf,Perl__to_uni_fold_flags( value,foldbuf,&foldlen,0x2 | ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET ) ? 0x4 : 0)) |
18307 | &foldlen,Perl__to_uni_fold_flags( value,foldbuf,&foldlen,0x2 | ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET ) ? 0x4 : 0)) |
18308 | FOLD_FLAGS_FULL | (ASCII_FOLD_RESTRICTEDPerl__to_uni_fold_flags( value,foldbuf,&foldlen,0x2 | ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET ) ? 0x4 : 0)) |
18309 | ? FOLD_FLAGS_NOMIX_ASCIIPerl__to_uni_fold_flags( value,foldbuf,&foldlen,0x2 | ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET ) ? 0x4 : 0)) |
18310 | : 0)Perl__to_uni_fold_flags( value,foldbuf,&foldlen,0x2 | ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET ) ? 0x4 : 0)) |
18311 | )Perl__to_uni_fold_flags( value,foldbuf,&foldlen,0x2 | ((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET ) ? 0x4 : 0)); |
18312 | |
18313 | /* Here, <folded> should be the first character of the |
18314 | * multi-char fold of <value>, with <foldbuf> containing the |
18315 | * whole thing. But, if this fold is not allowed (because of |
18316 | * the flags), <fold> will be the same as <value>, and should |
18317 | * be processed like any other character, so skip the special |
18318 | * handling */ |
18319 | if (folded != value) { |
18320 | |
18321 | /* Skip if we are recursed, currently parsing the class |
18322 | * again. Otherwise add this character to the list of |
18323 | * multi-char folds. */ |
18324 | if (! RExC_in_multi_char_class(pRExC_state->in_multi_char_class)) { |
18325 | STRLEN cp_count = utf8_length(foldbuf,Perl_utf8_length( foldbuf,foldbuf + foldlen) |
18326 | foldbuf + foldlen)Perl_utf8_length( foldbuf,foldbuf + foldlen); |
18327 | SV* multi_fold = sv_2mortal(newSVpvs(""))Perl_sv_2mortal( Perl_newSVpvn( ("" "" ""), (sizeof("")-1))); |
18328 | |
18329 | Perl_sv_catpvf(aTHX_ multi_fold, "\\x{%" UVXf"lX" "}", value); |
18330 | |
18331 | multi_char_matches |
18332 | = add_multi_match(multi_char_matches,S_add_multi_match( multi_char_matches,multi_fold,cp_count) |
18333 | multi_fold,S_add_multi_match( multi_char_matches,multi_fold,cp_count) |
18334 | cp_count)S_add_multi_match( multi_char_matches,multi_fold,cp_count); |
18335 | |
18336 | } |
18337 | |
18338 | /* This element should not be processed further in this |
18339 | * class */ |
18340 | element_count--; |
18341 | value = save_value; |
18342 | prevvalue = save_prevvalue; |
18343 | continue; |
18344 | } |
18345 | } |
18346 | } |
18347 | |
18348 | if (strict && ckWARN(WARN_REGEXP)Perl_ckwarn( (20 ))) { |
18349 | if (range) { |
18350 | |
18351 | /* If the range starts above 255, everything is portable and |
18352 | * likely to be so for any forseeable character set, so don't |
18353 | * warn. */ |
18354 | if (unicode_range && non_portable_endpoint && prevvalue < 256) { |
18355 | vWARN(RExC_parse, "Both or neither range ends should be Unicode")do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18355, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "Both or neither range ends should be Unicode" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18355, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); |
18356 | } |
18357 | else if (prevvalue != value) { |
18358 | |
18359 | /* Under strict, ranges that stop and/or end in an ASCII |
18360 | * printable should have each end point be a portable value |
18361 | * for it (preferably like 'A', but we don't warn if it is |
18362 | * a (portable) Unicode name or code point), and the range |
18363 | * must be all digits or all letters of the same case. |
18364 | * Otherwise, the range is non-portable and unclear as to |
18365 | * what it contains */ |
18366 | if ( (isPRINT_A(prevvalue)((((0x7e) >= (' ')) ? (void)0 : __assert2("re_comp.c", 18366 , __func__, "(0x7e) >= (' ')")), ( (sizeof(prevvalue) == sizeof (U8)) ? ((((NV) ((' ')) >= 0) ? (void)0 : __assert2("re_comp.c" , 18366, __func__, "(NV) ((' ')) >= 0")), (((NV) (((0x7e) - (' '))) >= 0) ? (void)0 : __assert2("re_comp.c", 18366, __func__ , "(NV) (((0x7e) - (' '))) >= 0")), (((U64) (((((U8) (prevvalue )))) - (((' ')) | 0))) <= (((U64) ((((0x7e) - (' '))) | 0) )))) : (sizeof(prevvalue) == sizeof(U32)) ? ((((NV) ((' ')) >= 0) ? (void)0 : __assert2("re_comp.c", 18366, __func__, "(NV) ((' ')) >= 0" )), (((NV) (((0x7e) - (' '))) >= 0) ? (void)0 : __assert2( "re_comp.c", 18366, __func__, "(NV) (((0x7e) - (' '))) >= 0" )), (((U64) (((((U32) (prevvalue)))) - (((' ')) | 0))) <= ( ((U64) ((((0x7e) - (' '))) | 0))))) : (((sizeof(prevvalue) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 18366, __func__ , "sizeof(prevvalue) == sizeof(U64)")), ((((NV) ((' ')) >= 0) ? (void)0 : __assert2("re_comp.c", 18366, __func__, "(NV) ((' ')) >= 0" )), (((NV) (((0x7e) - (' '))) >= 0) ? (void)0 : __assert2( "re_comp.c", 18366, __func__, "(NV) (((0x7e) - (' '))) >= 0" )), (((U64) (((((U64) (prevvalue)))) - (((' ')) | 0))) <= ( ((U64) ((((0x7e) - (' '))) | 0)))))))) || isPRINT_A(value)((((0x7e) >= (' ')) ? (void)0 : __assert2("re_comp.c", 18366 , __func__, "(0x7e) >= (' ')")), ( (sizeof(value) == sizeof (U8)) ? ((((NV) ((' ')) >= 0) ? (void)0 : __assert2("re_comp.c" , 18366, __func__, "(NV) ((' ')) >= 0")), (((NV) (((0x7e) - (' '))) >= 0) ? (void)0 : __assert2("re_comp.c", 18366, __func__ , "(NV) (((0x7e) - (' '))) >= 0")), (((U64) (((((U8) (value )))) - (((' ')) | 0))) <= (((U64) ((((0x7e) - (' '))) | 0) )))) : (sizeof(value) == sizeof(U32)) ? ((((NV) ((' ')) >= 0) ? (void)0 : __assert2("re_comp.c", 18366, __func__, "(NV) ((' ')) >= 0" )), (((NV) (((0x7e) - (' '))) >= 0) ? (void)0 : __assert2( "re_comp.c", 18366, __func__, "(NV) (((0x7e) - (' '))) >= 0" )), (((U64) (((((U32) (value)))) - (((' ')) | 0))) <= (((U64 ) ((((0x7e) - (' '))) | 0))))) : (((sizeof(value) == sizeof(U64 )) ? (void)0 : __assert2("re_comp.c", 18366, __func__, "sizeof(value) == sizeof(U64)" )), ((((NV) ((' ')) >= 0) ? (void)0 : __assert2("re_comp.c" , 18366, __func__, "(NV) ((' ')) >= 0")), (((NV) (((0x7e) - (' '))) >= 0) ? (void)0 : __assert2("re_comp.c", 18366, __func__ , "(NV) (((0x7e) - (' '))) >= 0")), (((U64) (((((U64) (value )))) - (((' ')) | 0))) <= (((U64) ((((0x7e) - (' '))) | 0) )))))))) |
18367 | && ( non_portable_endpoint |
18368 | || ! ( (isDIGIT_A(prevvalue)(((('9') >= ('0')) ? (void)0 : __assert2("re_comp.c", 18368 , __func__, "('9') >= ('0')")), ( (sizeof(prevvalue) == sizeof (U8)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 18368, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 18368, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U8) (prevvalue )))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0)) ))) : (sizeof(prevvalue) == sizeof(U32)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c", 18368, __func__, "(NV) (('0')) >= 0" )), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 18368, __func__, "(NV) ((('9') - ('0'))) >= 0")), (((U64 ) (((((U32) (prevvalue)))) - ((('0')) | 0))) <= (((U64) (( (('9') - ('0'))) | 0))))) : (((sizeof(prevvalue) == sizeof(U64 )) ? (void)0 : __assert2("re_comp.c", 18368, __func__, "sizeof(prevvalue) == sizeof(U64)" )), ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 18368, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 18368, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U64) (prevvalue )))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0)) )))))) && isDIGIT_A(value)(((('9') >= ('0')) ? (void)0 : __assert2("re_comp.c", 18368 , __func__, "('9') >= ('0')")), ( (sizeof(value) == sizeof (U8)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 18368, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 18368, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U8) (value )))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0)) ))) : (sizeof(value) == sizeof(U32)) ? ((((NV) (('0')) >= 0 ) ? (void)0 : __assert2("re_comp.c", 18368, __func__, "(NV) (('0')) >= 0" )), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 18368, __func__, "(NV) ((('9') - ('0'))) >= 0")), (((U64 ) (((((U32) (value)))) - ((('0')) | 0))) <= (((U64) (((('9' ) - ('0'))) | 0))))) : (((sizeof(value) == sizeof(U64)) ? (void )0 : __assert2("re_comp.c", 18368, __func__, "sizeof(value) == sizeof(U64)" )), ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 18368, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 18368, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U64) (value )))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0)) ))))))) |
18369 | || (isLOWER_A(prevvalue)(((('z') >= ('a')) ? (void)0 : __assert2("re_comp.c", 18369 , __func__, "('z') >= ('a')")), ( (sizeof(prevvalue) == sizeof (U8)) ? ((((NV) (('a')) >= 0) ? (void)0 : __assert2("re_comp.c" , 18369, __func__, "(NV) (('a')) >= 0")), (((NV) ((('z') - ('a'))) >= 0) ? (void)0 : __assert2("re_comp.c", 18369, __func__ , "(NV) ((('z') - ('a'))) >= 0")), (((U64) (((((U8) (prevvalue )))) - ((('a')) | 0))) <= (((U64) (((('z') - ('a'))) | 0)) ))) : (sizeof(prevvalue) == sizeof(U32)) ? ((((NV) (('a')) >= 0) ? (void)0 : __assert2("re_comp.c", 18369, __func__, "(NV) (('a')) >= 0" )), (((NV) ((('z') - ('a'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 18369, __func__, "(NV) ((('z') - ('a'))) >= 0")), (((U64 ) (((((U32) (prevvalue)))) - ((('a')) | 0))) <= (((U64) (( (('z') - ('a'))) | 0))))) : (((sizeof(prevvalue) == sizeof(U64 )) ? (void)0 : __assert2("re_comp.c", 18369, __func__, "sizeof(prevvalue) == sizeof(U64)" )), ((((NV) (('a')) >= 0) ? (void)0 : __assert2("re_comp.c" , 18369, __func__, "(NV) (('a')) >= 0")), (((NV) ((('z') - ('a'))) >= 0) ? (void)0 : __assert2("re_comp.c", 18369, __func__ , "(NV) ((('z') - ('a'))) >= 0")), (((U64) (((((U64) (prevvalue )))) - ((('a')) | 0))) <= (((U64) (((('z') - ('a'))) | 0)) )))))) && isLOWER_A(value)(((('z') >= ('a')) ? (void)0 : __assert2("re_comp.c", 18369 , __func__, "('z') >= ('a')")), ( (sizeof(value) == sizeof (U8)) ? ((((NV) (('a')) >= 0) ? (void)0 : __assert2("re_comp.c" , 18369, __func__, "(NV) (('a')) >= 0")), (((NV) ((('z') - ('a'))) >= 0) ? (void)0 : __assert2("re_comp.c", 18369, __func__ , "(NV) ((('z') - ('a'))) >= 0")), (((U64) (((((U8) (value )))) - ((('a')) | 0))) <= (((U64) (((('z') - ('a'))) | 0)) ))) : (sizeof(value) == sizeof(U32)) ? ((((NV) (('a')) >= 0 ) ? (void)0 : __assert2("re_comp.c", 18369, __func__, "(NV) (('a')) >= 0" )), (((NV) ((('z') - ('a'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 18369, __func__, "(NV) ((('z') - ('a'))) >= 0")), (((U64 ) (((((U32) (value)))) - ((('a')) | 0))) <= (((U64) (((('z' ) - ('a'))) | 0))))) : (((sizeof(value) == sizeof(U64)) ? (void )0 : __assert2("re_comp.c", 18369, __func__, "sizeof(value) == sizeof(U64)" )), ((((NV) (('a')) >= 0) ? (void)0 : __assert2("re_comp.c" , 18369, __func__, "(NV) (('a')) >= 0")), (((NV) ((('z') - ('a'))) >= 0) ? (void)0 : __assert2("re_comp.c", 18369, __func__ , "(NV) ((('z') - ('a'))) >= 0")), (((U64) (((((U64) (value )))) - ((('a')) | 0))) <= (((U64) (((('z') - ('a'))) | 0)) ))))))) |
18370 | || (isUPPER_A(prevvalue)(((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 18370 , __func__, "('Z') >= ('A')")), ( (sizeof(prevvalue) == sizeof (U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 18370, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 18370, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) (prevvalue )))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)) ))) : (sizeof(prevvalue) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 18370, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 18370, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) (prevvalue)))) - ((('A')) | 0))) <= (((U64) (( (('Z') - ('A'))) | 0))))) : (((sizeof(prevvalue) == sizeof(U64 )) ? (void)0 : __assert2("re_comp.c", 18370, __func__, "sizeof(prevvalue) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 18370, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 18370, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) (prevvalue )))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)) )))))) && isUPPER_A(value)(((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 18370 , __func__, "('Z') >= ('A')")), ( (sizeof(value) == sizeof (U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 18370, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 18370, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) (value )))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)) ))) : (sizeof(value) == sizeof(U32)) ? ((((NV) (('A')) >= 0 ) ? (void)0 : __assert2("re_comp.c", 18370, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 18370, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) (value)))) - ((('A')) | 0))) <= (((U64) (((('Z' ) - ('A'))) | 0))))) : (((sizeof(value) == sizeof(U64)) ? (void )0 : __assert2("re_comp.c", 18370, __func__, "sizeof(value) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 18370, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 18370, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) (value )))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)) ))))))) |
18371 | ))) { |
18372 | vWARN(RExC_parse, "Ranges of ASCII printables should"do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18374, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "Ranges of ASCII printables should" " be some subset of \"0-9\"," " \"A-Z\", or \"a-z\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18374, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
18373 | " be some subset of \"0-9\","do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18374, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "Ranges of ASCII printables should" " be some subset of \"0-9\"," " \"A-Z\", or \"a-z\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18374, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
18374 | " \"A-Z\", or \"a-z\"")do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18374, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "Ranges of ASCII printables should" " be some subset of \"0-9\"," " \"A-Z\", or \"a-z\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) ) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) - (pRExC_state->precomp) : (((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) >= 0) ? (((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - (pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18374, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); |
18375 | } |
18376 | else if (prevvalue >= FIRST_NON_ASCII_DECIMAL_DIGIT0x660) { |
18377 | SSize_tssize_t index_start; |
18378 | SSize_tssize_t index_final; |
18379 | |
18380 | /* But the nature of Unicode and languages mean we |
18381 | * can't do the same checks for above-ASCII ranges, |
18382 | * except in the case of digit ones. These should |
18383 | * contain only digits from the same group of 10. The |
18384 | * ASCII case is handled just above. Hence here, the |
18385 | * range could be a range of digits. First some |
18386 | * unlikely special cases. Grandfather in that a range |
18387 | * ending in 19DA (NEW TAI LUE THAM DIGIT ONE) is bad |
18388 | * if its starting value is one of the 10 digits prior |
18389 | * to it. This is because it is an alternate way of |
18390 | * writing 19D1, and some people may expect it to be in |
18391 | * that group. But it is bad, because it won't give |
18392 | * the expected results. In Unicode 5.2 it was |
18393 | * considered to be in that group (of 11, hence), but |
18394 | * this was fixed in the next version */ |
18395 | |
18396 | if (UNLIKELY(value == 0x19DA && prevvalue >= 0x19D0)__builtin_expect(((value == 0x19DA && prevvalue >= 0x19D0) ? (_Bool)1 : (_Bool)0),(0))) { |
18397 | goto warn_bad_digit_range; |
18398 | } |
18399 | else if (UNLIKELY( prevvalue >= 0x1D7CE__builtin_expect(((prevvalue >= 0x1D7CE && value <= 0x1D7FF) ? (_Bool)1 : (_Bool)0),(0)) |
18400 | && value <= 0x1D7FF)__builtin_expect(((prevvalue >= 0x1D7CE && value <= 0x1D7FF) ? (_Bool)1 : (_Bool)0),(0))) |
18401 | { |
18402 | /* This is the only other case currently in Unicode |
18403 | * where the algorithm below fails. The code |
18404 | * points just above are the end points of a single |
18405 | * range containing only decimal digits. It is 5 |
18406 | * different series of 0-9. All other ranges of |
18407 | * digits currently in Unicode are just a single |
18408 | * series. (And mktables will notify us if a later |
18409 | * Unicode version breaks this.) |
18410 | * |
18411 | * If the range being checked is at most 9 long, |
18412 | * and the digit values represented are in |
18413 | * numerical order, they are from the same series. |
18414 | * */ |
18415 | if ( value - prevvalue > 9 |
18416 | || ((( value - 0x1D7CE) % 10) |
18417 | <= (prevvalue - 0x1D7CE) % 10)) |
18418 | { |
18419 | goto warn_bad_digit_range; |
18420 | } |
18421 | } |
18422 | else { |
18423 | |
18424 | /* For all other ranges of digits in Unicode, the |
18425 | * algorithm is just to check if both end points |
18426 | * are in the same series, which is the same range. |
18427 | * */ |
18428 | index_start = _invlist_searchPerl__invlist_search( |
18429 | PL_XPosix_ptrs[_CC_DIGIT1], |
18430 | prevvalue); |
18431 | |
18432 | /* Warn if the range starts and ends with a digit, |
18433 | * and they are not in the same group of 10. */ |
18434 | if ( index_start >= 0 |
18435 | && ELEMENT_RANGE_MATCHES_INVLIST(index_start)(! ((index_start) & 1)) |
18436 | && (index_final = |
18437 | _invlist_searchPerl__invlist_search(PL_XPosix_ptrs[_CC_DIGIT1], |
18438 | value)) != index_start |
18439 | && index_final >= 0 |
18440 | && ELEMENT_RANGE_MATCHES_INVLIST(index_final)(! ((index_final) & 1))) |
18441 | { |
18442 | warn_bad_digit_range: |
18443 | vWARN(RExC_parse, "Ranges of digits should be"do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18445, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "Ranges of digits should be" " from the same group of" " 10" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18445, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
18444 | " from the same group of"do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18445, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "Ranges of digits should be" " from the same group of" " 10" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18445, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
18445 | " 10")do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18445, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "Ranges of digits should be" " from the same group of" " 10" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18445, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); |
18446 | } |
18447 | } |
18448 | } |
18449 | } |
18450 | } |
18451 | if ((! range || prevvalue == value) && non_portable_endpoint) { |
18452 | if (isPRINT_A(value)((((0x7e) >= (' ')) ? (void)0 : __assert2("re_comp.c", 18452 , __func__, "(0x7e) >= (' ')")), ( (sizeof(value) == sizeof (U8)) ? ((((NV) ((' ')) >= 0) ? (void)0 : __assert2("re_comp.c" , 18452, __func__, "(NV) ((' ')) >= 0")), (((NV) (((0x7e) - (' '))) >= 0) ? (void)0 : __assert2("re_comp.c", 18452, __func__ , "(NV) (((0x7e) - (' '))) >= 0")), (((U64) (((((U8) (value )))) - (((' ')) | 0))) <= (((U64) ((((0x7e) - (' '))) | 0) )))) : (sizeof(value) == sizeof(U32)) ? ((((NV) ((' ')) >= 0) ? (void)0 : __assert2("re_comp.c", 18452, __func__, "(NV) ((' ')) >= 0" )), (((NV) (((0x7e) - (' '))) >= 0) ? (void)0 : __assert2( "re_comp.c", 18452, __func__, "(NV) (((0x7e) - (' '))) >= 0" )), (((U64) (((((U32) (value)))) - (((' ')) | 0))) <= (((U64 ) ((((0x7e) - (' '))) | 0))))) : (((sizeof(value) == sizeof(U64 )) ? (void)0 : __assert2("re_comp.c", 18452, __func__, "sizeof(value) == sizeof(U64)" )), ((((NV) ((' ')) >= 0) ? (void)0 : __assert2("re_comp.c" , 18452, __func__, "(NV) ((' ')) >= 0")), (((NV) (((0x7e) - (' '))) >= 0) ? (void)0 : __assert2("re_comp.c", 18452, __func__ , "(NV) (((0x7e) - (' '))) >= 0")), (((U64) (((((U64) (value )))) - (((' ')) | 0))) <= (((U64) ((((0x7e) - (' '))) | 0) )))))))) { |
18453 | char literal[3]; |
18454 | unsigned d = 0; |
18455 | if (isBACKSLASHED_PUNCT(value)((const char *) memchr("" "-[]\\^" "" , value, sizeof("-[]\\^" )-1))) { |
18456 | literal[d++] = '\\'; |
18457 | } |
18458 | literal[d++] = (char) value; |
18459 | literal[d++] = '\0'; |
18460 | |
18461 | vWARN4(RExC_parse,do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18466, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "\"%.*s\" is more clearly written simply as \"%s\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int) ((pRExC_state->parse) - rangebegin) , rangebegin, literal, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 18466, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state-> latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp))>(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))))))) - (pRExC_state->precomp); } } while (0); } } while (0) |
18462 | "\"%.*s\" is more clearly written simply as \"%s\"",do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18466, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "\"%.*s\" is more clearly written simply as \"%s\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int) ((pRExC_state->parse) - rangebegin) , rangebegin, literal, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 18466, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state-> latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp))>(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))))))) - (pRExC_state->precomp); } } while (0); } } while (0) |
18463 | (int) (RExC_parse - rangebegin),do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18466, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "\"%.*s\" is more clearly written simply as \"%s\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int) ((pRExC_state->parse) - rangebegin) , rangebegin, literal, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 18466, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state-> latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp))>(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))))))) - (pRExC_state->precomp); } } while (0); } } while (0) |
18464 | rangebegin,do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18466, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "\"%.*s\" is more clearly written simply as \"%s\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int) ((pRExC_state->parse) - rangebegin) , rangebegin, literal, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 18466, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state-> latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp))>(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))))))) - (pRExC_state->precomp); } } while (0); } } while (0) |
18465 | literaldo { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18466, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "\"%.*s\" is more clearly written simply as \"%s\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int) ((pRExC_state->parse) - rangebegin) , rangebegin, literal, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 18466, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state-> latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp))>(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))))))) - (pRExC_state->precomp); } } while (0); } } while (0) |
18466 | )do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18466, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "\"%.*s\" is more clearly written simply as \"%s\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int) ((pRExC_state->parse) - rangebegin) , rangebegin, literal, (int)(((((pRExC_state->utf8)) ? (_Bool )1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) - (pRExC_state->precomp) : (((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)) >= 0) ? (( (pRExC_state->copy_start_in_input) + ((pRExC_state->parse ) - (pRExC_state->copy_start))) - (pRExC_state->precomp )) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c", 18466, (IV) (((pRExC_state-> copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) - (pRExC_state->precomp)), ((int) ((pRExC_state ->end) - (pRExC_state->start))), (pRExC_state->start )), 0))), (void*)((pRExC_state->precomp)), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? 0 : (pRExC_state->precomp_end) - ((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))), (void*)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state->precomp_end ) : ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state ->copy_start) && ((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ) - (pRExC_state->precomp)) > (ptrdiff_t) (pRExC_state-> latest_warn_offset ))) { (pRExC_state->latest_warn_offset ) = ((((pRExC_state->precomp))>(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))))?((pRExC_state ->precomp)):(((((pRExC_state->precomp_end))<(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))))?((pRExC_state->precomp_end)):(((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))))))) - (pRExC_state->precomp); } } while (0); } } while (0); |
18467 | } |
18468 | else if (isMNEMONIC_CNTRL(value)((( (sizeof(value) == 1) || !(((U64)((value) | 0)) & ~0xFF )) && (PL_charclass[(U8) (value)] & (1U << ( 25)))) ? (_Bool)1 : (_Bool)0)) { |
18469 | vWARN4(RExC_parse,do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18474, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "\"%.*s\" is more clearly written simply as \"%s\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int) ((pRExC_state->parse) - rangebegin) , rangebegin, Perl_cntrl_to_mnemonic((U8) value), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18474, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
18470 | "\"%.*s\" is more clearly written simply as \"%s\"",do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18474, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "\"%.*s\" is more clearly written simply as \"%s\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int) ((pRExC_state->parse) - rangebegin) , rangebegin, Perl_cntrl_to_mnemonic((U8) value), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18474, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
18471 | (int) (RExC_parse - rangebegin),do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18474, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "\"%.*s\" is more clearly written simply as \"%s\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int) ((pRExC_state->parse) - rangebegin) , rangebegin, Perl_cntrl_to_mnemonic((U8) value), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18474, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
18472 | rangebegin,do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18474, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "\"%.*s\" is more clearly written simply as \"%s\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int) ((pRExC_state->parse) - rangebegin) , rangebegin, Perl_cntrl_to_mnemonic((U8) value), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18474, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
18473 | cntrl_to_mnemonic((U8) value)do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18474, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "\"%.*s\" is more clearly written simply as \"%s\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int) ((pRExC_state->parse) - rangebegin) , rangebegin, Perl_cntrl_to_mnemonic((U8) value), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18474, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0) |
18474 | )do { if (! (pRExC_state->copy_start)) { Perl_croak( "panic! %s: %d: Tried to warn when none" " expected at '%s'", "re_comp.c", 18474, (pRExC_state->parse )); } if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { if ((PL_curcop && !((PL_curcop->cop_warnings) == ((void*)0) || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_ALL || (PL_curcop-> cop_warnings) == (STRLEN *) &PL_WARN_NONE) && ((( ((U8 *)(PL_curcop->cop_warnings + 1))[((2*((((20 )) & 0xFF ))+1) / 8)] & (1 << ((2*((((20 )) & 0xFF))+1) % 8)))) || (((((20 )) >>8) & 0xFF) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2*(((((20 )) >>8 ) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >> 8) & 0xFF))+1) % 8)))) || (((((20 )) >>16) & 0xFF ) && (((((U8 *)(PL_curcop->cop_warnings + 1))[((2* (((((20 )) >>16) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>16) & 0xFF))+1) % 8)))) || (((((20 )) >>24) & 0xFF) && ((((U8 *)(PL_curcop-> cop_warnings + 1))[((2*(((((20 )) >>24) & 0xFF))+1) / 8)] & (1 << ((2*(((((20 )) >>24) & 0xFF ))+1) % 8)))))))))))) do { if ((pRExC_state->rx_sv)) Perl_save_pushptr ( (void *)(((SV *)({ void *_p = ((pRExC_state->rx_sv)); _p ; }))),11); if ((pRExC_state->open_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->open_parens))),10); if (( pRExC_state->close_parens)) Perl_save_pushptr( (void *)((char *)((pRExC_state->close_parens))),10); } while (0); Perl_warner ( (20 ), "\"%.*s\" is more clearly written simply as \"%s\"" " in regex; marked by " "<-- HERE" " in m/%" "d%" "lu" "%4p" " <-- HERE " "%" "d%" "lu" "%4p" "/", (int) ((pRExC_state->parse) - rangebegin) , rangebegin, Perl_cntrl_to_mnemonic((U8) value), (int)(((((pRExC_state ->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), ( UV)((((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start))) > (pRExC_state-> precomp_end)) ? (pRExC_state->precomp_end) - (pRExC_state-> precomp) : (((((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)) >= 0) ? (((pRExC_state->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state->copy_start))) - ( pRExC_state->precomp)) : (Perl_croak( "panic: %s: %d: negative offset: %" "ld" " trying to output message for " " pattern %.*s", "re_comp.c" , 18474, (IV) (((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))) - (pRExC_state-> precomp)), ((int) ((pRExC_state->end) - (pRExC_state->start ))), (pRExC_state->start)), 0))), (void*)((pRExC_state-> precomp)), (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0)) ? (_Bool)1 : (_Bool)0), (UV)((((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) > (pRExC_state->precomp_end)) ? 0 : (pRExC_state->precomp_end ) - ((pRExC_state->copy_start_in_input) + ((pRExC_state-> parse) - (pRExC_state->copy_start)))), (void*)((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start))) > (pRExC_state->precomp_end)) ? (pRExC_state ->precomp_end) : ((pRExC_state->copy_start_in_input) + ( (pRExC_state->parse) - (pRExC_state->copy_start))))); do { if (( (pRExC_state->copy_start) && ((((pRExC_state ->copy_start_in_input) + ((pRExC_state->parse) - (pRExC_state ->copy_start)))) - (pRExC_state->precomp)) > (ptrdiff_t ) (pRExC_state->latest_warn_offset ))) { (pRExC_state-> latest_warn_offset ) = ((((pRExC_state->precomp))>((((( pRExC_state->precomp_end))<(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))?((pRExC_state->precomp_end)):(((pRExC_state->copy_start_in_input ) + ((pRExC_state->parse) - (pRExC_state->copy_start))) ))))?((pRExC_state->precomp)):(((((pRExC_state->precomp_end ))<(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start)))))?((pRExC_state-> precomp_end)):(((pRExC_state->copy_start_in_input) + ((pRExC_state ->parse) - (pRExC_state->copy_start))))))) - (pRExC_state ->precomp); } } while (0); } } while (0); |
18475 | } |
18476 | } |
18477 | } |
18478 | |
18479 | /* Deal with this element of the class */ |
18480 | |
18481 | #ifndef EBCDIC |
18482 | cp_foldable_list = _add_range_to_invlist(cp_foldable_list,Perl__add_range_to_invlist( cp_foldable_list,prevvalue,value) |
18483 | prevvalue, value)Perl__add_range_to_invlist( cp_foldable_list,prevvalue,value); |
18484 | #else |
18485 | /* On non-ASCII platforms, for ranges that span all of 0..255, and ones |
18486 | * that don't require special handling, we can just add the range like |
18487 | * we do for ASCII platforms */ |
18488 | if ((UNLIKELY(prevvalue == 0)__builtin_expect(((prevvalue == 0) ? (_Bool)1 : (_Bool)0),(0) ) && value >= 255) |
18489 | || ! (prevvalue < 256 |
18490 | && (unicode_range |
18491 | || (! non_portable_endpoint |
18492 | && ((isLOWER_A(prevvalue)(((('z') >= ('a')) ? (void)0 : __assert2("re_comp.c", 18492 , __func__, "('z') >= ('a')")), ( (sizeof(prevvalue) == sizeof (U8)) ? ((((NV) (('a')) >= 0) ? (void)0 : __assert2("re_comp.c" , 18492, __func__, "(NV) (('a')) >= 0")), (((NV) ((('z') - ('a'))) >= 0) ? (void)0 : __assert2("re_comp.c", 18492, __func__ , "(NV) ((('z') - ('a'))) >= 0")), (((U64) (((((U8) (prevvalue )))) - ((('a')) | 0))) <= (((U64) (((('z') - ('a'))) | 0)) ))) : (sizeof(prevvalue) == sizeof(U32)) ? ((((NV) (('a')) >= 0) ? (void)0 : __assert2("re_comp.c", 18492, __func__, "(NV) (('a')) >= 0" )), (((NV) ((('z') - ('a'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 18492, __func__, "(NV) ((('z') - ('a'))) >= 0")), (((U64 ) (((((U32) (prevvalue)))) - ((('a')) | 0))) <= (((U64) (( (('z') - ('a'))) | 0))))) : (((sizeof(prevvalue) == sizeof(U64 )) ? (void)0 : __assert2("re_comp.c", 18492, __func__, "sizeof(prevvalue) == sizeof(U64)" )), ((((NV) (('a')) >= 0) ? (void)0 : __assert2("re_comp.c" , 18492, __func__, "(NV) (('a')) >= 0")), (((NV) ((('z') - ('a'))) >= 0) ? (void)0 : __assert2("re_comp.c", 18492, __func__ , "(NV) ((('z') - ('a'))) >= 0")), (((U64) (((((U64) (prevvalue )))) - ((('a')) | 0))) <= (((U64) (((('z') - ('a'))) | 0)) )))))) && isLOWER_A(value)(((('z') >= ('a')) ? (void)0 : __assert2("re_comp.c", 18492 , __func__, "('z') >= ('a')")), ( (sizeof(value) == sizeof (U8)) ? ((((NV) (('a')) >= 0) ? (void)0 : __assert2("re_comp.c" , 18492, __func__, "(NV) (('a')) >= 0")), (((NV) ((('z') - ('a'))) >= 0) ? (void)0 : __assert2("re_comp.c", 18492, __func__ , "(NV) ((('z') - ('a'))) >= 0")), (((U64) (((((U8) (value )))) - ((('a')) | 0))) <= (((U64) (((('z') - ('a'))) | 0)) ))) : (sizeof(value) == sizeof(U32)) ? ((((NV) (('a')) >= 0 ) ? (void)0 : __assert2("re_comp.c", 18492, __func__, "(NV) (('a')) >= 0" )), (((NV) ((('z') - ('a'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 18492, __func__, "(NV) ((('z') - ('a'))) >= 0")), (((U64 ) (((((U32) (value)))) - ((('a')) | 0))) <= (((U64) (((('z' ) - ('a'))) | 0))))) : (((sizeof(value) == sizeof(U64)) ? (void )0 : __assert2("re_comp.c", 18492, __func__, "sizeof(value) == sizeof(U64)" )), ((((NV) (('a')) >= 0) ? (void)0 : __assert2("re_comp.c" , 18492, __func__, "(NV) (('a')) >= 0")), (((NV) ((('z') - ('a'))) >= 0) ? (void)0 : __assert2("re_comp.c", 18492, __func__ , "(NV) ((('z') - ('a'))) >= 0")), (((U64) (((((U64) (value )))) - ((('a')) | 0))) <= (((U64) (((('z') - ('a'))) | 0)) ))))))) |
18493 | || (isUPPER_A(prevvalue)(((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 18493 , __func__, "('Z') >= ('A')")), ( (sizeof(prevvalue) == sizeof (U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 18493, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 18493, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) (prevvalue )))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)) ))) : (sizeof(prevvalue) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 18493, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 18493, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) (prevvalue)))) - ((('A')) | 0))) <= (((U64) (( (('Z') - ('A'))) | 0))))) : (((sizeof(prevvalue) == sizeof(U64 )) ? (void)0 : __assert2("re_comp.c", 18493, __func__, "sizeof(prevvalue) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 18493, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 18493, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) (prevvalue )))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)) )))))) |
18494 | && isUPPER_A(value)(((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 18494 , __func__, "('Z') >= ('A')")), ( (sizeof(value) == sizeof (U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 18494, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 18494, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) (value )))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)) ))) : (sizeof(value) == sizeof(U32)) ? ((((NV) (('A')) >= 0 ) ? (void)0 : __assert2("re_comp.c", 18494, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 18494, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) (value)))) - ((('A')) | 0))) <= (((U64) (((('Z' ) - ('A'))) | 0))))) : (((sizeof(value) == sizeof(U64)) ? (void )0 : __assert2("re_comp.c", 18494, __func__, "sizeof(value) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 18494, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 18494, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) (value )))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)) )))))))))))) |
18495 | { |
18496 | cp_foldable_list = _add_range_to_invlist(cp_foldable_list,Perl__add_range_to_invlist( cp_foldable_list,prevvalue,value) |
18497 | prevvalue, value)Perl__add_range_to_invlist( cp_foldable_list,prevvalue,value); |
18498 | } |
18499 | else { |
18500 | /* Here, requires special handling. This can be because it is a |
18501 | * range whose code points are considered to be Unicode, and so |
18502 | * must be individually translated into native, or because its a |
18503 | * subrange of 'A-Z' or 'a-z' which each aren't contiguous in |
18504 | * EBCDIC, but we have defined them to include only the "expected" |
18505 | * upper or lower case ASCII alphabetics. Subranges above 255 are |
18506 | * the same in native and Unicode, so can be added as a range */ |
18507 | U8 start = NATIVE_TO_LATIN1(prevvalue)(((( (sizeof(prevvalue) == 1) || !(((U64)((prevvalue) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 18507, __func__, "( (sizeof(prevvalue) == 1) || !(((U64)((prevvalue) | 0)) & ~0xFF))" )), ((U8) ((prevvalue) | 0))); |
18508 | unsigned j; |
18509 | U8 end = (value < 256) ? NATIVE_TO_LATIN1(value)(((( (sizeof(value) == 1) || !(((U64)((value) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_comp.c", 18509, __func__, "( (sizeof(value) == 1) || !(((U64)((value) | 0)) & ~0xFF))" )), ((U8) ((value) | 0))) : 255; |
18510 | for (j = start; j <= end; j++) { |
18511 | cp_foldable_list = add_cp_to_invlist(cp_foldable_list, LATIN1_TO_NATIVE(j))S_add_cp_to_invlist( cp_foldable_list,(((( (sizeof(j) == 1) || !(((U64)((j) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c" , 18511, __func__, "( (sizeof(j) == 1) || !(((U64)((j) | 0)) & ~0xFF))" )), ((U8) ((j) | 0)))); |
18512 | } |
18513 | if (value > 255) { |
18514 | cp_foldable_list = _add_range_to_invlist(cp_foldable_list,Perl__add_range_to_invlist( cp_foldable_list,256,value) |
18515 | 256, value)Perl__add_range_to_invlist( cp_foldable_list,256,value); |
18516 | } |
18517 | } |
18518 | #endif |
18519 | |
18520 | range = 0; /* this range (if it was one) is done now */ |
18521 | } /* End of loop through all the text within the brackets */ |
18522 | |
18523 | if ( posix_warnings && av_tindex_skip_len_mg(posix_warnings)(((((svtype)((posix_warnings)->sv_flags & 0xff)) == SVt_PVAV ) ? (void)0 : __assert2("re_comp.c", 18523, __func__, "((svtype)((posix_warnings)->sv_flags & 0xff)) == SVt_PVAV" )), ((XPVAV*) (posix_warnings)->sv_any)->xav_fill) >= 0) { |
18524 | output_posix_warnings(pRExC_state, posix_warnings)S_output_posix_warnings( pRExC_state,posix_warnings); |
18525 | } |
18526 | |
18527 | /* If anything in the class expands to more than one character, we have to |
18528 | * deal with them by building up a substitute parse string, and recursively |
18529 | * calling reg() on it, instead of proceeding */ |
18530 | if (multi_char_matches) { |
18531 | SV * substitute_parse = newSVpvn_flags("?:", 2, SVs_TEMP)Perl_newSVpvn_flags( "?:",2,0x00080000); |
18532 | I32 cp_count; |
18533 | STRLEN len; |
18534 | char *save_end = RExC_end(pRExC_state->end); |
18535 | char *save_parse = RExC_parse(pRExC_state->parse); |
18536 | char *save_start = RExC_start(pRExC_state->start); |
18537 | Size_tsize_t constructed_prefix_len = 0; /* This gives the length of the |
18538 | constructed portion of the |
18539 | substitute parse. */ |
18540 | bool_Bool first_time = TRUE(1); /* First multi-char occurrence doesn't get |
18541 | a "|" */ |
18542 | I32 reg_flags; |
18543 | |
18544 | assert(! invert)((! invert) ? (void)0 : __assert2("re_comp.c", 18544, __func__ , "! invert")); |
18545 | /* Only one level of recursion allowed */ |
18546 | assert(RExC_copy_start_in_constructed == RExC_precomp)(((pRExC_state->copy_start) == (pRExC_state->precomp)) ? (void)0 : __assert2("re_comp.c", 18546, __func__, "RExC_copy_start_in_constructed == RExC_precomp" )); |
18547 | |
18548 | #if 0 /* Have decided not to deal with multi-char folds in inverted classes, |
18549 | because too confusing */ |
18550 | if (invert) { |
18551 | sv_catpvs(substitute_parse, "(?:")Perl_sv_catpvn_flags( substitute_parse, ("" "(?:" ""), (sizeof ("(?:")-1), 2); |
18552 | } |
18553 | #endif |
18554 | |
18555 | /* Look at the longest strings first */ |
18556 | for (cp_count = av_tindex_skip_len_mg(multi_char_matches)(((((svtype)((multi_char_matches)->sv_flags & 0xff)) == SVt_PVAV) ? (void)0 : __assert2("re_comp.c", 18556, __func__ , "((svtype)((multi_char_matches)->sv_flags & 0xff)) == SVt_PVAV" )), ((XPVAV*) (multi_char_matches)->sv_any)->xav_fill); |
18557 | cp_count > 0; |
18558 | cp_count--) |
18559 | { |
18560 | |
18561 | if (av_exists(multi_char_matches, cp_count)Perl_av_exists( multi_char_matches,cp_count)) { |
18562 | AV** this_array_ptr; |
18563 | SV* this_sequence; |
18564 | |
18565 | this_array_ptr = (AV**) av_fetch(multi_char_matches,Perl_av_fetch( multi_char_matches,cp_count,(0)) |
18566 | cp_count, FALSE)Perl_av_fetch( multi_char_matches,cp_count,(0)); |
18567 | while ((this_sequence = av_pop(*this_array_ptr)Perl_av_pop( *this_array_ptr)) != |
18568 | &PL_sv_undef(PL_sv_immortals[1])) |
18569 | { |
18570 | if (! first_time) { |
18571 | sv_catpvs(substitute_parse, "|")Perl_sv_catpvn_flags( substitute_parse, ("" "|" ""), (sizeof( "|")-1), 2); |
18572 | } |
18573 | first_time = FALSE(0); |
18574 | |
18575 | sv_catpv(substitute_parse, SvPVX(this_sequence))Perl_sv_catpv( substitute_parse,(*({ SV *const _svpvx = ((SV * )({ void *_p = (this_sequence); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 18575, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 18575, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 18575, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))); |
18576 | } |
18577 | } |
18578 | } |
18579 | |
18580 | /* If the character class contains anything else besides these |
18581 | * multi-character strings, have to include it in recursive parsing */ |
18582 | if (element_count) { |
18583 | bool_Bool has_l_bracket = orig_parse > RExC_start(pRExC_state->start) && *(orig_parse - 1) == '['; |
18584 | |
18585 | sv_catpvs(substitute_parse, "|")Perl_sv_catpvn_flags( substitute_parse, ("" "|" ""), (sizeof( "|")-1), 2); |
18586 | if (has_l_bracket) { /* Add an [ if the original had one */ |
18587 | sv_catpvs(substitute_parse, "[")Perl_sv_catpvn_flags( substitute_parse, ("" "[" ""), (sizeof( "[")-1), 2); |
18588 | } |
18589 | constructed_prefix_len = SvCUR(substitute_parse)(*({ const SV *const _svcur = (const SV *)(substitute_parse); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 18589, __func__ , "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]")); ((!( (((_svcur)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 18589, __func__, "!isGV_with_GP(_svcur)" )); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 18589, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })); |
18590 | sv_catpvn(substitute_parse, orig_parse, RExC_parse - orig_parse)Perl_sv_catpvn_flags( substitute_parse,orig_parse,(pRExC_state ->parse) - orig_parse,2); |
18591 | |
18592 | /* Put in a closing ']' to match any opening one, but not if going |
18593 | * off the end, as otherwise we are adding something that really |
18594 | * isn't there */ |
18595 | if (has_l_bracket && RExC_parse(pRExC_state->parse) < RExC_end(pRExC_state->end)) { |
18596 | sv_catpvs(substitute_parse, "]")Perl_sv_catpvn_flags( substitute_parse, ("" "]" ""), (sizeof( "]")-1), 2); |
18597 | } |
18598 | } |
18599 | |
18600 | sv_catpvs(substitute_parse, ")")Perl_sv_catpvn_flags( substitute_parse, ("" ")" ""), (sizeof( ")")-1), 2); |
18601 | #if 0 |
18602 | if (invert) { |
18603 | /* This is a way to get the parse to skip forward a whole named |
18604 | * sequence instead of matching the 2nd character when it fails the |
18605 | * first */ |
18606 | sv_catpvs(substitute_parse, "(*THEN)(*SKIP)(*FAIL)|.)")Perl_sv_catpvn_flags( substitute_parse, ("" "(*THEN)(*SKIP)(*FAIL)|.)" ""), (sizeof("(*THEN)(*SKIP)(*FAIL)|.)")-1), 2); |
18607 | } |
18608 | #endif |
18609 | |
18610 | /* Set up the data structure so that any errors will be properly |
18611 | * reported. See the comments at the definition of |
18612 | * REPORT_LOCATION_ARGS for details */ |
18613 | RExC_copy_start_in_input(pRExC_state->copy_start_in_input) = (char *) orig_parse; |
18614 | RExC_start(pRExC_state->start) = RExC_parse(pRExC_state->parse) = SvPV(substitute_parse, len)((((substitute_parse)->sv_flags & (0x00000400|0x00200000 )) == 0x00000400) ? ((len = (*({ const SV *const _svcur = (const SV *)(substitute_parse); ((PL_valid_types_PVX[((svtype)((_svcur )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 18614, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 18614, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 18614, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))), (*({ SV *const _svpvx = ((SV *)({ void * _p = (substitute_parse); _p; })); ((PL_valid_types_PVX[((svtype )((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 18614, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 18614, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 18614, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))) : Perl_sv_2pv_flags ( substitute_parse,&len,2)); |
18615 | RExC_copy_start_in_constructed(pRExC_state->copy_start) = RExC_start(pRExC_state->start) + constructed_prefix_len; |
18616 | RExC_end(pRExC_state->end) = RExC_parse(pRExC_state->parse) + len; |
18617 | RExC_in_multi_char_class(pRExC_state->in_multi_char_class) = 1; |
18618 | |
18619 | ret = reg(pRExC_state, 1, ®_flags, depth+1)S_reg( pRExC_state,1,®_flags,depth+1); |
18620 | |
18621 | *flagp |= reg_flags & (HASWIDTH0x01|SIMPLE0x02|SPSTART0x04|POSTPONED0x08|RESTART_PARSE0x20|NEED_UTF80x40); |
18622 | |
18623 | /* And restore so can parse the rest of the pattern */ |
18624 | RExC_parse(pRExC_state->parse) = save_parse; |
18625 | RExC_start(pRExC_state->start) = RExC_copy_start_in_constructed(pRExC_state->copy_start) = RExC_copy_start_in_input(pRExC_state->copy_start_in_input) = save_start; |
18626 | RExC_end(pRExC_state->end) = save_end; |
18627 | RExC_in_multi_char_class(pRExC_state->in_multi_char_class) = 0; |
18628 | SvREFCNT_dec_NN(multi_char_matches)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (multi_char_matches ); _p; }))); |
18629 | return ret; |
18630 | } |
18631 | |
18632 | /* If folding, we calculate all characters that could fold to or from the |
18633 | * ones already on the list */ |
18634 | if (cp_foldable_list) { |
18635 | if (FOLD(((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool )1 : (_Bool)0)) { |
18636 | UV start, end; /* End points of code point ranges */ |
18637 | |
18638 | SV* fold_intersection = NULL((void*)0); |
18639 | SV** use_list; |
18640 | |
18641 | /* Our calculated list will be for Unicode rules. For locale |
18642 | * matching, we have to keep a separate list that is consulted at |
18643 | * runtime only when the locale indicates Unicode rules (and we |
18644 | * don't include potential matches in the ASCII/Latin1 range, as |
18645 | * any code point could fold to any other, based on the run-time |
18646 | * locale). For non-locale, we just use the general list */ |
18647 | if (LOC(get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) { |
18648 | use_list = &only_utf8_locale_list; |
18649 | } |
18650 | else { |
18651 | use_list = &cp_list; |
18652 | } |
18653 | |
18654 | /* Only the characters in this class that participate in folds need |
18655 | * be checked. Get the intersection of this class and all the |
18656 | * possible characters that are foldable. This can quickly narrow |
18657 | * down a large class */ |
18658 | _invlist_intersection(PL_in_some_fold, cp_foldable_list,Perl__invlist_intersection_maybe_complement_2nd( PL_in_some_fold ,cp_foldable_list,(0),&fold_intersection) |
18659 | &fold_intersection)Perl__invlist_intersection_maybe_complement_2nd( PL_in_some_fold ,cp_foldable_list,(0),&fold_intersection); |
18660 | |
18661 | /* Now look at the foldable characters in this class individually */ |
18662 | invlist_iterinitS_invlist_iterinit(fold_intersection); |
18663 | while (invlist_iternextS_invlist_iternext(fold_intersection, &start, &end)) { |
18664 | UV j; |
18665 | UV folded; |
18666 | |
18667 | /* Look at every character in the range */ |
18668 | for (j = start; j <= end; j++) { |
18669 | U8 foldbuf[UTF8_MAXBYTES_CASE(((13)>(3 * ((((U64)(0x10FFFF)) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF) < (32 * (1U << ( 6))) ? 2 : (UV) (0x10FFFF) < (16 * (1U << (2 * 6) )) ? 3 : (UV) (0x10FFFF) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV ) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF ) < ((UV) 1U << (6 * 6)) ? 7 : 13))))?(13):(3 * (((( U64)(0x10FFFF)) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF) < (32 * (1U << ( 6))) ? 2 : (UV ) (0x10FFFF) < (16 * (1U << (2 * 6))) ? 3 : (UV) (0x10FFFF ) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF) < ((UV) 1U << (6 * 6)) ? 7 : 13))))+1]; |
18670 | STRLEN foldlen; |
18671 | unsigned int k; |
18672 | Size_tsize_t folds_count; |
18673 | U32 first_fold; |
18674 | const U32 * remaining_folds; |
18675 | |
18676 | if (j < 256) { |
18677 | |
18678 | /* Under /l, we don't know what code points below 256 |
18679 | * fold to, except we do know the MICRO SIGN folds to |
18680 | * an above-255 character if the locale is UTF-8, so we |
18681 | * add it to the special list (in *use_list) Otherwise |
18682 | * we know now what things can match, though some folds |
18683 | * are valid under /d only if the target is UTF-8. |
18684 | * Those go in a separate list */ |
18685 | if ( IS_IN_SOME_FOLD_L1(j)((( (sizeof(j) == 1) || !(((U64)((j) | 0)) & ~0xFF)) && (PL_charclass[(U8) (j)] & (1U << (22)))) ? (_Bool) 1 : (_Bool)0) |
18686 | && ! (LOC(get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET ) && j != MICRO_SIGN0xB5)) |
18687 | { |
18688 | |
18689 | /* ASCII is always matched; non-ASCII is matched |
18690 | * only under Unicode rules (which could happen |
18691 | * under /l if the locale is a UTF-8 one */ |
18692 | if (isASCII(j)((U64)((j) | 0) < 128) || ! DEPENDS_SEMANTICS(get_regex_charset((pRExC_state->flags)) == REGEX_DEPENDS_CHARSET )) { |
18693 | *use_list = add_cp_to_invlist(*use_list,S_add_cp_to_invlist( *use_list,PL_fold_latin1[j]) |
18694 | PL_fold_latin1[j])S_add_cp_to_invlist( *use_list,PL_fold_latin1[j]); |
18695 | } |
18696 | else if (j != PL_fold_latin1[j]) { |
18697 | upper_latin1_only_utf8_matches |
18698 | = add_cp_to_invlist(S_add_cp_to_invlist( upper_latin1_only_utf8_matches,PL_fold_latin1 [j]) |
18699 | upper_latin1_only_utf8_matches,S_add_cp_to_invlist( upper_latin1_only_utf8_matches,PL_fold_latin1 [j]) |
18700 | PL_fold_latin1[j])S_add_cp_to_invlist( upper_latin1_only_utf8_matches,PL_fold_latin1 [j]); |
18701 | } |
18702 | } |
18703 | |
18704 | if (HAS_NONLATIN1_SIMPLE_FOLD_CLOSURE(j)((! ((( (sizeof(j) == 1) || !(((U64)((j) | 0)) & ~0xFF))) ? (_Bool)1 : (_Bool)0)) || (PL_charclass[(U8) (j)] & (1U << (19)))) |
18705 | && (! isASCII(j)((U64)((j) | 0) < 128) || ! ASCII_FOLD_RESTRICTED(get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET ))) |
18706 | { |
18707 | add_above_Latin1_folds(pRExC_state,S_add_above_Latin1_folds( pRExC_state,(U8) j,use_list) |
18708 | (U8) j,S_add_above_Latin1_folds( pRExC_state,(U8) j,use_list) |
18709 | use_list)S_add_above_Latin1_folds( pRExC_state,(U8) j,use_list); |
18710 | } |
18711 | continue; |
18712 | } |
18713 | |
18714 | /* Here is an above Latin1 character. We don't have the |
18715 | * rules hard-coded for it. First, get its fold. This is |
18716 | * the simple fold, as the multi-character folds have been |
18717 | * handled earlier and separated out */ |
18718 | folded = _to_uni_fold_flags(j, foldbuf, &foldlen,Perl__to_uni_fold_flags( j,foldbuf,&foldlen,((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 0x4 : 0) |
18719 | (ASCII_FOLD_RESTRICTED)Perl__to_uni_fold_flags( j,foldbuf,&foldlen,((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 0x4 : 0) |
18720 | ? FOLD_FLAGS_NOMIX_ASCIIPerl__to_uni_fold_flags( j,foldbuf,&foldlen,((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 0x4 : 0) |
18721 | : 0)Perl__to_uni_fold_flags( j,foldbuf,&foldlen,((get_regex_charset ((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) ? 0x4 : 0); |
18722 | |
18723 | /* Single character fold of above Latin1. Add everything |
18724 | * in its fold closure to the list that this node should |
18725 | * match. */ |
18726 | folds_count = _inverse_folds(folded, &first_fold,Perl__inverse_folds( folded,&first_fold,&remaining_folds ) |
18727 | &remaining_folds)Perl__inverse_folds( folded,&first_fold,&remaining_folds ); |
18728 | for (k = 0; k <= folds_count; k++) { |
18729 | UV c = (k == 0) /* First time through use itself */ |
18730 | ? folded |
18731 | : (k == 1) /* 2nd time use, the first fold */ |
18732 | ? first_fold |
18733 | |
18734 | /* Then the remaining ones */ |
18735 | : remaining_folds[k-2]; |
18736 | |
18737 | /* /aa doesn't allow folds between ASCII and non- */ |
18738 | if (( ASCII_FOLD_RESTRICTED(get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET ) |
18739 | && (isASCII(c)((U64)((c) | 0) < 128) != isASCII(j)((U64)((j) | 0) < 128)))) |
18740 | { |
18741 | continue; |
18742 | } |
18743 | |
18744 | /* Folds under /l which cross the 255/256 boundary are |
18745 | * added to a separate list. (These are valid only |
18746 | * when the locale is UTF-8.) */ |
18747 | if (c < 256 && LOC(get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) { |
18748 | *use_list = add_cp_to_invlist(*use_list, c)S_add_cp_to_invlist( *use_list,c); |
18749 | continue; |
18750 | } |
18751 | |
18752 | if (isASCII(c)((U64)((c) | 0) < 128) || c > 255 || AT_LEAST_UNI_SEMANTICS(get_regex_charset((pRExC_state->flags)) >= REGEX_UNICODE_CHARSET )) |
18753 | { |
18754 | cp_list = add_cp_to_invlist(cp_list, c)S_add_cp_to_invlist( cp_list,c); |
18755 | } |
18756 | else { |
18757 | /* Similarly folds involving non-ascii Latin1 |
18758 | * characters under /d are added to their list */ |
18759 | upper_latin1_only_utf8_matches |
18760 | = add_cp_to_invlist(S_add_cp_to_invlist( upper_latin1_only_utf8_matches,c) |
18761 | upper_latin1_only_utf8_matches,S_add_cp_to_invlist( upper_latin1_only_utf8_matches,c) |
18762 | c)S_add_cp_to_invlist( upper_latin1_only_utf8_matches,c); |
18763 | } |
18764 | } |
18765 | } |
18766 | } |
18767 | SvREFCNT_dec_NN(fold_intersection)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (fold_intersection ); _p; }))); |
18768 | } |
18769 | |
18770 | /* Now that we have finished adding all the folds, there is no reason |
18771 | * to keep the foldable list separate */ |
18772 | _invlist_union(cp_list, cp_foldable_list, &cp_list)Perl__invlist_union_maybe_complement_2nd( cp_list,cp_foldable_list ,(0),&cp_list); |
18773 | SvREFCNT_dec_NN(cp_foldable_list)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (cp_foldable_list) ; _p; }))); |
18774 | } |
18775 | |
18776 | /* And combine the result (if any) with any inversion lists from posix |
18777 | * classes. The lists are kept separate up to now because we don't want to |
18778 | * fold the classes */ |
18779 | if (simple_posixes) { /* These are the classes known to be unaffected by |
18780 | /a, /aa, and /d */ |
18781 | if (cp_list) { |
18782 | _invlist_union(cp_list, simple_posixes, &cp_list)Perl__invlist_union_maybe_complement_2nd( cp_list,simple_posixes ,(0),&cp_list); |
18783 | SvREFCNT_dec_NN(simple_posixes)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (simple_posixes); _p ; }))); |
18784 | } |
18785 | else { |
18786 | cp_list = simple_posixes; |
18787 | } |
18788 | } |
18789 | if (posixes || nposixes) { |
18790 | if (! DEPENDS_SEMANTICS(get_regex_charset((pRExC_state->flags)) == REGEX_DEPENDS_CHARSET )) { |
18791 | |
18792 | /* For everything but /d, we can just add the current 'posixes' and |
18793 | * 'nposixes' to the main list */ |
18794 | if (posixes) { |
18795 | if (cp_list) { |
18796 | _invlist_union(cp_list, posixes, &cp_list)Perl__invlist_union_maybe_complement_2nd( cp_list,posixes,(0) ,&cp_list); |
18797 | SvREFCNT_dec_NN(posixes)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (posixes); _p; })) ); |
18798 | } |
18799 | else { |
18800 | cp_list = posixes; |
18801 | } |
18802 | } |
18803 | if (nposixes) { |
18804 | if (cp_list) { |
18805 | _invlist_union(cp_list, nposixes, &cp_list)Perl__invlist_union_maybe_complement_2nd( cp_list,nposixes,(0 ),&cp_list); |
18806 | SvREFCNT_dec_NN(nposixes)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (nposixes); _p; }) )); |
18807 | } |
18808 | else { |
18809 | cp_list = nposixes; |
18810 | } |
18811 | } |
18812 | } |
18813 | else { |
18814 | /* Under /d, things like \w match upper Latin1 characters only if |
18815 | * the target string is in UTF-8. But things like \W match all the |
18816 | * upper Latin1 characters if the target string is not in UTF-8. |
18817 | * |
18818 | * Handle the case with something like \W separately */ |
18819 | if (nposixes) { |
18820 | SV* only_non_utf8_list = invlist_clone(PL_UpperLatin1, NULL)Perl_invlist_clone( PL_UpperLatin1,((void*)0)); |
18821 | |
18822 | /* A complemented posix class matches all upper Latin1 |
18823 | * characters if not in UTF-8. And it matches just certain |
18824 | * ones when in UTF-8. That means those certain ones are |
18825 | * matched regardless, so can just be added to the |
18826 | * unconditional list */ |
18827 | if (cp_list) { |
18828 | _invlist_union(cp_list, nposixes, &cp_list)Perl__invlist_union_maybe_complement_2nd( cp_list,nposixes,(0 ),&cp_list); |
18829 | SvREFCNT_dec_NN(nposixes)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (nposixes); _p; }) )); |
18830 | nposixes = NULL((void*)0); |
18831 | } |
18832 | else { |
18833 | cp_list = nposixes; |
18834 | } |
18835 | |
18836 | /* Likewise for 'posixes' */ |
18837 | _invlist_union(posixes, cp_list, &cp_list)Perl__invlist_union_maybe_complement_2nd( posixes,cp_list,(0) ,&cp_list); |
18838 | SvREFCNT_dec(posixes)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (posixes); _p; }))); |
18839 | |
18840 | /* Likewise for anything else in the range that matched only |
18841 | * under UTF-8 */ |
18842 | if (upper_latin1_only_utf8_matches) { |
18843 | _invlist_union(cp_list,Perl__invlist_union_maybe_complement_2nd( cp_list,upper_latin1_only_utf8_matches ,(0),&cp_list) |
18844 | upper_latin1_only_utf8_matches,Perl__invlist_union_maybe_complement_2nd( cp_list,upper_latin1_only_utf8_matches ,(0),&cp_list) |
18845 | &cp_list)Perl__invlist_union_maybe_complement_2nd( cp_list,upper_latin1_only_utf8_matches ,(0),&cp_list); |
18846 | SvREFCNT_dec_NN(upper_latin1_only_utf8_matches)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (upper_latin1_only_utf8_matches ); _p; }))); |
18847 | upper_latin1_only_utf8_matches = NULL((void*)0); |
18848 | } |
18849 | |
18850 | /* If we don't match all the upper Latin1 characters regardless |
18851 | * of UTF-8ness, we have to set a flag to match the rest when |
18852 | * not in UTF-8 */ |
18853 | _invlist_subtract(only_non_utf8_list, cp_list,Perl__invlist_intersection_maybe_complement_2nd( only_non_utf8_list ,cp_list,(1),&only_non_utf8_list) |
18854 | &only_non_utf8_list)Perl__invlist_intersection_maybe_complement_2nd( only_non_utf8_list ,cp_list,(1),&only_non_utf8_list); |
18855 | if (_invlist_lenS__invlist_len(only_non_utf8_list) != 0) { |
18856 | anyof_flags |= ANYOF_SHARED_d_MATCHES_ALL_NON_UTF8_NON_ASCII_non_d_WARN_SUPER0x80; |
18857 | } |
18858 | SvREFCNT_dec_NN(only_non_utf8_list)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (only_non_utf8_list ); _p; }))); |
18859 | } |
18860 | else { |
18861 | /* Here there were no complemented posix classes. That means |
18862 | * the upper Latin1 characters in 'posixes' match only when the |
18863 | * target string is in UTF-8. So we have to add them to the |
18864 | * list of those types of code points, while adding the |
18865 | * remainder to the unconditional list. |
18866 | * |
18867 | * First calculate what they are */ |
18868 | SV* nonascii_but_latin1_properties = NULL((void*)0); |
18869 | _invlist_intersection(posixes, PL_UpperLatin1,Perl__invlist_intersection_maybe_complement_2nd( posixes,PL_UpperLatin1 ,(0),&nonascii_but_latin1_properties) |
18870 | &nonascii_but_latin1_properties)Perl__invlist_intersection_maybe_complement_2nd( posixes,PL_UpperLatin1 ,(0),&nonascii_but_latin1_properties); |
18871 | |
18872 | /* And add them to the final list of such characters. */ |
18873 | _invlist_union(upper_latin1_only_utf8_matches,Perl__invlist_union_maybe_complement_2nd( upper_latin1_only_utf8_matches ,nonascii_but_latin1_properties,(0),&upper_latin1_only_utf8_matches ) |
18874 | nonascii_but_latin1_properties,Perl__invlist_union_maybe_complement_2nd( upper_latin1_only_utf8_matches ,nonascii_but_latin1_properties,(0),&upper_latin1_only_utf8_matches ) |
18875 | &upper_latin1_only_utf8_matches)Perl__invlist_union_maybe_complement_2nd( upper_latin1_only_utf8_matches ,nonascii_but_latin1_properties,(0),&upper_latin1_only_utf8_matches ); |
18876 | |
18877 | /* Remove them from what now becomes the unconditional list */ |
18878 | _invlist_subtract(posixes, nonascii_but_latin1_properties,Perl__invlist_intersection_maybe_complement_2nd( posixes,nonascii_but_latin1_properties ,(1),&posixes) |
18879 | &posixes)Perl__invlist_intersection_maybe_complement_2nd( posixes,nonascii_but_latin1_properties ,(1),&posixes); |
18880 | |
18881 | /* And add those unconditional ones to the final list */ |
18882 | if (cp_list) { |
18883 | _invlist_union(cp_list, posixes, &cp_list)Perl__invlist_union_maybe_complement_2nd( cp_list,posixes,(0) ,&cp_list); |
18884 | SvREFCNT_dec_NN(posixes)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (posixes); _p; })) ); |
18885 | posixes = NULL((void*)0); |
18886 | } |
18887 | else { |
18888 | cp_list = posixes; |
18889 | } |
18890 | |
18891 | SvREFCNT_dec(nonascii_but_latin1_properties)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (nonascii_but_latin1_properties ); _p; }))); |
18892 | |
18893 | /* Get rid of any characters from the conditional list that we |
18894 | * now know are matched unconditionally, which may make that |
18895 | * list empty */ |
18896 | _invlist_subtract(upper_latin1_only_utf8_matches,Perl__invlist_intersection_maybe_complement_2nd( upper_latin1_only_utf8_matches ,cp_list,(1),&upper_latin1_only_utf8_matches) |
18897 | cp_list,Perl__invlist_intersection_maybe_complement_2nd( upper_latin1_only_utf8_matches ,cp_list,(1),&upper_latin1_only_utf8_matches) |
18898 | &upper_latin1_only_utf8_matches)Perl__invlist_intersection_maybe_complement_2nd( upper_latin1_only_utf8_matches ,cp_list,(1),&upper_latin1_only_utf8_matches); |
18899 | if (_invlist_lenS__invlist_len(upper_latin1_only_utf8_matches) == 0) { |
18900 | SvREFCNT_dec_NN(upper_latin1_only_utf8_matches)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (upper_latin1_only_utf8_matches ); _p; }))); |
18901 | upper_latin1_only_utf8_matches = NULL((void*)0); |
18902 | } |
18903 | } |
18904 | } |
18905 | } |
18906 | |
18907 | /* And combine the result (if any) with any inversion list from properties. |
18908 | * The lists are kept separate up to now so that we can distinguish the two |
18909 | * in regards to matching above-Unicode. A run-time warning is generated |
18910 | * if a Unicode property is matched against a non-Unicode code point. But, |
18911 | * we allow user-defined properties to match anything, without any warning, |
18912 | * and we also suppress the warning if there is a portion of the character |
18913 | * class that isn't a Unicode property, and which matches above Unicode, \W |
18914 | * or [\x{110000}] for example. |
18915 | * (Note that in this case, unlike the Posix one above, there is no |
18916 | * <upper_latin1_only_utf8_matches>, because having a Unicode property |
18917 | * forces Unicode semantics */ |
18918 | if (properties) { |
18919 | if (cp_list) { |
18920 | |
18921 | /* If it matters to the final outcome, see if a non-property |
18922 | * component of the class matches above Unicode. If so, the |
18923 | * warning gets suppressed. This is true even if just a single |
18924 | * such code point is specified, as, though not strictly correct if |
18925 | * another such code point is matched against, the fact that they |
18926 | * are using above-Unicode code points indicates they should know |
18927 | * the issues involved */ |
18928 | if (warn_super) { |
18929 | warn_super = ! (invert |
18930 | ^ (invlist_highestS_invlist_highest(cp_list) > PERL_UNICODE_MAX0x10FFFF)); |
18931 | } |
18932 | |
18933 | _invlist_union(properties, cp_list, &cp_list)Perl__invlist_union_maybe_complement_2nd( properties,cp_list, (0),&cp_list); |
18934 | SvREFCNT_dec_NN(properties)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (properties); _p; } ))); |
18935 | } |
18936 | else { |
18937 | cp_list = properties; |
18938 | } |
18939 | |
18940 | if (warn_super) { |
18941 | anyof_flags |
18942 | |= ANYOF_SHARED_d_MATCHES_ALL_NON_UTF8_NON_ASCII_non_d_WARN_SUPER0x80; |
18943 | |
18944 | /* Because an ANYOF node is the only one that warns, this node |
18945 | * can't be optimized into something else */ |
18946 | optimizable = FALSE(0); |
18947 | } |
18948 | } |
18949 | |
18950 | /* Here, we have calculated what code points should be in the character |
18951 | * class. |
18952 | * |
18953 | * Now we can see about various optimizations. Fold calculation (which we |
18954 | * did above) needs to take place before inversion. Otherwise /[^k]/i |
18955 | * would invert to include K, which under /i would match k, which it |
18956 | * shouldn't. Therefore we can't invert folded locale now, as it won't be |
18957 | * folded until runtime */ |
18958 | |
18959 | /* If we didn't do folding, it's because some information isn't available |
18960 | * until runtime; set the run-time fold flag for these We know to set the |
18961 | * flag if we have a non-NULL list for UTF-8 locales, or the class matches |
18962 | * at least one 0-255 range code point */ |
18963 | if (LOC(get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET ) && FOLD(((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool )1 : (_Bool)0)) { |
18964 | |
18965 | /* Some things on the list might be unconditionally included because of |
18966 | * other components. Remove them, and clean up the list if it goes to |
18967 | * 0 elements */ |
18968 | if (only_utf8_locale_list && cp_list) { |
18969 | _invlist_subtract(only_utf8_locale_list, cp_list,Perl__invlist_intersection_maybe_complement_2nd( only_utf8_locale_list ,cp_list,(1),&only_utf8_locale_list) |
18970 | &only_utf8_locale_list)Perl__invlist_intersection_maybe_complement_2nd( only_utf8_locale_list ,cp_list,(1),&only_utf8_locale_list); |
18971 | |
18972 | if (_invlist_lenS__invlist_len(only_utf8_locale_list) == 0) { |
18973 | SvREFCNT_dec_NN(only_utf8_locale_list)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (only_utf8_locale_list ); _p; }))); |
18974 | only_utf8_locale_list = NULL((void*)0); |
18975 | } |
18976 | } |
18977 | if ( only_utf8_locale_list |
18978 | || (cp_list && ( _invlist_contains_cpS__invlist_contains_cp(cp_list, LATIN_CAPITAL_LETTER_I_WITH_DOT_ABOVE0x130) |
18979 | || _invlist_contains_cpS__invlist_contains_cp(cp_list, LATIN_SMALL_LETTER_DOTLESS_I0x131)))) |
18980 | { |
18981 | has_runtime_dependency |= HAS_L_RUNTIME_DEPENDENCY0x04; |
18982 | anyof_flags |
18983 | |= ANYOFL_FOLD0x04 |
18984 | | ANYOFL_SHARED_UTF8_LOCALE_fold_HAS_MATCHES_nonfold_REQD0x08; |
18985 | } |
18986 | else if (cp_list && invlist_lowestS_invlist_lowest(cp_list) < 256) { |
18987 | /* If nothing is below 256, has no locale dependency; otherwise it |
18988 | * does */ |
18989 | anyof_flags |= ANYOFL_FOLD0x04; |
18990 | has_runtime_dependency |= HAS_L_RUNTIME_DEPENDENCY0x04; |
18991 | } |
18992 | } |
18993 | else if ( DEPENDS_SEMANTICS(get_regex_charset((pRExC_state->flags)) == REGEX_DEPENDS_CHARSET ) |
18994 | && ( upper_latin1_only_utf8_matches |
18995 | || (anyof_flags & ANYOF_SHARED_d_MATCHES_ALL_NON_UTF8_NON_ASCII_non_d_WARN_SUPER0x80))) |
18996 | { |
18997 | RExC_seen_d_op(pRExC_state->seen_d_op) = TRUE(1); |
18998 | has_runtime_dependency |= HAS_D_RUNTIME_DEPENDENCY0x02; |
18999 | } |
19000 | |
19001 | /* Optimize inverted patterns (e.g. [^a-z]) when everything is known at |
19002 | * compile time. */ |
19003 | if ( cp_list |
19004 | && invert |
19005 | && ! has_runtime_dependency) |
19006 | { |
19007 | _invlist_invert(cp_list)Perl__invlist_invert( cp_list); |
19008 | |
19009 | /* Clear the invert flag since have just done it here */ |
19010 | invert = FALSE(0); |
19011 | } |
19012 | |
19013 | /* All possible optimizations below still have these characteristics. |
19014 | * (Multi-char folds aren't SIMPLE, but they don't get this far in this |
19015 | * routine) */ |
19016 | *flagp |= HASWIDTH0x01|SIMPLE0x02; |
19017 | |
19018 | if (ret_invlist) { |
19019 | *ret_invlist = cp_list; |
19020 | |
19021 | return (cp_list) ? RExC_emit(pRExC_state->emit) : 0; |
19022 | } |
19023 | |
19024 | if (anyof_flags & ANYOF_LOCALE_FLAGS(0x04 | 0x02)) { |
19025 | RExC_contains_locale(pRExC_state->contains_locale) = 1; |
19026 | } |
19027 | |
19028 | /* Some character classes are equivalent to other nodes. Such nodes take |
19029 | * up less room, and some nodes require fewer operations to execute, than |
19030 | * ANYOF nodes. EXACTish nodes may be joinable with adjacent nodes to |
19031 | * improve efficiency. */ |
19032 | |
19033 | if (optimizable) { |
19034 | PERL_UINT_FAST8_T i; |
19035 | UV partial_cp_count = 0; |
19036 | UV start[MAX_FOLD_FROMS3+1] = { 0 }; /* +1 for the folded-to char */ |
19037 | UV end[MAX_FOLD_FROMS3+1] = { 0 }; |
19038 | bool_Bool single_range = FALSE(0); |
19039 | |
19040 | if (cp_list) { /* Count the code points in enough ranges that we would |
19041 | see all the ones possible in any fold in this version |
19042 | of Unicode */ |
19043 | |
19044 | invlist_iterinitS_invlist_iterinit(cp_list); |
19045 | for (i = 0; i <= MAX_FOLD_FROMS3; i++) { |
19046 | if (! invlist_iternextS_invlist_iternext(cp_list, &start[i], &end[i])) { |
19047 | break; |
19048 | } |
19049 | partial_cp_count += end[i] - start[i] + 1; |
19050 | } |
19051 | |
19052 | if (i == 1) { |
19053 | single_range = TRUE(1); |
19054 | } |
19055 | invlist_iterfinishS_invlist_iterfinish(cp_list); |
19056 | } |
19057 | |
19058 | /* If we know at compile time that this matches every possible code |
19059 | * point, any run-time dependencies don't matter */ |
19060 | if (start[0] == 0 && end[0] == UV_MAX(~(UV)0)) { |
19061 | if (invert) { |
19062 | ret = reganode(pRExC_state, OPFAIL, 0)S_reganode( pRExC_state,97,0); |
19063 | } |
19064 | else { |
19065 | ret = reg_node(pRExC_state, SANY)S_reg_node( pRExC_state,17); |
19066 | MARK_NAUGHTY(1)if ((pRExC_state->naughty) < (10)) (pRExC_state->naughty ) += (1); |
19067 | } |
19068 | goto not_anyof; |
19069 | } |
19070 | |
19071 | /* Similarly, for /l posix classes, if both a class and its |
19072 | * complement match, any run-time dependencies don't matter */ |
19073 | if (posixl) { |
19074 | for (namedclass = 0; namedclass < ANYOF_POSIXL_MAX(((15) * 2)); |
19075 | namedclass += 2) |
19076 | { |
19077 | if ( POSIXL_TEST(posixl, namedclass)((posixl) & (1U << (namedclass))) /* class */ |
19078 | && POSIXL_TEST(posixl, namedclass + 1)((posixl) & (1U << (namedclass + 1)))) /* its complement */ |
19079 | { |
19080 | if (invert) { |
19081 | ret = reganode(pRExC_state, OPFAIL, 0)S_reganode( pRExC_state,97,0); |
19082 | } |
19083 | else { |
19084 | ret = reg_node(pRExC_state, SANY)S_reg_node( pRExC_state,17); |
19085 | MARK_NAUGHTY(1)if ((pRExC_state->naughty) < (10)) (pRExC_state->naughty ) += (1); |
19086 | } |
19087 | goto not_anyof; |
19088 | } |
19089 | } |
19090 | |
19091 | /* For well-behaved locales, some classes are subsets of others, |
19092 | * so complementing the subset and including the non-complemented |
19093 | * superset should match everything, like [\D[:alnum:]], and |
19094 | * [[:^alpha:][:alnum:]], but some implementations of locales are |
19095 | * buggy, and khw thinks its a bad idea to have optimization change |
19096 | * behavior, even if it avoids an OS bug in a given case */ |
19097 | |
19098 | #define isSINGLE_BIT_SET(n)((n) && ((n) & ((n)-1)) == 0) isPOWER_OF_2(n)((n) && ((n) & ((n)-1)) == 0) |
19099 | |
19100 | /* If is a single posix /l class, can optimize to just that op. |
19101 | * Such a node will not match anything in the Latin1 range, as that |
19102 | * is not determinable until runtime, but will match whatever the |
19103 | * class does outside that range. (Note that some classes won't |
19104 | * match anything outside the range, like [:ascii:]) */ |
19105 | if ( isSINGLE_BIT_SET(posixl)((posixl) && ((posixl) & ((posixl)-1)) == 0) |
19106 | && (partial_cp_count == 0 || start[0] > 255)) |
19107 | { |
19108 | U8 classnum; |
19109 | SV * class_above_latin1 = NULL((void*)0); |
19110 | bool_Bool already_inverted; |
19111 | bool_Bool are_equivalent; |
19112 | |
19113 | /* Compute which bit is set, which is the same thing as, e.g., |
19114 | * ANYOF_CNTRL. From |
19115 | * https://graphics.stanford.edu/~seander/bithacks.html#IntegerLogDeBruijn |
19116 | * */ |
19117 | static const int MultiplyDeBruijnBitPosition2[32] = |
19118 | { |
19119 | 0, 1, 28, 2, 29, 14, 24, 3, 30, 22, 20, 15, 25, 17, 4, 8, |
19120 | 31, 27, 13, 23, 21, 19, 16, 7, 26, 12, 18, 6, 11, 5, 10, 9 |
19121 | }; |
19122 | |
19123 | namedclass = MultiplyDeBruijnBitPosition2[(posixl |
19124 | * 0x077CB531U) >> 27]; |
19125 | classnum = namedclass_to_classnum(namedclass)((int) ((namedclass) / 2)); |
19126 | |
19127 | /* The named classes are such that the inverted number is one |
19128 | * larger than the non-inverted one */ |
19129 | already_inverted = namedclass |
19130 | - classnum_to_namedclass(classnum)((classnum) * 2); |
19131 | |
19132 | /* Create an inversion list of the official property, inverted |
19133 | * if the constructed node list is inverted, and restricted to |
19134 | * only the above latin1 code points, which are the only ones |
19135 | * known at compile time */ |
19136 | _invlist_intersection_maybe_complement_2nd(Perl__invlist_intersection_maybe_complement_2nd( PL_AboveLatin1 ,PL_XPosix_ptrs[classnum],already_inverted,&class_above_latin1 ) |
19137 | PL_AboveLatin1,Perl__invlist_intersection_maybe_complement_2nd( PL_AboveLatin1 ,PL_XPosix_ptrs[classnum],already_inverted,&class_above_latin1 ) |
19138 | PL_XPosix_ptrs[classnum],Perl__invlist_intersection_maybe_complement_2nd( PL_AboveLatin1 ,PL_XPosix_ptrs[classnum],already_inverted,&class_above_latin1 ) |
19139 | already_inverted,Perl__invlist_intersection_maybe_complement_2nd( PL_AboveLatin1 ,PL_XPosix_ptrs[classnum],already_inverted,&class_above_latin1 ) |
19140 | &class_above_latin1)Perl__invlist_intersection_maybe_complement_2nd( PL_AboveLatin1 ,PL_XPosix_ptrs[classnum],already_inverted,&class_above_latin1 ); |
19141 | are_equivalent = _invlistEQ(class_above_latin1, cp_list,Perl__invlistEQ( class_above_latin1,cp_list,(0)) |
19142 | FALSE)Perl__invlistEQ( class_above_latin1,cp_list,(0)); |
19143 | SvREFCNT_dec_NN(class_above_latin1)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (class_above_latin1 ); _p; }))); |
19144 | |
19145 | if (are_equivalent) { |
19146 | |
19147 | /* Resolve the run-time inversion flag with this possibly |
19148 | * inverted class */ |
19149 | invert = invert ^ already_inverted; |
19150 | |
19151 | ret = reg_node(pRExC_state,S_reg_node( pRExC_state,31 + invert * (35 - 31)) |
19152 | POSIXL + invert * (NPOSIXL - POSIXL))S_reg_node( pRExC_state,31 + invert * (35 - 31)); |
19153 | FLAGS(REGNODE_p(ret))((((pRExC_state->emit_start) + (ret)))->flags) = classnum; |
19154 | goto not_anyof; |
19155 | } |
19156 | } |
19157 | } |
19158 | |
19159 | /* khw can't think of any other possible transformation involving |
19160 | * these. */ |
19161 | if (has_runtime_dependency & HAS_USER_DEFINED_PROPERTY0x01) { |
19162 | goto is_anyof; |
19163 | } |
19164 | |
19165 | if (! has_runtime_dependency) { |
19166 | |
19167 | /* If the list is empty, nothing matches. This happens, for |
19168 | * example, when a Unicode property that doesn't match anything is |
19169 | * the only element in the character class (perluniprops.pod notes |
19170 | * such properties). */ |
19171 | if (partial_cp_count == 0) { |
19172 | if (invert) { |
19173 | ret = reg_node(pRExC_state, SANY)S_reg_node( pRExC_state,17); |
19174 | } |
19175 | else { |
19176 | ret = reganode(pRExC_state, OPFAIL, 0)S_reganode( pRExC_state,97,0); |
19177 | } |
19178 | |
19179 | goto not_anyof; |
19180 | } |
19181 | |
19182 | /* If matches everything but \n */ |
19183 | if ( start[0] == 0 && end[0] == '\n' - 1 |
19184 | && start[1] == '\n' + 1 && end[1] == UV_MAX(~(UV)0)) |
19185 | { |
19186 | assert (! invert)((! invert) ? (void)0 : __assert2("re_comp.c", 19186, __func__ , "! invert")); |
19187 | ret = reg_node(pRExC_state, REG_ANY)S_reg_node( pRExC_state,16); |
19188 | MARK_NAUGHTY(1)if ((pRExC_state->naughty) < (10)) (pRExC_state->naughty ) += (1); |
19189 | goto not_anyof; |
19190 | } |
19191 | } |
19192 | |
19193 | /* Next see if can optimize classes that contain just a few code points |
19194 | * into an EXACTish node. The reason to do this is to let the |
19195 | * optimizer join this node with adjacent EXACTish ones, and ANYOF |
19196 | * nodes require conversion to code point from UTF-8. |
19197 | * |
19198 | * An EXACTFish node can be generated even if not under /i, and vice |
19199 | * versa. But care must be taken. An EXACTFish node has to be such |
19200 | * that it only matches precisely the code points in the class, but we |
19201 | * want to generate the least restrictive one that does that, to |
19202 | * increase the odds of being able to join with an adjacent node. For |
19203 | * example, if the class contains [kK], we have to make it an EXACTFAA |
19204 | * node to prevent the KELVIN SIGN from matching. Whether we are under |
19205 | * /i or not is irrelevant in this case. Less obvious is the pattern |
19206 | * qr/[\x{02BC}]n/i. U+02BC is MODIFIER LETTER APOSTROPHE. That is |
19207 | * supposed to match the single character U+0149 LATIN SMALL LETTER N |
19208 | * PRECEDED BY APOSTROPHE. And so even though there is no simple fold |
19209 | * that includes \X{02BC}, there is a multi-char fold that does, and so |
19210 | * the node generated for it must be an EXACTFish one. On the other |
19211 | * hand qr/:/i should generate a plain EXACT node since the colon |
19212 | * participates in no fold whatsoever, and having it EXACT tells the |
19213 | * optimizer the target string cannot match unless it has a colon in |
19214 | * it. |
19215 | */ |
19216 | if ( ! posixl |
19217 | && ! invert |
19218 | |
19219 | /* Only try if there are no more code points in the class than |
19220 | * in the max possible fold */ |
19221 | && inRANGE(partial_cp_count, 1, MAX_FOLD_FROMS + 1)((((3 + 1) >= (1)) ? (void)0 : __assert2("re_comp.c", 19221 , __func__, "(3 + 1) >= (1)")), ( (sizeof(partial_cp_count ) == sizeof(U8)) ? ((((NV) ((1)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 19221, __func__, "(NV) ((1)) >= 0")), (((NV) (((3 + 1) - (1))) >= 0) ? (void)0 : __assert2("re_comp.c" , 19221, __func__, "(NV) (((3 + 1) - (1))) >= 0")), (((U64 ) (((((U8) (partial_cp_count)))) - (((1)) | 0))) <= (((U64 ) ((((3 + 1) - (1))) | 0))))) : (sizeof(partial_cp_count) == sizeof (U32)) ? ((((NV) ((1)) >= 0) ? (void)0 : __assert2("re_comp.c" , 19221, __func__, "(NV) ((1)) >= 0")), (((NV) (((3 + 1) - (1))) >= 0) ? (void)0 : __assert2("re_comp.c", 19221, __func__ , "(NV) (((3 + 1) - (1))) >= 0")), (((U64) (((((U32) (partial_cp_count )))) - (((1)) | 0))) <= (((U64) ((((3 + 1) - (1))) | 0)))) ) : (((sizeof(partial_cp_count) == sizeof(U64)) ? (void)0 : __assert2 ("re_comp.c", 19221, __func__, "sizeof(partial_cp_count) == sizeof(U64)" )), ((((NV) ((1)) >= 0) ? (void)0 : __assert2("re_comp.c", 19221, __func__, "(NV) ((1)) >= 0")), (((NV) (((3 + 1) - ( 1))) >= 0) ? (void)0 : __assert2("re_comp.c", 19221, __func__ , "(NV) (((3 + 1) - (1))) >= 0")), (((U64) (((((U64) (partial_cp_count )))) - (((1)) | 0))) <= (((U64) ((((3 + 1) - (1))) | 0)))) ))))) |
19222 | { |
19223 | if (partial_cp_count == 1 && ! upper_latin1_only_utf8_matches) |
19224 | { |
19225 | /* We can always make a single code point class into an |
19226 | * EXACTish node. */ |
19227 | |
19228 | if (LOC(get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) { |
19229 | |
19230 | /* Here is /l: Use EXACTL, except if there is a fold not |
19231 | * known until runtime so shows as only a single code point |
19232 | * here. For code points above 255, we know which can |
19233 | * cause problems by having a potential fold to the Latin1 |
19234 | * range. */ |
19235 | if ( ! FOLD(((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool )1 : (_Bool)0) |
19236 | || ( start[0] > 255 |
19237 | && ! is_PROBLEMATIC_LOCALE_FOLD_cp(start[0])( start[0] <= 0xFF || ( 0xFF < start[0] && ( 0x130 == start[0] || ( 0x130 < start[0] && ( 0x131 == start [0] || ( 0x131 < start[0] && ( 0x149 == start[0] || ( 0x149 < start[0] && ( 0x178 == start[0] || ( 0x178 < start[0] && ( 0x17F == start[0] || ( 0x17F < start[0] && ( 0x1F0 == start[0] || ( 0x1F0 < start [0] && ( 0x307 == start[0] || ( 0x307 < start[0] && ( 0x39C == start[0] || ( 0x39C < start[0] && ( 0x3BC == start[0] || ( 0x3BC < start[0] && ( ((((0x1E9A ) >= (0x1E96)) ? (void)0 : __assert2("re_comp.c", 19237, __func__ , "(0x1E9A) >= (0x1E96)")), ( (sizeof(start[0]) == sizeof( U8)) ? ((((NV) ((0x1E96)) >= 0) ? (void)0 : __assert2("re_comp.c" , 19237, __func__, "(NV) ((0x1E96)) >= 0")), (((NV) (((0x1E9A ) - (0x1E96))) >= 0) ? (void)0 : __assert2("re_comp.c", 19237 , __func__, "(NV) (((0x1E9A) - (0x1E96))) >= 0")), (((U64) (((((U8) (start[0])))) - (((0x1E96)) | 0))) <= (((U64) (( ((0x1E9A) - (0x1E96))) | 0))))) : (sizeof(start[0]) == sizeof (U32)) ? ((((NV) ((0x1E96)) >= 0) ? (void)0 : __assert2("re_comp.c" , 19237, __func__, "(NV) ((0x1E96)) >= 0")), (((NV) (((0x1E9A ) - (0x1E96))) >= 0) ? (void)0 : __assert2("re_comp.c", 19237 , __func__, "(NV) (((0x1E9A) - (0x1E96))) >= 0")), (((U64) (((((U32) (start[0])))) - (((0x1E96)) | 0))) <= (((U64) ( (((0x1E9A) - (0x1E96))) | 0))))) : (((sizeof(start[0]) == sizeof (U64)) ? (void)0 : __assert2("re_comp.c", 19237, __func__, "sizeof(start[0]) == sizeof(U64)" )), ((((NV) ((0x1E96)) >= 0) ? (void)0 : __assert2("re_comp.c" , 19237, __func__, "(NV) ((0x1E96)) >= 0")), (((NV) (((0x1E9A ) - (0x1E96))) >= 0) ? (void)0 : __assert2("re_comp.c", 19237 , __func__, "(NV) (((0x1E9A) - (0x1E96))) >= 0")), (((U64) (((((U64) (start[0])))) - (((0x1E96)) | 0))) <= (((U64) ( (((0x1E9A) - (0x1E96))) | 0)))))))) || ( 0x1E9A < start[0] && ( 0x1E9E == start[0] || ( 0x1E9E < start[0] && ( 0x212A == start[0] || ( 0x212A < start[0] && ( 0x212B == start[0] || ((((0xFB06) >= (0xFB00)) ? (void)0 : __assert2 ("re_comp.c", 19237, __func__, "(0xFB06) >= (0xFB00)")), ( (sizeof(start[0]) == sizeof(U8)) ? ((((NV) ((0xFB00)) >= 0 ) ? (void)0 : __assert2("re_comp.c", 19237, __func__, "(NV) ((0xFB00)) >= 0" )), (((NV) (((0xFB06) - (0xFB00))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 19237, __func__, "(NV) (((0xFB06) - (0xFB00))) >= 0" )), (((U64) (((((U8) (start[0])))) - (((0xFB00)) | 0))) <= (((U64) ((((0xFB06) - (0xFB00))) | 0))))) : (sizeof(start[0] ) == sizeof(U32)) ? ((((NV) ((0xFB00)) >= 0) ? (void)0 : __assert2 ("re_comp.c", 19237, __func__, "(NV) ((0xFB00)) >= 0")), ( ((NV) (((0xFB06) - (0xFB00))) >= 0) ? (void)0 : __assert2( "re_comp.c", 19237, __func__, "(NV) (((0xFB06) - (0xFB00))) >= 0" )), (((U64) (((((U32) (start[0])))) - (((0xFB00)) | 0))) <= (((U64) ((((0xFB06) - (0xFB00))) | 0))))) : (((sizeof(start[ 0]) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 19237, __func__, "sizeof(start[0]) == sizeof(U64)")), ((((NV) ((0xFB00 )) >= 0) ? (void)0 : __assert2("re_comp.c", 19237, __func__ , "(NV) ((0xFB00)) >= 0")), (((NV) (((0xFB06) - (0xFB00))) >= 0) ? (void)0 : __assert2("re_comp.c", 19237, __func__, "(NV) (((0xFB06) - (0xFB00))) >= 0")), (((U64) (((((U64) ( start[0])))) - (((0xFB00)) | 0))) <= (((U64) ((((0xFB06) - (0xFB00))) | 0)))))))) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ))) |
19238 | { |
19239 | op = EXACTL42; |
19240 | } |
19241 | else { |
19242 | op = EXACTFL44; |
19243 | } |
19244 | } |
19245 | else if (! FOLD(((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool )1 : (_Bool)0)) { /* Not /l and not /i */ |
19246 | op = (start[0] < 256) ? EXACT40 : EXACT_REQ850; |
19247 | } |
19248 | else if (start[0] < 256) { /* /i, not /l, and the code point is |
19249 | small */ |
19250 | |
19251 | /* Under /i, it gets a little tricky. A code point that |
19252 | * doesn't participate in a fold should be an EXACT node. |
19253 | * We know this one isn't the result of a simple fold, or |
19254 | * there'd be more than one code point in the list, but it |
19255 | * could be part of a multi- character fold. In that case |
19256 | * we better not create an EXACT node, as we would wrongly |
19257 | * be telling the optimizer that this code point must be in |
19258 | * the target string, and that is wrong. This is because |
19259 | * if the sequence around this code point forms a |
19260 | * multi-char fold, what needs to be in the string could be |
19261 | * the code point that folds to the sequence. |
19262 | * |
19263 | * This handles the case of below-255 code points, as we |
19264 | * have an easy look up for those. The next clause handles |
19265 | * the above-256 one */ |
19266 | op = IS_IN_SOME_FOLD_L1(start[0])((( (sizeof(start[0]) == 1) || !(((U64)((start[0]) | 0)) & ~0xFF)) && (PL_charclass[(U8) (start[0])] & (1U << (22)))) ? (_Bool)1 : (_Bool)0) |
19267 | ? EXACTFU45 |
19268 | : EXACT40; |
19269 | } |
19270 | else { /* /i, larger code point. Since we are under /i, and |
19271 | have just this code point, we know that it can't |
19272 | fold to something else, so PL_InMultiCharFold |
19273 | applies to it */ |
19274 | op = _invlist_contains_cpS__invlist_contains_cp(PL_InMultiCharFold, |
19275 | start[0]) |
19276 | ? EXACTFU_REQ852 |
19277 | : EXACT_REQ850; |
19278 | } |
19279 | |
19280 | value = start[0]; |
19281 | } |
19282 | else if ( ! (has_runtime_dependency & ~HAS_D_RUNTIME_DEPENDENCY0x02) |
19283 | && _invlist_contains_cpS__invlist_contains_cp(PL_in_some_fold, start[0])) |
19284 | { |
19285 | /* Here, the only runtime dependency, if any, is from /d, and |
19286 | * the class matches more than one code point, and the lowest |
19287 | * code point participates in some fold. It might be that the |
19288 | * other code points are /i equivalent to this one, and hence |
19289 | * they would representable by an EXACTFish node. Above, we |
19290 | * eliminated classes that contain too many code points to be |
19291 | * EXACTFish, with the test for MAX_FOLD_FROMS |
19292 | * |
19293 | * First, special case the ASCII fold pairs, like 'B' and 'b'. |
19294 | * We do this because we have EXACTFAA at our disposal for the |
19295 | * ASCII range */ |
19296 | if (partial_cp_count == 2 && isASCII(start[0])((U64)((start[0]) | 0) < 128)) { |
19297 | |
19298 | /* The only ASCII characters that participate in folds are |
19299 | * alphabetics */ |
19300 | assert(isALPHA(start[0]))(((((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 19300 , __func__, "('Z') >= ('A')")), ( (sizeof((~('A' ^ 'a') & (start[0]))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void )0 : __assert2("re_comp.c", 19300, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 19300, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U8) ((~('A' ^ 'a') & (start[0])))))) - ((('A')) | 0 ))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & (start[0]))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 19300, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 19300, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) ((~('A' ^ 'a') & (start[0])))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof(( ~('A' ^ 'a') & (start[0]))) == sizeof(U64)) ? (void)0 : __assert2 ("re_comp.c", 19300, __func__, "sizeof((~('A' ^ 'a') & (start[0]))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 19300, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 19300, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & (start[0])))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))))))) ? (void)0 : __assert2("re_comp.c" , 19300, __func__, "isALPHA(start[0])")); |
19301 | if ( end[0] == start[0] /* First range is a single |
19302 | character, so 2nd exists */ |
19303 | && isALPHA_FOLD_EQ(start[0], start[1])((((((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 19303 , __func__, "('Z') >= ('A')")), ( (sizeof((~('A' ^ 'a') & (start[0]))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void )0 : __assert2("re_comp.c", 19303, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 19303, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U8) ((~('A' ^ 'a') & (start[0])))))) - ((('A')) | 0 ))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & (start[0]))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 19303, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 19303, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) ((~('A' ^ 'a') & (start[0])))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof(( ~('A' ^ 'a') & (start[0]))) == sizeof(U64)) ? (void)0 : __assert2 ("re_comp.c", 19303, __func__, "sizeof((~('A' ^ 'a') & (start[0]))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 19303, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 19303, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & (start[0])))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)))))))) || (((('Z') >= ('A')) ? (void )0 : __assert2("re_comp.c", 19303, __func__, "('Z') >= ('A')" )), ( (sizeof((~('A' ^ 'a') & (start[1]))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 19303, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 19303, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) ((~('A' ^ 'a') & (start[1])))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & (start [1]))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 19303, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 19303, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) ((~('A' ^ 'a') & (start[1])))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof(( ~('A' ^ 'a') & (start[1]))) == sizeof(U64)) ? (void)0 : __assert2 ("re_comp.c", 19303, __func__, "sizeof((~('A' ^ 'a') & (start[1]))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 19303, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 19303, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & (start[1])))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))))))) ? (void)0 : __assert2("re_comp.c" , 19303, __func__, "(((('Z') >= ('A')) ? (void)0 : __assert2(\"re_comp.c\", 19303, __func__, \"('Z') >= ('A')\")), ( (sizeof((~('A' ^ 'a') & (start[0]))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 19303, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 19303, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U8) ((~('A' ^ 'a') & (start[0])))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & (start[0]))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 19303, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 19303, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U32) ((~('A' ^ 'a') & (start[0])))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a') & (start[0]))) == sizeof(U64)) ? (void)0 : __assert2(\"re_comp.c\", 19303, __func__, \"sizeof((~('A' ^ 'a') & (start[0]))) == sizeof(U64)\")), ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 19303, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 19303, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U64) ((~('A' ^ 'a') & (start[0])))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)))))))) || (((('Z') >= ('A')) ? (void)0 : __assert2(\"re_comp.c\", 19303, __func__, \"('Z') >= ('A')\")), ( (sizeof((~('A' ^ 'a') & (start[1]))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 19303, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 19303, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U8) ((~('A' ^ 'a') & (start[1])))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & (start[1]))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 19303, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 19303, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U32) ((~('A' ^ 'a') & (start[1])))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a') & (start[1]))) == sizeof(U64)) ? (void)0 : __assert2(\"re_comp.c\", 19303, __func__, \"sizeof((~('A' ^ 'a') & (start[1]))) == sizeof(U64)\")), ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 19303, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 19303, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U64) ((~('A' ^ 'a') & (start[1])))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))))))" )), ((start[0]) & ~('A' ^ 'a')) == ((start[1]) & ~('A' ^ 'a')))) |
19304 | { |
19305 | |
19306 | /* Here, is part of an ASCII fold pair */ |
19307 | |
19308 | if ( ASCII_FOLD_RESTRICTED(get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET ) |
19309 | || HAS_NONLATIN1_SIMPLE_FOLD_CLOSURE(start[0])((! ((( (sizeof(start[0]) == 1) || !(((U64)((start[0]) | 0)) & ~0xFF))) ? (_Bool)1 : (_Bool)0)) || (PL_charclass[(U8) (start [0])] & (1U << (19))))) |
19310 | { |
19311 | /* If the second clause just above was true, it |
19312 | * means we can't be under /i, or else the list |
19313 | * would have included more than this fold pair. |
19314 | * Therefore we have to exclude the possibility of |
19315 | * whatever else it is that folds to these, by |
19316 | * using EXACTFAA */ |
19317 | op = EXACTFAA46; |
19318 | } |
19319 | else if (HAS_NONLATIN1_FOLD_CLOSURE(start[0])((! ((( (sizeof(start[0]) == 1) || !(((U64)((start[0]) | 0)) & ~0xFF))) ? (_Bool)1 : (_Bool)0)) || (PL_charclass[(U8) (start [0])] & (1U << (18))))) { |
19320 | |
19321 | /* Here, there's no simple fold that start[0] is part |
19322 | * of, but there is a multi-character one. If we |
19323 | * are not under /i, we want to exclude that |
19324 | * possibility; if under /i, we want to include it |
19325 | * */ |
19326 | op = (FOLD(((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool )1 : (_Bool)0)) ? EXACTFU45 : EXACTFAA46; |
19327 | } |
19328 | else { |
19329 | |
19330 | /* Here, the only possible fold start[0] particpates in |
19331 | * is with start[1]. /i or not isn't relevant */ |
19332 | op = EXACTFU45; |
19333 | } |
19334 | |
19335 | value = toFOLD(start[0])((((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 19335 , __func__, "('Z') >= ('A')")), ( (sizeof(start[0]) == sizeof (U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 19335, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 19335, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) (start [0])))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0 ))))) : (sizeof(start[0]) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 19335, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 19335, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) (start[0])))) - ((('A')) | 0))) <= (((U64) ((( ('Z') - ('A'))) | 0))))) : (((sizeof(start[0]) == sizeof(U64) ) ? (void)0 : __assert2("re_comp.c", 19335, __func__, "sizeof(start[0]) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 19335, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 19335, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) (start [0])))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0 )))))))) ? (U8)((start[0]) + ('a' - 'A')) : (start[0])); |
19336 | } |
19337 | } |
19338 | else if ( ! upper_latin1_only_utf8_matches |
19339 | || ( _invlist_lenS__invlist_len(upper_latin1_only_utf8_matches) |
19340 | == 2 |
19341 | && PL_fold_latin1[ |
19342 | invlist_highestS_invlist_highest(upper_latin1_only_utf8_matches)] |
19343 | == start[0])) |
19344 | { |
19345 | /* Here, the smallest character is non-ascii or there are |
19346 | * more than 2 code points matched by this node. Also, we |
19347 | * either don't have /d UTF-8 dependent matches, or if we |
19348 | * do, they look like they could be a single character that |
19349 | * is the fold of the lowest one in the always-match list. |
19350 | * This test quickly excludes most of the false positives |
19351 | * when there are /d UTF-8 depdendent matches. These are |
19352 | * like LATIN CAPITAL LETTER A WITH GRAVE matching LATIN |
19353 | * SMALL LETTER A WITH GRAVE iff the target string is |
19354 | * UTF-8. (We don't have to worry above about exceeding |
19355 | * the array bounds of PL_fold_latin1[] because any code |
19356 | * point in 'upper_latin1_only_utf8_matches' is below 256.) |
19357 | * |
19358 | * EXACTFAA would apply only to pairs (hence exactly 2 code |
19359 | * points) in the ASCII range, so we can't use it here to |
19360 | * artificially restrict the fold domain, so we check if |
19361 | * the class does or does not match some EXACTFish node. |
19362 | * Further, if we aren't under /i, and the folded-to |
19363 | * character is part of a multi-character fold, we can't do |
19364 | * this optimization, as the sequence around it could be |
19365 | * that multi-character fold, and we don't here know the |
19366 | * context, so we have to assume it is that multi-char |
19367 | * fold, to prevent potential bugs. |
19368 | * |
19369 | * To do the general case, we first find the fold of the |
19370 | * lowest code point (which may be higher than the lowest |
19371 | * one), then find everything that folds to it. (The data |
19372 | * structure we have only maps from the folded code points, |
19373 | * so we have to do the earlier step.) */ |
19374 | |
19375 | Size_tsize_t foldlen; |
19376 | U8 foldbuf[UTF8_MAXBYTES_CASE(((13)>(3 * ((((U64)(0x10FFFF)) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF) < (32 * (1U << ( 6))) ? 2 : (UV) (0x10FFFF) < (16 * (1U << (2 * 6) )) ? 3 : (UV) (0x10FFFF) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV ) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF ) < ((UV) 1U << (6 * 6)) ? 7 : 13))))?(13):(3 * (((( U64)(0x10FFFF)) < (((U8) (0xFF << 6)) & 0xB0)) ? 1 : ((UV) (0x10FFFF) < (32 * (1U << ( 6))) ? 2 : (UV ) (0x10FFFF) < (16 * (1U << (2 * 6))) ? 3 : (UV) (0x10FFFF ) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (0x10FFFF) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (0x10FFFF) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (0x10FFFF) < ((UV) 1U << (6 * 6)) ? 7 : 13))))]; |
19377 | UV folded = _to_uni_fold_flags(start[0],Perl__to_uni_fold_flags( start[0],foldbuf,&foldlen,0) |
19378 | foldbuf, &foldlen, 0)Perl__to_uni_fold_flags( start[0],foldbuf,&foldlen,0); |
19379 | U32 first_fold; |
19380 | const U32 * remaining_folds; |
19381 | Size_tsize_t folds_to_this_cp_count = _inverse_folds(Perl__inverse_folds( folded,&first_fold,&remaining_folds ) |
19382 | folded,Perl__inverse_folds( folded,&first_fold,&remaining_folds ) |
19383 | &first_fold,Perl__inverse_folds( folded,&first_fold,&remaining_folds ) |
19384 | &remaining_folds)Perl__inverse_folds( folded,&first_fold,&remaining_folds ); |
19385 | Size_tsize_t folds_count = folds_to_this_cp_count + 1; |
19386 | SV * fold_list = _new_invlist(folds_count)Perl__new_invlist( folds_count); |
19387 | unsigned int i; |
19388 | |
19389 | /* If there are UTF-8 dependent matches, create a temporary |
19390 | * list of what this node matches, including them. */ |
19391 | SV * all_cp_list = NULL((void*)0); |
19392 | SV ** use_this_list = &cp_list; |
19393 | |
19394 | if (upper_latin1_only_utf8_matches) { |
19395 | all_cp_list = _new_invlist(0)Perl__new_invlist( 0); |
19396 | use_this_list = &all_cp_list; |
19397 | _invlist_union(cp_list,Perl__invlist_union_maybe_complement_2nd( cp_list,upper_latin1_only_utf8_matches ,(0),use_this_list) |
19398 | upper_latin1_only_utf8_matches,Perl__invlist_union_maybe_complement_2nd( cp_list,upper_latin1_only_utf8_matches ,(0),use_this_list) |
19399 | use_this_list)Perl__invlist_union_maybe_complement_2nd( cp_list,upper_latin1_only_utf8_matches ,(0),use_this_list); |
19400 | } |
19401 | |
19402 | /* Having gotten everything that participates in the fold |
19403 | * containing the lowest code point, we turn that into an |
19404 | * inversion list, making sure everything is included. */ |
19405 | fold_list = add_cp_to_invlist(fold_list, start[0])S_add_cp_to_invlist( fold_list,start[0]); |
19406 | fold_list = add_cp_to_invlist(fold_list, folded)S_add_cp_to_invlist( fold_list,folded); |
19407 | if (folds_to_this_cp_count > 0) { |
19408 | fold_list = add_cp_to_invlist(fold_list, first_fold)S_add_cp_to_invlist( fold_list,first_fold); |
19409 | for (i = 0; i + 1 < folds_to_this_cp_count; i++) { |
19410 | fold_list = add_cp_to_invlist(fold_list,S_add_cp_to_invlist( fold_list,remaining_folds[i]) |
19411 | remaining_folds[i])S_add_cp_to_invlist( fold_list,remaining_folds[i]); |
19412 | } |
19413 | } |
19414 | |
19415 | /* If the fold list is identical to what's in this ANYOF |
19416 | * node, the node can be represented by an EXACTFish one |
19417 | * instead */ |
19418 | if (_invlistEQ(*use_this_list, fold_list,Perl__invlistEQ( *use_this_list,fold_list,0) |
19419 | 0 /* Don't complement */ )Perl__invlistEQ( *use_this_list,fold_list,0) |
19420 | ) { |
19421 | |
19422 | /* But, we have to be careful, as mentioned above. |
19423 | * Just the right sequence of characters could match |
19424 | * this if it is part of a multi-character fold. That |
19425 | * IS what we want if we are under /i. But it ISN'T |
19426 | * what we want if not under /i, as it could match when |
19427 | * it shouldn't. So, when we aren't under /i and this |
19428 | * character participates in a multi-char fold, we |
19429 | * don't optimize into an EXACTFish node. So, for each |
19430 | * case below we have to check if we are folding |
19431 | * and if not, if it is not part of a multi-char fold. |
19432 | * */ |
19433 | if (start[0] > 255) { /* Highish code point */ |
19434 | if (FOLD(((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool )1 : (_Bool)0) || ! _invlist_contains_cpS__invlist_contains_cp( |
19435 | PL_InMultiCharFold, folded)) |
19436 | { |
19437 | op = (LOC(get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) |
19438 | ? EXACTFLU848 |
19439 | : (ASCII_FOLD_RESTRICTED(get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) |
19440 | ? EXACTFAA46 |
19441 | : EXACTFU_REQ852; |
19442 | value = folded; |
19443 | } |
19444 | } /* Below, the lowest code point < 256 */ |
19445 | else if ( FOLD(((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool )1 : (_Bool)0) |
19446 | && folded == 's' |
19447 | && DEPENDS_SEMANTICS(get_regex_charset((pRExC_state->flags)) == REGEX_DEPENDS_CHARSET )) |
19448 | { /* An EXACTF node containing a single character |
19449 | 's', can be an EXACTFU if it doesn't get |
19450 | joined with an adjacent 's' */ |
19451 | op = EXACTFU_S_EDGE53; |
19452 | value = folded; |
19453 | } |
19454 | else if ( FOLD(((pRExC_state->flags) & (1U << (0 +2))) ? (_Bool )1 : (_Bool)0) |
19455 | || ! HAS_NONLATIN1_FOLD_CLOSURE(start[0])((! ((( (sizeof(start[0]) == 1) || !(((U64)((start[0]) | 0)) & ~0xFF))) ? (_Bool)1 : (_Bool)0)) || (PL_charclass[(U8) (start [0])] & (1U << (18))))) |
19456 | { |
19457 | if (upper_latin1_only_utf8_matches) { |
19458 | op = EXACTF43; |
19459 | |
19460 | /* We can't use the fold, as that only matches |
19461 | * under UTF-8 */ |
19462 | value = start[0]; |
19463 | } |
19464 | else if ( UNLIKELY(start[0] == MICRO_SIGN)__builtin_expect(((start[0] == 0xB5) ? (_Bool)1 : (_Bool)0),( 0)) |
19465 | && ! UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
19466 | { /* EXACTFUP is a special node for this |
19467 | character */ |
19468 | op = (ASCII_FOLD_RESTRICTED(get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) |
19469 | ? EXACTFAA46 |
19470 | : EXACTFUP47; |
19471 | value = MICRO_SIGN0xB5; |
19472 | } |
19473 | else if ( ASCII_FOLD_RESTRICTED(get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET ) |
19474 | && ! isASCII(start[0])((U64)((start[0]) | 0) < 128)) |
19475 | { /* For ASCII under /iaa, we can use EXACTFU |
19476 | below */ |
19477 | op = EXACTFAA46; |
19478 | value = folded; |
19479 | } |
19480 | else { |
19481 | op = EXACTFU45; |
19482 | value = folded; |
19483 | } |
19484 | } |
19485 | } |
19486 | |
19487 | SvREFCNT_dec_NN(fold_list)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (fold_list); _p; } ))); |
19488 | SvREFCNT_dec(all_cp_list)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (all_cp_list); _p; }) )); |
19489 | } |
19490 | } |
19491 | |
19492 | if (op != END0) { |
19493 | U8 len; |
19494 | |
19495 | /* Here, we have calculated what EXACTish node to use. Have to |
19496 | * convert to UTF-8 if not already there */ |
19497 | if (value > 255) { |
19498 | if (! UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) { |
19499 | SvREFCNT_dec(cp_list)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (cp_list); _p; })));; |
19500 | REQUIRE_UTF8(flagp)do { if (!(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) { *flagp = 0x20|0x40; return 0; } } while (0); |
19501 | } |
19502 | |
19503 | /* This is a kludge to the special casing issues with this |
19504 | * ligature under /aa. FB05 should fold to FB06, but the |
19505 | * call above to _to_uni_fold_flags() didn't find this, as |
19506 | * it didn't use the /aa restriction in order to not miss |
19507 | * other folds that would be affected. This is the only |
19508 | * instance likely to ever be a problem in all of Unicode. |
19509 | * So special case it. */ |
19510 | if ( value == LATIN_SMALL_LIGATURE_LONG_S_T0xFB05 |
19511 | && ASCII_FOLD_RESTRICTED(get_regex_charset((pRExC_state->flags)) == REGEX_ASCII_MORE_RESTRICTED_CHARSET )) |
19512 | { |
19513 | value = LATIN_SMALL_LIGATURE_ST0xFB06; |
19514 | } |
19515 | } |
19516 | |
19517 | len = (UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? UVCHR_SKIP(value)( ((((U64)(((UV) ((value) | 0)))) < (((U8) (0xFF << 6 )) & 0xB0))) ? 1 : ((UV) (value) < (32 * (1U << ( 6))) ? 2 : (UV) (value) < (16 * (1U << (2 * 6))) ? 3 : (UV) (value) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) ( value) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (value) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (value) < ((UV) 1U << (6 * 6)) ? 7 : 13)) : 1; |
19518 | |
19519 | ret = regnode_guts(pRExC_state, op, len, "exact")S_regnode_guts( pRExC_state,op,len,"exact"); |
19520 | FILL_NODE(ret, op)do { ((((pRExC_state->emit_start) + (ret)))->type) = op ; ((((pRExC_state->emit_start) + (ret)))->next_off) = 0 ; } while (0); |
19521 | RExC_emit(pRExC_state->emit) += 1 + STR_SZ(len)(((len) + sizeof(regnode) - 1) / sizeof(regnode)); |
19522 | setSTR_LEN(REGNODE_p(ret), len)do{ if (((((pRExC_state->emit_start) + (ret)))->type) == 41 || ((((pRExC_state->emit_start) + (ret)))->type) == 51) ((struct regnode_lstring *)(((pRExC_state->emit_start ) + (ret))))->str_len = (len); else ((struct regnode_string *)(((pRExC_state->emit_start) + (ret))))->str_len = (len ); } while (0); |
19523 | if (len == 1) { |
19524 | *STRINGs(REGNODE_p(ret))(((((((pRExC_state->emit_start) + (ret)))->type) != 41 && ((((pRExC_state->emit_start) + (ret)))->type) != 51) ? (void)0 : __assert2("re_comp.c", 19524, __func__, "((((pRExC_state->emit_start) + (ret)))->type) != 41 && ((((pRExC_state->emit_start) + (ret)))->type) != 51" )), ((struct regnode_string *)((pRExC_state->emit_start) + (ret)))->string) = (U8) value; |
19525 | } |
19526 | else { |
19527 | uvchr_to_utf8((U8 *) STRINGs(REGNODE_p(ret)), value)Perl_uvoffuni_to_utf8_flags_msgs( (U8 *) (((((((pRExC_state-> emit_start) + (ret)))->type) != 41 && ((((pRExC_state ->emit_start) + (ret)))->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 19527, __func__, "((((pRExC_state->emit_start) + (ret)))->type) != 41 && ((((pRExC_state->emit_start) + (ret)))->type) != 51" )), ((struct regnode_string *)((pRExC_state->emit_start) + (ret)))->string),((UV) ((value) | 0)),0,0); |
19528 | } |
19529 | goto not_anyof; |
19530 | } |
19531 | } |
19532 | |
19533 | if (! has_runtime_dependency) { |
19534 | |
19535 | /* See if this can be turned into an ANYOFM node. Think about the |
19536 | * bit patterns in two different bytes. In some positions, the |
19537 | * bits in each will be 1; and in other positions both will be 0; |
19538 | * and in some positions the bit will be 1 in one byte, and 0 in |
19539 | * the other. Let 'n' be the number of positions where the bits |
19540 | * differ. We create a mask which has exactly 'n' 0 bits, each in |
19541 | * a position where the two bytes differ. Now take the set of all |
19542 | * bytes that when ANDed with the mask yield the same result. That |
19543 | * set has 2**n elements, and is representable by just two 8 bit |
19544 | * numbers: the result and the mask. Importantly, matching the set |
19545 | * can be vectorized by creating a word full of the result bytes, |
19546 | * and a word full of the mask bytes, yielding a significant speed |
19547 | * up. Here, see if this node matches such a set. As a concrete |
19548 | * example consider [01], and the byte representing '0' which is |
19549 | * 0x30 on ASCII machines. It has the bits 0011 0000. Take the |
19550 | * mask 1111 1110. If we AND 0x31 and 0x30 with that mask we get |
19551 | * 0x30. Any other bytes ANDed yield something else. So [01], |
19552 | * which is a common usage, is optimizable into ANYOFM, and can |
19553 | * benefit from the speed up. We can only do this on UTF-8 |
19554 | * invariant bytes, because they have the same bit patterns under |
19555 | * UTF-8 as not. */ |
19556 | PERL_UINT_FAST8_T inverted = 0; |
19557 | #ifdef EBCDIC |
19558 | const PERL_UINT_FAST8_T max_permissible = 0xFF; |
19559 | #else |
19560 | const PERL_UINT_FAST8_T max_permissible = 0x7F; |
19561 | #endif |
19562 | /* If doesn't fit the criteria for ANYOFM, invert and try again. |
19563 | * If that works we will instead later generate an NANYOFM, and |
19564 | * invert back when through */ |
19565 | if (invlist_highestS_invlist_highest(cp_list) > max_permissible) { |
19566 | _invlist_invert(cp_list)Perl__invlist_invert( cp_list); |
19567 | inverted = 1; |
19568 | } |
19569 | |
19570 | if (invlist_highestS_invlist_highest(cp_list) <= max_permissible) { |
19571 | UV this_start, this_end; |
19572 | UV lowest_cp = UV_MAX(~(UV)0); /* init'ed to suppress compiler warn */ |
19573 | U8 bits_differing = 0; |
19574 | Size_tsize_t full_cp_count = 0; |
19575 | bool_Bool first_time = TRUE(1); |
19576 | |
19577 | /* Go through the bytes and find the bit positions that differ |
19578 | * */ |
19579 | invlist_iterinitS_invlist_iterinit(cp_list); |
19580 | while (invlist_iternextS_invlist_iternext(cp_list, &this_start, &this_end)) { |
19581 | unsigned int i = this_start; |
19582 | |
19583 | if (first_time) { |
19584 | if (! UVCHR_IS_INVARIANT(i)((((U64)(((UV) ((i) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) { |
19585 | goto done_anyofm; |
19586 | } |
19587 | |
19588 | first_time = FALSE(0); |
19589 | lowest_cp = this_start; |
19590 | |
19591 | /* We have set up the code point to compare with. |
19592 | * Don't compare it with itself */ |
19593 | i++; |
19594 | } |
19595 | |
19596 | /* Find the bit positions that differ from the lowest code |
19597 | * point in the node. Keep track of all such positions by |
19598 | * OR'ing */ |
19599 | for (; i <= this_end; i++) { |
19600 | if (! UVCHR_IS_INVARIANT(i)((((U64)(((UV) ((i) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) { |
19601 | goto done_anyofm; |
19602 | } |
19603 | |
19604 | bits_differing |= i ^ lowest_cp; |
19605 | } |
19606 | |
19607 | full_cp_count += this_end - this_start + 1; |
19608 | } |
19609 | |
19610 | /* At the end of the loop, we count how many bits differ from |
19611 | * the bits in lowest code point, call the count 'd'. If the |
19612 | * set we found contains 2**d elements, it is the closure of |
19613 | * all code points that differ only in those bit positions. To |
19614 | * convince yourself of that, first note that the number in the |
19615 | * closure must be a power of 2, which we test for. The only |
19616 | * way we could have that count and it be some differing set, |
19617 | * is if we got some code points that don't differ from the |
19618 | * lowest code point in any position, but do differ from each |
19619 | * other in some other position. That means one code point has |
19620 | * a 1 in that position, and another has a 0. But that would |
19621 | * mean that one of them differs from the lowest code point in |
19622 | * that position, which possibility we've already excluded. */ |
19623 | if ( (inverted || full_cp_count > 1) |
19624 | && full_cp_count == 1U << PL_bitcount[bits_differing]) |
19625 | { |
19626 | U8 ANYOFM_mask; |
19627 | |
19628 | op = ANYOFM28 + inverted;; |
19629 | |
19630 | /* We need to make the bits that differ be 0's */ |
19631 | ANYOFM_mask = ~ bits_differing; /* This goes into FLAGS */ |
19632 | |
19633 | /* The argument is the lowest code point */ |
19634 | ret = reganode(pRExC_state, op, lowest_cp)S_reganode( pRExC_state,op,lowest_cp); |
19635 | FLAGS(REGNODE_p(ret))((((pRExC_state->emit_start) + (ret)))->flags) = ANYOFM_mask; |
19636 | } |
19637 | |
19638 | done_anyofm: |
19639 | invlist_iterfinishS_invlist_iterfinish(cp_list); |
19640 | } |
19641 | |
19642 | if (inverted) { |
19643 | _invlist_invert(cp_list)Perl__invlist_invert( cp_list); |
19644 | } |
19645 | |
19646 | if (op != END0) { |
19647 | goto not_anyof; |
19648 | } |
19649 | |
19650 | /* XXX We could create an ANYOFR_LOW node here if we saved above if |
19651 | * all were invariants, it wasn't inverted, and there is a single |
19652 | * range. This would be faster than some of the posix nodes we |
19653 | * create below like /\d/a, but would be twice the size. Without |
19654 | * having actually measured the gain, khw doesn't think the |
19655 | * tradeoff is really worth it */ |
19656 | } |
19657 | |
19658 | if (! (anyof_flags & ANYOF_LOCALE_FLAGS(0x04 | 0x02))) { |
19659 | PERL_UINT_FAST8_T type; |
19660 | SV * intersection = NULL((void*)0); |
19661 | SV* d_invlist = NULL((void*)0); |
19662 | |
19663 | /* See if this matches any of the POSIX classes. The POSIXA and |
19664 | * POSIXD ones are about the same speed as ANYOF ops, but take less |
19665 | * room; the ones that have above-Latin1 code point matches are |
19666 | * somewhat faster than ANYOF. */ |
19667 | |
19668 | for (type = POSIXA33; type >= POSIXD30; type--) { |
19669 | int posix_class; |
19670 | |
19671 | if (type == POSIXL31) { /* But not /l posix classes */ |
19672 | continue; |
19673 | } |
19674 | |
19675 | for (posix_class = 0; |
19676 | posix_class <= _HIGHEST_REGCOMP_DOT_H_SYNC15; |
19677 | posix_class++) |
19678 | { |
19679 | SV** our_code_points = &cp_list; |
19680 | SV** official_code_points; |
19681 | int try_inverted; |
19682 | |
19683 | if (type == POSIXA33) { |
19684 | official_code_points = &PL_Posix_ptrs[posix_class]; |
19685 | } |
19686 | else { |
19687 | official_code_points = &PL_XPosix_ptrs[posix_class]; |
19688 | } |
19689 | |
19690 | /* Skip non-existent classes of this type. e.g. \v only |
19691 | * has an entry in PL_XPosix_ptrs */ |
19692 | if (! *official_code_points) { |
19693 | continue; |
19694 | } |
19695 | |
19696 | /* Try both the regular class, and its inversion */ |
19697 | for (try_inverted = 0; try_inverted < 2; try_inverted++) { |
19698 | bool_Bool this_inverted = invert ^ try_inverted; |
19699 | |
19700 | if (type != POSIXD30) { |
19701 | |
19702 | /* This class that isn't /d can't match if we have |
19703 | * /d dependencies */ |
19704 | if (has_runtime_dependency |
19705 | & HAS_D_RUNTIME_DEPENDENCY0x02) |
19706 | { |
19707 | continue; |
19708 | } |
19709 | } |
19710 | else /* is /d */ if (! this_inverted) { |
19711 | |
19712 | /* /d classes don't match anything non-ASCII below |
19713 | * 256 unconditionally (which cp_list contains) */ |
19714 | _invlist_intersection(cp_list, PL_UpperLatin1,Perl__invlist_intersection_maybe_complement_2nd( cp_list,PL_UpperLatin1 ,(0),&intersection) |
19715 | &intersection)Perl__invlist_intersection_maybe_complement_2nd( cp_list,PL_UpperLatin1 ,(0),&intersection); |
19716 | if (_invlist_lenS__invlist_len(intersection) != 0) { |
19717 | continue; |
19718 | } |
19719 | |
19720 | SvREFCNT_dec(d_invlist)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (d_invlist); _p; }))); |
19721 | d_invlist = invlist_clone(cp_list, NULL)Perl_invlist_clone( cp_list,((void*)0)); |
19722 | |
19723 | /* But under UTF-8 it turns into using /u rules. |
19724 | * Add the things it matches under these conditions |
19725 | * so that we check below that these are identical |
19726 | * to what the tested class should match */ |
19727 | if (upper_latin1_only_utf8_matches) { |
19728 | _invlist_union(Perl__invlist_union_maybe_complement_2nd( d_invlist,upper_latin1_only_utf8_matches ,(0),&d_invlist) |
19729 | d_invlist,Perl__invlist_union_maybe_complement_2nd( d_invlist,upper_latin1_only_utf8_matches ,(0),&d_invlist) |
19730 | upper_latin1_only_utf8_matches,Perl__invlist_union_maybe_complement_2nd( d_invlist,upper_latin1_only_utf8_matches ,(0),&d_invlist) |
19731 | &d_invlist)Perl__invlist_union_maybe_complement_2nd( d_invlist,upper_latin1_only_utf8_matches ,(0),&d_invlist); |
19732 | } |
19733 | our_code_points = &d_invlist; |
19734 | } |
19735 | else { /* POSIXD, inverted. If this doesn't have this |
19736 | flag set, it isn't /d. */ |
19737 | if (! (anyof_flags & ANYOF_SHARED_d_MATCHES_ALL_NON_UTF8_NON_ASCII_non_d_WARN_SUPER0x80)) |
19738 | { |
19739 | continue; |
19740 | } |
19741 | our_code_points = &cp_list; |
19742 | } |
19743 | |
19744 | /* Here, have weeded out some things. We want to see |
19745 | * if the list of characters this node contains |
19746 | * ('*our_code_points') precisely matches those of the |
19747 | * class we are currently checking against |
19748 | * ('*official_code_points'). */ |
19749 | if (_invlistEQ(*our_code_points,Perl__invlistEQ( *our_code_points,*official_code_points,try_inverted ) |
19750 | *official_code_points,Perl__invlistEQ( *our_code_points,*official_code_points,try_inverted ) |
19751 | try_inverted)Perl__invlistEQ( *our_code_points,*official_code_points,try_inverted )) |
19752 | { |
19753 | /* Here, they precisely match. Optimize this ANYOF |
19754 | * node into its equivalent POSIX one of the |
19755 | * correct type, possibly inverted */ |
19756 | ret = reg_node(pRExC_state, (try_inverted)S_reg_node( pRExC_state,(try_inverted) ? type + 37 - 33 : type ) |
19757 | ? type + NPOSIXAS_reg_node( pRExC_state,(try_inverted) ? type + 37 - 33 : type ) |
19758 | - POSIXAS_reg_node( pRExC_state,(try_inverted) ? type + 37 - 33 : type ) |
19759 | : type)S_reg_node( pRExC_state,(try_inverted) ? type + 37 - 33 : type ); |
19760 | FLAGS(REGNODE_p(ret))((((pRExC_state->emit_start) + (ret)))->flags) = posix_class; |
19761 | SvREFCNT_dec(d_invlist)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (d_invlist); _p; }))); |
19762 | SvREFCNT_dec(intersection)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (intersection); _p; } ))); |
19763 | goto not_anyof; |
19764 | } |
19765 | } |
19766 | } |
19767 | } |
19768 | SvREFCNT_dec(d_invlist)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (d_invlist); _p; }))); |
19769 | SvREFCNT_dec(intersection)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (intersection); _p; } ))); |
19770 | } |
19771 | |
19772 | /* If it is a single contiguous range, ANYOFR is an efficient regnode, |
19773 | * both in size and speed. Currently, a 20 bit range base (smallest |
19774 | * code point in the range), and a 12 bit maximum delta are packed into |
19775 | * a 32 bit word. This allows for using it on all of the Unicode code |
19776 | * points except for the highest plane, which is only for private use |
19777 | * code points. khw doubts that a bigger delta is likely in real world |
19778 | * applications */ |
19779 | if ( single_range |
19780 | && ! has_runtime_dependency |
19781 | && anyof_flags == 0 |
19782 | && start[0] < (1 << ANYOFR_BASE_BITS20) |
19783 | && end[0] - start[0] |
19784 | < ((1U << (sizeof(((struct regnode_1 *)NULL((void*)0))->arg1) |
19785 | * CHARBITS8 - ANYOFR_BASE_BITS20)))) |
19786 | |
19787 | { |
19788 | U8 low_utf8[UTF8_MAXBYTES13+1]; |
19789 | U8 high_utf8[UTF8_MAXBYTES13+1]; |
19790 | |
19791 | ret = reganode(pRExC_state, ANYOFR,S_reganode( pRExC_state,26,(start[0] | (end[0] - start[0]) << 20)) |
19792 | (start[0] | (end[0] - start[0]) << ANYOFR_BASE_BITS))S_reganode( pRExC_state,26,(start[0] | (end[0] - start[0]) << 20)); |
19793 | |
19794 | /* Place the lowest UTF-8 start byte in the flags field, so as to |
19795 | * allow efficient ruling out at run time of many possible inputs. |
19796 | * */ |
19797 | (void) uvchr_to_utf8(low_utf8, start[0])Perl_uvoffuni_to_utf8_flags_msgs( low_utf8,((UV) ((start[0]) | 0)),0,0); |
19798 | (void) uvchr_to_utf8(high_utf8, end[0])Perl_uvoffuni_to_utf8_flags_msgs( high_utf8,((UV) ((end[0]) | 0)),0,0); |
19799 | |
19800 | /* If all code points share the same first byte, this can be an |
19801 | * ANYOFRb. Otherwise store the lowest UTF-8 start byte which can |
19802 | * quickly rule out many inputs at run-time without having to |
19803 | * compute the code point from UTF-8. For EBCDIC, we use I8, as |
19804 | * not doing that transformation would not rule out nearly so many |
19805 | * things */ |
19806 | if (low_utf8[0] == high_utf8[0]) { |
19807 | OP(REGNODE_p(ret))((((pRExC_state->emit_start) + (ret)))->type) = ANYOFRb27; |
19808 | ANYOF_FLAGS(REGNODE_p(ret))((((pRExC_state->emit_start) + (ret)))->flags) = low_utf8[0]; |
19809 | } |
19810 | else { |
19811 | ANYOF_FLAGS(REGNODE_p(ret))((((pRExC_state->emit_start) + (ret)))->flags) |
19812 | = NATIVE_UTF8_TO_I8(low_utf8[0])(((( (sizeof(low_utf8[0]) == 1) || !(((U64)((low_utf8[0]) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 19812, __func__ , "( (sizeof(low_utf8[0]) == 1) || !(((U64)((low_utf8[0]) | 0)) & ~0xFF))" )), ((U8) ((low_utf8[0]) | 0))); |
19813 | } |
19814 | |
19815 | goto not_anyof; |
19816 | } |
19817 | |
19818 | /* If didn't find an optimization and there is no need for a bitmap, |
19819 | * optimize to indicate that */ |
19820 | if ( start[0] >= NUM_ANYOF_CODE_POINTS(1 << 8) |
19821 | && ! LOC(get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET ) |
19822 | && ! upper_latin1_only_utf8_matches |
19823 | && anyof_flags == 0) |
19824 | { |
19825 | U8 low_utf8[UTF8_MAXBYTES13+1]; |
19826 | UV highest_cp = invlist_highestS_invlist_highest(cp_list); |
19827 | |
19828 | /* Currently the maximum allowed code point by the system is |
19829 | * IV_MAX. Higher ones are reserved for future internal use. This |
19830 | * particular regnode can be used for higher ones, but we can't |
19831 | * calculate the code point of those. IV_MAX suffices though, as |
19832 | * it will be a large first byte */ |
19833 | Size_tsize_t low_len = uvchr_to_utf8(low_utf8, MIN(start[0], IV_MAX))Perl_uvoffuni_to_utf8_flags_msgs( low_utf8,((UV) (((((start[0 ])<(((IV) ((~(UV)0) >> 1))))?(start[0]):(((IV) ((~(UV )0) >> 1))))) | 0)),0,0) |
19834 | - low_utf8; |
19835 | |
19836 | /* We store the lowest possible first byte of the UTF-8 |
19837 | * representation, using the flags field. This allows for quick |
19838 | * ruling out of some inputs without having to convert from UTF-8 |
19839 | * to code point. For EBCDIC, we use I8, as not doing that |
19840 | * transformation would not rule out nearly so many things */ |
19841 | anyof_flags = NATIVE_UTF8_TO_I8(low_utf8[0])(((( (sizeof(low_utf8[0]) == 1) || !(((U64)((low_utf8[0]) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 19841, __func__ , "( (sizeof(low_utf8[0]) == 1) || !(((U64)((low_utf8[0]) | 0)) & ~0xFF))" )), ((U8) ((low_utf8[0]) | 0))); |
19842 | |
19843 | op = ANYOFH22; |
19844 | |
19845 | /* If the first UTF-8 start byte for the highest code point in the |
19846 | * range is suitably small, we may be able to get an upper bound as |
19847 | * well */ |
19848 | if (highest_cp <= IV_MAX((IV) ((~(UV)0) >> 1))) { |
19849 | U8 high_utf8[UTF8_MAXBYTES13+1]; |
19850 | Size_tsize_t high_len = uvchr_to_utf8(high_utf8, highest_cp)Perl_uvoffuni_to_utf8_flags_msgs( high_utf8,((UV) ((highest_cp ) | 0)),0,0) |
19851 | - high_utf8; |
19852 | |
19853 | /* If the lowest and highest are the same, we can get an exact |
19854 | * first byte instead of a just minimum or even a sequence of |
19855 | * exact leading bytes. We signal these with different |
19856 | * regnodes */ |
19857 | if (low_utf8[0] == high_utf8[0]) { |
19858 | Size_tsize_t len = find_first_differing_byte_posS_find_first_differing_byte_pos(low_utf8, |
19859 | high_utf8, |
19860 | MIN(low_len, high_len)(((low_len)<(high_len))?(low_len):(high_len))); |
19861 | |
19862 | if (len == 1) { |
19863 | |
19864 | /* No need to convert to I8 for EBCDIC as this is an |
19865 | * exact match */ |
19866 | anyof_flags = low_utf8[0]; |
19867 | op = ANYOFHb23; |
19868 | } |
19869 | else { |
19870 | op = ANYOFHs25; |
19871 | ret = regnode_guts(pRExC_state, op,S_regnode_guts( pRExC_state,op,regarglen[op] + (((len) + sizeof (regnode) - 1) / sizeof(regnode)),"anyofhs") |
19872 | regarglen[op] + STR_SZ(len),S_regnode_guts( pRExC_state,op,regarglen[op] + (((len) + sizeof (regnode) - 1) / sizeof(regnode)),"anyofhs") |
19873 | "anyofhs")S_regnode_guts( pRExC_state,op,regarglen[op] + (((len) + sizeof (regnode) - 1) / sizeof(regnode)),"anyofhs"); |
19874 | FILL_NODE(ret, op)do { ((((pRExC_state->emit_start) + (ret)))->type) = op ; ((((pRExC_state->emit_start) + (ret)))->next_off) = 0 ; } while (0); |
19875 | ((struct regnode_anyofhs *) REGNODE_p(ret)((pRExC_state->emit_start) + (ret)))->str_len |
19876 | = len; |
19877 | Copy(low_utf8, /* Add the common bytes */((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(len ) || sizeof(U8) > ((size_t)1 << 8*(sizeof(size_t) - sizeof (len)))) ? (size_t)(len) : ((size_t)-1)/sizeof(U8)) > ((size_t )-1)/sizeof(U8))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)(((struct regnode_anyofhs *) ((pRExC_state-> emit_start) + (ret)))->string)) != 0) ? (void)0 : __assert2 ("re_comp.c", 19879, __func__, "((void*)(((struct regnode_anyofhs *) ((pRExC_state->emit_start) + (ret)))->string)) != 0" )), ((((void*)(low_utf8)) != 0) ? (void)0 : __assert2("re_comp.c" , 19879, __func__, "((void*)(low_utf8)) != 0")), (void)memcpy ((char*)(((struct regnode_anyofhs *) ((pRExC_state->emit_start ) + (ret)))->string),(const char*)(low_utf8), (len) * sizeof (U8))) |
19878 | ((struct regnode_anyofhs *) REGNODE_p(ret))->string,((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(len ) || sizeof(U8) > ((size_t)1 << 8*(sizeof(size_t) - sizeof (len)))) ? (size_t)(len) : ((size_t)-1)/sizeof(U8)) > ((size_t )-1)/sizeof(U8))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)(((struct regnode_anyofhs *) ((pRExC_state-> emit_start) + (ret)))->string)) != 0) ? (void)0 : __assert2 ("re_comp.c", 19879, __func__, "((void*)(((struct regnode_anyofhs *) ((pRExC_state->emit_start) + (ret)))->string)) != 0" )), ((((void*)(low_utf8)) != 0) ? (void)0 : __assert2("re_comp.c" , 19879, __func__, "((void*)(low_utf8)) != 0")), (void)memcpy ((char*)(((struct regnode_anyofhs *) ((pRExC_state->emit_start ) + (ret)))->string),(const char*)(low_utf8), (len) * sizeof (U8))) |
19879 | len, U8)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(len ) || sizeof(U8) > ((size_t)1 << 8*(sizeof(size_t) - sizeof (len)))) ? (size_t)(len) : ((size_t)-1)/sizeof(U8)) > ((size_t )-1)/sizeof(U8))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)(((struct regnode_anyofhs *) ((pRExC_state-> emit_start) + (ret)))->string)) != 0) ? (void)0 : __assert2 ("re_comp.c", 19879, __func__, "((void*)(((struct regnode_anyofhs *) ((pRExC_state->emit_start) + (ret)))->string)) != 0" )), ((((void*)(low_utf8)) != 0) ? (void)0 : __assert2("re_comp.c" , 19879, __func__, "((void*)(low_utf8)) != 0")), (void)memcpy ((char*)(((struct regnode_anyofhs *) ((pRExC_state->emit_start ) + (ret)))->string),(const char*)(low_utf8), (len) * sizeof (U8))); |
19880 | RExC_emit(pRExC_state->emit) += NODE_SZ_STR(REGNODE_p(ret))((((((((((pRExC_state->emit_start) + (ret)))->type) == 41 || ((((pRExC_state->emit_start) + (ret)))->type) == 51 ) ? (((((((pRExC_state->emit_start) + (ret)))->type) == 41 || ((((pRExC_state->emit_start) + (ret)))->type) == 51) ? (void)0 : __assert2("re_comp.c", 19880, __func__, "((((pRExC_state->emit_start) + (ret)))->type) == 41 || ((((pRExC_state->emit_start) + (ret)))->type) == 51" )), (((struct regnode_lstring *)((pRExC_state->emit_start) + (ret)))->str_len)) : (((((((pRExC_state->emit_start) + (ret)))->type) != 41 && ((((pRExC_state->emit_start ) + (ret)))->type) != 51) ? (void)0 : __assert2("re_comp.c" , 19880, __func__, "((((pRExC_state->emit_start) + (ret)))->type) != 41 && ((((pRExC_state->emit_start) + (ret)))->type) != 51" )), ((struct regnode_string *)((pRExC_state->emit_start) + (ret)))->str_len))) + sizeof(regnode) - 1) / sizeof(regnode )) + 1 + regarglen[(((pRExC_state->emit_start) + (ret)))-> type]); |
19881 | set_ANYOF_arg(pRExC_state, REGNODE_p(ret), cp_list,S_set_ANYOF_arg( pRExC_state,((pRExC_state->emit_start) + ( ret)),cp_list,((void*)0),only_utf8_locale_list) |
19882 | NULL, only_utf8_locale_list)S_set_ANYOF_arg( pRExC_state,((pRExC_state->emit_start) + ( ret)),cp_list,((void*)0),only_utf8_locale_list); |
19883 | goto not_anyof; |
19884 | } |
19885 | } |
19886 | else if (NATIVE_UTF8_TO_I8(high_utf8[0])(((( (sizeof(high_utf8[0]) == 1) || !(((U64)((high_utf8[0]) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 19886, __func__, "( (sizeof(high_utf8[0]) == 1) || !(((U64)((high_utf8[0]) | 0)) & ~0xFF))" )), ((U8) ((high_utf8[0]) | 0))) <= MAX_ANYOF_HRx_BYTE0xEF) |
19887 | { |
19888 | |
19889 | /* Here, the high byte is not the same as the low, but is |
19890 | * small enough that its reasonable to have a loose upper |
19891 | * bound, which is packed in with the strict lower bound. |
19892 | * See comments at the definition of MAX_ANYOF_HRx_BYTE. |
19893 | * On EBCDIC platforms, I8 is used. On ASCII platforms I8 |
19894 | * is the same thing as UTF-8 */ |
19895 | |
19896 | U8 bits = 0; |
19897 | U8 max_range_diff = MAX_ANYOF_HRx_BYTE0xEF - anyof_flags; |
19898 | U8 range_diff = NATIVE_UTF8_TO_I8(high_utf8[0])(((( (sizeof(high_utf8[0]) == 1) || !(((U64)((high_utf8[0]) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 19898, __func__, "( (sizeof(high_utf8[0]) == 1) || !(((U64)((high_utf8[0]) | 0)) & ~0xFF))" )), ((U8) ((high_utf8[0]) | 0))) |
19899 | - anyof_flags; |
19900 | |
19901 | if (range_diff <= max_range_diff / 8) { |
19902 | bits = 3; |
19903 | } |
19904 | else if (range_diff <= max_range_diff / 4) { |
19905 | bits = 2; |
19906 | } |
19907 | else if (range_diff <= max_range_diff / 2) { |
19908 | bits = 1; |
19909 | } |
19910 | anyof_flags = (anyof_flags - 0xC0) << 2 | bits; |
19911 | op = ANYOFHr24; |
19912 | } |
19913 | } |
19914 | |
19915 | goto done_finding_op; |
19916 | } |
19917 | } /* End of seeing if can optimize it into a different node */ |
19918 | |
19919 | is_anyof: /* It's going to be an ANYOF node. */ |
19920 | op = (has_runtime_dependency & HAS_D_RUNTIME_DEPENDENCY0x02) |
19921 | ? ANYOFD19 |
19922 | : ((posixl) |
19923 | ? ANYOFPOSIXL21 |
19924 | : ((LOC(get_regex_charset((pRExC_state->flags)) == REGEX_LOCALE_CHARSET )) |
19925 | ? ANYOFL20 |
19926 | : ANYOF18)); |
19927 | |
19928 | done_finding_op: |
19929 | |
19930 | ret = regnode_guts(pRExC_state, op, regarglen[op], "anyof")S_regnode_guts( pRExC_state,op,regarglen[op],"anyof"); |
19931 | FILL_NODE(ret, op)do { ((((pRExC_state->emit_start) + (ret)))->type) = op ; ((((pRExC_state->emit_start) + (ret)))->next_off) = 0 ; } while (0); /* We set the argument later */ |
19932 | RExC_emit(pRExC_state->emit) += 1 + regarglen[op]; |
19933 | ANYOF_FLAGS(REGNODE_p(ret))((((pRExC_state->emit_start) + (ret)))->flags) = anyof_flags; |
19934 | |
19935 | /* Here, <cp_list> contains all the code points we can determine at |
19936 | * compile time that match under all conditions. Go through it, and |
19937 | * for things that belong in the bitmap, put them there, and delete from |
19938 | * <cp_list>. While we are at it, see if everything above 255 is in the |
19939 | * list, and if so, set a flag to speed up execution */ |
19940 | |
19941 | populate_ANYOF_from_invlist(REGNODE_p(ret), &cp_list)S_populate_ANYOF_from_invlist( ((pRExC_state->emit_start) + (ret)),&cp_list); |
19942 | |
19943 | if (posixl) { |
19944 | ANYOF_POSIXL_SET_TO_BITMAP(REGNODE_p(ret), posixl)do { ((regnode_charclass_posixl*) (((pRExC_state->emit_start ) + (ret))))->classflags = (posixl); } while (0); |
19945 | } |
19946 | |
19947 | if (invert) { |
19948 | ANYOF_FLAGS(REGNODE_p(ret))((((pRExC_state->emit_start) + (ret)))->flags) |= ANYOF_INVERT0x01; |
19949 | } |
19950 | |
19951 | /* Here, the bitmap has been populated with all the Latin1 code points that |
19952 | * always match. Can now add to the overall list those that match only |
19953 | * when the target string is UTF-8 (<upper_latin1_only_utf8_matches>). |
19954 | * */ |
19955 | if (upper_latin1_only_utf8_matches) { |
19956 | if (cp_list) { |
19957 | _invlist_union(cp_list,Perl__invlist_union_maybe_complement_2nd( cp_list,upper_latin1_only_utf8_matches ,(0),&cp_list) |
19958 | upper_latin1_only_utf8_matches,Perl__invlist_union_maybe_complement_2nd( cp_list,upper_latin1_only_utf8_matches ,(0),&cp_list) |
19959 | &cp_list)Perl__invlist_union_maybe_complement_2nd( cp_list,upper_latin1_only_utf8_matches ,(0),&cp_list); |
19960 | SvREFCNT_dec_NN(upper_latin1_only_utf8_matches)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (upper_latin1_only_utf8_matches ); _p; }))); |
19961 | } |
19962 | else { |
19963 | cp_list = upper_latin1_only_utf8_matches; |
19964 | } |
19965 | ANYOF_FLAGS(REGNODE_p(ret))((((pRExC_state->emit_start) + (ret)))->flags) |= ANYOF_SHARED_d_UPPER_LATIN1_UTF8_STRING_MATCHES_non_d_RUNTIME_USER_PROP0x40; |
19966 | } |
19967 | |
19968 | set_ANYOF_arg(pRExC_state, REGNODE_p(ret), cp_list,S_set_ANYOF_arg( pRExC_state,((pRExC_state->emit_start) + ( ret)),cp_list,(HAS_NONLOCALE_RUNTIME_PROPERTY_DEFINITION) ? listsv : ((void*)0),only_utf8_locale_list) |
19969 | (HAS_NONLOCALE_RUNTIME_PROPERTY_DEFINITION)S_set_ANYOF_arg( pRExC_state,((pRExC_state->emit_start) + ( ret)),cp_list,(HAS_NONLOCALE_RUNTIME_PROPERTY_DEFINITION) ? listsv : ((void*)0),only_utf8_locale_list) |
19970 | ? listsvS_set_ANYOF_arg( pRExC_state,((pRExC_state->emit_start) + ( ret)),cp_list,(HAS_NONLOCALE_RUNTIME_PROPERTY_DEFINITION) ? listsv : ((void*)0),only_utf8_locale_list) |
19971 | : NULL,S_set_ANYOF_arg( pRExC_state,((pRExC_state->emit_start) + ( ret)),cp_list,(HAS_NONLOCALE_RUNTIME_PROPERTY_DEFINITION) ? listsv : ((void*)0),only_utf8_locale_list) |
19972 | only_utf8_locale_list)S_set_ANYOF_arg( pRExC_state,((pRExC_state->emit_start) + ( ret)),cp_list,(HAS_NONLOCALE_RUNTIME_PROPERTY_DEFINITION) ? listsv : ((void*)0),only_utf8_locale_list); |
19973 | SvREFCNT_dec(cp_list)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (cp_list); _p; })));; |
19974 | SvREFCNT_dec(only_utf8_locale_list)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (only_utf8_locale_list ); _p; }))); |
19975 | return ret; |
19976 | |
19977 | not_anyof: |
19978 | |
19979 | /* Here, the node is getting optimized into something that's not an ANYOF |
19980 | * one. Finish up. */ |
19981 | |
19982 | Set_Node_Offset_Length(REGNODE_p(ret), orig_parse - RExC_start,do { do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000 ))) Perl_warn ("** (%d) offset of node %d is %d.\n", 19983, ( int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start))), (int)((orig_parse - (pRExC_state->start ))));} while (0); if((((((pRExC_state->emit_start) + (ret) )) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))-1] = ((orig_parse - (pRExC_state->start ))); } } while (0); do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n", 19983, (int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start))), (int)(((pRExC_state->parse) - orig_parse )));} while (0); if((((((pRExC_state->emit_start) + (ret)) ) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))] = (((pRExC_state->parse) - orig_parse) ); } } while (0); } while (0) |
19983 | RExC_parse - orig_parse)do { do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000 ))) Perl_warn ("** (%d) offset of node %d is %d.\n", 19983, ( int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start))), (int)((orig_parse - (pRExC_state->start ))));} while (0); if((((((pRExC_state->emit_start) + (ret) )) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))-1] = ((orig_parse - (pRExC_state->start ))); } } while (0); do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("** (%d) size of node %d is %d.\n", 19983, (int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start))), (int)(((pRExC_state->parse) - orig_parse )));} while (0); if((((((pRExC_state->emit_start) + (ret)) ) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))); } else { ((pRExC_state->rxi)->u.offsets )[2*(((((pRExC_state->emit_start) + (ret))) - (pRExC_state ->emit_start)))] = (((pRExC_state->parse) - orig_parse) ); } } while (0); } while (0);; |
19984 | SvREFCNT_dec(cp_list)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (cp_list); _p; })));; |
19985 | SvREFCNT_dec(only_utf8_locale_list)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (only_utf8_locale_list ); _p; }))); |
19986 | return ret; |
19987 | } |
19988 | |
19989 | #undef HAS_NONLOCALE_RUNTIME_PROPERTY_DEFINITION |
19990 | |
19991 | STATICstatic void |
19992 | S_set_ANYOF_arg(pTHX_ RExC_state_t* const pRExC_state, |
19993 | regnode* const node, |
19994 | SV* const cp_list, |
19995 | SV* const runtime_defns, |
19996 | SV* const only_utf8_locale_list) |
19997 | { |
19998 | /* Sets the arg field of an ANYOF-type node 'node', using information about |
19999 | * the node passed-in. If there is nothing outside the node's bitmap, the |
20000 | * arg is set to ANYOF_ONLY_HAS_BITMAP. Otherwise, it sets the argument to |
20001 | * the count returned by add_data(), having allocated and stored an array, |
20002 | * av, as follows: |
20003 | * |
20004 | * av[0] stores the inversion list defining this class as far as known at |
20005 | * this time, or PL_sv_undef if nothing definite is now known. |
20006 | * av[1] stores the inversion list of code points that match only if the |
20007 | * current locale is UTF-8, or if none, PL_sv_undef if there is an |
20008 | * av[2], or no entry otherwise. |
20009 | * av[2] stores the list of user-defined properties whose subroutine |
20010 | * definitions aren't known at this time, or no entry if none. */ |
20011 | |
20012 | UV n; |
20013 | |
20014 | PERL_ARGS_ASSERT_SET_ANYOF_ARG((pRExC_state) ? (void)0 : __assert2("re_comp.c", 20014, __func__ , "pRExC_state")); ((node) ? (void)0 : __assert2("re_comp.c", 20014, __func__, "node")); |
20015 | |
20016 | if (! cp_list && ! runtime_defns && ! only_utf8_locale_list) { |
20017 | assert(! (ANYOF_FLAGS(node)((! (((node)->flags) & 0x40)) ? (void)0 : __assert2("re_comp.c" , 20018, __func__, "! (ANYOF_FLAGS(node) & ANYOF_SHARED_d_UPPER_LATIN1_UTF8_STRING_MATCHES_non_d_RUNTIME_USER_PROP)" )) |
20018 | & ANYOF_SHARED_d_UPPER_LATIN1_UTF8_STRING_MATCHES_non_d_RUNTIME_USER_PROP))((! (((node)->flags) & 0x40)) ? (void)0 : __assert2("re_comp.c" , 20018, __func__, "! (ANYOF_FLAGS(node) & ANYOF_SHARED_d_UPPER_LATIN1_UTF8_STRING_MATCHES_non_d_RUNTIME_USER_PROP)" )); |
20019 | ARG_SET(node, ANYOF_ONLY_HAS_BITMAP)(((((struct regnode_1 *)node)->arg1)) = ((((U32) -1)))); |
20020 | } |
20021 | else { |
20022 | AV * const av = newAV()((AV *)({ void *_p = (Perl_newSV_type( SVt_PVAV)); _p; })); |
20023 | SV *rv; |
20024 | |
20025 | if (cp_list) { |
20026 | av_store(av, INVLIST_INDEX, SvREFCNT_inc_NN(cp_list))Perl_av_store( av,0,Perl_SvREFCNT_inc_NN(((SV *)({ void *_p = (cp_list); _p; })))); |
20027 | } |
20028 | |
20029 | if (only_utf8_locale_list) { |
20030 | av_store(av, ONLY_LOCALE_MATCHES_INDEX,Perl_av_store( av,1,Perl_SvREFCNT_inc_NN(((SV *)({ void *_p = (only_utf8_locale_list); _p; })))) |
20031 | SvREFCNT_inc_NN(only_utf8_locale_list))Perl_av_store( av,1,Perl_SvREFCNT_inc_NN(((SV *)({ void *_p = (only_utf8_locale_list); _p; })))); |
20032 | } |
20033 | |
20034 | if (runtime_defns) { |
20035 | av_store(av, DEFERRED_USER_DEFINED_INDEX,Perl_av_store( av,2,Perl_SvREFCNT_inc_NN(((SV *)({ void *_p = (runtime_defns); _p; })))) |
20036 | SvREFCNT_inc_NN(runtime_defns))Perl_av_store( av,2,Perl_SvREFCNT_inc_NN(((SV *)({ void *_p = (runtime_defns); _p; })))); |
20037 | } |
20038 | |
20039 | rv = newRV_noinc(MUTABLE_SV(av))Perl_newRV_noinc( ((SV *)({ void *_p = (av); _p; }))); |
20040 | n = add_dataS_add_data(pRExC_state, STR_WITH_LEN("s")("" "s" ""), (sizeof("s")-1)); |
20041 | RExC_rxi(pRExC_state->rxi)->data->data[n] = (void*)rv; |
20042 | ARG_SET(node, n)(((((struct regnode_1 *)node)->arg1)) = ((n))); |
20043 | } |
20044 | } |
20045 | |
20046 | SV * |
20047 | |
20048 | #if !defined(PERL_IN_XSUB_RE) || defined(PLUGGABLE_RE_EXTENSION) |
20049 | Perl_get_regclass_nonbitmap_data(pTHX_ const regexp *prog, const regnode* node, bool_Bool doinit, SV** listsvp, SV** only_utf8_locale_ptr, SV** output_invlist) |
20050 | #else |
20051 | Perl_get_re_gclass_nonbitmap_data(pTHX_ const regexp *prog, const regnode* node, bool_Bool doinit, SV** listsvp, SV** only_utf8_locale_ptr, SV** output_invlist) |
20052 | #endif |
20053 | |
20054 | { |
20055 | /* For internal core use only. |
20056 | * Returns the inversion list for the input 'node' in the regex 'prog'. |
20057 | * If <doinit> is 'true', will attempt to create the inversion list if not |
20058 | * already done. |
20059 | * If <listsvp> is non-null, will return the printable contents of the |
20060 | * property definition. This can be used to get debugging information |
20061 | * even before the inversion list exists, by calling this function with |
20062 | * 'doinit' set to false, in which case the components that will be used |
20063 | * to eventually create the inversion list are returned (in a printable |
20064 | * form). |
20065 | * If <only_utf8_locale_ptr> is not NULL, it is where this routine is to |
20066 | * store an inversion list of code points that should match only if the |
20067 | * execution-time locale is a UTF-8 one. |
20068 | * If <output_invlist> is not NULL, it is where this routine is to store an |
20069 | * inversion list of the code points that would be instead returned in |
20070 | * <listsvp> if this were NULL. Thus, what gets output in <listsvp> |
20071 | * when this parameter is used, is just the non-code point data that |
20072 | * will go into creating the inversion list. This currently should be just |
20073 | * user-defined properties whose definitions were not known at compile |
20074 | * time. Using this parameter allows for easier manipulation of the |
20075 | * inversion list's data by the caller. It is illegal to call this |
20076 | * function with this parameter set, but not <listsvp> |
20077 | * |
20078 | * Tied intimately to how S_set_ANYOF_arg sets up the data structure. Note |
20079 | * that, in spite of this function's name, the inversion list it returns |
20080 | * may include the bitmap data as well */ |
20081 | |
20082 | SV *si = NULL((void*)0); /* Input initialization string */ |
20083 | SV* invlist = NULL((void*)0); |
20084 | |
20085 | RXi_GET_DECL(prog, progi)regexp_internal *progi = ((regexp_internal *)((prog)->pprivate )); |
20086 | const struct reg_data * const data = prog ? progi->data : NULL((void*)0); |
20087 | |
20088 | #if !defined(PERL_IN_XSUB_RE) || defined(PLUGGABLE_RE_EXTENSION) |
20089 | PERL_ARGS_ASSERT_GET_REGCLASS_NONBITMAP_DATA; |
20090 | #else |
20091 | PERL_ARGS_ASSERT_GET_RE_GCLASS_NONBITMAP_DATA((node) ? (void)0 : __assert2("re_comp.c", 20091, __func__, "node" )); |
20092 | #endif |
20093 | assert(! output_invlist || listsvp)((! output_invlist || listsvp) ? (void)0 : __assert2("re_comp.c" , 20093, __func__, "! output_invlist || listsvp")); |
20094 | |
20095 | if (data && data->count) { |
20096 | const U32 n = ARG(node)((((struct regnode_1 *)node)->arg1)); |
20097 | |
20098 | if (data->what[n] == 's') { |
20099 | SV * const rv = MUTABLE_SV(data->data[n])((SV *)({ void *_p = (data->data[n]); _p; })); |
20100 | AV * const av = MUTABLE_AV(SvRV(rv))((AV *)({ void *_p = ((*({ SV *const _svrv = ((SV *)({ void * _p = (rv); _p; })); ((PL_valid_types_RV[((svtype)((_svrv)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c" , 20100, __func__, "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]" )); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 20100, __func__ , "!isGV_with_GP(_svrv)")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 20100, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); }))); _p; })); |
20101 | SV **const ary = AvARRAY(av)((av)->sv_u.svu_array); |
20102 | |
20103 | invlist = ary[INVLIST_INDEX0]; |
20104 | |
20105 | if (av_tindex_skip_len_mg(av)(((((svtype)((av)->sv_flags & 0xff)) == SVt_PVAV) ? (void )0 : __assert2("re_comp.c", 20105, __func__, "((svtype)((av)->sv_flags & 0xff)) == SVt_PVAV" )), ((XPVAV*) (av)->sv_any)->xav_fill) >= ONLY_LOCALE_MATCHES_INDEX1) { |
20106 | *only_utf8_locale_ptr = ary[ONLY_LOCALE_MATCHES_INDEX1]; |
20107 | } |
20108 | |
20109 | if (av_tindex_skip_len_mg(av)(((((svtype)((av)->sv_flags & 0xff)) == SVt_PVAV) ? (void )0 : __assert2("re_comp.c", 20109, __func__, "((svtype)((av)->sv_flags & 0xff)) == SVt_PVAV" )), ((XPVAV*) (av)->sv_any)->xav_fill) >= DEFERRED_USER_DEFINED_INDEX2) { |
20110 | si = ary[DEFERRED_USER_DEFINED_INDEX2]; |
20111 | } |
20112 | |
20113 | if (doinit && (si || invlist)) { |
20114 | if (si) { |
20115 | bool_Bool user_defined; |
20116 | SV * msg = newSVpvs_flags("", SVs_TEMP)Perl_newSVpvn_flags( ("" "" ""), (sizeof("")-1), 0x00080000); |
20117 | |
20118 | SV * prop_definition = handle_user_defined_property(S_handle_user_defined_property( "",0,(0),((const char*)(0 + ( si)->sv_u.svu_pv))[1] - '0',(1),(0),si,&user_defined,msg ,0) |
20119 | "", 0, FALSE, /* There is no \p{}, \P{} */S_handle_user_defined_property( "",0,(0),((const char*)(0 + ( si)->sv_u.svu_pv))[1] - '0',(1),(0),si,&user_defined,msg ,0) |
20120 | SvPVX_const(si)[1] - '0', /* /i or not has beenS_handle_user_defined_property( "",0,(0),((const char*)(0 + ( si)->sv_u.svu_pv))[1] - '0',(1),(0),si,&user_defined,msg ,0) |
20121 | stored here for justS_handle_user_defined_property( "",0,(0),((const char*)(0 + ( si)->sv_u.svu_pv))[1] - '0',(1),(0),si,&user_defined,msg ,0) |
20122 | this occasion */S_handle_user_defined_property( "",0,(0),((const char*)(0 + ( si)->sv_u.svu_pv))[1] - '0',(1),(0),si,&user_defined,msg ,0) |
20123 | TRUE, /* run time */S_handle_user_defined_property( "",0,(0),((const char*)(0 + ( si)->sv_u.svu_pv))[1] - '0',(1),(0),si,&user_defined,msg ,0) |
20124 | FALSE, /* This call must find the defn */S_handle_user_defined_property( "",0,(0),((const char*)(0 + ( si)->sv_u.svu_pv))[1] - '0',(1),(0),si,&user_defined,msg ,0) |
20125 | si, /* The property definition */S_handle_user_defined_property( "",0,(0),((const char*)(0 + ( si)->sv_u.svu_pv))[1] - '0',(1),(0),si,&user_defined,msg ,0) |
20126 | &user_defined,S_handle_user_defined_property( "",0,(0),((const char*)(0 + ( si)->sv_u.svu_pv))[1] - '0',(1),(0),si,&user_defined,msg ,0) |
20127 | msg,S_handle_user_defined_property( "",0,(0),((const char*)(0 + ( si)->sv_u.svu_pv))[1] - '0',(1),(0),si,&user_defined,msg ,0) |
20128 | 0 /* base level call */S_handle_user_defined_property( "",0,(0),((const char*)(0 + ( si)->sv_u.svu_pv))[1] - '0',(1),(0),si,&user_defined,msg ,0) |
20129 | )S_handle_user_defined_property( "",0,(0),((const char*)(0 + ( si)->sv_u.svu_pv))[1] - '0',(1),(0),si,&user_defined,msg ,0); |
20130 | |
20131 | if (SvCUR(msg)(*({ const SV *const _svcur = (const SV *)(msg); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 20131, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 20131, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 20131, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))) { |
20132 | assert(prop_definition == NULL)((prop_definition == ((void*)0)) ? (void)0 : __assert2("re_comp.c" , 20132, __func__, "prop_definition == NULL")); |
20133 | |
20134 | Perl_croak(aTHX_ "%" UTF8f"d%" "lu" "%4p", |
20135 | UTF8fARG(SvUTF8(msg), SvCUR(msg), SvPVX(msg))(int)((((msg)->sv_flags & 0x20000000)) ? (_Bool)1 : (_Bool )0), (UV)((*({ const SV *const _svcur = (const SV *)(msg); (( PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 20135, __func__ , "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]")); ((!( (((_svcur)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 20135, __func__, "!isGV_with_GP(_svcur)" )); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 20135, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))), (void*)((*({ SV *const _svpvx = ((SV *) ({ void *_p = (msg); _p; })); ((PL_valid_types_PVX[((svtype)( (_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 20135, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 20135, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 20135, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })))); |
20136 | } |
20137 | |
20138 | if (invlist) { |
20139 | _invlist_union(invlist, prop_definition, &invlist)Perl__invlist_union_maybe_complement_2nd( invlist,prop_definition ,(0),&invlist); |
20140 | SvREFCNT_dec_NN(prop_definition)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (prop_definition); _p; }))); |
20141 | } |
20142 | else { |
20143 | invlist = prop_definition; |
20144 | } |
20145 | |
20146 | STATIC_ASSERT_STMT(ONLY_LOCALE_MATCHES_INDEX == 1 + INVLIST_INDEX)do { _Static_assert(1 == 1 + 0, "1 == 1 + 0"); } while (0); |
20147 | STATIC_ASSERT_STMT(DEFERRED_USER_DEFINED_INDEX == 1 + ONLY_LOCALE_MATCHES_INDEX)do { _Static_assert(2 == 1 + 1, "2 == 1 + 1"); } while (0); |
20148 | |
20149 | ary[INVLIST_INDEX0] = invlist; |
20150 | av_fill(av, (ary[ONLY_LOCALE_MATCHES_INDEX])Perl_av_fill( av,(ary[1]) ? 1 : 0) |
20151 | ? ONLY_LOCALE_MATCHES_INDEXPerl_av_fill( av,(ary[1]) ? 1 : 0) |
20152 | : INVLIST_INDEX)Perl_av_fill( av,(ary[1]) ? 1 : 0); |
20153 | si = NULL((void*)0); |
20154 | } |
20155 | } |
20156 | } |
20157 | } |
20158 | |
20159 | /* If requested, return a printable version of what this ANYOF node matches |
20160 | * */ |
20161 | if (listsvp) { |
20162 | SV* matches_string = NULL((void*)0); |
20163 | |
20164 | /* This function can be called at compile-time, before everything gets |
20165 | * resolved, in which case we return the currently best available |
20166 | * information, which is the string that will eventually be used to do |
20167 | * that resolving, 'si' */ |
20168 | if (si) { |
20169 | /* Here, we only have 'si' (and possibly some passed-in data in |
20170 | * 'invlist', which is handled below) If the caller only wants |
20171 | * 'si', use that. */ |
20172 | if (! output_invlist) { |
20173 | matches_string = newSVsv(si)Perl_newSVsv_flags( (si),2|16); |
20174 | } |
20175 | else { |
20176 | /* But if the caller wants an inversion list of the node, we |
20177 | * need to parse 'si' and place as much as possible in the |
20178 | * desired output inversion list, making 'matches_string' only |
20179 | * contain the currently unresolvable things */ |
20180 | const char *si_string = SvPVX(si)(*({ SV *const _svpvx = ((SV *)({ void *_p = (si); _p; })); ( (PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 20180, __func__ , "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]")); ((!( (((_svpvx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 20180, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 20180, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })); |
20181 | STRLEN remaining = SvCUR(si)(*({ const SV *const _svcur = (const SV *)(si); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 20181, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 20181, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 20181, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })); |
20182 | UV prev_cp = 0; |
20183 | U8 count = 0; |
20184 | |
20185 | /* Ignore everything before and including the first new-line */ |
20186 | si_string = (const char *) memchr(si_string, '\n', SvCUR(si)(*({ const SV *const _svcur = (const SV *)(si); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 20186, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 20186, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 20186, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))); |
20187 | assert (si_string != NULL)((si_string != ((void*)0)) ? (void)0 : __assert2("re_comp.c", 20187, __func__, "si_string != NULL")); |
20188 | si_string++; |
20189 | remaining = SvPVX(si)(*({ SV *const _svpvx = ((SV *)({ void *_p = (si); _p; })); ( (PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 20189, __func__ , "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]")); ((!( (((_svpvx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 20189, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 20189, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) + SvCUR(si)(*({ const SV *const _svcur = (const SV *)(si); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 20189, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 20189, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 20189, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - si_string; |
20190 | |
20191 | while (remaining > 0) { |
20192 | |
20193 | /* The data consists of just strings defining user-defined |
20194 | * property names, but in prior incarnations, and perhaps |
20195 | * somehow from pluggable regex engines, it could still |
20196 | * hold hex code point definitions, all of which should be |
20197 | * legal (or it wouldn't have gotten this far). Each |
20198 | * component of a range would be separated by a tab, and |
20199 | * each range by a new-line. If these are found, instead |
20200 | * add them to the inversion list */ |
20201 | I32 grok_flags = PERL_SCAN_SILENT_ILLDIGIT0x08 |
20202 | |PERL_SCAN_SILENT_NON_PORTABLE0x20; |
20203 | STRLEN len = remaining; |
20204 | UV cp = grok_hex(si_string, &len, &grok_flags, NULL)Perl_grok_bin_oct_hex( si_string,&len,&grok_flags,((void *)0),4,12,'x'); |
20205 | |
20206 | /* If the hex decode routine found something, it should go |
20207 | * up to the next \n */ |
20208 | if ( *(si_string + len) == '\n') { |
20209 | if (count) { /* 2nd code point on line */ |
20210 | *output_invlist = _add_range_to_invlist(*output_invlist, prev_cp, cp)Perl__add_range_to_invlist( *output_invlist,prev_cp,cp); |
20211 | } |
20212 | else { |
20213 | *output_invlist = add_cp_to_invlist(*output_invlist, cp)S_add_cp_to_invlist( *output_invlist,cp); |
20214 | } |
20215 | count = 0; |
20216 | goto prepare_for_next_iteration; |
20217 | } |
20218 | |
20219 | /* If the hex decode was instead for the lower range limit, |
20220 | * save it, and go parse the upper range limit */ |
20221 | if (*(si_string + len) == '\t') { |
20222 | assert(count == 0)((count == 0) ? (void)0 : __assert2("re_comp.c", 20222, __func__ , "count == 0")); |
20223 | |
20224 | prev_cp = cp; |
20225 | count = 1; |
20226 | prepare_for_next_iteration: |
20227 | si_string += len + 1; |
20228 | remaining -= len + 1; |
20229 | continue; |
20230 | } |
20231 | |
20232 | /* Here, didn't find a legal hex number. Just add the text |
20233 | * from here up to the next \n, omitting any trailing |
20234 | * markers. */ |
20235 | |
20236 | remaining -= len; |
20237 | len = strcspn(si_string, |
20238 | DEFERRED_COULD_BE_OFFICIAL_MARKERs"~" "\n"); |
20239 | remaining -= len; |
20240 | if (matches_string) { |
20241 | sv_catpvn(matches_string, si_string, len)Perl_sv_catpvn_flags( matches_string,si_string,len,2); |
20242 | } |
20243 | else { |
20244 | matches_string = newSVpvn(si_string, len)Perl_newSVpvn( si_string,len); |
20245 | } |
20246 | sv_catpvs(matches_string, " ")Perl_sv_catpvn_flags( matches_string, ("" " " ""), (sizeof(" " )-1), 2); |
20247 | |
20248 | si_string += len; |
20249 | if ( remaining |
20250 | && UCHARAT(si_string)((int)*(const U8*)(si_string)) |
20251 | == DEFERRED_COULD_BE_OFFICIAL_MARKERc'~') |
20252 | { |
20253 | si_string++; |
20254 | remaining--; |
20255 | } |
20256 | if (remaining && UCHARAT(si_string)((int)*(const U8*)(si_string)) == '\n') { |
20257 | si_string++; |
20258 | remaining--; |
20259 | } |
20260 | } /* end of loop through the text */ |
20261 | |
20262 | assert(matches_string)((matches_string) ? (void)0 : __assert2("re_comp.c", 20262, __func__ , "matches_string")); |
20263 | if (SvCUR(matches_string)(*({ const SV *const _svcur = (const SV *)(matches_string); ( (PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 20263, __func__ , "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]")); ((!( (((_svcur)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 20263, __func__, "!isGV_with_GP(_svcur)" )); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 20263, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))) { /* Get rid of trailing blank */ |
20264 | SvCUR_set(matches_string, SvCUR(matches_string) - 1)do { ((PL_valid_types_PVX[((svtype)((matches_string)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 20264, __func__, "PL_valid_types_PVX[SvTYPE(matches_string) & SVt_MASK]" )); ((!((((matches_string)->sv_flags & (0x00004000|0x00008000 )) == 0x00008000) && (((svtype)((matches_string)-> sv_flags & 0xff)) == SVt_PVGV || ((svtype)((matches_string )->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2 ("re_comp.c", 20264, __func__, "!isGV_with_GP(matches_string)" )); ((!(((svtype)((matches_string)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (matches_string)->sv_any) ->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 20264, __func__, "!(SvTYPE(matches_string) == SVt_PVIO && !(IoFLAGS(matches_string) & IOf_FAKE_DIRP))" )); (((XPV*) (matches_string)->sv_any)->xpv_cur = ((*({ const SV *const _svcur = (const SV *)(matches_string); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 20264, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 20264, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 20264, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - 1)); } while (0); |
20265 | } |
20266 | } /* end of has an 'si' */ |
20267 | } |
20268 | |
20269 | /* Add the stuff that's already known */ |
20270 | if (invlist) { |
20271 | |
20272 | /* Again, if the caller doesn't want the output inversion list, put |
20273 | * everything in 'matches-string' */ |
20274 | if (! output_invlist) { |
20275 | if ( ! matches_string) { |
20276 | matches_string = newSVpvs("\n")Perl_newSVpvn( ("" "\n" ""), (sizeof("\n")-1)); |
20277 | } |
20278 | sv_catsv(matches_string, invlist_contents(invlist,Perl_sv_catsv_flags( matches_string,S_invlist_contents( invlist ,(1)),2) |
20279 | TRUE /* traditional style */Perl_sv_catsv_flags( matches_string,S_invlist_contents( invlist ,(1)),2) |
20280 | ))Perl_sv_catsv_flags( matches_string,S_invlist_contents( invlist ,(1)),2); |
20281 | } |
20282 | else if (! *output_invlist) { |
20283 | *output_invlist = invlist_clone(invlist, NULL)Perl_invlist_clone( invlist,((void*)0)); |
20284 | } |
20285 | else { |
20286 | _invlist_union(*output_invlist, invlist, output_invlist)Perl__invlist_union_maybe_complement_2nd( *output_invlist,invlist ,(0),output_invlist); |
20287 | } |
20288 | } |
20289 | |
20290 | *listsvp = matches_string; |
20291 | } |
20292 | |
20293 | return invlist; |
20294 | } |
20295 | |
20296 | /* reg_skipcomment() |
20297 | |
20298 | Absorbs an /x style # comment from the input stream, |
20299 | returning a pointer to the first character beyond the comment, or if the |
20300 | comment terminates the pattern without anything following it, this returns |
20301 | one past the final character of the pattern (in other words, RExC_end) and |
20302 | sets the REG_RUN_ON_COMMENT_SEEN flag. |
20303 | |
20304 | Note it's the callers responsibility to ensure that we are |
20305 | actually in /x mode |
20306 | |
20307 | */ |
20308 | |
20309 | PERL_STATIC_INLINEstatic __inline__ char* |
20310 | S_reg_skipcomment(RExC_state_t *pRExC_state, char* p) |
20311 | { |
20312 | PERL_ARGS_ASSERT_REG_SKIPCOMMENT((pRExC_state) ? (void)0 : __assert2("re_comp.c", 20312, __func__ , "pRExC_state")); ((p) ? (void)0 : __assert2("re_comp.c", 20312 , __func__, "p")); |
20313 | |
20314 | assert(*p == '#')((*p == '#') ? (void)0 : __assert2("re_comp.c", 20314, __func__ , "*p == '#'")); |
20315 | |
20316 | while (p < RExC_end(pRExC_state->end)) { |
20317 | if (*(++p) == '\n') { |
20318 | return p+1; |
20319 | } |
20320 | } |
20321 | |
20322 | /* we ran off the end of the pattern without ending the comment, so we have |
20323 | * to add an \n when wrapping */ |
20324 | RExC_seen(pRExC_state->seen) |= REG_RUN_ON_COMMENT_SEEN0x00000200; |
20325 | return p; |
20326 | } |
20327 | |
20328 | STATICstatic void |
20329 | S_skip_to_be_ignored_text(pTHX_ RExC_state_t *pRExC_state, |
20330 | char ** p, |
20331 | const bool_Bool force_to_xmod |
20332 | ) |
20333 | { |
20334 | /* If the text at the current parse position '*p' is a '(?#...)' comment, |
20335 | * or if we are under /x or 'force_to_xmod' is TRUE, and the text at '*p' |
20336 | * is /x whitespace, advance '*p' so that on exit it points to the first |
20337 | * byte past all such white space and comments */ |
20338 | |
20339 | const bool_Bool use_xmod = force_to_xmod || (RExC_flags(pRExC_state->flags) & RXf_PMf_EXTENDED(1U << (0 +3))); |
20340 | |
20341 | PERL_ARGS_ASSERT_SKIP_TO_BE_IGNORED_TEXT((pRExC_state) ? (void)0 : __assert2("re_comp.c", 20341, __func__ , "pRExC_state")); ((p) ? (void)0 : __assert2("re_comp.c", 20341 , __func__, "p")); |
20342 | |
20343 | assert( ! UTF || UTF8_IS_INVARIANT(**p) || UTF8_IS_START(**p))((! (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) || ((((U64 )(((UV) (((**p) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0))) || (((( (sizeof(**p) == 1) || !(((U64)((**p) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 20343, __func__, "( (sizeof(**p) == 1) || !(((U64)((**p) | 0)) & ~0xFF))" )), ((((( (sizeof(**p) == 1) || !(((U64)((**p) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_comp.c", 20343, __func__, "( (sizeof(**p) == 1) || !(((U64)((**p) | 0)) & ~0xFF))" )), ((U8) ((**p) | 0))) >= (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) ? (void)0 : __assert2("re_comp.c", 20343, __func__ , "! UTF || UTF8_IS_INVARIANT(**p) || UTF8_IS_START(**p)")); |
20344 | |
20345 | for (;;) { |
20346 | if (RExC_end(pRExC_state->end) - (*p) >= 3 |
20347 | && *(*p) == '(' |
20348 | && *(*p + 1) == '?' |
20349 | && *(*p + 2) == '#') |
20350 | { |
20351 | while (*(*p) != ')') { |
20352 | if ((*p) == RExC_end(pRExC_state->end)) |
20353 | FAIL("Sequence (?#... not terminated")do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "%s in regex m/%" "d%" "lu" "%4p" "%s/", "Sequence (?#... not terminated" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp )), ellipses); } while (0); |
20354 | (*p)++; |
20355 | } |
20356 | (*p)++; |
20357 | continue; |
20358 | } |
20359 | |
20360 | if (use_xmod) { |
20361 | const char * save_p = *p; |
20362 | while ((*p) < RExC_end(pRExC_state->end)) { |
20363 | STRLEN len; |
20364 | if ((len = is_PATWS_safe((*p), RExC_end, UTF)( ( __builtin_expect(((((pRExC_state->end)) > ((*p))) ? (_Bool)1 : (_Bool)0),(1)) ) ? ( ( ((((0x0D) >= (0x09)) ? ( void)0 : __assert2("re_comp.c", 20364, __func__, "(0x0D) >= (0x09)" )), ( (sizeof(((const U8*)(*p))[0]) == sizeof(U8)) ? ((((NV) ( (0x09)) >= 0) ? (void)0 : __assert2("re_comp.c", 20364, __func__ , "(NV) ((0x09)) >= 0")), (((NV) (((0x0D) - (0x09))) >= 0) ? (void)0 : __assert2("re_comp.c", 20364, __func__, "(NV) (((0x0D) - (0x09))) >= 0" )), (((U64) (((((U8) (((const U8*)(*p))[0])))) - (((0x09)) | 0 ))) <= (((U64) ((((0x0D) - (0x09))) | 0))))) : (sizeof(((const U8*)(*p))[0]) == sizeof(U32)) ? ((((NV) ((0x09)) >= 0) ? ( void)0 : __assert2("re_comp.c", 20364, __func__, "(NV) ((0x09)) >= 0" )), (((NV) (((0x0D) - (0x09))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 20364, __func__, "(NV) (((0x0D) - (0x09))) >= 0" )), (((U64) (((((U32) (((const U8*)(*p))[0])))) - (((0x09)) | 0))) <= (((U64) ((((0x0D) - (0x09))) | 0))))) : (((sizeof (((const U8*)(*p))[0]) == sizeof(U64)) ? (void)0 : __assert2( "re_comp.c", 20364, __func__, "sizeof(((const U8*)(*p))[0]) == sizeof(U64)" )), ((((NV) ((0x09)) >= 0) ? (void)0 : __assert2("re_comp.c" , 20364, __func__, "(NV) ((0x09)) >= 0")), (((NV) (((0x0D) - (0x09))) >= 0) ? (void)0 : __assert2("re_comp.c", 20364 , __func__, "(NV) (((0x0D) - (0x09))) >= 0")), (((U64) ((( ((U64) (((const U8*)(*p))[0])))) - (((0x09)) | 0))) <= ((( U64) ((((0x0D) - (0x09))) | 0)))))))) || 0x20 == ((const U8*) (*p))[0] ) ? 1 : (! (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool )0) ) ? ( 0x85 == ((const U8*)(*p))[0] ) : ( __builtin_expect ((((((pRExC_state->end)) - ((*p))) >= PL_utf8skip[*(const U8*)((*p))]) ? (_Bool)1 : (_Bool)0),(1)) ) ? ( ( 0xC2 == ((const U8*)(*p))[0] ) ? ( ( 0x85 == ((const U8*)(*p))[1] ) ? 2 : 0 ) : ( ( ( 0xE2 == ((const U8*)(*p))[0] ) && ( 0x80 == ( (const U8*)(*p))[1] ) ) && ( ((((0x8F) >= (0x8E)) ? (void)0 : __assert2("re_comp.c", 20364, __func__, "(0x8F) >= (0x8E)" )), ( (sizeof(((const U8*)(*p))[2]) == sizeof(U8)) ? ((((NV) ( (0x8E)) >= 0) ? (void)0 : __assert2("re_comp.c", 20364, __func__ , "(NV) ((0x8E)) >= 0")), (((NV) (((0x8F) - (0x8E))) >= 0) ? (void)0 : __assert2("re_comp.c", 20364, __func__, "(NV) (((0x8F) - (0x8E))) >= 0" )), (((U64) (((((U8) (((const U8*)(*p))[2])))) - (((0x8E)) | 0 ))) <= (((U64) ((((0x8F) - (0x8E))) | 0))))) : (sizeof(((const U8*)(*p))[2]) == sizeof(U32)) ? ((((NV) ((0x8E)) >= 0) ? ( void)0 : __assert2("re_comp.c", 20364, __func__, "(NV) ((0x8E)) >= 0" )), (((NV) (((0x8F) - (0x8E))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 20364, __func__, "(NV) (((0x8F) - (0x8E))) >= 0" )), (((U64) (((((U32) (((const U8*)(*p))[2])))) - (((0x8E)) | 0))) <= (((U64) ((((0x8F) - (0x8E))) | 0))))) : (((sizeof (((const U8*)(*p))[2]) == sizeof(U64)) ? (void)0 : __assert2( "re_comp.c", 20364, __func__, "sizeof(((const U8*)(*p))[2]) == sizeof(U64)" )), ((((NV) ((0x8E)) >= 0) ? (void)0 : __assert2("re_comp.c" , 20364, __func__, "(NV) ((0x8E)) >= 0")), (((NV) (((0x8F) - (0x8E))) >= 0) ? (void)0 : __assert2("re_comp.c", 20364 , __func__, "(NV) (((0x8F) - (0x8E))) >= 0")), (((U64) ((( ((U64) (((const U8*)(*p))[2])))) - (((0x8E)) | 0))) <= ((( U64) ((((0x8F) - (0x8E))) | 0)))))))) || ((((0xA9) >= (0xA8 )) ? (void)0 : __assert2("re_comp.c", 20364, __func__, "(0xA9) >= (0xA8)" )), ( (sizeof(((const U8*)(*p))[2]) == sizeof(U8)) ? ((((NV) ( (0xA8)) >= 0) ? (void)0 : __assert2("re_comp.c", 20364, __func__ , "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_comp.c", 20364, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U8) (((const U8*)(*p))[2])))) - (((0xA8)) | 0 ))) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (sizeof(((const U8*)(*p))[2]) == sizeof(U32)) ? ((((NV) ((0xA8)) >= 0) ? ( void)0 : __assert2("re_comp.c", 20364, __func__, "(NV) ((0xA8)) >= 0" )), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2 ("re_comp.c", 20364, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U32) (((const U8*)(*p))[2])))) - (((0xA8)) | 0))) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (((sizeof (((const U8*)(*p))[2]) == sizeof(U64)) ? (void)0 : __assert2( "re_comp.c", 20364, __func__, "sizeof(((const U8*)(*p))[2]) == sizeof(U64)" )), ((((NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_comp.c" , 20364, __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_comp.c", 20364 , __func__, "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) ((( ((U64) (((const U8*)(*p))[2])))) - (((0xA8)) | 0))) <= ((( U64) ((((0xA9) - (0xA8))) | 0)))))))) ) ) ? 3 : 0 ) : 0 ) : 0 ))) { |
20365 | (*p) += len; |
20366 | } |
20367 | else if (*(*p) == '#') { |
20368 | (*p) = reg_skipcommentS_reg_skipcomment(pRExC_state, (*p)); |
20369 | } |
20370 | else { |
20371 | break; |
20372 | } |
20373 | } |
20374 | if (*p != save_p) { |
20375 | continue; |
20376 | } |
20377 | } |
20378 | |
20379 | break; |
20380 | } |
20381 | |
20382 | return; |
20383 | } |
20384 | |
20385 | /* nextchar() |
20386 | |
20387 | Advances the parse position by one byte, unless that byte is the beginning |
20388 | of a '(?#...)' style comment, or is /x whitespace and /x is in effect. In |
20389 | those two cases, the parse position is advanced beyond all such comments and |
20390 | white space. |
20391 | |
20392 | This is the UTF, (?#...), and /x friendly way of saying RExC_parse++. |
20393 | */ |
20394 | |
20395 | STATICstatic void |
20396 | S_nextchar(pTHX_ RExC_state_t *pRExC_state) |
20397 | { |
20398 | PERL_ARGS_ASSERT_NEXTCHAR((pRExC_state) ? (void)0 : __assert2("re_comp.c", 20398, __func__ , "pRExC_state")); |
20399 | |
20400 | if (RExC_parse(pRExC_state->parse) < RExC_end(pRExC_state->end)) { |
20401 | assert( ! UTF((! (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) || ((((U64 )(((UV) (((*(pRExC_state->parse)) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0))) || (((( (sizeof(*(pRExC_state ->parse)) == 1) || !(((U64)((*(pRExC_state->parse)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 20403, __func__ , "( (sizeof(*(pRExC_state->parse)) == 1) || !(((U64)((*(pRExC_state->parse)) | 0)) & ~0xFF))" )), ((((( (sizeof(*(pRExC_state->parse)) == 1) || !(((U64) ((*(pRExC_state->parse)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_comp.c", 20403, __func__, "( (sizeof(*(pRExC_state->parse)) == 1) || !(((U64)((*(pRExC_state->parse)) | 0)) & ~0xFF))" )), ((U8) ((*(pRExC_state->parse)) | 0))) >= (((((U8) ( 0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) ? (void)0 : __assert2( "re_comp.c", 20403, __func__, "! UTF || UTF8_IS_INVARIANT(*RExC_parse) || UTF8_IS_START(*RExC_parse)" )) |
20402 | || UTF8_IS_INVARIANT(*RExC_parse)((! (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) || ((((U64 )(((UV) (((*(pRExC_state->parse)) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0))) || (((( (sizeof(*(pRExC_state ->parse)) == 1) || !(((U64)((*(pRExC_state->parse)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 20403, __func__ , "( (sizeof(*(pRExC_state->parse)) == 1) || !(((U64)((*(pRExC_state->parse)) | 0)) & ~0xFF))" )), ((((( (sizeof(*(pRExC_state->parse)) == 1) || !(((U64) ((*(pRExC_state->parse)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_comp.c", 20403, __func__, "( (sizeof(*(pRExC_state->parse)) == 1) || !(((U64)((*(pRExC_state->parse)) | 0)) & ~0xFF))" )), ((U8) ((*(pRExC_state->parse)) | 0))) >= (((((U8) ( 0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) ? (void)0 : __assert2( "re_comp.c", 20403, __func__, "! UTF || UTF8_IS_INVARIANT(*RExC_parse) || UTF8_IS_START(*RExC_parse)" )) |
20403 | || UTF8_IS_START(*RExC_parse))((! (((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0) || ((((U64 )(((UV) (((*(pRExC_state->parse)) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0))) || (((( (sizeof(*(pRExC_state ->parse)) == 1) || !(((U64)((*(pRExC_state->parse)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 20403, __func__ , "( (sizeof(*(pRExC_state->parse)) == 1) || !(((U64)((*(pRExC_state->parse)) | 0)) & ~0xFF))" )), ((((( (sizeof(*(pRExC_state->parse)) == 1) || !(((U64) ((*(pRExC_state->parse)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_comp.c", 20403, __func__, "( (sizeof(*(pRExC_state->parse)) == 1) || !(((U64)((*(pRExC_state->parse)) | 0)) & ~0xFF))" )), ((U8) ((*(pRExC_state->parse)) | 0))) >= (((((U8) ( 0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) ? (void)0 : __assert2( "re_comp.c", 20403, __func__, "! UTF || UTF8_IS_INVARIANT(*RExC_parse) || UTF8_IS_START(*RExC_parse)" )); |
20404 | |
20405 | RExC_parse(pRExC_state->parse) += (UTF(((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) |
20406 | ? UTF8_SAFE_SKIP(RExC_parse, RExC_end)(((((pRExC_state->end)) >= ((pRExC_state->parse))) ? (void)0 : __assert2("re_comp.c", 20406, __func__, "((pRExC_state->end)) >= ((pRExC_state->parse))" )), (((pRExC_state->end)) - ((pRExC_state->parse))) <= 0 ? 0 : ((((((pRExC_state->end)) - ((pRExC_state->parse ))))<(PL_utf8skip[*(const U8*)((pRExC_state->parse))])) ?((((pRExC_state->end)) - ((pRExC_state->parse)))):(PL_utf8skip [*(const U8*)((pRExC_state->parse))]))) |
20407 | : 1; |
20408 | |
20409 | skip_to_be_ignored_text(pRExC_state, &RExC_parse,S_skip_to_be_ignored_text( pRExC_state,&(pRExC_state-> parse),(0)) |
20410 | FALSE /* Don't force /x */ )S_skip_to_be_ignored_text( pRExC_state,&(pRExC_state-> parse),(0)); |
20411 | } |
20412 | } |
20413 | |
20414 | STATICstatic void |
20415 | S_change_engine_size(pTHX_ RExC_state_t *pRExC_state, const Ptrdiff_tptrdiff_t size) |
20416 | { |
20417 | /* 'size' is the delta number of smallest regnode equivalents to add or |
20418 | * subtract from the current memory allocated to the regex engine being |
20419 | * constructed. */ |
20420 | |
20421 | PERL_ARGS_ASSERT_CHANGE_ENGINE_SIZE((pRExC_state) ? (void)0 : __assert2("re_comp.c", 20421, __func__ , "pRExC_state")); |
20422 | |
20423 | RExC_size(pRExC_state->size) += size; |
20424 | |
20425 | Renewc(RExC_rxi,((pRExC_state->rxi) = ((void)(__builtin_expect(((((( sizeof (size_t) < sizeof(sizeof(regexp_internal) + ((pRExC_state-> size) + 1) * sizeof(regnode)) || sizeof(char) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(sizeof(regexp_internal) + ((pRExC_state->size) + 1) * sizeof(regnode))))) ? (size_t )(sizeof(regexp_internal) + ((pRExC_state->size) + 1) * sizeof (regnode)) : ((size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof (char))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (regexp_internal*)(Perl_safesysrealloc((void *)((pRExC_state ->rxi)),(size_t)((sizeof(regexp_internal) + ((pRExC_state-> size) + 1) * sizeof(regnode))*sizeof(char)))))) |
20426 | sizeof(regexp_internal) + (RExC_size + 1) * sizeof(regnode),((pRExC_state->rxi) = ((void)(__builtin_expect(((((( sizeof (size_t) < sizeof(sizeof(regexp_internal) + ((pRExC_state-> size) + 1) * sizeof(regnode)) || sizeof(char) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(sizeof(regexp_internal) + ((pRExC_state->size) + 1) * sizeof(regnode))))) ? (size_t )(sizeof(regexp_internal) + ((pRExC_state->size) + 1) * sizeof (regnode)) : ((size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof (char))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (regexp_internal*)(Perl_safesysrealloc((void *)((pRExC_state ->rxi)),(size_t)((sizeof(regexp_internal) + ((pRExC_state-> size) + 1) * sizeof(regnode))*sizeof(char)))))) |
20427 | /* +1 for REG_MAGIC */((pRExC_state->rxi) = ((void)(__builtin_expect(((((( sizeof (size_t) < sizeof(sizeof(regexp_internal) + ((pRExC_state-> size) + 1) * sizeof(regnode)) || sizeof(char) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(sizeof(regexp_internal) + ((pRExC_state->size) + 1) * sizeof(regnode))))) ? (size_t )(sizeof(regexp_internal) + ((pRExC_state->size) + 1) * sizeof (regnode)) : ((size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof (char))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (regexp_internal*)(Perl_safesysrealloc((void *)((pRExC_state ->rxi)),(size_t)((sizeof(regexp_internal) + ((pRExC_state-> size) + 1) * sizeof(regnode))*sizeof(char)))))) |
20428 | char,((pRExC_state->rxi) = ((void)(__builtin_expect(((((( sizeof (size_t) < sizeof(sizeof(regexp_internal) + ((pRExC_state-> size) + 1) * sizeof(regnode)) || sizeof(char) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(sizeof(regexp_internal) + ((pRExC_state->size) + 1) * sizeof(regnode))))) ? (size_t )(sizeof(regexp_internal) + ((pRExC_state->size) + 1) * sizeof (regnode)) : ((size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof (char))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (regexp_internal*)(Perl_safesysrealloc((void *)((pRExC_state ->rxi)),(size_t)((sizeof(regexp_internal) + ((pRExC_state-> size) + 1) * sizeof(regnode))*sizeof(char)))))) |
20429 | regexp_internal)((pRExC_state->rxi) = ((void)(__builtin_expect(((((( sizeof (size_t) < sizeof(sizeof(regexp_internal) + ((pRExC_state-> size) + 1) * sizeof(regnode)) || sizeof(char) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(sizeof(regexp_internal) + ((pRExC_state->size) + 1) * sizeof(regnode))))) ? (size_t )(sizeof(regexp_internal) + ((pRExC_state->size) + 1) * sizeof (regnode)) : ((size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof (char))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (regexp_internal*)(Perl_safesysrealloc((void *)((pRExC_state ->rxi)),(size_t)((sizeof(regexp_internal) + ((pRExC_state-> size) + 1) * sizeof(regnode))*sizeof(char)))))); |
20430 | if ( RExC_rxi(pRExC_state->rxi) == NULL((void*)0) ) |
20431 | FAIL("Regexp out of space")do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "%s in regex m/%" "d%" "lu" "%4p" "%s/", "Regexp out of space" , (int)(((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp )), ellipses); } while (0); |
20432 | RXi_SET(RExC_rx, RExC_rxi)((pRExC_state->rx))->pprivate = (void*)((pRExC_state-> rxi)); |
20433 | |
20434 | RExC_emit_start(pRExC_state->emit_start) = RExC_rxi(pRExC_state->rxi)->program; |
20435 | if (size > 0) { |
20436 | Zero(REGNODE_p(RExC_emit), size, regnode)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(size ) || sizeof(regnode) > ((size_t)1 << 8*(sizeof(size_t ) - sizeof(size)))) ? (size_t)(size) : ((size_t)-1)/sizeof(regnode )) > ((size_t)-1)/sizeof(regnode))) ? (_Bool)1 : (_Bool)0) ,(0)) && (Perl_croak_memory_wrap(),0)), ((((void*)((( pRExC_state->emit_start) + ((pRExC_state->emit))))) != 0 ) ? (void)0 : __assert2("re_comp.c", 20436, __func__, "((void*)(((pRExC_state->emit_start) + ((pRExC_state->emit))))) != 0" )), (void)memset((char*)(((pRExC_state->emit_start) + ((pRExC_state ->emit)))),0,(size) * sizeof(regnode))); |
20437 | } |
20438 | |
20439 | #ifdef RE_TRACK_PATTERN_OFFSETS |
20440 | Renew(RExC_offsets, 2*RExC_size+1, U32)(((pRExC_state->rxi)->u.offsets) = ((void)(__builtin_expect (((((( sizeof(size_t) < sizeof(2*(pRExC_state->size)+1) || sizeof(U32) > ((size_t)1 << 8*(sizeof(size_t) - sizeof (2*(pRExC_state->size)+1)))) ? (size_t)(2*(pRExC_state-> size)+1) : ((size_t)-1)/sizeof(U32)) > ((size_t)-1)/sizeof (U32))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (U32*)(Perl_safesysrealloc((void *)(((pRExC_state-> rxi)->u.offsets)),(size_t)((2*(pRExC_state->size)+1)*sizeof (U32)))))); |
20441 | if (size > 0) { |
20442 | Zero(RExC_offsets + 2*(RExC_size - size) + 1, 2 * size, U32)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(2 * size) || sizeof(U32) > ((size_t)1 << 8*(sizeof(size_t ) - sizeof(2 * size)))) ? (size_t)(2 * size) : ((size_t)-1)/sizeof (U32)) > ((size_t)-1)/sizeof(U32))) ? (_Bool)1 : (_Bool)0) ,(0)) && (Perl_croak_memory_wrap(),0)), ((((void*)((( pRExC_state->rxi)->u.offsets) + 2*((pRExC_state->size ) - size) + 1)) != 0) ? (void)0 : __assert2("re_comp.c", 20442 , __func__, "((void*)(((pRExC_state->rxi)->u.offsets) + 2*((pRExC_state->size) - size) + 1)) != 0" )), (void)memset((char*)(((pRExC_state->rxi)->u.offsets ) + 2*((pRExC_state->size) - size) + 1),0,(2 * size) * sizeof (U32))); |
20443 | } |
20444 | RExC_offsets((pRExC_state->rxi)->u.offsets)[0] = RExC_size(pRExC_state->size); |
20445 | #endif |
20446 | } |
20447 | |
20448 | STATICstatic regnode_offset |
20449 | S_regnode_guts(pTHX_ RExC_state_t *pRExC_state, const U8 op, const STRLEN extra_size, const char* const name) |
20450 | { |
20451 | /* Allocate a regnode for 'op', with 'extra_size' extra (smallest) regnode |
20452 | * equivalents space. It aligns and increments RExC_size |
20453 | * |
20454 | * It returns the regnode's offset into the regex engine program */ |
20455 | |
20456 | const regnode_offset ret = RExC_emit(pRExC_state->emit); |
20457 | |
20458 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 20458, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 20458, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
20459 | |
20460 | PERL_ARGS_ASSERT_REGNODE_GUTS((pRExC_state) ? (void)0 : __assert2("re_comp.c", 20460, __func__ , "pRExC_state")); ((name) ? (void)0 : __assert2("re_comp.c", 20460, __func__, "name")); |
20461 | |
20462 | SIZE_ALIGN(RExC_size); |
20463 | change_engine_size(pRExC_state, (Ptrdiff_t) 1 + extra_size)S_change_engine_size( pRExC_state,(ptrdiff_t) 1 + extra_size); |
20464 | NODE_ALIGN_FILL(REGNODE_p(ret))((((pRExC_state->emit_start) + (ret)))->flags = 0); |
20465 | #ifndef RE_TRACK_PATTERN_OFFSETS |
20466 | PERL_UNUSED_ARG(name)((void)sizeof(name)); |
20467 | PERL_UNUSED_ARG(op)((void)sizeof(op)); |
20468 | #else |
20469 | assert(extra_size >= regarglen[op] || PL_regkind[op] == ANYOF)((extra_size >= regarglen[op] || PL_regkind[op] == 18) ? ( void)0 : __assert2("re_comp.c", 20469, __func__, "extra_size >= regarglen[op] || PL_regkind[op] == ANYOF" )); |
20470 | |
20471 | if (RExC_offsets((pRExC_state->rxi)->u.offsets)) { /* MJD */ |
20472 | MJD_OFFSET_DEBUG(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s:%d: (op %s) %s %" "lu" " (len %" "lu" ") (max %" "lu" ").\n" , name, 20474, PL_reg_name[op], (UV)((pRExC_state->emit)) > ((pRExC_state->rxi)->u.offsets)[0] ? "Overwriting end of array!\n" : "OK", (UV)((pRExC_state->emit)), (UV)((pRExC_state-> parse) - (pRExC_state->start)), (UV)((pRExC_state->rxi) ->u.offsets)[0]);} while (0) |
20473 | ("%s:%d: (op %s) %s %" UVuf " (len %" UVuf ") (max %" UVuf ").\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s:%d: (op %s) %s %" "lu" " (len %" "lu" ") (max %" "lu" ").\n" , name, 20474, PL_reg_name[op], (UV)((pRExC_state->emit)) > ((pRExC_state->rxi)->u.offsets)[0] ? "Overwriting end of array!\n" : "OK", (UV)((pRExC_state->emit)), (UV)((pRExC_state-> parse) - (pRExC_state->start)), (UV)((pRExC_state->rxi) ->u.offsets)[0]);} while (0) |
20474 | name, __LINE__,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s:%d: (op %s) %s %" "lu" " (len %" "lu" ") (max %" "lu" ").\n" , name, 20474, PL_reg_name[op], (UV)((pRExC_state->emit)) > ((pRExC_state->rxi)->u.offsets)[0] ? "Overwriting end of array!\n" : "OK", (UV)((pRExC_state->emit)), (UV)((pRExC_state-> parse) - (pRExC_state->start)), (UV)((pRExC_state->rxi) ->u.offsets)[0]);} while (0) |
20475 | PL_reg_name[op],do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s:%d: (op %s) %s %" "lu" " (len %" "lu" ") (max %" "lu" ").\n" , name, 20474, PL_reg_name[op], (UV)((pRExC_state->emit)) > ((pRExC_state->rxi)->u.offsets)[0] ? "Overwriting end of array!\n" : "OK", (UV)((pRExC_state->emit)), (UV)((pRExC_state-> parse) - (pRExC_state->start)), (UV)((pRExC_state->rxi) ->u.offsets)[0]);} while (0) |
20476 | (UV)(RExC_emit) > RExC_offsets[0]do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s:%d: (op %s) %s %" "lu" " (len %" "lu" ") (max %" "lu" ").\n" , name, 20474, PL_reg_name[op], (UV)((pRExC_state->emit)) > ((pRExC_state->rxi)->u.offsets)[0] ? "Overwriting end of array!\n" : "OK", (UV)((pRExC_state->emit)), (UV)((pRExC_state-> parse) - (pRExC_state->start)), (UV)((pRExC_state->rxi) ->u.offsets)[0]);} while (0) |
20477 | ? "Overwriting end of array!\n" : "OK",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s:%d: (op %s) %s %" "lu" " (len %" "lu" ") (max %" "lu" ").\n" , name, 20474, PL_reg_name[op], (UV)((pRExC_state->emit)) > ((pRExC_state->rxi)->u.offsets)[0] ? "Overwriting end of array!\n" : "OK", (UV)((pRExC_state->emit)), (UV)((pRExC_state-> parse) - (pRExC_state->start)), (UV)((pRExC_state->rxi) ->u.offsets)[0]);} while (0) |
20478 | (UV)(RExC_emit),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s:%d: (op %s) %s %" "lu" " (len %" "lu" ") (max %" "lu" ").\n" , name, 20474, PL_reg_name[op], (UV)((pRExC_state->emit)) > ((pRExC_state->rxi)->u.offsets)[0] ? "Overwriting end of array!\n" : "OK", (UV)((pRExC_state->emit)), (UV)((pRExC_state-> parse) - (pRExC_state->start)), (UV)((pRExC_state->rxi) ->u.offsets)[0]);} while (0) |
20479 | (UV)(RExC_parse - RExC_start),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s:%d: (op %s) %s %" "lu" " (len %" "lu" ") (max %" "lu" ").\n" , name, 20474, PL_reg_name[op], (UV)((pRExC_state->emit)) > ((pRExC_state->rxi)->u.offsets)[0] ? "Overwriting end of array!\n" : "OK", (UV)((pRExC_state->emit)), (UV)((pRExC_state-> parse) - (pRExC_state->start)), (UV)((pRExC_state->rxi) ->u.offsets)[0]);} while (0) |
20480 | (UV)RExC_offsets[0]))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s:%d: (op %s) %s %" "lu" " (len %" "lu" ") (max %" "lu" ").\n" , name, 20474, PL_reg_name[op], (UV)((pRExC_state->emit)) > ((pRExC_state->rxi)->u.offsets)[0] ? "Overwriting end of array!\n" : "OK", (UV)((pRExC_state->emit)), (UV)((pRExC_state-> parse) - (pRExC_state->start)), (UV)((pRExC_state->rxi) ->u.offsets)[0]);} while (0); |
20481 | Set_Node_Offset(REGNODE_p(RExC_emit), RExC_parse + (op == END))do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) offset of node %d is %d.\n", 20481, (int )(((((pRExC_state->emit_start) + ((pRExC_state->emit))) ) - (pRExC_state->emit_start))), (int)(((pRExC_state->parse ) + (op == 0))-(pRExC_state->start)));} while (0); if((((( (pRExC_state->emit_start) + ((pRExC_state->emit)))) - ( pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((((pRExC_state->emit_start) + ((pRExC_state->emit )))) - (pRExC_state->emit_start)))); } else { ((pRExC_state ->rxi)->u.offsets)[2*(((((pRExC_state->emit_start) + ((pRExC_state->emit)))) - (pRExC_state->emit_start)))- 1] = (((pRExC_state->parse) + (op == 0))-(pRExC_state-> start)); } } while (0); |
20482 | } |
20483 | #endif |
20484 | return(ret); |
20485 | } |
20486 | |
20487 | /* |
20488 | - reg_node - emit a node |
20489 | */ |
20490 | STATICstatic regnode_offset /* Location. */ |
20491 | S_reg_node(pTHX_ RExC_state_t *pRExC_state, U8 op) |
20492 | { |
20493 | const regnode_offset ret = regnode_guts(pRExC_state, op, regarglen[op], "reg_node")S_regnode_guts( pRExC_state,op,regarglen[op],"reg_node"); |
20494 | regnode_offset ptr = ret; |
20495 | |
20496 | PERL_ARGS_ASSERT_REG_NODE((pRExC_state) ? (void)0 : __assert2("re_comp.c", 20496, __func__ , "pRExC_state")); |
20497 | |
20498 | assert(regarglen[op] == 0)((regarglen[op] == 0) ? (void)0 : __assert2("re_comp.c", 20498 , __func__, "regarglen[op] == 0")); |
20499 | |
20500 | FILL_ADVANCE_NODE(ptr, op)do { do { ((((pRExC_state->emit_start) + (ptr)))->type) = op; ((((pRExC_state->emit_start) + (ptr)))->next_off ) = 0; } while (0); (ptr)++; } while (0); |
20501 | RExC_emit(pRExC_state->emit) = ptr; |
20502 | return(ret); |
20503 | } |
20504 | |
20505 | /* |
20506 | - reganode - emit a node with an argument |
20507 | */ |
20508 | STATICstatic regnode_offset /* Location. */ |
20509 | S_reganode(pTHX_ RExC_state_t *pRExC_state, U8 op, U32 arg) |
20510 | { |
20511 | const regnode_offset ret = regnode_guts(pRExC_state, op, regarglen[op], "reganode")S_regnode_guts( pRExC_state,op,regarglen[op],"reganode"); |
20512 | regnode_offset ptr = ret; |
20513 | |
20514 | PERL_ARGS_ASSERT_REGANODE((pRExC_state) ? (void)0 : __assert2("re_comp.c", 20514, __func__ , "pRExC_state")); |
20515 | |
20516 | /* ANYOF are special cased to allow non-length 1 args */ |
20517 | assert(regarglen[op] == 1)((regarglen[op] == 1) ? (void)0 : __assert2("re_comp.c", 20517 , __func__, "regarglen[op] == 1")); |
20518 | |
20519 | FILL_ADVANCE_NODE_ARG(ptr, op, arg)do { (((((struct regnode_1 *)((pRExC_state->emit_start) + ( ptr)))->arg1)) = ((arg))); do { do { ((((pRExC_state->emit_start ) + (ptr)))->type) = op; ((((pRExC_state->emit_start) + (ptr)))->next_off) = 0; } while (0); (ptr)++; } while (0) ; (ptr) += regarglen[op]; } while (0); |
20520 | RExC_emit(pRExC_state->emit) = ptr; |
20521 | return(ret); |
20522 | } |
20523 | |
20524 | /* |
20525 | - regpnode - emit a temporary node with a SV* argument |
20526 | */ |
20527 | STATICstatic regnode_offset /* Location. */ |
20528 | S_regpnode(pTHX_ RExC_state_t *pRExC_state, U8 op, SV * arg) |
20529 | { |
20530 | const regnode_offset ret = regnode_guts(pRExC_state, op, regarglen[op], "regpnode")S_regnode_guts( pRExC_state,op,regarglen[op],"regpnode"); |
20531 | regnode_offset ptr = ret; |
20532 | |
20533 | PERL_ARGS_ASSERT_REGPNODE((pRExC_state) ? (void)0 : __assert2("re_comp.c", 20533, __func__ , "pRExC_state")); ((arg) ? (void)0 : __assert2("re_comp.c", 20533 , __func__, "arg")); |
20534 | |
20535 | FILL_ADVANCE_NODE_ARGp(ptr, op, arg)do { (((((struct regnode_p *)((pRExC_state->emit_start) + ( ptr)))->arg1)) = ((arg))); do { do { ((((pRExC_state->emit_start ) + (ptr)))->type) = op; ((((pRExC_state->emit_start) + (ptr)))->next_off) = 0; } while (0); (ptr)++; } while (0) ; (ptr) += regarglen[op]; } while (0); |
20536 | RExC_emit(pRExC_state->emit) = ptr; |
20537 | return(ret); |
20538 | } |
20539 | |
20540 | STATICstatic regnode_offset |
20541 | S_reg2Lanode(pTHX_ RExC_state_t *pRExC_state, const U8 op, const U32 arg1, const I32 arg2) |
20542 | { |
20543 | /* emit a node with U32 and I32 arguments */ |
20544 | |
20545 | const regnode_offset ret = regnode_guts(pRExC_state, op, regarglen[op], "reg2Lanode")S_regnode_guts( pRExC_state,op,regarglen[op],"reg2Lanode"); |
20546 | regnode_offset ptr = ret; |
20547 | |
20548 | PERL_ARGS_ASSERT_REG2LANODE((pRExC_state) ? (void)0 : __assert2("re_comp.c", 20548, __func__ , "pRExC_state")); |
20549 | |
20550 | assert(regarglen[op] == 2)((regarglen[op] == 2) ? (void)0 : __assert2("re_comp.c", 20550 , __func__, "regarglen[op] == 2")); |
20551 | |
20552 | FILL_ADVANCE_NODE_2L_ARG(ptr, op, arg1, arg2)do { (((((struct regnode_1 *)((pRExC_state->emit_start) + ( ptr)))->arg1)) = ((arg1))); (((((struct regnode_2L *)((pRExC_state ->emit_start) + (ptr)))->arg2)) = ((arg2))); do { do { ( (((pRExC_state->emit_start) + (ptr)))->type) = op; (((( pRExC_state->emit_start) + (ptr)))->next_off) = 0; } while (0); (ptr)++; } while (0); (ptr) += 2; } while (0); |
20553 | RExC_emit(pRExC_state->emit) = ptr; |
20554 | return(ret); |
20555 | } |
20556 | |
20557 | /* |
20558 | - reginsert - insert an operator in front of already-emitted operand |
20559 | * |
20560 | * That means that on exit 'operand' is the offset of the newly inserted |
20561 | * operator, and the original operand has been relocated. |
20562 | * |
20563 | * IMPORTANT NOTE - it is the *callers* responsibility to correctly |
20564 | * set up NEXT_OFF() of the inserted node if needed. Something like this: |
20565 | * |
20566 | * reginsert(pRExC, OPFAIL, orig_emit, depth+1); |
20567 | * NEXT_OFF(orig_emit) = regarglen[OPFAIL] + NODE_STEP_REGNODE; |
20568 | * |
20569 | * ALSO NOTE - FLAGS(newly-inserted-operator) will be set to 0 as well. |
20570 | */ |
20571 | STATICstatic void |
20572 | S_reginsert(pTHX_ RExC_state_t *pRExC_state, const U8 op, |
20573 | const regnode_offset operand, const U32 depth) |
20574 | { |
20575 | regnode *src; |
20576 | regnode *dst; |
20577 | regnode *place; |
20578 | const int offset = regarglen[(U8)op]; |
20579 | const int size = NODE_STEP_REGNODE1 + offset; |
20580 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 20580, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 20580, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
20581 | |
20582 | PERL_ARGS_ASSERT_REGINSERT((pRExC_state) ? (void)0 : __assert2("re_comp.c", 20582, __func__ , "pRExC_state")); |
20583 | PERL_UNUSED_CONTEXT; |
20584 | PERL_UNUSED_ARG(depth)((void)sizeof(depth)); |
20585 | /* (PL_regkind[(U8)op] == CURLY ? EXTRA_STEP_2ARGS : 0); */ |
20586 | DEBUG_PARSE_FMT("inst"," - %s", PL_reg_name[op])do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", (("inst")) ); (pRExC_state ->lastnum)=(pRExC_state->emit); (pRExC_state->lastparse )=(pRExC_state->parse); };} while (0); Perl_re_printf( " - %s" "\n",PL_reg_name[op]); };} while (0); |
20587 | assert(!RExC_study_started)((!(pRExC_state->study_started)) ? (void)0 : __assert2("re_comp.c" , 20587, __func__, "!RExC_study_started")); /* I believe we should never use reginsert once we have started |
20588 | studying. If this is wrong then we need to adjust RExC_recurse |
20589 | below like we do with RExC_open_parens/RExC_close_parens. */ |
20590 | change_engine_size(pRExC_state, (Ptrdiff_t) size)S_change_engine_size( pRExC_state,(ptrdiff_t) size); |
20591 | src = REGNODE_p(RExC_emit)((pRExC_state->emit_start) + ((pRExC_state->emit))); |
20592 | RExC_emit(pRExC_state->emit) += size; |
20593 | dst = REGNODE_p(RExC_emit)((pRExC_state->emit_start) + ((pRExC_state->emit))); |
20594 | |
20595 | /* If we are in a "count the parentheses" pass, the numbers are unreliable, |
20596 | * and [perl #133871] shows this can lead to problems, so skip this |
20597 | * realignment of parens until a later pass when they are reliable */ |
20598 | if (! IN_PARENS_PASS((pRExC_state->total_par) < 0) && RExC_open_parens(pRExC_state->open_parens)) { |
20599 | int paren; |
20600 | /*DEBUG_PARSE_FMT("inst"," - %" IVdf, (IV)RExC_npar);*/ |
20601 | /* remember that RExC_npar is rex->nparens + 1, |
20602 | * iow it is 1 more than the number of parens seen in |
20603 | * the pattern so far. */ |
20604 | for ( paren=0 ; paren < RExC_npar(pRExC_state->npar) ; paren++ ) { |
20605 | /* note, RExC_open_parens[0] is the start of the |
20606 | * regex, it can't move. RExC_close_parens[0] is the end |
20607 | * of the regex, it *can* move. */ |
20608 | if ( paren && RExC_open_parens(pRExC_state->open_parens)[paren] >= operand ) { |
20609 | /*DEBUG_PARSE_FMT("open"," - %d", size);*/ |
20610 | RExC_open_parens(pRExC_state->open_parens)[paren] += size; |
20611 | } else { |
20612 | /*DEBUG_PARSE_FMT("open"," - %s","ok");*/ |
20613 | } |
20614 | if ( RExC_close_parens(pRExC_state->close_parens)[paren] >= operand ) { |
20615 | /*DEBUG_PARSE_FMT("close"," - %d", size);*/ |
20616 | RExC_close_parens(pRExC_state->close_parens)[paren] += size; |
20617 | } else { |
20618 | /*DEBUG_PARSE_FMT("close"," - %s","ok");*/ |
20619 | } |
20620 | } |
20621 | } |
20622 | if (RExC_end_op(pRExC_state->end_op)) |
20623 | RExC_end_op(pRExC_state->end_op) += size; |
20624 | |
20625 | while (src > REGNODE_p(operand)((pRExC_state->emit_start) + (operand))) { |
20626 | StructCopy(--src, --dst, regnode)(*((regnode*)(--dst)) = *((regnode*)(--src))); |
20627 | #ifdef RE_TRACK_PATTERN_OFFSETS |
20628 | if (RExC_offsets((pRExC_state->rxi)->u.offsets)) { /* MJD 20010112 */ |
20629 | MJD_OFFSET_DEBUG(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s(%d): (op %s) %s copy %" "lu" " -> %" "lu" " (max %" "lu" ").\n", "reginsert", 20632, PL_reg_name[op], (UV)(((dst) - ( pRExC_state->emit_start))) > ((pRExC_state->rxi)-> u.offsets)[0] ? "Overwriting end of array!\n" : "OK", (UV)((src ) - (pRExC_state->emit_start)), (UV)((dst) - (pRExC_state-> emit_start)), (UV)((pRExC_state->rxi)->u.offsets)[0]);} while (0) |
20630 | ("%s(%d): (op %s) %s copy %" UVuf " -> %" UVuf " (max %" UVuf ").\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s(%d): (op %s) %s copy %" "lu" " -> %" "lu" " (max %" "lu" ").\n", "reginsert", 20632, PL_reg_name[op], (UV)(((dst) - ( pRExC_state->emit_start))) > ((pRExC_state->rxi)-> u.offsets)[0] ? "Overwriting end of array!\n" : "OK", (UV)((src ) - (pRExC_state->emit_start)), (UV)((dst) - (pRExC_state-> emit_start)), (UV)((pRExC_state->rxi)->u.offsets)[0]);} while (0) |
20631 | "reginsert",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s(%d): (op %s) %s copy %" "lu" " -> %" "lu" " (max %" "lu" ").\n", "reginsert", 20632, PL_reg_name[op], (UV)(((dst) - ( pRExC_state->emit_start))) > ((pRExC_state->rxi)-> u.offsets)[0] ? "Overwriting end of array!\n" : "OK", (UV)((src ) - (pRExC_state->emit_start)), (UV)((dst) - (pRExC_state-> emit_start)), (UV)((pRExC_state->rxi)->u.offsets)[0]);} while (0) |
20632 | __LINE__,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s(%d): (op %s) %s copy %" "lu" " -> %" "lu" " (max %" "lu" ").\n", "reginsert", 20632, PL_reg_name[op], (UV)(((dst) - ( pRExC_state->emit_start))) > ((pRExC_state->rxi)-> u.offsets)[0] ? "Overwriting end of array!\n" : "OK", (UV)((src ) - (pRExC_state->emit_start)), (UV)((dst) - (pRExC_state-> emit_start)), (UV)((pRExC_state->rxi)->u.offsets)[0]);} while (0) |
20633 | PL_reg_name[op],do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s(%d): (op %s) %s copy %" "lu" " -> %" "lu" " (max %" "lu" ").\n", "reginsert", 20632, PL_reg_name[op], (UV)(((dst) - ( pRExC_state->emit_start))) > ((pRExC_state->rxi)-> u.offsets)[0] ? "Overwriting end of array!\n" : "OK", (UV)((src ) - (pRExC_state->emit_start)), (UV)((dst) - (pRExC_state-> emit_start)), (UV)((pRExC_state->rxi)->u.offsets)[0]);} while (0) |
20634 | (UV)(REGNODE_OFFSET(dst)) > RExC_offsets[0]do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s(%d): (op %s) %s copy %" "lu" " -> %" "lu" " (max %" "lu" ").\n", "reginsert", 20632, PL_reg_name[op], (UV)(((dst) - ( pRExC_state->emit_start))) > ((pRExC_state->rxi)-> u.offsets)[0] ? "Overwriting end of array!\n" : "OK", (UV)((src ) - (pRExC_state->emit_start)), (UV)((dst) - (pRExC_state-> emit_start)), (UV)((pRExC_state->rxi)->u.offsets)[0]);} while (0) |
20635 | ? "Overwriting end of array!\n" : "OK",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s(%d): (op %s) %s copy %" "lu" " -> %" "lu" " (max %" "lu" ").\n", "reginsert", 20632, PL_reg_name[op], (UV)(((dst) - ( pRExC_state->emit_start))) > ((pRExC_state->rxi)-> u.offsets)[0] ? "Overwriting end of array!\n" : "OK", (UV)((src ) - (pRExC_state->emit_start)), (UV)((dst) - (pRExC_state-> emit_start)), (UV)((pRExC_state->rxi)->u.offsets)[0]);} while (0) |
20636 | (UV)REGNODE_OFFSET(src),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s(%d): (op %s) %s copy %" "lu" " -> %" "lu" " (max %" "lu" ").\n", "reginsert", 20632, PL_reg_name[op], (UV)(((dst) - ( pRExC_state->emit_start))) > ((pRExC_state->rxi)-> u.offsets)[0] ? "Overwriting end of array!\n" : "OK", (UV)((src ) - (pRExC_state->emit_start)), (UV)((dst) - (pRExC_state-> emit_start)), (UV)((pRExC_state->rxi)->u.offsets)[0]);} while (0) |
20637 | (UV)REGNODE_OFFSET(dst),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s(%d): (op %s) %s copy %" "lu" " -> %" "lu" " (max %" "lu" ").\n", "reginsert", 20632, PL_reg_name[op], (UV)(((dst) - ( pRExC_state->emit_start))) > ((pRExC_state->rxi)-> u.offsets)[0] ? "Overwriting end of array!\n" : "OK", (UV)((src ) - (pRExC_state->emit_start)), (UV)((dst) - (pRExC_state-> emit_start)), (UV)((pRExC_state->rxi)->u.offsets)[0]);} while (0) |
20638 | (UV)RExC_offsets[0]))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s(%d): (op %s) %s copy %" "lu" " -> %" "lu" " (max %" "lu" ").\n", "reginsert", 20632, PL_reg_name[op], (UV)(((dst) - ( pRExC_state->emit_start))) > ((pRExC_state->rxi)-> u.offsets)[0] ? "Overwriting end of array!\n" : "OK", (UV)((src ) - (pRExC_state->emit_start)), (UV)((dst) - (pRExC_state-> emit_start)), (UV)((pRExC_state->rxi)->u.offsets)[0]);} while (0); |
20639 | Set_Node_Offset_To_R(REGNODE_OFFSET(dst), Node_Offset(src))do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) offset of node %d is %d.\n", 20639, (int )(((dst) - (pRExC_state->emit_start))), (int)((((pRExC_state ->rxi)->u.offsets)[2*(((src) - (pRExC_state->emit_start )))-1])));} while (0); if((((dst) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((dst) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((dst) - (pRExC_state-> emit_start)))-1] = ((((pRExC_state->rxi)->u.offsets)[2* (((src) - (pRExC_state->emit_start)))-1])); } } while (0); |
20640 | Set_Node_Length_To_R(REGNODE_OFFSET(dst), Node_Length(src))do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 20640, (int )(((dst) - (pRExC_state->emit_start))), (int)((((pRExC_state ->rxi)->u.offsets)[2*(((src) - (pRExC_state->emit_start )))])));} while (0); if((((dst) - (pRExC_state->emit_start ))) < 0) { Perl_croak( "value of node is %d in Length macro" , (int)(((dst) - (pRExC_state->emit_start)))); } else { (( pRExC_state->rxi)->u.offsets)[2*(((dst) - (pRExC_state-> emit_start)))] = ((((pRExC_state->rxi)->u.offsets)[2*(( (src) - (pRExC_state->emit_start)))])); } } while (0); |
20641 | } |
20642 | #endif |
20643 | } |
20644 | |
20645 | place = REGNODE_p(operand)((pRExC_state->emit_start) + (operand)); /* Op node, where operand used to be. */ |
20646 | #ifdef RE_TRACK_PATTERN_OFFSETS |
20647 | if (RExC_offsets((pRExC_state->rxi)->u.offsets)) { /* MJD */ |
20648 | MJD_OFFSET_DEBUG(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s(%d): (op %s) %s %" "lu" " <- %" "lu" " (max %" "lu" ").\n" , "reginsert", 20651, PL_reg_name[op], (UV)((place) - (pRExC_state ->emit_start)) > ((pRExC_state->rxi)->u.offsets)[ 0] ? "Overwriting end of array!\n" : "OK", (UV)((place) - (pRExC_state ->emit_start)), (UV)((pRExC_state->parse) - (pRExC_state ->start)), (UV)((pRExC_state->rxi)->u.offsets)[0]);} while (0) |
20649 | ("%s(%d): (op %s) %s %" UVuf " <- %" UVuf " (max %" UVuf ").\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s(%d): (op %s) %s %" "lu" " <- %" "lu" " (max %" "lu" ").\n" , "reginsert", 20651, PL_reg_name[op], (UV)((place) - (pRExC_state ->emit_start)) > ((pRExC_state->rxi)->u.offsets)[ 0] ? "Overwriting end of array!\n" : "OK", (UV)((place) - (pRExC_state ->emit_start)), (UV)((pRExC_state->parse) - (pRExC_state ->start)), (UV)((pRExC_state->rxi)->u.offsets)[0]);} while (0) |
20650 | "reginsert",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s(%d): (op %s) %s %" "lu" " <- %" "lu" " (max %" "lu" ").\n" , "reginsert", 20651, PL_reg_name[op], (UV)((place) - (pRExC_state ->emit_start)) > ((pRExC_state->rxi)->u.offsets)[ 0] ? "Overwriting end of array!\n" : "OK", (UV)((place) - (pRExC_state ->emit_start)), (UV)((pRExC_state->parse) - (pRExC_state ->start)), (UV)((pRExC_state->rxi)->u.offsets)[0]);} while (0) |
20651 | __LINE__,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s(%d): (op %s) %s %" "lu" " <- %" "lu" " (max %" "lu" ").\n" , "reginsert", 20651, PL_reg_name[op], (UV)((place) - (pRExC_state ->emit_start)) > ((pRExC_state->rxi)->u.offsets)[ 0] ? "Overwriting end of array!\n" : "OK", (UV)((place) - (pRExC_state ->emit_start)), (UV)((pRExC_state->parse) - (pRExC_state ->start)), (UV)((pRExC_state->rxi)->u.offsets)[0]);} while (0) |
20652 | PL_reg_name[op],do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s(%d): (op %s) %s %" "lu" " <- %" "lu" " (max %" "lu" ").\n" , "reginsert", 20651, PL_reg_name[op], (UV)((place) - (pRExC_state ->emit_start)) > ((pRExC_state->rxi)->u.offsets)[ 0] ? "Overwriting end of array!\n" : "OK", (UV)((place) - (pRExC_state ->emit_start)), (UV)((pRExC_state->parse) - (pRExC_state ->start)), (UV)((pRExC_state->rxi)->u.offsets)[0]);} while (0) |
20653 | (UV)REGNODE_OFFSET(place) > RExC_offsets[0]do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s(%d): (op %s) %s %" "lu" " <- %" "lu" " (max %" "lu" ").\n" , "reginsert", 20651, PL_reg_name[op], (UV)((place) - (pRExC_state ->emit_start)) > ((pRExC_state->rxi)->u.offsets)[ 0] ? "Overwriting end of array!\n" : "OK", (UV)((place) - (pRExC_state ->emit_start)), (UV)((pRExC_state->parse) - (pRExC_state ->start)), (UV)((pRExC_state->rxi)->u.offsets)[0]);} while (0) |
20654 | ? "Overwriting end of array!\n" : "OK",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s(%d): (op %s) %s %" "lu" " <- %" "lu" " (max %" "lu" ").\n" , "reginsert", 20651, PL_reg_name[op], (UV)((place) - (pRExC_state ->emit_start)) > ((pRExC_state->rxi)->u.offsets)[ 0] ? "Overwriting end of array!\n" : "OK", (UV)((place) - (pRExC_state ->emit_start)), (UV)((pRExC_state->parse) - (pRExC_state ->start)), (UV)((pRExC_state->rxi)->u.offsets)[0]);} while (0) |
20655 | (UV)REGNODE_OFFSET(place),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s(%d): (op %s) %s %" "lu" " <- %" "lu" " (max %" "lu" ").\n" , "reginsert", 20651, PL_reg_name[op], (UV)((place) - (pRExC_state ->emit_start)) > ((pRExC_state->rxi)->u.offsets)[ 0] ? "Overwriting end of array!\n" : "OK", (UV)((place) - (pRExC_state ->emit_start)), (UV)((pRExC_state->parse) - (pRExC_state ->start)), (UV)((pRExC_state->rxi)->u.offsets)[0]);} while (0) |
20656 | (UV)(RExC_parse - RExC_start),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s(%d): (op %s) %s %" "lu" " <- %" "lu" " (max %" "lu" ").\n" , "reginsert", 20651, PL_reg_name[op], (UV)((place) - (pRExC_state ->emit_start)) > ((pRExC_state->rxi)->u.offsets)[ 0] ? "Overwriting end of array!\n" : "OK", (UV)((place) - (pRExC_state ->emit_start)), (UV)((pRExC_state->parse) - (pRExC_state ->start)), (UV)((pRExC_state->rxi)->u.offsets)[0]);} while (0) |
20657 | (UV)RExC_offsets[0]))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000))) Perl_warn ("%s(%d): (op %s) %s %" "lu" " <- %" "lu" " (max %" "lu" ").\n" , "reginsert", 20651, PL_reg_name[op], (UV)((place) - (pRExC_state ->emit_start)) > ((pRExC_state->rxi)->u.offsets)[ 0] ? "Overwriting end of array!\n" : "OK", (UV)((place) - (pRExC_state ->emit_start)), (UV)((pRExC_state->parse) - (pRExC_state ->start)), (UV)((pRExC_state->rxi)->u.offsets)[0]);} while (0); |
20658 | Set_Node_Offset(place, RExC_parse)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) offset of node %d is %d.\n", 20658, (int )(((place) - (pRExC_state->emit_start))), (int)(((pRExC_state ->parse))-(pRExC_state->start)));} while (0); if((((place ) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Offset macro" , (int)(((place) - (pRExC_state->emit_start)))); } else { ( (pRExC_state->rxi)->u.offsets)[2*(((place) - (pRExC_state ->emit_start)))-1] = (((pRExC_state->parse))-(pRExC_state ->start)); } } while (0); |
20659 | Set_Node_Length(place, 1)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0040000) )) Perl_warn ("** (%d) size of node %d is %d.\n", 20659, (int )(((place) - (pRExC_state->emit_start))), (int)(1));} while (0); if((((place) - (pRExC_state->emit_start))) < 0) { Perl_croak( "value of node is %d in Length macro", (int)(((place ) - (pRExC_state->emit_start)))); } else { ((pRExC_state-> rxi)->u.offsets)[2*(((place) - (pRExC_state->emit_start )))] = (1); } } while (0); |
20660 | } |
20661 | #endif |
20662 | src = NEXTOPER(place)((place) + 1); |
20663 | FLAGS(place)((place)->flags) = 0; |
20664 | FILL_NODE(operand, op)do { ((((pRExC_state->emit_start) + (operand)))->type) = op; ((((pRExC_state->emit_start) + (operand)))->next_off ) = 0; } while (0); |
20665 | |
20666 | /* Zero out any arguments in the new node */ |
20667 | Zero(src, offset, regnode)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(offset ) || sizeof(regnode) > ((size_t)1 << 8*(sizeof(size_t ) - sizeof(offset)))) ? (size_t)(offset) : ((size_t)-1)/sizeof (regnode)) > ((size_t)-1)/sizeof(regnode))) ? (_Bool)1 : ( _Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), ((((void *)(src)) != 0) ? (void)0 : __assert2("re_comp.c", 20667, __func__ , "((void*)(src)) != 0")), (void)memset((char*)(src),0,(offset ) * sizeof(regnode))); |
20668 | } |
20669 | |
20670 | /* |
20671 | - regtail - set the next-pointer at the end of a node chain of p to val. If |
20672 | that value won't fit in the space available, instead returns FALSE. |
20673 | (Except asserts if we can't fit in the largest space the regex |
20674 | engine is designed for.) |
20675 | - SEE ALSO: regtail_study |
20676 | */ |
20677 | STATICstatic bool_Bool |
20678 | S_regtail(pTHX_ RExC_state_t * pRExC_state, |
20679 | const regnode_offset p, |
20680 | const regnode_offset val, |
20681 | const U32 depth) |
20682 | { |
20683 | regnode_offset scan; |
20684 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 20684, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 20684, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
20685 | |
20686 | PERL_ARGS_ASSERT_REGTAIL((pRExC_state) ? (void)0 : __assert2("re_comp.c", 20686, __func__ , "pRExC_state")); ((p) ? (void)0 : __assert2("re_comp.c", 20686 , __func__, "p")); ((val) ? (void)0 : __assert2("re_comp.c", 20686 , __func__, "val")); |
20687 | #ifndef DEBUGGING |
20688 | PERL_UNUSED_ARG(depth)((void)sizeof(depth)); |
20689 | #endif |
20690 | |
20691 | /* Find last node. */ |
20692 | scan = (regnode_offset) p; |
20693 | for (;;) { |
20694 | regnode * const temp = regnext(REGNODE_p(scan))Perl_regnext( ((pRExC_state->emit_start) + (scan))); |
20695 | DEBUG_PARSE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((scan==p ? "tail" : "")) ) ; (pRExC_state->lastnum)=(pRExC_state->emit); (pRExC_state ->lastparse)=(pRExC_state->parse); };} while (0); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),((pRExC_state-> emit_start) + (scan)),((void*)0),pRExC_state); Perl_re_printf ( "~ %s (%zu) %s %s\n", (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), scan, (temp == ((void*)0) ? "->" : ""), (temp == ((void*)0) ? PL_reg_name[((((pRExC_state ->emit_start) + (val)))->type)] : "") ); };} while (0) |
20696 | DEBUG_PARSE_MSG((scan==p ? "tail" : ""));do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((scan==p ? "tail" : "")) ) ; (pRExC_state->lastnum)=(pRExC_state->emit); (pRExC_state ->lastparse)=(pRExC_state->parse); };} while (0); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),((pRExC_state-> emit_start) + (scan)),((void*)0),pRExC_state); Perl_re_printf ( "~ %s (%zu) %s %s\n", (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), scan, (temp == ((void*)0) ? "->" : ""), (temp == ((void*)0) ? PL_reg_name[((((pRExC_state ->emit_start) + (val)))->type)] : "") ); };} while (0) |
20697 | regprop(RExC_rx, RExC_mysv, REGNODE_p(scan), NULL, pRExC_state);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((scan==p ? "tail" : "")) ) ; (pRExC_state->lastnum)=(pRExC_state->emit); (pRExC_state ->lastparse)=(pRExC_state->parse); };} while (0); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),((pRExC_state-> emit_start) + (scan)),((void*)0),pRExC_state); Perl_re_printf ( "~ %s (%zu) %s %s\n", (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), scan, (temp == ((void*)0) ? "->" : ""), (temp == ((void*)0) ? PL_reg_name[((((pRExC_state ->emit_start) + (val)))->type)] : "") ); };} while (0) |
20698 | Perl_re_printf( aTHX_ "~ %s (%zu) %s %s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((scan==p ? "tail" : "")) ) ; (pRExC_state->lastnum)=(pRExC_state->emit); (pRExC_state ->lastparse)=(pRExC_state->parse); };} while (0); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),((pRExC_state-> emit_start) + (scan)),((void*)0),pRExC_state); Perl_re_printf ( "~ %s (%zu) %s %s\n", (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), scan, (temp == ((void*)0) ? "->" : ""), (temp == ((void*)0) ? PL_reg_name[((((pRExC_state ->emit_start) + (val)))->type)] : "") ); };} while (0) |
20699 | SvPV_nolen_const(RExC_mysv), scan,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((scan==p ? "tail" : "")) ) ; (pRExC_state->lastnum)=(pRExC_state->emit); (pRExC_state ->lastparse)=(pRExC_state->parse); };} while (0); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),((pRExC_state-> emit_start) + (scan)),((void*)0),pRExC_state); Perl_re_printf ( "~ %s (%zu) %s %s\n", (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), scan, (temp == ((void*)0) ? "->" : ""), (temp == ((void*)0) ? PL_reg_name[((((pRExC_state ->emit_start) + (val)))->type)] : "") ); };} while (0) |
20700 | (temp == NULL ? "->" : ""),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((scan==p ? "tail" : "")) ) ; (pRExC_state->lastnum)=(pRExC_state->emit); (pRExC_state ->lastparse)=(pRExC_state->parse); };} while (0); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),((pRExC_state-> emit_start) + (scan)),((void*)0),pRExC_state); Perl_re_printf ( "~ %s (%zu) %s %s\n", (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), scan, (temp == ((void*)0) ? "->" : ""), (temp == ((void*)0) ? PL_reg_name[((((pRExC_state ->emit_start) + (val)))->type)] : "") ); };} while (0) |
20701 | (temp == NULL ? PL_reg_name[OP(REGNODE_p(val))] : "")do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((scan==p ? "tail" : "")) ) ; (pRExC_state->lastnum)=(pRExC_state->emit); (pRExC_state ->lastparse)=(pRExC_state->parse); };} while (0); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),((pRExC_state-> emit_start) + (scan)),((void*)0),pRExC_state); Perl_re_printf ( "~ %s (%zu) %s %s\n", (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), scan, (temp == ((void*)0) ? "->" : ""), (temp == ((void*)0) ? PL_reg_name[((((pRExC_state ->emit_start) + (val)))->type)] : "") ); };} while (0) |
20702 | );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((scan==p ? "tail" : "")) ) ; (pRExC_state->lastnum)=(pRExC_state->emit); (pRExC_state ->lastparse)=(pRExC_state->parse); };} while (0); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),((pRExC_state-> emit_start) + (scan)),((void*)0),pRExC_state); Perl_re_printf ( "~ %s (%zu) %s %s\n", (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), scan, (temp == ((void*)0) ? "->" : ""), (temp == ((void*)0) ? PL_reg_name[((((pRExC_state ->emit_start) + (val)))->type)] : "") ); };} while (0) |
20703 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((scan==p ? "tail" : "")) ) ; (pRExC_state->lastnum)=(pRExC_state->emit); (pRExC_state ->lastparse)=(pRExC_state->parse); };} while (0); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),((pRExC_state-> emit_start) + (scan)),((void*)0),pRExC_state); Perl_re_printf ( "~ %s (%zu) %s %s\n", (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), scan, (temp == ((void*)0) ? "->" : ""), (temp == ((void*)0) ? PL_reg_name[((((pRExC_state ->emit_start) + (val)))->type)] : "") ); };} while (0); |
20704 | if (temp == NULL((void*)0)) |
20705 | break; |
20706 | scan = REGNODE_OFFSET(temp)((temp) - (pRExC_state->emit_start)); |
20707 | } |
20708 | |
20709 | assert(val >= scan)((val >= scan) ? (void)0 : __assert2("re_comp.c", 20709, __func__ , "val >= scan")); |
20710 | if (reg_off_by_arg[OP(REGNODE_p(scan))((((pRExC_state->emit_start) + (scan)))->type)]) { |
20711 | assert((UV) (val - scan) <= U32_MAX)(((UV) (val - scan) <= 0xffffffffU) ? (void)0 : __assert2( "re_comp.c", 20711, __func__, "(UV) (val - scan) <= U32_MAX" )); |
20712 | ARG_SET(REGNODE_p(scan), val - scan)(((((struct regnode_1 *)((pRExC_state->emit_start) + (scan )))->arg1)) = ((val - scan))); |
20713 | } |
20714 | else { |
20715 | if (val - scan > U16_MAX0xffff) { |
20716 | /* Populate this with something that won't loop and will likely |
20717 | * lead to a crash if the caller ignores the failure return, and |
20718 | * execution continues */ |
20719 | NEXT_OFF(REGNODE_p(scan))((((pRExC_state->emit_start) + (scan)))->next_off) = U16_MAX0xffff; |
20720 | return FALSE(0); |
20721 | } |
20722 | NEXT_OFF(REGNODE_p(scan))((((pRExC_state->emit_start) + (scan)))->next_off) = val - scan; |
20723 | } |
20724 | |
20725 | return TRUE(1); |
20726 | } |
20727 | |
20728 | #ifdef DEBUGGING |
20729 | /* |
20730 | - regtail_study - set the next-pointer at the end of a node chain of p to val. |
20731 | - Look for optimizable sequences at the same time. |
20732 | - currently only looks for EXACT chains. |
20733 | |
20734 | This is experimental code. The idea is to use this routine to perform |
20735 | in place optimizations on branches and groups as they are constructed, |
20736 | with the long term intention of removing optimization from study_chunk so |
20737 | that it is purely analytical. |
20738 | |
20739 | Currently only used when in DEBUG mode. The macro REGTAIL_STUDY() is used |
20740 | to control which is which. |
20741 | |
20742 | This used to return a value that was ignored. It was a problem that it is |
20743 | #ifdef'd to be another function that didn't return a value. khw has changed it |
20744 | so both currently return a pass/fail return. |
20745 | |
20746 | */ |
20747 | /* TODO: All four parms should be const */ |
20748 | |
20749 | STATICstatic bool_Bool |
20750 | S_regtail_study(pTHX_ RExC_state_t *pRExC_state, regnode_offset p, |
20751 | const regnode_offset val, U32 depth) |
20752 | { |
20753 | regnode_offset scan; |
20754 | U8 exact = PSEUDO108; |
20755 | #ifdef EXPERIMENTAL_INPLACESCAN |
20756 | I32 min = 0; |
20757 | #endif |
20758 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 20758, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 20758, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
20759 | |
20760 | PERL_ARGS_ASSERT_REGTAIL_STUDY((pRExC_state) ? (void)0 : __assert2("re_comp.c", 20760, __func__ , "pRExC_state")); ((p) ? (void)0 : __assert2("re_comp.c", 20760 , __func__, "p")); ((val) ? (void)0 : __assert2("re_comp.c", 20760 , __func__, "val")); |
20761 | |
20762 | |
20763 | /* Find last node. */ |
20764 | |
20765 | scan = p; |
20766 | for (;;) { |
20767 | regnode * const temp = regnext(REGNODE_p(scan))Perl_regnext( ((pRExC_state->emit_start) + (scan))); |
20768 | #ifdef EXPERIMENTAL_INPLACESCAN |
20769 | if (PL_regkind[OP(REGNODE_p(scan))((((pRExC_state->emit_start) + (scan)))->type)] == EXACT40) { |
20770 | bool_Bool unfolded_multi_char; /* Unexamined in this routine */ |
20771 | if (join_exact(pRExC_state, scan, &min,S_join_exact( pRExC_state,scan,&min,&unfolded_multi_char ,1,((pRExC_state->emit_start) + (val)),depth+1) |
20772 | &unfolded_multi_char, 1, REGNODE_p(val), depth+1)S_join_exact( pRExC_state,scan,&min,&unfolded_multi_char ,1,((pRExC_state->emit_start) + (val)),depth+1)) |
20773 | return TRUE(1); /* Was return EXACT */ |
20774 | } |
20775 | #endif |
20776 | if ( exact ) { |
20777 | switch (OP(REGNODE_p(scan))((((pRExC_state->emit_start) + (scan)))->type)) { |
20778 | case LEXACT41: |
20779 | case EXACT40: |
20780 | case LEXACT_REQ851: |
20781 | case EXACT_REQ850: |
20782 | case EXACTL42: |
20783 | case EXACTF43: |
20784 | case EXACTFU_S_EDGE53: |
20785 | case EXACTFAA_NO_TRIE49: |
20786 | case EXACTFAA46: |
20787 | case EXACTFU45: |
20788 | case EXACTFU_REQ852: |
20789 | case EXACTFLU848: |
20790 | case EXACTFUP47: |
20791 | case EXACTFL44: |
20792 | if( exact == PSEUDO108 ) |
20793 | exact= OP(REGNODE_p(scan))((((pRExC_state->emit_start) + (scan)))->type); |
20794 | else if ( exact != OP(REGNODE_p(scan))((((pRExC_state->emit_start) + (scan)))->type) ) |
20795 | exact= 0; |
20796 | case NOTHING54: |
20797 | break; |
20798 | default: |
20799 | exact= 0; |
20800 | } |
20801 | } |
20802 | DEBUG_PARSE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((scan==p ? "tsdy" : "")) ) ; (pRExC_state->lastnum)=(pRExC_state->emit); (pRExC_state ->lastparse)=(pRExC_state->parse); };} while (0); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),((pRExC_state-> emit_start) + (scan)),((void*)0),pRExC_state); Perl_re_printf ( "~ %s (%zu) -> %s\n", (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), scan, PL_reg_name[exact]) ; };} while (0) |
20803 | DEBUG_PARSE_MSG((scan==p ? "tsdy" : ""));do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((scan==p ? "tsdy" : "")) ) ; (pRExC_state->lastnum)=(pRExC_state->emit); (pRExC_state ->lastparse)=(pRExC_state->parse); };} while (0); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),((pRExC_state-> emit_start) + (scan)),((void*)0),pRExC_state); Perl_re_printf ( "~ %s (%zu) -> %s\n", (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), scan, PL_reg_name[exact]) ; };} while (0) |
20804 | regprop(RExC_rx, RExC_mysv, REGNODE_p(scan), NULL, pRExC_state);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((scan==p ? "tsdy" : "")) ) ; (pRExC_state->lastnum)=(pRExC_state->emit); (pRExC_state ->lastparse)=(pRExC_state->parse); };} while (0); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),((pRExC_state-> emit_start) + (scan)),((void*)0),pRExC_state); Perl_re_printf ( "~ %s (%zu) -> %s\n", (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), scan, PL_reg_name[exact]) ; };} while (0) |
20805 | Perl_re_printf( aTHX_ "~ %s (%zu) -> %s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((scan==p ? "tsdy" : "")) ) ; (pRExC_state->lastnum)=(pRExC_state->emit); (pRExC_state ->lastparse)=(pRExC_state->parse); };} while (0); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),((pRExC_state-> emit_start) + (scan)),((void*)0),pRExC_state); Perl_re_printf ( "~ %s (%zu) -> %s\n", (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), scan, PL_reg_name[exact]) ; };} while (0) |
20806 | SvPV_nolen_const(RExC_mysv),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((scan==p ? "tsdy" : "")) ) ; (pRExC_state->lastnum)=(pRExC_state->emit); (pRExC_state ->lastparse)=(pRExC_state->parse); };} while (0); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),((pRExC_state-> emit_start) + (scan)),((void*)0),pRExC_state); Perl_re_printf ( "~ %s (%zu) -> %s\n", (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), scan, PL_reg_name[exact]) ; };} while (0) |
20807 | scan,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((scan==p ? "tsdy" : "")) ) ; (pRExC_state->lastnum)=(pRExC_state->emit); (pRExC_state ->lastparse)=(pRExC_state->parse); };} while (0); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),((pRExC_state-> emit_start) + (scan)),((void*)0),pRExC_state); Perl_re_printf ( "~ %s (%zu) -> %s\n", (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), scan, PL_reg_name[exact]) ; };} while (0) |
20808 | PL_reg_name[exact]);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((scan==p ? "tsdy" : "")) ) ; (pRExC_state->lastnum)=(pRExC_state->emit); (pRExC_state ->lastparse)=(pRExC_state->parse); };} while (0); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),((pRExC_state-> emit_start) + (scan)),((void*)0),pRExC_state); Perl_re_printf ( "~ %s (%zu) -> %s\n", (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), scan, PL_reg_name[exact]) ; };} while (0) |
20809 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ((scan==p ? "tsdy" : "")) ) ; (pRExC_state->lastnum)=(pRExC_state->emit); (pRExC_state ->lastparse)=(pRExC_state->parse); };} while (0); my_regprop ( (pRExC_state->rx),(pRExC_state->mysv1),((pRExC_state-> emit_start) + (scan)),((void*)0),pRExC_state); Perl_re_printf ( "~ %s (%zu) -> %s\n", (((((pRExC_state->mysv1))->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char *)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv)) : Perl_sv_2pv_flags ( (pRExC_state->mysv1),0,2|32)), scan, PL_reg_name[exact]) ; };} while (0); |
20810 | if (temp == NULL((void*)0)) |
20811 | break; |
20812 | scan = REGNODE_OFFSET(temp)((temp) - (pRExC_state->emit_start)); |
20813 | } |
20814 | DEBUG_PARSE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("") ); (pRExC_state->lastnum )=(pRExC_state->emit); (pRExC_state->lastparse)=(pRExC_state ->parse); };} while (0); my_regprop( (pRExC_state->rx), (pRExC_state->mysv1),((pRExC_state->emit_start) + (val) ),((void*)0),pRExC_state); Perl_re_printf( "~ attach to %s (%" "ld" ") offset to %" "ld" "\n", (((((pRExC_state->mysv1)) ->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), (IV )val, (IV)(val - scan) ); };} while (0) |
20815 | DEBUG_PARSE_MSG("");do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("") ); (pRExC_state->lastnum )=(pRExC_state->emit); (pRExC_state->lastparse)=(pRExC_state ->parse); };} while (0); my_regprop( (pRExC_state->rx), (pRExC_state->mysv1),((pRExC_state->emit_start) + (val) ),((void*)0),pRExC_state); Perl_re_printf( "~ attach to %s (%" "ld" ") offset to %" "ld" "\n", (((((pRExC_state->mysv1)) ->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), (IV )val, (IV)(val - scan) ); };} while (0) |
20816 | regprop(RExC_rx, RExC_mysv, REGNODE_p(val), NULL, pRExC_state);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("") ); (pRExC_state->lastnum )=(pRExC_state->emit); (pRExC_state->lastparse)=(pRExC_state ->parse); };} while (0); my_regprop( (pRExC_state->rx), (pRExC_state->mysv1),((pRExC_state->emit_start) + (val) ),((void*)0),pRExC_state); Perl_re_printf( "~ attach to %s (%" "ld" ") offset to %" "ld" "\n", (((((pRExC_state->mysv1)) ->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), (IV )val, (IV)(val - scan) ); };} while (0) |
20817 | Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("") ); (pRExC_state->lastnum )=(pRExC_state->emit); (pRExC_state->lastparse)=(pRExC_state ->parse); };} while (0); my_regprop( (pRExC_state->rx), (pRExC_state->mysv1),((pRExC_state->emit_start) + (val) ),((void*)0),pRExC_state); Perl_re_printf( "~ attach to %s (%" "ld" ") offset to %" "ld" "\n", (((((pRExC_state->mysv1)) ->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), (IV )val, (IV)(val - scan) ); };} while (0) |
20818 | "~ attach to %s (%" IVdf ") offset to %" IVdf "\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("") ); (pRExC_state->lastnum )=(pRExC_state->emit); (pRExC_state->lastparse)=(pRExC_state ->parse); };} while (0); my_regprop( (pRExC_state->rx), (pRExC_state->mysv1),((pRExC_state->emit_start) + (val) ),((void*)0),pRExC_state); Perl_re_printf( "~ attach to %s (%" "ld" ") offset to %" "ld" "\n", (((((pRExC_state->mysv1)) ->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), (IV )val, (IV)(val - scan) ); };} while (0) |
20819 | SvPV_nolen_const(RExC_mysv),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("") ); (pRExC_state->lastnum )=(pRExC_state->emit); (pRExC_state->lastparse)=(pRExC_state ->parse); };} while (0); my_regprop( (pRExC_state->rx), (pRExC_state->mysv1),((pRExC_state->emit_start) + (val) ),((void*)0),pRExC_state); Perl_re_printf( "~ attach to %s (%" "ld" ") offset to %" "ld" "\n", (((((pRExC_state->mysv1)) ->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), (IV )val, (IV)(val - scan) ); };} while (0) |
20820 | (IV)val,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("") ); (pRExC_state->lastnum )=(pRExC_state->emit); (pRExC_state->lastparse)=(pRExC_state ->parse); };} while (0); my_regprop( (pRExC_state->rx), (pRExC_state->mysv1),((pRExC_state->emit_start) + (val) ),((void*)0),pRExC_state); Perl_re_printf( "~ attach to %s (%" "ld" ") offset to %" "ld" "\n", (((((pRExC_state->mysv1)) ->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), (IV )val, (IV)(val - scan) ); };} while (0) |
20821 | (IV)(val - scan)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("") ); (pRExC_state->lastnum )=(pRExC_state->emit); (pRExC_state->lastparse)=(pRExC_state ->parse); };} while (0); my_regprop( (pRExC_state->rx), (pRExC_state->mysv1),((pRExC_state->emit_start) + (val) ),((void*)0),pRExC_state); Perl_re_printf( "~ attach to %s (%" "ld" ") offset to %" "ld" "\n", (((((pRExC_state->mysv1)) ->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), (IV )val, (IV)(val - scan) ); };} while (0) |
20822 | );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("") ); (pRExC_state->lastnum )=(pRExC_state->emit); (pRExC_state->lastparse)=(pRExC_state ->parse); };} while (0); my_regprop( (pRExC_state->rx), (pRExC_state->mysv1),((pRExC_state->emit_start) + (val) ),((void*)0),pRExC_state); Perl_re_printf( "~ attach to %s (%" "ld" ") offset to %" "ld" "\n", (((((pRExC_state->mysv1)) ->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), (IV )val, (IV)(val - scan) ); };} while (0) |
20823 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x000001))) { if ((pRExC_state->lastparse)!=(pRExC_state->parse)) { Perl_re_printf ( "%s", Perl_pv_pretty( (pRExC_state->mysv1), (pRExC_state ->parse), (pRExC_state->end) - (pRExC_state->parse), 16, "", "", 0x000200 | 0x000002 | 0x000004 | 0x008000 | 0x000008 ) ); } else Perl_re_printf( "%16s",""); if ((pRExC_state-> lastnum)!=(pRExC_state->emit)) Perl_re_printf( "|%4zu", (pRExC_state ->emit)); else Perl_re_printf( "|%4s",""); Perl_re_printf( "|%*s%-4s", (int)((depth*2)), "", ("") ); (pRExC_state->lastnum )=(pRExC_state->emit); (pRExC_state->lastparse)=(pRExC_state ->parse); };} while (0); my_regprop( (pRExC_state->rx), (pRExC_state->mysv1),((pRExC_state->emit_start) + (val) ),((void*)0),pRExC_state); Perl_re_printf( "~ attach to %s (%" "ld" ") offset to %" "ld" "\n", (((((pRExC_state->mysv1)) ->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((const char*)(0 + ((pRExC_state->mysv1))->sv_u.svu_pv )) : Perl_sv_2pv_flags( (pRExC_state->mysv1),0,2|32)), (IV )val, (IV)(val - scan) ); };} while (0); |
20824 | if (reg_off_by_arg[OP(REGNODE_p(scan))((((pRExC_state->emit_start) + (scan)))->type)]) { |
20825 | assert((UV) (val - scan) <= U32_MAX)(((UV) (val - scan) <= 0xffffffffU) ? (void)0 : __assert2( "re_comp.c", 20825, __func__, "(UV) (val - scan) <= U32_MAX" )); |
20826 | ARG_SET(REGNODE_p(scan), val - scan)(((((struct regnode_1 *)((pRExC_state->emit_start) + (scan )))->arg1)) = ((val - scan))); |
20827 | } |
20828 | else { |
20829 | if (val - scan > U16_MAX0xffff) { |
20830 | /* Populate this with something that won't loop and will likely |
20831 | * lead to a crash if the caller ignores the failure return, and |
20832 | * execution continues */ |
20833 | NEXT_OFF(REGNODE_p(scan))((((pRExC_state->emit_start) + (scan)))->next_off) = U16_MAX0xffff; |
20834 | return FALSE(0); |
20835 | } |
20836 | NEXT_OFF(REGNODE_p(scan))((((pRExC_state->emit_start) + (scan)))->next_off) = val - scan; |
20837 | } |
20838 | |
20839 | return TRUE(1); /* Was 'return exact' */ |
20840 | } |
20841 | #endif |
20842 | |
20843 | STATICstatic SV* |
20844 | S_get_ANYOFM_contents(pTHX_ const regnode * n) { |
20845 | |
20846 | /* Returns an inversion list of all the code points matched by the |
20847 | * ANYOFM/NANYOFM node 'n' */ |
20848 | |
20849 | SV * cp_list = _new_invlist(-1)Perl__new_invlist( -1); |
20850 | const U8 lowest = (U8) ARG(n)((((struct regnode_1 *)n)->arg1)); |
20851 | unsigned int i; |
20852 | U8 count = 0; |
20853 | U8 needed = 1U << PL_bitcount[ (U8) ~ FLAGS(n)((n)->flags)]; |
20854 | |
20855 | PERL_ARGS_ASSERT_GET_ANYOFM_CONTENTS((n) ? (void)0 : __assert2("re_comp.c", 20855, __func__, "n") ); |
20856 | |
20857 | /* Starting with the lowest code point, any code point that ANDed with the |
20858 | * mask yields the lowest code point is in the set */ |
20859 | for (i = lowest; i <= 0xFF; i++) { |
20860 | if ((i & FLAGS(n)((n)->flags)) == ARG(n)((((struct regnode_1 *)n)->arg1))) { |
20861 | cp_list = add_cp_to_invlist(cp_list, i)S_add_cp_to_invlist( cp_list,i); |
20862 | count++; |
20863 | |
20864 | /* We know how many code points (a power of two) that are in the |
20865 | * set. No use looking once we've got that number */ |
20866 | if (count >= needed) break; |
20867 | } |
20868 | } |
20869 | |
20870 | if (OP(n)((n)->type) == NANYOFM29) { |
20871 | _invlist_invert(cp_list)Perl__invlist_invert( cp_list); |
20872 | } |
20873 | return cp_list; |
20874 | } |
20875 | |
20876 | /* |
20877 | - regdump - dump a regexp onto Perl_debug_log in vaguely comprehensible form |
20878 | */ |
20879 | #ifdef DEBUGGING |
20880 | |
20881 | static void |
20882 | S_regdump_intflags(pTHX_ const char *lead, const U32 flags) |
20883 | { |
20884 | int bit; |
20885 | int set=0; |
20886 | |
20887 | ASSUME(REG_INTFLAGS_NAME_SIZE <= sizeof(flags)*8)((13 <= sizeof(flags)*8) ? (void)0 : __assert2("re_comp.c" , 20887, __func__, "13 <= sizeof(flags)*8")); |
20888 | |
20889 | for (bit=0; bit<REG_INTFLAGS_NAME_SIZE13; bit++) { |
20890 | if (flags & (1<<bit)) { |
20891 | if (!set++ && lead) |
20892 | Perl_re_printf( aTHX_ "%s", lead); |
20893 | Perl_re_printf( aTHX_ "%s ", PL_reg_intflags_name[bit]); |
20894 | } |
20895 | } |
20896 | if (lead) { |
20897 | if (set) |
20898 | Perl_re_printf( aTHX_ "\n"); |
20899 | else |
20900 | Perl_re_printf( aTHX_ "%s[none-set]\n", lead); |
20901 | } |
20902 | } |
20903 | |
20904 | static void |
20905 | S_regdump_extflags(pTHX_ const char *lead, const U32 flags) |
20906 | { |
20907 | int bit; |
20908 | int set=0; |
20909 | regex_charset cs; |
20910 | |
20911 | ASSUME(REG_EXTFLAGS_NAME_SIZE <= sizeof(flags)*8)((32 <= sizeof(flags)*8) ? (void)0 : __assert2("re_comp.c" , 20911, __func__, "32 <= sizeof(flags)*8")); |
20912 | |
20913 | for (bit=0; bit<REG_EXTFLAGS_NAME_SIZE32; bit++) { |
20914 | if (flags & (1<<bit)) { |
20915 | if ((1<<bit) & RXf_PMf_CHARSET(7U << (((0)+7)))) { /* Output separately, below */ |
20916 | continue; |
20917 | } |
20918 | if (!set++ && lead) |
20919 | Perl_re_printf( aTHX_ "%s", lead); |
20920 | Perl_re_printf( aTHX_ "%s ", PL_reg_extflags_name[bit]); |
20921 | } |
20922 | } |
20923 | if ((cs = get_regex_charset(flags)) != REGEX_DEPENDS_CHARSET) { |
20924 | if (!set++ && lead) { |
20925 | Perl_re_printf( aTHX_ "%s", lead); |
20926 | } |
20927 | switch (cs) { |
20928 | case REGEX_UNICODE_CHARSET: |
20929 | Perl_re_printf( aTHX_ "UNICODE"); |
20930 | break; |
20931 | case REGEX_LOCALE_CHARSET: |
20932 | Perl_re_printf( aTHX_ "LOCALE"); |
20933 | break; |
20934 | case REGEX_ASCII_RESTRICTED_CHARSET: |
20935 | Perl_re_printf( aTHX_ "ASCII-RESTRICTED"); |
20936 | break; |
20937 | case REGEX_ASCII_MORE_RESTRICTED_CHARSET: |
20938 | Perl_re_printf( aTHX_ "ASCII-MORE_RESTRICTED"); |
20939 | break; |
20940 | default: |
20941 | Perl_re_printf( aTHX_ "UNKNOWN CHARACTER SET"); |
20942 | break; |
20943 | } |
20944 | } |
20945 | if (lead) { |
20946 | if (set) |
20947 | Perl_re_printf( aTHX_ "\n"); |
20948 | else |
20949 | Perl_re_printf( aTHX_ "%s[none-set]\n", lead); |
20950 | } |
20951 | } |
20952 | #endif |
20953 | |
20954 | void |
20955 | Perl_regdumpmy_regdump(pTHX_ const regexp *r) |
20956 | { |
20957 | #ifdef DEBUGGING |
20958 | int i; |
20959 | SV * const sv = sv_newmortal()Perl_sv_newmortal(); |
20960 | SV *dsv= sv_newmortal()Perl_sv_newmortal(); |
20961 | RXi_GET_DECL(r, ri)regexp_internal *ri = ((regexp_internal *)((r)->pprivate)); |
20962 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 20962, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 20962, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
20963 | |
20964 | PERL_ARGS_ASSERT_REGDUMP((r) ? (void)0 : __assert2("re_comp.c", 20964, __func__, "r") ); |
20965 | |
20966 | (void)dumpuntil(r, ri->program, ri->program + 1, NULL, NULL, sv, 0, 0)S_dumpuntil( r,ri->program,ri->program + 1,((void*)0),( (void*)0),sv,0,0); |
20967 | |
20968 | /* Header fields of interest. */ |
20969 | for (i = 0; i < 2; i++) { |
20970 | if (r->substrs->data[i].substr) { |
20971 | RE_PV_QUOTED_DECL(s, 0, dsv,const char * const s = Perl_pv_pretty( (dsv),(((const char*)( 0 + (r->substrs->data[i].substr)->sv_u.svu_pv))),((( *({ const SV *const _svcur = (const SV *)(r->substrs->data [i].substr); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 20973, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 20973, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 20973, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - (({ const SV *const _svtail = (const SV *)(r->substrs->data[i].substr); ((((svtype)((_svtail)-> sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_comp.c" , 20973, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype )((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_comp.c", 20973, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_comp.c", 20973, __func__, "!(SvFLAGS(_svtail) & (SVf_NOK|SVp_NOK))" )); ((( ((_svtail)->sv_flags & 0x00004000) && ( (_svtail)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_svtail); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_comp.c", 20973, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_svtail); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_comp.c" , 20973, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); & (((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))-> xmg_u.xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_svtail , 'B')) )) ? (void)0 : __assert2("re_comp.c", 20973, __func__ , "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((0) ? 0x000100 : 0))) |
20972 | SvPVX_const(r->substrs->data[i].substr),const char * const s = Perl_pv_pretty( (dsv),(((const char*)( 0 + (r->substrs->data[i].substr)->sv_u.svu_pv))),((( *({ const SV *const _svcur = (const SV *)(r->substrs->data [i].substr); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 20973, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 20973, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 20973, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - (({ const SV *const _svtail = (const SV *)(r->substrs->data[i].substr); ((((svtype)((_svtail)-> sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_comp.c" , 20973, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype )((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_comp.c", 20973, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_comp.c", 20973, __func__, "!(SvFLAGS(_svtail) & (SVf_NOK|SVp_NOK))" )); ((( ((_svtail)->sv_flags & 0x00004000) && ( (_svtail)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_svtail); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_comp.c", 20973, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_svtail); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_comp.c" , 20973, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); & (((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))-> xmg_u.xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_svtail , 'B')) )) ? (void)0 : __assert2("re_comp.c", 20973, __func__ , "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((0) ? 0x000100 : 0))) |
20973 | RE_SV_DUMPLEN(r->substrs->data[i].substr),const char * const s = Perl_pv_pretty( (dsv),(((const char*)( 0 + (r->substrs->data[i].substr)->sv_u.svu_pv))),((( *({ const SV *const _svcur = (const SV *)(r->substrs->data [i].substr); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 20973, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 20973, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 20973, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - (({ const SV *const _svtail = (const SV *)(r->substrs->data[i].substr); ((((svtype)((_svtail)-> sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_comp.c" , 20973, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype )((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_comp.c", 20973, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_comp.c", 20973, __func__, "!(SvFLAGS(_svtail) & (SVf_NOK|SVp_NOK))" )); ((( ((_svtail)->sv_flags & 0x00004000) && ( (_svtail)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_svtail); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_comp.c", 20973, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_svtail); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_comp.c" , 20973, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); & (((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))-> xmg_u.xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_svtail , 'B')) )) ? (void)0 : __assert2("re_comp.c", 20973, __func__ , "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((0) ? 0x000100 : 0))) |
20974 | PL_dump_re_max_len)const char * const s = Perl_pv_pretty( (dsv),(((const char*)( 0 + (r->substrs->data[i].substr)->sv_u.svu_pv))),((( *({ const SV *const _svcur = (const SV *)(r->substrs->data [i].substr); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 20973, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 20973, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 20973, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - (({ const SV *const _svtail = (const SV *)(r->substrs->data[i].substr); ((((svtype)((_svtail)-> sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_comp.c" , 20973, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype )((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_comp.c", 20973, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_comp.c", 20973, __func__, "!(SvFLAGS(_svtail) & (SVf_NOK|SVp_NOK))" )); ((( ((_svtail)->sv_flags & 0x00004000) && ( (_svtail)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_svtail); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_comp.c", 20973, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_svtail); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_comp.c" , 20973, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); & (((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))-> xmg_u.xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_svtail , 'B')) )) ? (void)0 : __assert2("re_comp.c", 20973, __func__ , "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((0) ? 0x000100 : 0))); |
20975 | Perl_re_printf( aTHX_ |
20976 | "%s %s%s at %" IVdf"ld" "..%" UVuf"lu" " ", |
20977 | i ? "floating" : "anchored", |
20978 | s, |
20979 | RE_SV_TAIL(r->substrs->data[i].substr)(({ const SV *const _svtail = (const SV *)(r->substrs-> data[i].substr); ((((svtype)((_svtail)->sv_flags & 0xff )) != SVt_PVAV) ? (void)0 : __assert2("re_comp.c", 20979, __func__ , "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)-> sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_comp.c" , 20979, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_comp.c", 20979, __func__, "!(SvFLAGS(_svtail) & (SVf_NOK|SVp_NOK))" )); ((( ((_svtail)->sv_flags & 0x00004000) && ( (_svtail)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_svtail); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_comp.c", 20979, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_svtail); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_comp.c" , 20979, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); & (((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))-> xmg_u.xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_svtail , 'B')) )) ? (void)0 : __assert2("re_comp.c", 20979, __func__ , "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : ""), |
20980 | (IV)r->substrs->data[i].min_offset, |
20981 | (UV)r->substrs->data[i].max_offset); |
20982 | } |
20983 | else if (r->substrs->data[i].utf8_substr) { |
20984 | RE_PV_QUOTED_DECL(s, 1, dsv,const char * const s = Perl_pv_pretty( (dsv),(((const char*)( 0 + (r->substrs->data[i].utf8_substr)->sv_u.svu_pv)) ),(((*({ const SV *const _svcur = (const SV *)(r->substrs-> data[i].utf8_substr); ((PL_valid_types_PVX[((svtype)((_svcur) ->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 20986, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 20986, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 20986, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - (({ const SV *const _svtail = (const SV *)(r->substrs->data[i].utf8_substr); ((((svtype)((_svtail )->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2 ("re_comp.c", 20986, __func__, "SvTYPE(_svtail) != SVt_PVAV") ); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV ) ? (void)0 : __assert2("re_comp.c", 20986, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_comp.c", 20986, __func__, "!(SvFLAGS(_svtail) & (SVf_NOK|SVp_NOK))" )); ((( ((_svtail)->sv_flags & 0x00004000) && ( (_svtail)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_svtail); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_comp.c", 20986, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_svtail); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_comp.c" , 20986, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); & (((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))-> xmg_u.xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_svtail , 'B')) )) ? (void)0 : __assert2("re_comp.c", 20986, __func__ , "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((1) ? 0x000100 : 0))) |
20985 | SvPVX_const(r->substrs->data[i].utf8_substr),const char * const s = Perl_pv_pretty( (dsv),(((const char*)( 0 + (r->substrs->data[i].utf8_substr)->sv_u.svu_pv)) ),(((*({ const SV *const _svcur = (const SV *)(r->substrs-> data[i].utf8_substr); ((PL_valid_types_PVX[((svtype)((_svcur) ->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 20986, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 20986, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 20986, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - (({ const SV *const _svtail = (const SV *)(r->substrs->data[i].utf8_substr); ((((svtype)((_svtail )->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2 ("re_comp.c", 20986, __func__, "SvTYPE(_svtail) != SVt_PVAV") ); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV ) ? (void)0 : __assert2("re_comp.c", 20986, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_comp.c", 20986, __func__, "!(SvFLAGS(_svtail) & (SVf_NOK|SVp_NOK))" )); ((( ((_svtail)->sv_flags & 0x00004000) && ( (_svtail)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_svtail); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_comp.c", 20986, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_svtail); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_comp.c" , 20986, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); & (((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))-> xmg_u.xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_svtail , 'B')) )) ? (void)0 : __assert2("re_comp.c", 20986, __func__ , "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((1) ? 0x000100 : 0))) |
20986 | RE_SV_DUMPLEN(r->substrs->data[i].utf8_substr),const char * const s = Perl_pv_pretty( (dsv),(((const char*)( 0 + (r->substrs->data[i].utf8_substr)->sv_u.svu_pv)) ),(((*({ const SV *const _svcur = (const SV *)(r->substrs-> data[i].utf8_substr); ((PL_valid_types_PVX[((svtype)((_svcur) ->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 20986, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 20986, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 20986, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - (({ const SV *const _svtail = (const SV *)(r->substrs->data[i].utf8_substr); ((((svtype)((_svtail )->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2 ("re_comp.c", 20986, __func__, "SvTYPE(_svtail) != SVt_PVAV") ); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV ) ? (void)0 : __assert2("re_comp.c", 20986, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_comp.c", 20986, __func__, "!(SvFLAGS(_svtail) & (SVf_NOK|SVp_NOK))" )); ((( ((_svtail)->sv_flags & 0x00004000) && ( (_svtail)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_svtail); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_comp.c", 20986, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_svtail); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_comp.c" , 20986, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); & (((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))-> xmg_u.xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_svtail , 'B')) )) ? (void)0 : __assert2("re_comp.c", 20986, __func__ , "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((1) ? 0x000100 : 0))) |
20987 | 30)const char * const s = Perl_pv_pretty( (dsv),(((const char*)( 0 + (r->substrs->data[i].utf8_substr)->sv_u.svu_pv)) ),(((*({ const SV *const _svcur = (const SV *)(r->substrs-> data[i].utf8_substr); ((PL_valid_types_PVX[((svtype)((_svcur) ->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 20986, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 20986, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 20986, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - (({ const SV *const _svtail = (const SV *)(r->substrs->data[i].utf8_substr); ((((svtype)((_svtail )->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2 ("re_comp.c", 20986, __func__, "SvTYPE(_svtail) != SVt_PVAV") ); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV ) ? (void)0 : __assert2("re_comp.c", 20986, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_comp.c", 20986, __func__, "!(SvFLAGS(_svtail) & (SVf_NOK|SVp_NOK))" )); ((( ((_svtail)->sv_flags & 0x00004000) && ( (_svtail)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_svtail); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_comp.c", 20986, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_svtail); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_comp.c" , 20986, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); & (((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))-> xmg_u.xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_svtail , 'B')) )) ? (void)0 : __assert2("re_comp.c", 20986, __func__ , "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((1) ? 0x000100 : 0))); |
20988 | Perl_re_printf( aTHX_ |
20989 | "%s utf8 %s%s at %" IVdf"ld" "..%" UVuf"lu" " ", |
20990 | i ? "floating" : "anchored", |
20991 | s, |
20992 | RE_SV_TAIL(r->substrs->data[i].utf8_substr)(({ const SV *const _svtail = (const SV *)(r->substrs-> data[i].utf8_substr); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_comp.c", 20992 , __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail )->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2 ("re_comp.c", 20992, __func__, "SvTYPE(_svtail) != SVt_PVHV") ); ((!((_svtail)->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2("re_comp.c", 20992, __func__, "!(SvFLAGS(_svtail) & (SVf_NOK|SVp_NOK))" )); ((( ((_svtail)->sv_flags & 0x00004000) && ( (_svtail)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_svtail); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_comp.c", 20992, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_svtail); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_comp.c" , 20992, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); & (((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))-> xmg_u.xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_svtail , 'B')) )) ? (void)0 : __assert2("re_comp.c", 20992, __func__ , "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : ""), |
20993 | (IV)r->substrs->data[i].min_offset, |
20994 | (UV)r->substrs->data[i].max_offset); |
20995 | } |
20996 | } |
20997 | |
20998 | if (r->check_substrsubstrs->data[2].substr || r->check_utf8substrs->data[2].utf8_substr) |
20999 | Perl_re_printf( aTHX_ |
21000 | (const char *) |
21001 | ( r->check_substrsubstrs->data[2].substr == r->substrs->data[1].substr |
21002 | && r->check_utf8substrs->data[2].utf8_substr == r->substrs->data[1].utf8_substr |
21003 | ? "(checking floating" : "(checking anchored")); |
21004 | if (r->intflags & PREGf_NOSCAN0x00000040) |
21005 | Perl_re_printf( aTHX_ " noscan"); |
21006 | if (r->extflags & RXf_CHECK_ALL(1U<<(((0 +12) + 2)+5))) |
21007 | Perl_re_printf( aTHX_ " isall"); |
21008 | if (r->check_substrsubstrs->data[2].substr || r->check_utf8substrs->data[2].utf8_substr) |
21009 | Perl_re_printf( aTHX_ ") "); |
21010 | |
21011 | if (ri->regstclass) { |
21012 | regprop(r, sv, ri->regstclass, NULL, NULL)my_regprop( r,sv,ri->regstclass,((void*)0),((void*)0)); |
21013 | Perl_re_printf( aTHX_ "stclass %s ", SvPVX_const(sv)((const char*)(0 + (sv)->sv_u.svu_pv))); |
21014 | } |
21015 | if (r->intflags & PREGf_ANCH( 0x00000800 | 0x00001000 | 0x00000400 )) { |
21016 | Perl_re_printf( aTHX_ "anchored"); |
21017 | if (r->intflags & PREGf_ANCH_MBOL0x00000400) |
21018 | Perl_re_printf( aTHX_ "(MBOL)"); |
21019 | if (r->intflags & PREGf_ANCH_SBOL0x00000800) |
21020 | Perl_re_printf( aTHX_ "(SBOL)"); |
21021 | if (r->intflags & PREGf_ANCH_GPOS0x00001000) |
21022 | Perl_re_printf( aTHX_ "(GPOS)"); |
21023 | Perl_re_printf( aTHX_ " "); |
21024 | } |
21025 | if (r->intflags & PREGf_GPOS_SEEN0x00000100) |
21026 | Perl_re_printf( aTHX_ "GPOS:%" UVuf"lu" " ", (UV)r->gofs); |
21027 | if (r->intflags & PREGf_SKIP0x00000001) |
21028 | Perl_re_printf( aTHX_ "plus "); |
21029 | if (r->intflags & PREGf_IMPLICIT0x00000002) |
21030 | Perl_re_printf( aTHX_ "implicit "); |
21031 | Perl_re_printf( aTHX_ "minlen %" IVdf"ld" " ", (IV)r->minlen); |
21032 | if (r->extflags & RXf_EVAL_SEEN(1U<<(((0 +12) + 2)+3))) |
21033 | Perl_re_printf( aTHX_ "with eval "); |
21034 | Perl_re_printf( aTHX_ "\n"); |
21035 | DEBUG_FLAGS_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000010))) { S_regdump_extflags ( "r->extflags: ",r->extflags); S_regdump_intflags( "r->intflags: " ,r->intflags); };} while (0) |
21036 | regdump_extflags("r->extflags: ", r->extflags);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000010))) { S_regdump_extflags ( "r->extflags: ",r->extflags); S_regdump_intflags( "r->intflags: " ,r->intflags); };} while (0) |
21037 | regdump_intflags("r->intflags: ", r->intflags);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000010))) { S_regdump_extflags ( "r->extflags: ",r->extflags); S_regdump_intflags( "r->intflags: " ,r->intflags); };} while (0) |
21038 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000010))) { S_regdump_extflags ( "r->extflags: ",r->extflags); S_regdump_intflags( "r->intflags: " ,r->intflags); };} while (0); |
21039 | #else |
21040 | PERL_ARGS_ASSERT_REGDUMP((r) ? (void)0 : __assert2("re_comp.c", 21040, __func__, "r") ); |
21041 | PERL_UNUSED_CONTEXT; |
21042 | PERL_UNUSED_ARG(r)((void)sizeof(r)); |
21043 | #endif /* DEBUGGING */ |
21044 | } |
21045 | |
21046 | /* Should be synchronized with ANYOF_ #defines in regcomp.h */ |
21047 | #ifdef DEBUGGING |
21048 | |
21049 | # if _CC_WORDCHAR0 != 0 || _CC_DIGIT1 != 1 || _CC_ALPHA2 != 2 \ |
21050 | || _CC_LOWER3 != 3 || _CC_UPPER4 != 4 || _CC_PUNCT5 != 5 \ |
21051 | || _CC_PRINT6 != 6 || _CC_ALPHANUMERIC7 != 7 || _CC_GRAPH8 != 8 \ |
21052 | || _CC_CASED9 != 9 || _CC_SPACE10 != 10 || _CC_BLANK11 != 11 \ |
21053 | || _CC_XDIGIT12 != 12 || _CC_CNTRL13 != 13 || _CC_ASCII14 != 14 \ |
21054 | || _CC_VERTSPACE15 != 15 |
21055 | # error Need to adjust order of anyofs[] |
21056 | # endif |
21057 | static const char * const anyofs[] = { |
21058 | "\\w", |
21059 | "\\W", |
21060 | "\\d", |
21061 | "\\D", |
21062 | "[:alpha:]", |
21063 | "[:^alpha:]", |
21064 | "[:lower:]", |
21065 | "[:^lower:]", |
21066 | "[:upper:]", |
21067 | "[:^upper:]", |
21068 | "[:punct:]", |
21069 | "[:^punct:]", |
21070 | "[:print:]", |
21071 | "[:^print:]", |
21072 | "[:alnum:]", |
21073 | "[:^alnum:]", |
21074 | "[:graph:]", |
21075 | "[:^graph:]", |
21076 | "[:cased:]", |
21077 | "[:^cased:]", |
21078 | "\\s", |
21079 | "\\S", |
21080 | "[:blank:]", |
21081 | "[:^blank:]", |
21082 | "[:xdigit:]", |
21083 | "[:^xdigit:]", |
21084 | "[:cntrl:]", |
21085 | "[:^cntrl:]", |
21086 | "[:ascii:]", |
21087 | "[:^ascii:]", |
21088 | "\\v", |
21089 | "\\V" |
21090 | }; |
21091 | #endif |
21092 | |
21093 | /* |
21094 | - regprop - printable representation of opcode, with run time support |
21095 | */ |
21096 | |
21097 | void |
21098 | Perl_regpropmy_regprop(pTHX_ const regexp *prog, SV *sv, const regnode *o, const regmatch_info *reginfo, const RExC_state_t *pRExC_state) |
21099 | { |
21100 | #ifdef DEBUGGING |
21101 | dVARstruct Perl___notused_struct; |
21102 | int k; |
21103 | RXi_GET_DECL(prog, progi)regexp_internal *progi = ((regexp_internal *)((prog)->pprivate )); |
21104 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21104, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 21104, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
21105 | |
21106 | PERL_ARGS_ASSERT_REGPROP((sv) ? (void)0 : __assert2("re_comp.c", 21106, __func__, "sv" )); ((o) ? (void)0 : __assert2("re_comp.c", 21106, __func__, "o" )); |
21107 | |
21108 | SvPVCLEAR(sv)Perl_sv_setpv_bufsize( sv,0,0); |
21109 | |
21110 | if (OP(o)((o)->type) > REGNODE_MAX109) { /* regnode.type is unsigned */ |
21111 | if (pRExC_state) { /* This gives more info, if we have it */ |
21112 | FAIL3("panic: corrupted regexp opcode %d > %d",do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "panic: corrupted regexp opcode %d > %d" " in regex m/%" "d%" "lu" "%4p" "%s/", (int)((o)->type), (int)109, (int)( ((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp)), ellipses ); } while (0) |
21113 | (int)OP(o), (int)REGNODE_MAX)do { const char *ellipses = ""; IV len = (pRExC_state->precomp_end ) - (pRExC_state->precomp); do { if ((pRExC_state->rx_sv )) Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((pRExC_state ->rx_sv)); _p; }))),11); if ((pRExC_state->open_parens) ) Perl_save_pushptr( (void *)((char*)((pRExC_state->open_parens ))),10); if ((pRExC_state->close_parens)) Perl_save_pushptr ( (void *)((char*)((pRExC_state->close_parens))),10); } while (0); if (len > 127) { len = 127 - 10; ellipses = "..."; } Perl_croak( "panic: corrupted regexp opcode %d > %d" " in regex m/%" "d%" "lu" "%4p" "%s/", (int)((o)->type), (int)109, (int)( ((((pRExC_state->utf8)) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0), (UV)(len), (void*)((pRExC_state->precomp)), ellipses ); } while (0); |
21114 | } |
21115 | else { |
21116 | Perl_croak(aTHX_ "panic: corrupted regexp opcode %d > %d", |
21117 | (int)OP(o)((o)->type), (int)REGNODE_MAX109); |
21118 | } |
21119 | } |
21120 | sv_catpv(sv, PL_reg_name[OP(o)])Perl_sv_catpv( sv,PL_reg_name[((o)->type)]); /* Take off const! */ |
21121 | |
21122 | k = PL_regkind[OP(o)((o)->type)]; |
21123 | |
21124 | if (k == EXACT40) { |
21125 | sv_catpvs(sv, " ")Perl_sv_catpvn_flags( sv, ("" " " ""), (sizeof(" ")-1), 2); |
21126 | /* Using is_utf8_string() (via PERL_PV_UNI_DETECT) |
21127 | * is a crude hack but it may be the best for now since |
21128 | * we have no flag "this EXACTish node was UTF-8" |
21129 | * --jhi */ |
21130 | pv_pretty(sv, STRING(o), STR_LEN(o), PL_dump_re_max_len,Perl_pv_pretty( sv,((((o)->type) == 41 || ((o)->type) == 51) ? (((((o)->type) == 41 || ((o)->type) == 51) ? (void )0 : __assert2("re_comp.c", 21130, __func__, "((o)->type) == 41 || ((o)->type) == 51" )), (((struct regnode_lstring *)o)->string)) : (((((o)-> type) != 41 && ((o)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 21130, __func__, "((o)->type) != 41 && ((o)->type) != 51" )), ((struct regnode_string *)o)->string)),((((o)->type ) == 41 || ((o)->type) == 51) ? (((((o)->type) == 41 || ((o)->type) == 51) ? (void)0 : __assert2("re_comp.c", 21130 , __func__, "((o)->type) == 41 || ((o)->type) == 51")), (((struct regnode_lstring *)o)->str_len)) : (((((o)->type ) != 41 && ((o)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 21130, __func__, "((o)->type) != 41 && ((o)->type) != 51" )), ((struct regnode_string *)o)->str_len)),PL_dump_re_max_len ,PL_colors[0],PL_colors[1],0x000200 | 0x000400 | 0x000002 | 0x000004 | 0x004000) |
21131 | PL_colors[0], PL_colors[1],Perl_pv_pretty( sv,((((o)->type) == 41 || ((o)->type) == 51) ? (((((o)->type) == 41 || ((o)->type) == 51) ? (void )0 : __assert2("re_comp.c", 21130, __func__, "((o)->type) == 41 || ((o)->type) == 51" )), (((struct regnode_lstring *)o)->string)) : (((((o)-> type) != 41 && ((o)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 21130, __func__, "((o)->type) != 41 && ((o)->type) != 51" )), ((struct regnode_string *)o)->string)),((((o)->type ) == 41 || ((o)->type) == 51) ? (((((o)->type) == 41 || ((o)->type) == 51) ? (void)0 : __assert2("re_comp.c", 21130 , __func__, "((o)->type) == 41 || ((o)->type) == 51")), (((struct regnode_lstring *)o)->str_len)) : (((((o)->type ) != 41 && ((o)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 21130, __func__, "((o)->type) != 41 && ((o)->type) != 51" )), ((struct regnode_string *)o)->str_len)),PL_dump_re_max_len ,PL_colors[0],PL_colors[1],0x000200 | 0x000400 | 0x000002 | 0x000004 | 0x004000) |
21132 | PERL_PV_ESCAPE_UNI_DETECT |Perl_pv_pretty( sv,((((o)->type) == 41 || ((o)->type) == 51) ? (((((o)->type) == 41 || ((o)->type) == 51) ? (void )0 : __assert2("re_comp.c", 21130, __func__, "((o)->type) == 41 || ((o)->type) == 51" )), (((struct regnode_lstring *)o)->string)) : (((((o)-> type) != 41 && ((o)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 21130, __func__, "((o)->type) != 41 && ((o)->type) != 51" )), ((struct regnode_string *)o)->string)),((((o)->type ) == 41 || ((o)->type) == 51) ? (((((o)->type) == 41 || ((o)->type) == 51) ? (void)0 : __assert2("re_comp.c", 21130 , __func__, "((o)->type) == 41 || ((o)->type) == 51")), (((struct regnode_lstring *)o)->str_len)) : (((((o)->type ) != 41 && ((o)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 21130, __func__, "((o)->type) != 41 && ((o)->type) != 51" )), ((struct regnode_string *)o)->str_len)),PL_dump_re_max_len ,PL_colors[0],PL_colors[1],0x000200 | 0x000400 | 0x000002 | 0x000004 | 0x004000) |
21133 | PERL_PV_ESCAPE_NONASCII |Perl_pv_pretty( sv,((((o)->type) == 41 || ((o)->type) == 51) ? (((((o)->type) == 41 || ((o)->type) == 51) ? (void )0 : __assert2("re_comp.c", 21130, __func__, "((o)->type) == 41 || ((o)->type) == 51" )), (((struct regnode_lstring *)o)->string)) : (((((o)-> type) != 41 && ((o)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 21130, __func__, "((o)->type) != 41 && ((o)->type) != 51" )), ((struct regnode_string *)o)->string)),((((o)->type ) == 41 || ((o)->type) == 51) ? (((((o)->type) == 41 || ((o)->type) == 51) ? (void)0 : __assert2("re_comp.c", 21130 , __func__, "((o)->type) == 41 || ((o)->type) == 51")), (((struct regnode_lstring *)o)->str_len)) : (((((o)->type ) != 41 && ((o)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 21130, __func__, "((o)->type) != 41 && ((o)->type) != 51" )), ((struct regnode_string *)o)->str_len)),PL_dump_re_max_len ,PL_colors[0],PL_colors[1],0x000200 | 0x000400 | 0x000002 | 0x000004 | 0x004000) |
21134 | PERL_PV_PRETTY_ELLIPSES |Perl_pv_pretty( sv,((((o)->type) == 41 || ((o)->type) == 51) ? (((((o)->type) == 41 || ((o)->type) == 51) ? (void )0 : __assert2("re_comp.c", 21130, __func__, "((o)->type) == 41 || ((o)->type) == 51" )), (((struct regnode_lstring *)o)->string)) : (((((o)-> type) != 41 && ((o)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 21130, __func__, "((o)->type) != 41 && ((o)->type) != 51" )), ((struct regnode_string *)o)->string)),((((o)->type ) == 41 || ((o)->type) == 51) ? (((((o)->type) == 41 || ((o)->type) == 51) ? (void)0 : __assert2("re_comp.c", 21130 , __func__, "((o)->type) == 41 || ((o)->type) == 51")), (((struct regnode_lstring *)o)->str_len)) : (((((o)->type ) != 41 && ((o)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 21130, __func__, "((o)->type) != 41 && ((o)->type) != 51" )), ((struct regnode_string *)o)->str_len)),PL_dump_re_max_len ,PL_colors[0],PL_colors[1],0x000200 | 0x000400 | 0x000002 | 0x000004 | 0x004000) |
21135 | PERL_PV_PRETTY_LTGT |Perl_pv_pretty( sv,((((o)->type) == 41 || ((o)->type) == 51) ? (((((o)->type) == 41 || ((o)->type) == 51) ? (void )0 : __assert2("re_comp.c", 21130, __func__, "((o)->type) == 41 || ((o)->type) == 51" )), (((struct regnode_lstring *)o)->string)) : (((((o)-> type) != 41 && ((o)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 21130, __func__, "((o)->type) != 41 && ((o)->type) != 51" )), ((struct regnode_string *)o)->string)),((((o)->type ) == 41 || ((o)->type) == 51) ? (((((o)->type) == 41 || ((o)->type) == 51) ? (void)0 : __assert2("re_comp.c", 21130 , __func__, "((o)->type) == 41 || ((o)->type) == 51")), (((struct regnode_lstring *)o)->str_len)) : (((((o)->type ) != 41 && ((o)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 21130, __func__, "((o)->type) != 41 && ((o)->type) != 51" )), ((struct regnode_string *)o)->str_len)),PL_dump_re_max_len ,PL_colors[0],PL_colors[1],0x000200 | 0x000400 | 0x000002 | 0x000004 | 0x004000) |
21136 | PERL_PV_PRETTY_NOCLEARPerl_pv_pretty( sv,((((o)->type) == 41 || ((o)->type) == 51) ? (((((o)->type) == 41 || ((o)->type) == 51) ? (void )0 : __assert2("re_comp.c", 21130, __func__, "((o)->type) == 41 || ((o)->type) == 51" )), (((struct regnode_lstring *)o)->string)) : (((((o)-> type) != 41 && ((o)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 21130, __func__, "((o)->type) != 41 && ((o)->type) != 51" )), ((struct regnode_string *)o)->string)),((((o)->type ) == 41 || ((o)->type) == 51) ? (((((o)->type) == 41 || ((o)->type) == 51) ? (void)0 : __assert2("re_comp.c", 21130 , __func__, "((o)->type) == 41 || ((o)->type) == 51")), (((struct regnode_lstring *)o)->str_len)) : (((((o)->type ) != 41 && ((o)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 21130, __func__, "((o)->type) != 41 && ((o)->type) != 51" )), ((struct regnode_string *)o)->str_len)),PL_dump_re_max_len ,PL_colors[0],PL_colors[1],0x000200 | 0x000400 | 0x000002 | 0x000004 | 0x004000) |
21137 | )Perl_pv_pretty( sv,((((o)->type) == 41 || ((o)->type) == 51) ? (((((o)->type) == 41 || ((o)->type) == 51) ? (void )0 : __assert2("re_comp.c", 21130, __func__, "((o)->type) == 41 || ((o)->type) == 51" )), (((struct regnode_lstring *)o)->string)) : (((((o)-> type) != 41 && ((o)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 21130, __func__, "((o)->type) != 41 && ((o)->type) != 51" )), ((struct regnode_string *)o)->string)),((((o)->type ) == 41 || ((o)->type) == 51) ? (((((o)->type) == 41 || ((o)->type) == 51) ? (void)0 : __assert2("re_comp.c", 21130 , __func__, "((o)->type) == 41 || ((o)->type) == 51")), (((struct regnode_lstring *)o)->str_len)) : (((((o)->type ) != 41 && ((o)->type) != 51) ? (void)0 : __assert2 ("re_comp.c", 21130, __func__, "((o)->type) != 41 && ((o)->type) != 51" )), ((struct regnode_string *)o)->str_len)),PL_dump_re_max_len ,PL_colors[0],PL_colors[1],0x000200 | 0x000400 | 0x000002 | 0x000004 | 0x004000); |
21138 | } else if (k == TRIE88) { |
21139 | /* print the details of the trie in dumpuntil instead, as |
21140 | * progi->data isn't available here */ |
21141 | const char op = OP(o)((o)->type); |
21142 | const U32 n = ARG(o)((((struct regnode_1 *)o)->arg1)); |
21143 | const reg_ac_data * const ac = IS_TRIE_AC(op)((op)>=90) ? |
21144 | (reg_ac_data *)progi->data->data[n] : |
21145 | NULL((void*)0); |
21146 | const reg_trie_data * const trie |
21147 | = (reg_trie_data*)progi->data->data[!IS_TRIE_AC(op)((op)>=90) ? n : ac->trie]; |
21148 | |
21149 | Perl_sv_catpvf(aTHX_ sv, "-%s", PL_reg_name[o->flags]); |
21150 | DEBUG_TRIE_COMPILE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { if (trie->jump) Perl_sv_catpvn_flags( sv, ("" "(JUMP)" ""), ( sizeof("(JUMP)")-1), 2); Perl_sv_catpvf( sv, "<S:%" "lu" "/%" "ld" " W:%" "lu" " L:%" "lu" "/%" "lu" " C:%" "lu" "/%" "lu" ">", (UV)trie->startstate, (IV)trie->statecount-1, ( UV)trie->wordcount, (UV)trie->minlen, (UV)trie->maxlen , (UV)((trie)->charcount), (UV)trie->uniquecharcount ); };} while (0) |
21151 | if (trie->jump)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { if (trie->jump) Perl_sv_catpvn_flags( sv, ("" "(JUMP)" ""), ( sizeof("(JUMP)")-1), 2); Perl_sv_catpvf( sv, "<S:%" "lu" "/%" "ld" " W:%" "lu" " L:%" "lu" "/%" "lu" " C:%" "lu" "/%" "lu" ">", (UV)trie->startstate, (IV)trie->statecount-1, ( UV)trie->wordcount, (UV)trie->minlen, (UV)trie->maxlen , (UV)((trie)->charcount), (UV)trie->uniquecharcount ); };} while (0) |
21152 | sv_catpvs(sv, "(JUMP)");do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { if (trie->jump) Perl_sv_catpvn_flags( sv, ("" "(JUMP)" ""), ( sizeof("(JUMP)")-1), 2); Perl_sv_catpvf( sv, "<S:%" "lu" "/%" "ld" " W:%" "lu" " L:%" "lu" "/%" "lu" " C:%" "lu" "/%" "lu" ">", (UV)trie->startstate, (IV)trie->statecount-1, ( UV)trie->wordcount, (UV)trie->minlen, (UV)trie->maxlen , (UV)((trie)->charcount), (UV)trie->uniquecharcount ); };} while (0) |
21153 | Perl_sv_catpvf(aTHX_ sv,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { if (trie->jump) Perl_sv_catpvn_flags( sv, ("" "(JUMP)" ""), ( sizeof("(JUMP)")-1), 2); Perl_sv_catpvf( sv, "<S:%" "lu" "/%" "ld" " W:%" "lu" " L:%" "lu" "/%" "lu" " C:%" "lu" "/%" "lu" ">", (UV)trie->startstate, (IV)trie->statecount-1, ( UV)trie->wordcount, (UV)trie->minlen, (UV)trie->maxlen , (UV)((trie)->charcount), (UV)trie->uniquecharcount ); };} while (0) |
21154 | "<S:%" UVuf "/%" IVdf " W:%" UVuf " L:%" UVuf "/%" UVuf " C:%" UVuf "/%" UVuf ">",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { if (trie->jump) Perl_sv_catpvn_flags( sv, ("" "(JUMP)" ""), ( sizeof("(JUMP)")-1), 2); Perl_sv_catpvf( sv, "<S:%" "lu" "/%" "ld" " W:%" "lu" " L:%" "lu" "/%" "lu" " C:%" "lu" "/%" "lu" ">", (UV)trie->startstate, (IV)trie->statecount-1, ( UV)trie->wordcount, (UV)trie->minlen, (UV)trie->maxlen , (UV)((trie)->charcount), (UV)trie->uniquecharcount ); };} while (0) |
21155 | (UV)trie->startstate,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { if (trie->jump) Perl_sv_catpvn_flags( sv, ("" "(JUMP)" ""), ( sizeof("(JUMP)")-1), 2); Perl_sv_catpvf( sv, "<S:%" "lu" "/%" "ld" " W:%" "lu" " L:%" "lu" "/%" "lu" " C:%" "lu" "/%" "lu" ">", (UV)trie->startstate, (IV)trie->statecount-1, ( UV)trie->wordcount, (UV)trie->minlen, (UV)trie->maxlen , (UV)((trie)->charcount), (UV)trie->uniquecharcount ); };} while (0) |
21156 | (IV)trie->statecount-1, /* -1 because of the unused 0 element */do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { if (trie->jump) Perl_sv_catpvn_flags( sv, ("" "(JUMP)" ""), ( sizeof("(JUMP)")-1), 2); Perl_sv_catpvf( sv, "<S:%" "lu" "/%" "ld" " W:%" "lu" " L:%" "lu" "/%" "lu" " C:%" "lu" "/%" "lu" ">", (UV)trie->startstate, (IV)trie->statecount-1, ( UV)trie->wordcount, (UV)trie->minlen, (UV)trie->maxlen , (UV)((trie)->charcount), (UV)trie->uniquecharcount ); };} while (0) |
21157 | (UV)trie->wordcount,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { if (trie->jump) Perl_sv_catpvn_flags( sv, ("" "(JUMP)" ""), ( sizeof("(JUMP)")-1), 2); Perl_sv_catpvf( sv, "<S:%" "lu" "/%" "ld" " W:%" "lu" " L:%" "lu" "/%" "lu" " C:%" "lu" "/%" "lu" ">", (UV)trie->startstate, (IV)trie->statecount-1, ( UV)trie->wordcount, (UV)trie->minlen, (UV)trie->maxlen , (UV)((trie)->charcount), (UV)trie->uniquecharcount ); };} while (0) |
21158 | (UV)trie->minlen,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { if (trie->jump) Perl_sv_catpvn_flags( sv, ("" "(JUMP)" ""), ( sizeof("(JUMP)")-1), 2); Perl_sv_catpvf( sv, "<S:%" "lu" "/%" "ld" " W:%" "lu" " L:%" "lu" "/%" "lu" " C:%" "lu" "/%" "lu" ">", (UV)trie->startstate, (IV)trie->statecount-1, ( UV)trie->wordcount, (UV)trie->minlen, (UV)trie->maxlen , (UV)((trie)->charcount), (UV)trie->uniquecharcount ); };} while (0) |
21159 | (UV)trie->maxlen,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { if (trie->jump) Perl_sv_catpvn_flags( sv, ("" "(JUMP)" ""), ( sizeof("(JUMP)")-1), 2); Perl_sv_catpvf( sv, "<S:%" "lu" "/%" "ld" " W:%" "lu" " L:%" "lu" "/%" "lu" " C:%" "lu" "/%" "lu" ">", (UV)trie->startstate, (IV)trie->statecount-1, ( UV)trie->wordcount, (UV)trie->minlen, (UV)trie->maxlen , (UV)((trie)->charcount), (UV)trie->uniquecharcount ); };} while (0) |
21160 | (UV)TRIE_CHARCOUNT(trie),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { if (trie->jump) Perl_sv_catpvn_flags( sv, ("" "(JUMP)" ""), ( sizeof("(JUMP)")-1), 2); Perl_sv_catpvf( sv, "<S:%" "lu" "/%" "ld" " W:%" "lu" " L:%" "lu" "/%" "lu" " C:%" "lu" "/%" "lu" ">", (UV)trie->startstate, (IV)trie->statecount-1, ( UV)trie->wordcount, (UV)trie->minlen, (UV)trie->maxlen , (UV)((trie)->charcount), (UV)trie->uniquecharcount ); };} while (0) |
21161 | (UV)trie->uniquecharcountdo {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { if (trie->jump) Perl_sv_catpvn_flags( sv, ("" "(JUMP)" ""), ( sizeof("(JUMP)")-1), 2); Perl_sv_catpvf( sv, "<S:%" "lu" "/%" "ld" " W:%" "lu" " L:%" "lu" "/%" "lu" " C:%" "lu" "/%" "lu" ">", (UV)trie->startstate, (IV)trie->statecount-1, ( UV)trie->wordcount, (UV)trie->minlen, (UV)trie->maxlen , (UV)((trie)->charcount), (UV)trie->uniquecharcount ); };} while (0) |
21162 | );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { if (trie->jump) Perl_sv_catpvn_flags( sv, ("" "(JUMP)" ""), ( sizeof("(JUMP)")-1), 2); Perl_sv_catpvf( sv, "<S:%" "lu" "/%" "ld" " W:%" "lu" " L:%" "lu" "/%" "lu" " C:%" "lu" "/%" "lu" ">", (UV)trie->startstate, (IV)trie->statecount-1, ( UV)trie->wordcount, (UV)trie->minlen, (UV)trie->maxlen , (UV)((trie)->charcount), (UV)trie->uniquecharcount ); };} while (0) |
21163 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000004))) { if (trie->jump) Perl_sv_catpvn_flags( sv, ("" "(JUMP)" ""), ( sizeof("(JUMP)")-1), 2); Perl_sv_catpvf( sv, "<S:%" "lu" "/%" "ld" " W:%" "lu" " L:%" "lu" "/%" "lu" " C:%" "lu" "/%" "lu" ">", (UV)trie->startstate, (IV)trie->statecount-1, ( UV)trie->wordcount, (UV)trie->minlen, (UV)trie->maxlen , (UV)((trie)->charcount), (UV)trie->uniquecharcount ); };} while (0); |
21164 | if ( IS_ANYOF_TRIE(op)((op)==89 || (op)==91) || trie->bitmap ) { |
21165 | sv_catpvs(sv, "[")Perl_sv_catpvn_flags( sv, ("" "[" ""), (sizeof("[")-1), 2); |
21166 | (void) put_charclass_bitmap_innards(sv,S_put_charclass_bitmap_innards( sv,((((op)==89 || (op)==91)) ? ((regnode_charclass*)(o))->bitmap : (((reg_trie_data *)(trie ))->bitmap)),((void*)0),((void*)0),((void*)0),0,(0)) |
21167 | ((IS_ANYOF_TRIE(op))S_put_charclass_bitmap_innards( sv,((((op)==89 || (op)==91)) ? ((regnode_charclass*)(o))->bitmap : (((reg_trie_data *)(trie ))->bitmap)),((void*)0),((void*)0),((void*)0),0,(0)) |
21168 | ? ANYOF_BITMAP(o)S_put_charclass_bitmap_innards( sv,((((op)==89 || (op)==91)) ? ((regnode_charclass*)(o))->bitmap : (((reg_trie_data *)(trie ))->bitmap)),((void*)0),((void*)0),((void*)0),0,(0)) |
21169 | : TRIE_BITMAP(trie)),S_put_charclass_bitmap_innards( sv,((((op)==89 || (op)==91)) ? ((regnode_charclass*)(o))->bitmap : (((reg_trie_data *)(trie ))->bitmap)),((void*)0),((void*)0),((void*)0),0,(0)) |
21170 | NULL,S_put_charclass_bitmap_innards( sv,((((op)==89 || (op)==91)) ? ((regnode_charclass*)(o))->bitmap : (((reg_trie_data *)(trie ))->bitmap)),((void*)0),((void*)0),((void*)0),0,(0)) |
21171 | NULL,S_put_charclass_bitmap_innards( sv,((((op)==89 || (op)==91)) ? ((regnode_charclass*)(o))->bitmap : (((reg_trie_data *)(trie ))->bitmap)),((void*)0),((void*)0),((void*)0),0,(0)) |
21172 | NULL,S_put_charclass_bitmap_innards( sv,((((op)==89 || (op)==91)) ? ((regnode_charclass*)(o))->bitmap : (((reg_trie_data *)(trie ))->bitmap)),((void*)0),((void*)0),((void*)0),0,(0)) |
21173 | 0,S_put_charclass_bitmap_innards( sv,((((op)==89 || (op)==91)) ? ((regnode_charclass*)(o))->bitmap : (((reg_trie_data *)(trie ))->bitmap)),((void*)0),((void*)0),((void*)0),0,(0)) |
21174 | FALSES_put_charclass_bitmap_innards( sv,((((op)==89 || (op)==91)) ? ((regnode_charclass*)(o))->bitmap : (((reg_trie_data *)(trie ))->bitmap)),((void*)0),((void*)0),((void*)0),0,(0)) |
21175 | )S_put_charclass_bitmap_innards( sv,((((op)==89 || (op)==91)) ? ((regnode_charclass*)(o))->bitmap : (((reg_trie_data *)(trie ))->bitmap)),((void*)0),((void*)0),((void*)0),0,(0)); |
21176 | sv_catpvs(sv, "]")Perl_sv_catpvn_flags( sv, ("" "]" ""), (sizeof("]")-1), 2); |
21177 | } |
21178 | } else if (k == CURLY58) { |
21179 | U32 lo = ARG1(o)((((struct regnode_2 *)o)->arg1)), hi = ARG2(o)((((struct regnode_2 *)o)->arg2)); |
21180 | if (OP(o)((o)->type) == CURLYM60 || OP(o)((o)->type) == CURLYN59 || OP(o)((o)->type) == CURLYX61) |
21181 | Perl_sv_catpvf(aTHX_ sv, "[%d]", o->flags); /* Parenth number */ |
21182 | Perl_sv_catpvf(aTHX_ sv, "{%u,", (unsigned) lo); |
21183 | if (hi == REG_INFTY0xffff) |
21184 | sv_catpvs(sv, "INFTY")Perl_sv_catpvn_flags( sv, ("" "INFTY" ""), (sizeof("INFTY")-1 ), 2); |
21185 | else |
21186 | Perl_sv_catpvf(aTHX_ sv, "%u", (unsigned) hi); |
21187 | sv_catpvs(sv, "}")Perl_sv_catpvn_flags( sv, ("" "}" ""), (sizeof("}")-1), 2); |
21188 | } |
21189 | else if (k == WHILEM62 && o->flags) /* Ordinal/of */ |
21190 | Perl_sv_catpvf(aTHX_ sv, "[%d/%d]", o->flags & 0xf, o->flags>>4); |
21191 | else if (k == REF67 || k == OPEN63 || k == CLOSE64 |
21192 | || k == GROUPP83 || OP(o)((o)->type)==ACCEPT98) |
21193 | { |
21194 | AV *name_list= NULL((void*)0); |
21195 | U32 parno= OP(o)((o)->type) == ACCEPT98 ? (U32)ARG2L(o)((((struct regnode_2L *)o)->arg2)) : ARG(o)((((struct regnode_1 *)o)->arg1)); |
21196 | Perl_sv_catpvf(aTHX_ sv, "%" UVuf"lu", (UV)parno); /* Parenth number */ |
21197 | if ( RXp_PAREN_NAMES(prog)((prog)->paren_names) ) { |
21198 | name_list= MUTABLE_AV(progi->data->data[progi->name_list_idx])((AV *)({ void *_p = (progi->data->data[progi->name_list_idx ]); _p; })); |
21199 | } else if ( pRExC_state ) { |
21200 | name_list= RExC_paren_name_list(pRExC_state->paren_name_list); |
21201 | } |
21202 | if (name_list) { |
21203 | if ( k != REF67 || (OP(o)((o)->type) < REFN72)) { |
21204 | SV **name= av_fetch(name_list, parno, 0 )Perl_av_fetch( name_list,parno,0); |
21205 | if (name) |
21206 | Perl_sv_catpvf(aTHX_ sv, " '%" SVf"-p" "'", SVfARG(*name)((void*)(*name))); |
21207 | } |
21208 | else { |
21209 | SV *sv_dat= MUTABLE_SV(progi->data->data[ parno ])((SV *)({ void *_p = (progi->data->data[ parno ]); _p; } )); |
21210 | I32 *nums=(I32*)SvPVX(sv_dat)(*({ SV *const _svpvx = ((SV *)({ void *_p = (sv_dat); _p; }) ); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21210 , __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21210, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21210, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })); |
21211 | SV **name= av_fetch(name_list, nums[0], 0 )Perl_av_fetch( name_list,nums[0],0); |
21212 | I32 n; |
21213 | if (name) { |
21214 | for ( n=0; n<SvIVX(sv_dat)(*({ const SV *const _svivx = (const SV *)(sv_dat); ((PL_valid_types_IVX [((svtype)((_svivx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 21214, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21214, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })); n++ ) { |
21215 | Perl_sv_catpvf(aTHX_ sv, "%s%" IVdf"ld", |
21216 | (n ? "," : ""), (IV)nums[n]); |
21217 | } |
21218 | Perl_sv_catpvf(aTHX_ sv, " '%" SVf"-p" "'", SVfARG(*name)((void*)(*name))); |
21219 | } |
21220 | } |
21221 | } |
21222 | if ( k == REF67 && reginfo) { |
21223 | U32 n = ARG(o)((((struct regnode_1 *)o)->arg1)); /* which paren pair */ |
21224 | I32 ln = prog->offs[n].start; |
21225 | if (prog->lastparen < n || ln == -1 || prog->offs[n].end == -1) |
21226 | Perl_sv_catpvf(aTHX_ sv, ": FAIL"); |
21227 | else if (ln == prog->offs[n].end) |
21228 | Perl_sv_catpvf(aTHX_ sv, ": ACCEPT - EMPTY STRING"); |
21229 | else { |
21230 | const char *s = reginfo->strbeg + ln; |
21231 | Perl_sv_catpvf(aTHX_ sv, ": "); |
21232 | Perl_pv_pretty( aTHX_ sv, s, prog->offs[n].end - prog->offs[n].start, 32, 0, 0, |
21233 | PERL_PV_ESCAPE_UNI_DETECT0x000200|PERL_PV_PRETTY_NOCLEAR0x004000|PERL_PV_PRETTY_ELLIPSES0x000002|PERL_PV_PRETTY_QUOTE0x000001 ); |
21234 | } |
21235 | } |
21236 | } else if (k == GOSUB92) { |
21237 | AV *name_list= NULL((void*)0); |
21238 | if ( RXp_PAREN_NAMES(prog)((prog)->paren_names) ) { |
21239 | name_list= MUTABLE_AV(progi->data->data[progi->name_list_idx])((AV *)({ void *_p = (progi->data->data[progi->name_list_idx ]); _p; })); |
21240 | } else if ( pRExC_state ) { |
21241 | name_list= RExC_paren_name_list(pRExC_state->paren_name_list); |
21242 | } |
21243 | |
21244 | /* Paren and offset */ |
21245 | Perl_sv_catpvf(aTHX_ sv, "%d[%+d:%d]", (int)ARG(o)((((struct regnode_1 *)o)->arg1)),(int)ARG2L(o)((((struct regnode_2L *)o)->arg2)), |
21246 | (int)((o + (int)ARG2L(o)((((struct regnode_2L *)o)->arg2))) - progi->program) ); |
21247 | if (name_list) { |
21248 | SV **name= av_fetch(name_list, ARG(o), 0 )Perl_av_fetch( name_list,((((struct regnode_1 *)o)->arg1)) ,0); |
21249 | if (name) |
21250 | Perl_sv_catpvf(aTHX_ sv, " '%" SVf"-p" "'", SVfARG(*name)((void*)(*name))); |
21251 | } |
21252 | } |
21253 | else if (k == LOGICAL86) |
21254 | /* 2: embedded, otherwise 1 */ |
21255 | Perl_sv_catpvf(aTHX_ sv, "[%d]", o->flags); |
21256 | else if (k == ANYOF18 || k == ANYOFR26) { |
21257 | U8 flags; |
21258 | char * bitmap; |
21259 | U32 arg; |
21260 | bool_Bool do_sep = FALSE(0); /* Do we need to separate various components of |
21261 | the output? */ |
21262 | /* Set if there is still an unresolved user-defined property */ |
21263 | SV *unresolved = NULL((void*)0); |
21264 | |
21265 | /* Things that are ignored except when the runtime locale is UTF-8 */ |
21266 | SV *only_utf8_locale_invlist = NULL((void*)0); |
21267 | |
21268 | /* Code points that don't fit in the bitmap */ |
21269 | SV *nonbitmap_invlist = NULL((void*)0); |
21270 | |
21271 | /* And things that aren't in the bitmap, but are small enough to be */ |
21272 | SV* bitmap_range_not_in_bitmap = NULL((void*)0); |
21273 | |
21274 | bool_Bool inverted; |
21275 | |
21276 | if (inRANGE(OP(o), ANYOFH, ANYOFRb)((((27) >= (22)) ? (void)0 : __assert2("re_comp.c", 21276, __func__, "(27) >= (22)")), ( (sizeof(((o)->type)) == sizeof (U8)) ? ((((NV) ((22)) >= 0) ? (void)0 : __assert2("re_comp.c" , 21276, __func__, "(NV) ((22)) >= 0")), (((NV) (((27) - ( 22))) >= 0) ? (void)0 : __assert2("re_comp.c", 21276, __func__ , "(NV) (((27) - (22))) >= 0")), (((U64) (((((U8) (((o)-> type))))) - (((22)) | 0))) <= (((U64) ((((27) - (22))) | 0 ))))) : (sizeof(((o)->type)) == sizeof(U32)) ? ((((NV) ((22 )) >= 0) ? (void)0 : __assert2("re_comp.c", 21276, __func__ , "(NV) ((22)) >= 0")), (((NV) (((27) - (22))) >= 0) ? ( void)0 : __assert2("re_comp.c", 21276, __func__, "(NV) (((27) - (22))) >= 0" )), (((U64) (((((U32) (((o)->type))))) - (((22)) | 0))) <= (((U64) ((((27) - (22))) | 0))))) : (((sizeof(((o)->type) ) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 21276, __func__ , "sizeof(((o)->type)) == sizeof(U64)")), ((((NV) ((22)) >= 0) ? (void)0 : __assert2("re_comp.c", 21276, __func__, "(NV) ((22)) >= 0" )), (((NV) (((27) - (22))) >= 0) ? (void)0 : __assert2("re_comp.c" , 21276, __func__, "(NV) (((27) - (22))) >= 0")), (((U64) ( ((((U64) (((o)->type))))) - (((22)) | 0))) <= (((U64) ( (((27) - (22))) | 0))))))))) { |
21277 | flags = 0; |
21278 | bitmap = NULL((void*)0); |
21279 | arg = 0; |
21280 | } |
21281 | else { |
21282 | flags = ANYOF_FLAGS(o)((o)->flags); |
21283 | bitmap = ANYOF_BITMAP(o)((regnode_charclass*)(o))->bitmap; |
21284 | arg = ARG(o)((((struct regnode_1 *)o)->arg1)); |
21285 | } |
21286 | |
21287 | if (OP(o)((o)->type) == ANYOFL20 || OP(o)((o)->type) == ANYOFPOSIXL21) { |
21288 | if (ANYOFL_UTF8_LOCALE_REQD(flags)((flags & ( 0x04 |0x08)) == 0x08)) { |
21289 | sv_catpvs(sv, "{utf8-locale-reqd}")Perl_sv_catpvn_flags( sv, ("" "{utf8-locale-reqd}" ""), (sizeof ("{utf8-locale-reqd}")-1), 2); |
21290 | } |
21291 | if (flags & ANYOFL_FOLD0x04) { |
21292 | sv_catpvs(sv, "{i}")Perl_sv_catpvn_flags( sv, ("" "{i}" ""), (sizeof("{i}")-1), 2 ); |
21293 | } |
21294 | } |
21295 | |
21296 | inverted = flags & ANYOF_INVERT0x01; |
21297 | |
21298 | /* If there is stuff outside the bitmap, get it */ |
21299 | if (arg != ANYOF_ONLY_HAS_BITMAP((U32) -1)) { |
21300 | if (inRANGE(OP(o), ANYOFR, ANYOFRb)((((27) >= (26)) ? (void)0 : __assert2("re_comp.c", 21300, __func__, "(27) >= (26)")), ( (sizeof(((o)->type)) == sizeof (U8)) ? ((((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c" , 21300, __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - ( 26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21300, __func__ , "(NV) (((27) - (26))) >= 0")), (((U64) (((((U8) (((o)-> type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0 ))))) : (sizeof(((o)->type)) == sizeof(U32)) ? ((((NV) ((26 )) >= 0) ? (void)0 : __assert2("re_comp.c", 21300, __func__ , "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? ( void)0 : __assert2("re_comp.c", 21300, __func__, "(NV) (((27) - (26))) >= 0" )), (((U64) (((((U32) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (((sizeof(((o)->type) ) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 21300, __func__ , "sizeof(((o)->type)) == sizeof(U64)")), ((((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21300, __func__, "(NV) ((26)) >= 0" )), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c" , 21300, __func__, "(NV) (((27) - (26))) >= 0")), (((U64) ( ((((U64) (((o)->type))))) - (((26)) | 0))) <= (((U64) ( (((27) - (26))) | 0))))))))) { |
21301 | nonbitmap_invlist = _add_range_to_invlist(nonbitmap_invlist,Perl__add_range_to_invlist( nonbitmap_invlist,(((((struct regnode_1 *)o)->arg1)) & ((1 << 20) - 1)),(((((struct regnode_1 *)o)->arg1)) & ((1 << 20) - 1)) + (((((struct regnode_1 *)o)->arg1)) >> 20)) |
21302 | ANYOFRbase(o),Perl__add_range_to_invlist( nonbitmap_invlist,(((((struct regnode_1 *)o)->arg1)) & ((1 << 20) - 1)),(((((struct regnode_1 *)o)->arg1)) & ((1 << 20) - 1)) + (((((struct regnode_1 *)o)->arg1)) >> 20)) |
21303 | ANYOFRbase(o) + ANYOFRdelta(o))Perl__add_range_to_invlist( nonbitmap_invlist,(((((struct regnode_1 *)o)->arg1)) & ((1 << 20) - 1)),(((((struct regnode_1 *)o)->arg1)) & ((1 << 20) - 1)) + (((((struct regnode_1 *)o)->arg1)) >> 20)); |
21304 | } |
21305 | else { |
21306 | #if !defined(PERL_IN_XSUB_RE) || defined(PLUGGABLE_RE_EXTENSION) |
21307 | (void) get_regclass_nonbitmap_data(prog, o, FALSE(0), |
21308 | &unresolved, |
21309 | &only_utf8_locale_invlist, |
21310 | &nonbitmap_invlist); |
21311 | #else |
21312 | (void) get_re_gclass_nonbitmap_data(prog, o, FALSE,Perl_get_re_gclass_nonbitmap_data( prog,o,(0),&unresolved ,&only_utf8_locale_invlist,&nonbitmap_invlist) |
21313 | &unresolved,Perl_get_re_gclass_nonbitmap_data( prog,o,(0),&unresolved ,&only_utf8_locale_invlist,&nonbitmap_invlist) |
21314 | &only_utf8_locale_invlist,Perl_get_re_gclass_nonbitmap_data( prog,o,(0),&unresolved ,&only_utf8_locale_invlist,&nonbitmap_invlist) |
21315 | &nonbitmap_invlist)Perl_get_re_gclass_nonbitmap_data( prog,o,(0),&unresolved ,&only_utf8_locale_invlist,&nonbitmap_invlist); |
21316 | #endif |
21317 | } |
21318 | |
21319 | /* The non-bitmap data may contain stuff that could fit in the |
21320 | * bitmap. This could come from a user-defined property being |
21321 | * finally resolved when this call was done; or much more likely |
21322 | * because there are matches that require UTF-8 to be valid, and so |
21323 | * aren't in the bitmap (or ANYOFR). This is teased apart later */ |
21324 | _invlist_intersection(nonbitmap_invlist,Perl__invlist_intersection_maybe_complement_2nd( nonbitmap_invlist ,PL_InBitmap,(0),&bitmap_range_not_in_bitmap) |
21325 | PL_InBitmap,Perl__invlist_intersection_maybe_complement_2nd( nonbitmap_invlist ,PL_InBitmap,(0),&bitmap_range_not_in_bitmap) |
21326 | &bitmap_range_not_in_bitmap)Perl__invlist_intersection_maybe_complement_2nd( nonbitmap_invlist ,PL_InBitmap,(0),&bitmap_range_not_in_bitmap); |
21327 | /* Leave just the things that don't fit into the bitmap */ |
21328 | _invlist_subtract(nonbitmap_invlist,Perl__invlist_intersection_maybe_complement_2nd( nonbitmap_invlist ,PL_InBitmap,(1),&nonbitmap_invlist) |
21329 | PL_InBitmap,Perl__invlist_intersection_maybe_complement_2nd( nonbitmap_invlist ,PL_InBitmap,(1),&nonbitmap_invlist) |
21330 | &nonbitmap_invlist)Perl__invlist_intersection_maybe_complement_2nd( nonbitmap_invlist ,PL_InBitmap,(1),&nonbitmap_invlist); |
21331 | } |
21332 | |
21333 | /* Obey this flag to add all above-the-bitmap code points */ |
21334 | if (flags & ANYOF_MATCHES_ALL_ABOVE_BITMAP0x20) { |
21335 | nonbitmap_invlist = _add_range_to_invlist(nonbitmap_invlist,Perl__add_range_to_invlist( nonbitmap_invlist,(1 << 8), (~(UV)0)) |
21336 | NUM_ANYOF_CODE_POINTS,Perl__add_range_to_invlist( nonbitmap_invlist,(1 << 8), (~(UV)0)) |
21337 | UV_MAX)Perl__add_range_to_invlist( nonbitmap_invlist,(1 << 8), (~(UV)0)); |
21338 | } |
21339 | |
21340 | /* Ready to start outputting. First, the initial left bracket */ |
21341 | Perl_sv_catpvf(aTHX_ sv, "[%s", PL_colors[0]); |
21342 | |
21343 | /* ANYOFH by definition doesn't have anything that will fit inside the |
21344 | * bitmap; ANYOFR may or may not. */ |
21345 | if ( ! inRANGE(OP(o), ANYOFH, ANYOFHr)((((24) >= (22)) ? (void)0 : __assert2("re_comp.c", 21345, __func__, "(24) >= (22)")), ( (sizeof(((o)->type)) == sizeof (U8)) ? ((((NV) ((22)) >= 0) ? (void)0 : __assert2("re_comp.c" , 21345, __func__, "(NV) ((22)) >= 0")), (((NV) (((24) - ( 22))) >= 0) ? (void)0 : __assert2("re_comp.c", 21345, __func__ , "(NV) (((24) - (22))) >= 0")), (((U64) (((((U8) (((o)-> type))))) - (((22)) | 0))) <= (((U64) ((((24) - (22))) | 0 ))))) : (sizeof(((o)->type)) == sizeof(U32)) ? ((((NV) ((22 )) >= 0) ? (void)0 : __assert2("re_comp.c", 21345, __func__ , "(NV) ((22)) >= 0")), (((NV) (((24) - (22))) >= 0) ? ( void)0 : __assert2("re_comp.c", 21345, __func__, "(NV) (((24) - (22))) >= 0" )), (((U64) (((((U32) (((o)->type))))) - (((22)) | 0))) <= (((U64) ((((24) - (22))) | 0))))) : (((sizeof(((o)->type) ) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 21345, __func__ , "sizeof(((o)->type)) == sizeof(U64)")), ((((NV) ((22)) >= 0) ? (void)0 : __assert2("re_comp.c", 21345, __func__, "(NV) ((22)) >= 0" )), (((NV) (((24) - (22))) >= 0) ? (void)0 : __assert2("re_comp.c" , 21345, __func__, "(NV) (((24) - (22))) >= 0")), (((U64) ( ((((U64) (((o)->type))))) - (((22)) | 0))) <= (((U64) ( (((24) - (22))) | 0)))))))) |
21346 | && ( ! inRANGE(OP(o), ANYOFR, ANYOFRb)((((27) >= (26)) ? (void)0 : __assert2("re_comp.c", 21346, __func__, "(27) >= (26)")), ( (sizeof(((o)->type)) == sizeof (U8)) ? ((((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c" , 21346, __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - ( 26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21346, __func__ , "(NV) (((27) - (26))) >= 0")), (((U64) (((((U8) (((o)-> type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0 ))))) : (sizeof(((o)->type)) == sizeof(U32)) ? ((((NV) ((26 )) >= 0) ? (void)0 : __assert2("re_comp.c", 21346, __func__ , "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? ( void)0 : __assert2("re_comp.c", 21346, __func__, "(NV) (((27) - (26))) >= 0" )), (((U64) (((((U32) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (((sizeof(((o)->type) ) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 21346, __func__ , "sizeof(((o)->type)) == sizeof(U64)")), ((((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21346, __func__, "(NV) ((26)) >= 0" )), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c" , 21346, __func__, "(NV) (((27) - (26))) >= 0")), (((U64) ( ((((U64) (((o)->type))))) - (((26)) | 0))) <= (((U64) ( (((27) - (26))) | 0)))))))) |
21347 | || ANYOFRbase(o)(((((struct regnode_1 *)o)->arg1)) & ((1 << 20) - 1)) < NUM_ANYOF_CODE_POINTS(1 << 8))) |
21348 | { |
21349 | /* Then all the things that could fit in the bitmap */ |
21350 | do_sep = put_charclass_bitmap_innards(sv,S_put_charclass_bitmap_innards( sv,bitmap,bitmap_range_not_in_bitmap ,only_utf8_locale_invlist,o,flags,unresolved != ((void*)0) || ((((27) >= (26)) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(27) >= (26)")), ( (sizeof(((o)->type)) == sizeof(U8)) ? ((((NV) ((26)) >= 0) ? (void)0 : __assert2( "re_comp.c", 21362, __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(NV) (((27) - (26))) >= 0")), (((U64) (((((U8 ) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (sizeof(((o)->type)) == sizeof(U32)) ? ( (((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21362, __func__, "(NV) (((27) - (26))) >= 0" )), (((U64) (((((U32) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (((sizeof(((o)->type) ) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 21362, __func__ , "sizeof(((o)->type)) == sizeof(U64)")), ((((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21362, __func__, "(NV) ((26)) >= 0" )), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c" , 21362, __func__, "(NV) (((27) - (26))) >= 0")), (((U64) ( ((((U64) (((o)->type))))) - (((26)) | 0))) <= (((U64) ( (((27) - (26))) | 0))))))))) |
21351 | bitmap,S_put_charclass_bitmap_innards( sv,bitmap,bitmap_range_not_in_bitmap ,only_utf8_locale_invlist,o,flags,unresolved != ((void*)0) || ((((27) >= (26)) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(27) >= (26)")), ( (sizeof(((o)->type)) == sizeof(U8)) ? ((((NV) ((26)) >= 0) ? (void)0 : __assert2( "re_comp.c", 21362, __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(NV) (((27) - (26))) >= 0")), (((U64) (((((U8 ) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (sizeof(((o)->type)) == sizeof(U32)) ? ( (((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21362, __func__, "(NV) (((27) - (26))) >= 0" )), (((U64) (((((U32) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (((sizeof(((o)->type) ) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 21362, __func__ , "sizeof(((o)->type)) == sizeof(U64)")), ((((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21362, __func__, "(NV) ((26)) >= 0" )), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c" , 21362, __func__, "(NV) (((27) - (26))) >= 0")), (((U64) ( ((((U64) (((o)->type))))) - (((26)) | 0))) <= (((U64) ( (((27) - (26))) | 0))))))))) |
21352 | bitmap_range_not_in_bitmap,S_put_charclass_bitmap_innards( sv,bitmap,bitmap_range_not_in_bitmap ,only_utf8_locale_invlist,o,flags,unresolved != ((void*)0) || ((((27) >= (26)) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(27) >= (26)")), ( (sizeof(((o)->type)) == sizeof(U8)) ? ((((NV) ((26)) >= 0) ? (void)0 : __assert2( "re_comp.c", 21362, __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(NV) (((27) - (26))) >= 0")), (((U64) (((((U8 ) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (sizeof(((o)->type)) == sizeof(U32)) ? ( (((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21362, __func__, "(NV) (((27) - (26))) >= 0" )), (((U64) (((((U32) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (((sizeof(((o)->type) ) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 21362, __func__ , "sizeof(((o)->type)) == sizeof(U64)")), ((((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21362, __func__, "(NV) ((26)) >= 0" )), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c" , 21362, __func__, "(NV) (((27) - (26))) >= 0")), (((U64) ( ((((U64) (((o)->type))))) - (((26)) | 0))) <= (((U64) ( (((27) - (26))) | 0))))))))) |
21353 | only_utf8_locale_invlist,S_put_charclass_bitmap_innards( sv,bitmap,bitmap_range_not_in_bitmap ,only_utf8_locale_invlist,o,flags,unresolved != ((void*)0) || ((((27) >= (26)) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(27) >= (26)")), ( (sizeof(((o)->type)) == sizeof(U8)) ? ((((NV) ((26)) >= 0) ? (void)0 : __assert2( "re_comp.c", 21362, __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(NV) (((27) - (26))) >= 0")), (((U64) (((((U8 ) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (sizeof(((o)->type)) == sizeof(U32)) ? ( (((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21362, __func__, "(NV) (((27) - (26))) >= 0" )), (((U64) (((((U32) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (((sizeof(((o)->type) ) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 21362, __func__ , "sizeof(((o)->type)) == sizeof(U64)")), ((((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21362, __func__, "(NV) ((26)) >= 0" )), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c" , 21362, __func__, "(NV) (((27) - (26))) >= 0")), (((U64) ( ((((U64) (((o)->type))))) - (((26)) | 0))) <= (((U64) ( (((27) - (26))) | 0))))))))) |
21354 | o,S_put_charclass_bitmap_innards( sv,bitmap,bitmap_range_not_in_bitmap ,only_utf8_locale_invlist,o,flags,unresolved != ((void*)0) || ((((27) >= (26)) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(27) >= (26)")), ( (sizeof(((o)->type)) == sizeof(U8)) ? ((((NV) ((26)) >= 0) ? (void)0 : __assert2( "re_comp.c", 21362, __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(NV) (((27) - (26))) >= 0")), (((U64) (((((U8 ) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (sizeof(((o)->type)) == sizeof(U32)) ? ( (((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21362, __func__, "(NV) (((27) - (26))) >= 0" )), (((U64) (((((U32) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (((sizeof(((o)->type) ) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 21362, __func__ , "sizeof(((o)->type)) == sizeof(U64)")), ((((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21362, __func__, "(NV) ((26)) >= 0" )), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c" , 21362, __func__, "(NV) (((27) - (26))) >= 0")), (((U64) ( ((((U64) (((o)->type))))) - (((26)) | 0))) <= (((U64) ( (((27) - (26))) | 0))))))))) |
21355 | flags,S_put_charclass_bitmap_innards( sv,bitmap,bitmap_range_not_in_bitmap ,only_utf8_locale_invlist,o,flags,unresolved != ((void*)0) || ((((27) >= (26)) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(27) >= (26)")), ( (sizeof(((o)->type)) == sizeof(U8)) ? ((((NV) ((26)) >= 0) ? (void)0 : __assert2( "re_comp.c", 21362, __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(NV) (((27) - (26))) >= 0")), (((U64) (((((U8 ) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (sizeof(((o)->type)) == sizeof(U32)) ? ( (((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21362, __func__, "(NV) (((27) - (26))) >= 0" )), (((U64) (((((U32) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (((sizeof(((o)->type) ) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 21362, __func__ , "sizeof(((o)->type)) == sizeof(U64)")), ((((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21362, __func__, "(NV) ((26)) >= 0" )), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c" , 21362, __func__, "(NV) (((27) - (26))) >= 0")), (((U64) ( ((((U64) (((o)->type))))) - (((26)) | 0))) <= (((U64) ( (((27) - (26))) | 0))))))))) |
21356 | |
21357 | /* Can't try inverting for aS_put_charclass_bitmap_innards( sv,bitmap,bitmap_range_not_in_bitmap ,only_utf8_locale_invlist,o,flags,unresolved != ((void*)0) || ((((27) >= (26)) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(27) >= (26)")), ( (sizeof(((o)->type)) == sizeof(U8)) ? ((((NV) ((26)) >= 0) ? (void)0 : __assert2( "re_comp.c", 21362, __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(NV) (((27) - (26))) >= 0")), (((U64) (((((U8 ) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (sizeof(((o)->type)) == sizeof(U32)) ? ( (((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21362, __func__, "(NV) (((27) - (26))) >= 0" )), (((U64) (((((U32) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (((sizeof(((o)->type) ) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 21362, __func__ , "sizeof(((o)->type)) == sizeof(U64)")), ((((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21362, __func__, "(NV) ((26)) >= 0" )), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c" , 21362, __func__, "(NV) (((27) - (26))) >= 0")), (((U64) ( ((((U64) (((o)->type))))) - (((26)) | 0))) <= (((U64) ( (((27) - (26))) | 0))))))))) |
21358 | * better display if thereS_put_charclass_bitmap_innards( sv,bitmap,bitmap_range_not_in_bitmap ,only_utf8_locale_invlist,o,flags,unresolved != ((void*)0) || ((((27) >= (26)) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(27) >= (26)")), ( (sizeof(((o)->type)) == sizeof(U8)) ? ((((NV) ((26)) >= 0) ? (void)0 : __assert2( "re_comp.c", 21362, __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(NV) (((27) - (26))) >= 0")), (((U64) (((((U8 ) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (sizeof(((o)->type)) == sizeof(U32)) ? ( (((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21362, __func__, "(NV) (((27) - (26))) >= 0" )), (((U64) (((((U32) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (((sizeof(((o)->type) ) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 21362, __func__ , "sizeof(((o)->type)) == sizeof(U64)")), ((((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21362, __func__, "(NV) ((26)) >= 0" )), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c" , 21362, __func__, "(NV) (((27) - (26))) >= 0")), (((U64) ( ((((U64) (((o)->type))))) - (((26)) | 0))) <= (((U64) ( (((27) - (26))) | 0))))))))) |
21359 | * are things that haven'tS_put_charclass_bitmap_innards( sv,bitmap,bitmap_range_not_in_bitmap ,only_utf8_locale_invlist,o,flags,unresolved != ((void*)0) || ((((27) >= (26)) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(27) >= (26)")), ( (sizeof(((o)->type)) == sizeof(U8)) ? ((((NV) ((26)) >= 0) ? (void)0 : __assert2( "re_comp.c", 21362, __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(NV) (((27) - (26))) >= 0")), (((U64) (((((U8 ) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (sizeof(((o)->type)) == sizeof(U32)) ? ( (((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21362, __func__, "(NV) (((27) - (26))) >= 0" )), (((U64) (((((U32) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (((sizeof(((o)->type) ) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 21362, __func__ , "sizeof(((o)->type)) == sizeof(U64)")), ((((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21362, __func__, "(NV) ((26)) >= 0" )), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c" , 21362, __func__, "(NV) (((27) - (26))) >= 0")), (((U64) ( ((((U64) (((o)->type))))) - (((26)) | 0))) <= (((U64) ( (((27) - (26))) | 0))))))))) |
21360 | * been resolved */S_put_charclass_bitmap_innards( sv,bitmap,bitmap_range_not_in_bitmap ,only_utf8_locale_invlist,o,flags,unresolved != ((void*)0) || ((((27) >= (26)) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(27) >= (26)")), ( (sizeof(((o)->type)) == sizeof(U8)) ? ((((NV) ((26)) >= 0) ? (void)0 : __assert2( "re_comp.c", 21362, __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(NV) (((27) - (26))) >= 0")), (((U64) (((((U8 ) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (sizeof(((o)->type)) == sizeof(U32)) ? ( (((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21362, __func__, "(NV) (((27) - (26))) >= 0" )), (((U64) (((((U32) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (((sizeof(((o)->type) ) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 21362, __func__ , "sizeof(((o)->type)) == sizeof(U64)")), ((((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21362, __func__, "(NV) ((26)) >= 0" )), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c" , 21362, __func__, "(NV) (((27) - (26))) >= 0")), (((U64) ( ((((U64) (((o)->type))))) - (((26)) | 0))) <= (((U64) ( (((27) - (26))) | 0))))))))) |
21361 | unresolved != NULLS_put_charclass_bitmap_innards( sv,bitmap,bitmap_range_not_in_bitmap ,only_utf8_locale_invlist,o,flags,unresolved != ((void*)0) || ((((27) >= (26)) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(27) >= (26)")), ( (sizeof(((o)->type)) == sizeof(U8)) ? ((((NV) ((26)) >= 0) ? (void)0 : __assert2( "re_comp.c", 21362, __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(NV) (((27) - (26))) >= 0")), (((U64) (((((U8 ) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (sizeof(((o)->type)) == sizeof(U32)) ? ( (((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21362, __func__, "(NV) (((27) - (26))) >= 0" )), (((U64) (((((U32) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (((sizeof(((o)->type) ) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 21362, __func__ , "sizeof(((o)->type)) == sizeof(U64)")), ((((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21362, __func__, "(NV) ((26)) >= 0" )), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c" , 21362, __func__, "(NV) (((27) - (26))) >= 0")), (((U64) ( ((((U64) (((o)->type))))) - (((26)) | 0))) <= (((U64) ( (((27) - (26))) | 0))))))))) |
21362 | || inRANGE(OP(o), ANYOFR, ANYOFRb))S_put_charclass_bitmap_innards( sv,bitmap,bitmap_range_not_in_bitmap ,only_utf8_locale_invlist,o,flags,unresolved != ((void*)0) || ((((27) >= (26)) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(27) >= (26)")), ( (sizeof(((o)->type)) == sizeof(U8)) ? ((((NV) ((26)) >= 0) ? (void)0 : __assert2( "re_comp.c", 21362, __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(NV) (((27) - (26))) >= 0")), (((U64) (((((U8 ) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (sizeof(((o)->type)) == sizeof(U32)) ? ( (((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21362 , __func__, "(NV) ((26)) >= 0")), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c", 21362, __func__, "(NV) (((27) - (26))) >= 0" )), (((U64) (((((U32) (((o)->type))))) - (((26)) | 0))) <= (((U64) ((((27) - (26))) | 0))))) : (((sizeof(((o)->type) ) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 21362, __func__ , "sizeof(((o)->type)) == sizeof(U64)")), ((((NV) ((26)) >= 0) ? (void)0 : __assert2("re_comp.c", 21362, __func__, "(NV) ((26)) >= 0" )), (((NV) (((27) - (26))) >= 0) ? (void)0 : __assert2("re_comp.c" , 21362, __func__, "(NV) (((27) - (26))) >= 0")), (((U64) ( ((((U64) (((o)->type))))) - (((26)) | 0))) <= (((U64) ( (((27) - (26))) | 0))))))))); |
21363 | SvREFCNT_dec(bitmap_range_not_in_bitmap)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (bitmap_range_not_in_bitmap ); _p; }))); |
21364 | |
21365 | /* If there are user-defined properties which haven't been defined |
21366 | * yet, output them. If the result is not to be inverted, it is |
21367 | * clearest to output them in a separate [] from the bitmap range |
21368 | * stuff. If the result is to be complemented, we have to show |
21369 | * everything in one [], as the inversion applies to the whole |
21370 | * thing. Use {braces} to separate them from anything in the |
21371 | * bitmap and anything above the bitmap. */ |
21372 | if (unresolved) { |
21373 | if (inverted) { |
21374 | if (! do_sep) { /* If didn't output anything in the bitmap |
21375 | */ |
21376 | sv_catpvs(sv, "^")Perl_sv_catpvn_flags( sv, ("" "^" ""), (sizeof("^")-1), 2); |
21377 | } |
21378 | sv_catpvs(sv, "{")Perl_sv_catpvn_flags( sv, ("" "{" ""), (sizeof("{")-1), 2); |
21379 | } |
21380 | else if (do_sep) { |
21381 | Perl_sv_catpvf(aTHX_ sv,"%s][%s", PL_colors[1], |
21382 | PL_colors[0]); |
21383 | } |
21384 | sv_catsv(sv, unresolved)Perl_sv_catsv_flags( sv,unresolved,2); |
21385 | if (inverted) { |
21386 | sv_catpvs(sv, "}")Perl_sv_catpvn_flags( sv, ("" "}" ""), (sizeof("}")-1), 2); |
21387 | } |
21388 | do_sep = ! inverted; |
21389 | } |
21390 | } |
21391 | |
21392 | /* And, finally, add the above-the-bitmap stuff */ |
21393 | if (nonbitmap_invlist && _invlist_lenS__invlist_len(nonbitmap_invlist)) { |
21394 | SV* contents; |
21395 | |
21396 | /* See if truncation size is overridden */ |
21397 | const STRLEN dump_len = (PL_dump_re_max_len > 256) |
21398 | ? PL_dump_re_max_len |
21399 | : 256; |
21400 | |
21401 | /* This is output in a separate [] */ |
21402 | if (do_sep) { |
21403 | Perl_sv_catpvf(aTHX_ sv,"%s][%s", PL_colors[1], PL_colors[0]); |
21404 | } |
21405 | |
21406 | /* And, for easy of understanding, it is shown in the |
21407 | * uncomplemented form if possible. The one exception being if |
21408 | * there are unresolved items, where the inversion has to be |
21409 | * delayed until runtime */ |
21410 | if (inverted && ! unresolved) { |
21411 | _invlist_invert(nonbitmap_invlist)Perl__invlist_invert( nonbitmap_invlist); |
21412 | _invlist_subtract(nonbitmap_invlist, PL_InBitmap, &nonbitmap_invlist)Perl__invlist_intersection_maybe_complement_2nd( nonbitmap_invlist ,PL_InBitmap,(1),&nonbitmap_invlist); |
21413 | } |
21414 | |
21415 | contents = invlist_contents(nonbitmap_invlist,S_invlist_contents( nonbitmap_invlist,(0)) |
21416 | FALSE /* output suitable for catsv */S_invlist_contents( nonbitmap_invlist,(0)) |
21417 | )S_invlist_contents( nonbitmap_invlist,(0)); |
21418 | |
21419 | /* If the output is shorter than the permissible maximum, just do it. */ |
21420 | if (SvCUR(contents)(*({ const SV *const _svcur = (const SV *)(contents); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 21420, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21420, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21420, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) <= dump_len) { |
21421 | sv_catsv(sv, contents)Perl_sv_catsv_flags( sv,contents,2); |
21422 | } |
21423 | else { |
21424 | const char * contents_string = SvPVX(contents)(*({ SV *const _svpvx = ((SV *)({ void *_p = (contents); _p; } )); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21424 , __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21424, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21424, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })); |
21425 | STRLEN i = dump_len; |
21426 | |
21427 | /* Otherwise, start at the permissible max and work back to the |
21428 | * first break possibility */ |
21429 | while (i > 0 && contents_string[i] != ' ') { |
21430 | i--; |
21431 | } |
21432 | if (i == 0) { /* Fail-safe. Use the max if we couldn't |
21433 | find a legal break */ |
21434 | i = dump_len; |
21435 | } |
21436 | |
21437 | sv_catpvn(sv, contents_string, i)Perl_sv_catpvn_flags( sv,contents_string,i,2); |
21438 | sv_catpvs(sv, "...")Perl_sv_catpvn_flags( sv, ("" "..." ""), (sizeof("...")-1), 2 ); |
21439 | } |
21440 | |
21441 | SvREFCNT_dec_NN(contents)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (contents); _p; }) )); |
21442 | SvREFCNT_dec_NN(nonbitmap_invlist)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (nonbitmap_invlist ); _p; }))); |
21443 | } |
21444 | |
21445 | /* And finally the matching, closing ']' */ |
21446 | Perl_sv_catpvf(aTHX_ sv, "%s]", PL_colors[1]); |
21447 | |
21448 | if (OP(o)((o)->type) == ANYOFHs25) { |
21449 | Perl_sv_catpvf(aTHX_ sv, " (Leading UTF-8 bytes=%s", _byte_dump_string((U8 *) ((struct regnode_anyofhs *) o)->string, FLAGS(o), 1)Perl__byte_dump_string( (U8 *) ((struct regnode_anyofhs *) o) ->string,((o)->flags),1)); |
21450 | } |
21451 | else if (inRANGE(OP(o), ANYOFH, ANYOFRb)((((27) >= (22)) ? (void)0 : __assert2("re_comp.c", 21451, __func__, "(27) >= (22)")), ( (sizeof(((o)->type)) == sizeof (U8)) ? ((((NV) ((22)) >= 0) ? (void)0 : __assert2("re_comp.c" , 21451, __func__, "(NV) ((22)) >= 0")), (((NV) (((27) - ( 22))) >= 0) ? (void)0 : __assert2("re_comp.c", 21451, __func__ , "(NV) (((27) - (22))) >= 0")), (((U64) (((((U8) (((o)-> type))))) - (((22)) | 0))) <= (((U64) ((((27) - (22))) | 0 ))))) : (sizeof(((o)->type)) == sizeof(U32)) ? ((((NV) ((22 )) >= 0) ? (void)0 : __assert2("re_comp.c", 21451, __func__ , "(NV) ((22)) >= 0")), (((NV) (((27) - (22))) >= 0) ? ( void)0 : __assert2("re_comp.c", 21451, __func__, "(NV) (((27) - (22))) >= 0" )), (((U64) (((((U32) (((o)->type))))) - (((22)) | 0))) <= (((U64) ((((27) - (22))) | 0))))) : (((sizeof(((o)->type) ) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c", 21451, __func__ , "sizeof(((o)->type)) == sizeof(U64)")), ((((NV) ((22)) >= 0) ? (void)0 : __assert2("re_comp.c", 21451, __func__, "(NV) ((22)) >= 0" )), (((NV) (((27) - (22))) >= 0) ? (void)0 : __assert2("re_comp.c" , 21451, __func__, "(NV) (((27) - (22))) >= 0")), (((U64) ( ((((U64) (((o)->type))))) - (((22)) | 0))) <= (((U64) ( (((27) - (22))) | 0))))))))) { |
21452 | U8 lowest = (OP(o)((o)->type) != ANYOFHr24) |
21453 | ? FLAGS(o)((o)->flags) |
21454 | : LOWEST_ANYOF_HRx_BYTE(FLAGS(o))(((((o)->flags)) >> 2) + 0xC0); |
21455 | U8 highest = (OP(o)((o)->type) == ANYOFHr24) |
21456 | ? HIGHEST_ANYOF_HRx_BYTE(FLAGS(o))((((((o)->flags)) >> 2) + 0xC0) + ((0xEF - (((((o)-> flags)) >> 2) + 0xC0)) >> ((((o)->flags)) & 3))) |
21457 | : (OP(o)((o)->type) == ANYOFH22 || OP(o)((o)->type) == ANYOFR26) |
21458 | ? 0xFF |
21459 | : lowest; |
21460 | #ifndef EBCDIC |
21461 | if (OP(o)((o)->type) != ANYOFR26 || ! isASCII(ANYOFRbase(o) + ANYOFRdelta(o))((U64)(((((((struct regnode_1 *)o)->arg1)) & ((1 << 20) - 1)) + (((((struct regnode_1 *)o)->arg1)) >> 20 )) | 0) < 128)) |
21462 | #endif |
21463 | { |
21464 | Perl_sv_catpvf(aTHX_ sv, " (First UTF-8 byte=%02X", lowest); |
21465 | if (lowest != highest) { |
21466 | Perl_sv_catpvf(aTHX_ sv, "-%02X", highest); |
21467 | } |
21468 | Perl_sv_catpvf(aTHX_ sv, ")"); |
21469 | } |
21470 | } |
21471 | |
21472 | SvREFCNT_dec(unresolved)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (unresolved); _p; })) ); |
21473 | } |
21474 | else if (k == ANYOFM28) { |
21475 | SV * cp_list = get_ANYOFM_contents(o)S_get_ANYOFM_contents( o); |
21476 | |
21477 | Perl_sv_catpvf(aTHX_ sv, "[%s", PL_colors[0]); |
21478 | if (OP(o)((o)->type) == NANYOFM29) { |
21479 | _invlist_invert(cp_list)Perl__invlist_invert( cp_list); |
21480 | } |
21481 | |
21482 | put_charclass_bitmap_innards(sv, NULL, cp_list, NULL, NULL, 0, TRUE)S_put_charclass_bitmap_innards( sv,((void*)0),cp_list,((void* )0),((void*)0),0,(1)); |
21483 | Perl_sv_catpvf(aTHX_ sv, "%s]", PL_colors[1]); |
21484 | |
21485 | SvREFCNT_dec(cp_list)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (cp_list); _p; }))); |
21486 | } |
21487 | else if (k == POSIXD30 || k == NPOSIXD34) { |
21488 | U8 index = FLAGS(o)((o)->flags) * 2; |
21489 | if (index < C_ARRAY_LENGTH(anyofs)(sizeof(anyofs)/sizeof((anyofs)[0]))) { |
21490 | if (*anyofs[index] != '[') { |
21491 | sv_catpvs(sv, "[")Perl_sv_catpvn_flags( sv, ("" "[" ""), (sizeof("[")-1), 2); |
21492 | } |
21493 | sv_catpv(sv, anyofs[index])Perl_sv_catpv( sv,anyofs[index]); |
21494 | if (*anyofs[index] != '[') { |
21495 | sv_catpvs(sv, "]")Perl_sv_catpvn_flags( sv, ("" "]" ""), (sizeof("]")-1), 2); |
21496 | } |
21497 | } |
21498 | else { |
21499 | Perl_sv_catpvf(aTHX_ sv, "[illegal type=%d])", index); |
21500 | } |
21501 | } |
21502 | else if (k == BOUND8 || k == NBOUND12) { |
21503 | /* Must be synced with order of 'bound_type' in regcomp.h */ |
21504 | const char * const bounds[] = { |
21505 | "", /* Traditional */ |
21506 | "{gcb}", |
21507 | "{lb}", |
21508 | "{sb}", |
21509 | "{wb}" |
21510 | }; |
21511 | assert(FLAGS(o) < C_ARRAY_LENGTH(bounds))((((o)->flags) < (sizeof(bounds)/sizeof((bounds)[0]))) ? (void)0 : __assert2("re_comp.c", 21511, __func__, "FLAGS(o) < C_ARRAY_LENGTH(bounds)" )); |
21512 | sv_catpv(sv, bounds[FLAGS(o)])Perl_sv_catpv( sv,bounds[((o)->flags)]); |
21513 | } |
21514 | else if (k == BRANCHJ78 && (OP(o)((o)->type) == UNLESSM80 || OP(o)((o)->type) == IFMATCH79)) { |
21515 | Perl_sv_catpvf(aTHX_ sv, "[%d", -(o->flags)); |
21516 | if (o->next_off) { |
21517 | Perl_sv_catpvf(aTHX_ sv, "..-%d", o->flags - o->next_off); |
21518 | } |
21519 | Perl_sv_catpvf(aTHX_ sv, "]"); |
21520 | } |
21521 | else if (OP(o)((o)->type) == SBOL2) |
21522 | Perl_sv_catpvf(aTHX_ sv, " /%s/", o->flags ? "\\A" : "^"); |
21523 | |
21524 | /* add on the verb argument if there is one */ |
21525 | if ( ( k == VERB99 || OP(o)((o)->type) == ACCEPT98 || OP(o)((o)->type) == OPFAIL97 ) && o->flags) { |
21526 | if ( ARG(o)((((struct regnode_1 *)o)->arg1)) ) |
21527 | Perl_sv_catpvf(aTHX_ sv, ":%" SVf"-p", |
21528 | SVfARG((MUTABLE_SV(progi->data->data[ ARG( o ) ])))((void*)((((SV *)({ void *_p = (progi->data->data[ (((( struct regnode_1 *)o)->arg1)) ]); _p; })))))); |
21529 | else |
21530 | sv_catpvs(sv, ":NULL")Perl_sv_catpvn_flags( sv, ("" ":NULL" ""), (sizeof(":NULL")-1 ), 2); |
21531 | } |
21532 | #else |
21533 | PERL_UNUSED_CONTEXT; |
21534 | PERL_UNUSED_ARG(sv)((void)sizeof(sv)); |
21535 | PERL_UNUSED_ARG(o)((void)sizeof(o)); |
21536 | PERL_UNUSED_ARG(prog)((void)sizeof(prog)); |
21537 | PERL_UNUSED_ARG(reginfo)((void)sizeof(reginfo)); |
21538 | PERL_UNUSED_ARG(pRExC_state)((void)sizeof(pRExC_state)); |
21539 | #endif /* DEBUGGING */ |
21540 | } |
21541 | |
21542 | |
21543 | |
21544 | SV * |
21545 | Perl_re_intuit_stringmy_re_intuit_string(pTHX_ REGEXP * const r) |
21546 | { /* Assume that RE_INTUIT is set */ |
21547 | /* Returns an SV containing a string that must appear in the target for it |
21548 | * to match, or NULL if nothing is known that must match. |
21549 | * |
21550 | * CAUTION: the SV can be freed during execution of the regex engine */ |
21551 | |
21552 | struct regexp *const prog = ReANY(r)Perl_ReANY((const REGEXP *)(r)); |
21553 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21553, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 21553, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
21554 | |
21555 | PERL_ARGS_ASSERT_RE_INTUIT_STRING((r) ? (void)0 : __assert2("re_comp.c", 21555, __func__, "r") ); |
21556 | PERL_UNUSED_CONTEXT; |
21557 | |
21558 | DEBUG_COMPILE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (prog->maxlen > 0) { const char * const s = ((((((r)-> sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (((r)->sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_u.svu_pv)) : Perl_sv_2pv_flags ( ((r)->sv_flags & 0x20000000) ? prog->substrs-> data[2].utf8_substr : prog->substrs->data[2].substr,0,2 |32)); if (!PL_colorset) Perl_reginitcolors(); Perl_re_printf ( "%sUsing REx %ssubstr:%s \"%s%.60s%s%s\"\n", PL_colors[4], ( (r)->sv_flags & 0x20000000) ? "utf8 " : "", PL_colors[ 5], PL_colors[0], s, PL_colors[1], (strlen(s) > PL_dump_re_max_len ? "..." : "")); } };} while (0) |
21559 | {do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (prog->maxlen > 0) { const char * const s = ((((((r)-> sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (((r)->sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_u.svu_pv)) : Perl_sv_2pv_flags ( ((r)->sv_flags & 0x20000000) ? prog->substrs-> data[2].utf8_substr : prog->substrs->data[2].substr,0,2 |32)); if (!PL_colorset) Perl_reginitcolors(); Perl_re_printf ( "%sUsing REx %ssubstr:%s \"%s%.60s%s%s\"\n", PL_colors[4], ( (r)->sv_flags & 0x20000000) ? "utf8 " : "", PL_colors[ 5], PL_colors[0], s, PL_colors[1], (strlen(s) > PL_dump_re_max_len ? "..." : "")); } };} while (0) |
21560 | if (prog->maxlen > 0) {do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (prog->maxlen > 0) { const char * const s = ((((((r)-> sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (((r)->sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_u.svu_pv)) : Perl_sv_2pv_flags ( ((r)->sv_flags & 0x20000000) ? prog->substrs-> data[2].utf8_substr : prog->substrs->data[2].substr,0,2 |32)); if (!PL_colorset) Perl_reginitcolors(); Perl_re_printf ( "%sUsing REx %ssubstr:%s \"%s%.60s%s%s\"\n", PL_colors[4], ( (r)->sv_flags & 0x20000000) ? "utf8 " : "", PL_colors[ 5], PL_colors[0], s, PL_colors[1], (strlen(s) > PL_dump_re_max_len ? "..." : "")); } };} while (0) |
21561 | const char * const s = SvPV_nolen_const(RX_UTF8(r)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (prog->maxlen > 0) { const char * const s = ((((((r)-> sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (((r)->sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_u.svu_pv)) : Perl_sv_2pv_flags ( ((r)->sv_flags & 0x20000000) ? prog->substrs-> data[2].utf8_substr : prog->substrs->data[2].substr,0,2 |32)); if (!PL_colorset) Perl_reginitcolors(); Perl_re_printf ( "%sUsing REx %ssubstr:%s \"%s%.60s%s%s\"\n", PL_colors[4], ( (r)->sv_flags & 0x20000000) ? "utf8 " : "", PL_colors[ 5], PL_colors[0], s, PL_colors[1], (strlen(s) > PL_dump_re_max_len ? "..." : "")); } };} while (0) |
21562 | ? prog->check_utf8 : prog->check_substr);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (prog->maxlen > 0) { const char * const s = ((((((r)-> sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (((r)->sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_u.svu_pv)) : Perl_sv_2pv_flags ( ((r)->sv_flags & 0x20000000) ? prog->substrs-> data[2].utf8_substr : prog->substrs->data[2].substr,0,2 |32)); if (!PL_colorset) Perl_reginitcolors(); Perl_re_printf ( "%sUsing REx %ssubstr:%s \"%s%.60s%s%s\"\n", PL_colors[4], ( (r)->sv_flags & 0x20000000) ? "utf8 " : "", PL_colors[ 5], PL_colors[0], s, PL_colors[1], (strlen(s) > PL_dump_re_max_len ? "..." : "")); } };} while (0) |
21563 | |
21564 | if (!PL_colorset) reginitcolors();do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (prog->maxlen > 0) { const char * const s = ((((((r)-> sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (((r)->sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_u.svu_pv)) : Perl_sv_2pv_flags ( ((r)->sv_flags & 0x20000000) ? prog->substrs-> data[2].utf8_substr : prog->substrs->data[2].substr,0,2 |32)); if (!PL_colorset) Perl_reginitcolors(); Perl_re_printf ( "%sUsing REx %ssubstr:%s \"%s%.60s%s%s\"\n", PL_colors[4], ( (r)->sv_flags & 0x20000000) ? "utf8 " : "", PL_colors[ 5], PL_colors[0], s, PL_colors[1], (strlen(s) > PL_dump_re_max_len ? "..." : "")); } };} while (0) |
21565 | Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (prog->maxlen > 0) { const char * const s = ((((((r)-> sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (((r)->sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_u.svu_pv)) : Perl_sv_2pv_flags ( ((r)->sv_flags & 0x20000000) ? prog->substrs-> data[2].utf8_substr : prog->substrs->data[2].substr,0,2 |32)); if (!PL_colorset) Perl_reginitcolors(); Perl_re_printf ( "%sUsing REx %ssubstr:%s \"%s%.60s%s%s\"\n", PL_colors[4], ( (r)->sv_flags & 0x20000000) ? "utf8 " : "", PL_colors[ 5], PL_colors[0], s, PL_colors[1], (strlen(s) > PL_dump_re_max_len ? "..." : "")); } };} while (0) |
21566 | "%sUsing REx %ssubstr:%s \"%s%.60s%s%s\"\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (prog->maxlen > 0) { const char * const s = ((((((r)-> sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (((r)->sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_u.svu_pv)) : Perl_sv_2pv_flags ( ((r)->sv_flags & 0x20000000) ? prog->substrs-> data[2].utf8_substr : prog->substrs->data[2].substr,0,2 |32)); if (!PL_colorset) Perl_reginitcolors(); Perl_re_printf ( "%sUsing REx %ssubstr:%s \"%s%.60s%s%s\"\n", PL_colors[4], ( (r)->sv_flags & 0x20000000) ? "utf8 " : "", PL_colors[ 5], PL_colors[0], s, PL_colors[1], (strlen(s) > PL_dump_re_max_len ? "..." : "")); } };} while (0) |
21567 | PL_colors[4],do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (prog->maxlen > 0) { const char * const s = ((((((r)-> sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (((r)->sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_u.svu_pv)) : Perl_sv_2pv_flags ( ((r)->sv_flags & 0x20000000) ? prog->substrs-> data[2].utf8_substr : prog->substrs->data[2].substr,0,2 |32)); if (!PL_colorset) Perl_reginitcolors(); Perl_re_printf ( "%sUsing REx %ssubstr:%s \"%s%.60s%s%s\"\n", PL_colors[4], ( (r)->sv_flags & 0x20000000) ? "utf8 " : "", PL_colors[ 5], PL_colors[0], s, PL_colors[1], (strlen(s) > PL_dump_re_max_len ? "..." : "")); } };} while (0) |
21568 | RX_UTF8(r) ? "utf8 " : "",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (prog->maxlen > 0) { const char * const s = ((((((r)-> sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (((r)->sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_u.svu_pv)) : Perl_sv_2pv_flags ( ((r)->sv_flags & 0x20000000) ? prog->substrs-> data[2].utf8_substr : prog->substrs->data[2].substr,0,2 |32)); if (!PL_colorset) Perl_reginitcolors(); Perl_re_printf ( "%sUsing REx %ssubstr:%s \"%s%.60s%s%s\"\n", PL_colors[4], ( (r)->sv_flags & 0x20000000) ? "utf8 " : "", PL_colors[ 5], PL_colors[0], s, PL_colors[1], (strlen(s) > PL_dump_re_max_len ? "..." : "")); } };} while (0) |
21569 | PL_colors[5], PL_colors[0],do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (prog->maxlen > 0) { const char * const s = ((((((r)-> sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (((r)->sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_u.svu_pv)) : Perl_sv_2pv_flags ( ((r)->sv_flags & 0x20000000) ? prog->substrs-> data[2].utf8_substr : prog->substrs->data[2].substr,0,2 |32)); if (!PL_colorset) Perl_reginitcolors(); Perl_re_printf ( "%sUsing REx %ssubstr:%s \"%s%.60s%s%s\"\n", PL_colors[4], ( (r)->sv_flags & 0x20000000) ? "utf8 " : "", PL_colors[ 5], PL_colors[0], s, PL_colors[1], (strlen(s) > PL_dump_re_max_len ? "..." : "")); } };} while (0) |
21570 | s,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (prog->maxlen > 0) { const char * const s = ((((((r)-> sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (((r)->sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_u.svu_pv)) : Perl_sv_2pv_flags ( ((r)->sv_flags & 0x20000000) ? prog->substrs-> data[2].utf8_substr : prog->substrs->data[2].substr,0,2 |32)); if (!PL_colorset) Perl_reginitcolors(); Perl_re_printf ( "%sUsing REx %ssubstr:%s \"%s%.60s%s%s\"\n", PL_colors[4], ( (r)->sv_flags & 0x20000000) ? "utf8 " : "", PL_colors[ 5], PL_colors[0], s, PL_colors[1], (strlen(s) > PL_dump_re_max_len ? "..." : "")); } };} while (0) |
21571 | PL_colors[1],do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (prog->maxlen > 0) { const char * const s = ((((((r)-> sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (((r)->sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_u.svu_pv)) : Perl_sv_2pv_flags ( ((r)->sv_flags & 0x20000000) ? prog->substrs-> data[2].utf8_substr : prog->substrs->data[2].substr,0,2 |32)); if (!PL_colorset) Perl_reginitcolors(); Perl_re_printf ( "%sUsing REx %ssubstr:%s \"%s%.60s%s%s\"\n", PL_colors[4], ( (r)->sv_flags & 0x20000000) ? "utf8 " : "", PL_colors[ 5], PL_colors[0], s, PL_colors[1], (strlen(s) > PL_dump_re_max_len ? "..." : "")); } };} while (0) |
21572 | (strlen(s) > PL_dump_re_max_len ? "..." : ""));do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (prog->maxlen > 0) { const char * const s = ((((((r)-> sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (((r)->sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_u.svu_pv)) : Perl_sv_2pv_flags ( ((r)->sv_flags & 0x20000000) ? prog->substrs-> data[2].utf8_substr : prog->substrs->data[2].substr,0,2 |32)); if (!PL_colorset) Perl_reginitcolors(); Perl_re_printf ( "%sUsing REx %ssubstr:%s \"%s%.60s%s%s\"\n", PL_colors[4], ( (r)->sv_flags & 0x20000000) ? "utf8 " : "", PL_colors[ 5], PL_colors[0], s, PL_colors[1], (strlen(s) > PL_dump_re_max_len ? "..." : "")); } };} while (0) |
21573 | }do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (prog->maxlen > 0) { const char * const s = ((((((r)-> sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (((r)->sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_u.svu_pv)) : Perl_sv_2pv_flags ( ((r)->sv_flags & 0x20000000) ? prog->substrs-> data[2].utf8_substr : prog->substrs->data[2].substr,0,2 |32)); if (!PL_colorset) Perl_reginitcolors(); Perl_re_printf ( "%sUsing REx %ssubstr:%s \"%s%.60s%s%s\"\n", PL_colors[4], ( (r)->sv_flags & 0x20000000) ? "utf8 " : "", PL_colors[ 5], PL_colors[0], s, PL_colors[1], (strlen(s) > PL_dump_re_max_len ? "..." : "")); } };} while (0) |
21574 | } )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (prog->maxlen > 0) { const char * const s = ((((((r)-> sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (((r)->sv_flags & 0x20000000) ? prog->substrs->data[2].utf8_substr : prog->substrs->data[2].substr)->sv_u.svu_pv)) : Perl_sv_2pv_flags ( ((r)->sv_flags & 0x20000000) ? prog->substrs-> data[2].utf8_substr : prog->substrs->data[2].substr,0,2 |32)); if (!PL_colorset) Perl_reginitcolors(); Perl_re_printf ( "%sUsing REx %ssubstr:%s \"%s%.60s%s%s\"\n", PL_colors[4], ( (r)->sv_flags & 0x20000000) ? "utf8 " : "", PL_colors[ 5], PL_colors[0], s, PL_colors[1], (strlen(s) > PL_dump_re_max_len ? "..." : "")); } };} while (0); |
21575 | |
21576 | /* use UTF8 check substring if regexp pattern itself is in UTF8 */ |
21577 | return RX_UTF8(r)((r)->sv_flags & 0x20000000) ? prog->check_utf8substrs->data[2].utf8_substr : prog->check_substrsubstrs->data[2].substr; |
21578 | } |
21579 | |
21580 | /* |
21581 | pregfree() |
21582 | |
21583 | handles refcounting and freeing the perl core regexp structure. When |
21584 | it is necessary to actually free the structure the first thing it |
21585 | does is call the 'free' method of the regexp_engine associated to |
21586 | the regexp, allowing the handling of the void *pprivate; member |
21587 | first. (This routine is not overridable by extensions, which is why |
21588 | the extensions free is called first.) |
21589 | |
21590 | See regdupe and regdupe_internal if you change anything here. |
21591 | */ |
21592 | #ifndef PERL_IN_XSUB_RE |
21593 | void |
21594 | Perl_pregfree(pTHX_ REGEXP *r) |
21595 | { |
21596 | SvREFCNT_dec(r)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (r); _p; }))); |
21597 | } |
21598 | |
21599 | void |
21600 | Perl_pregfree2(pTHX_ REGEXP *rx) |
21601 | { |
21602 | struct regexp *const r = ReANY(rx)Perl_ReANY((const REGEXP *)(rx)); |
21603 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21603, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 21603, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
21604 | |
21605 | PERL_ARGS_ASSERT_PREGFREE2((rx) ? (void)0 : __assert2("re_comp.c", 21605, __func__, "rx" )); |
21606 | |
21607 | if (! r) |
21608 | return; |
21609 | |
21610 | if (r->mother_re) { |
21611 | ReREFCNT_dec(r->mother_re)({ REGEXP *const _rerefcnt_dec = (r->mother_re); Perl_SvREFCNT_dec ( ((SV *)({ void *_p = (_rerefcnt_dec); _p; }))); }); |
21612 | } else { |
21613 | CALLREGFREE_PVT(rx)if(rx && (((Perl_ReANY((const REGEXP *)(rx)))->engine ))) (((Perl_ReANY((const REGEXP *)(rx)))->engine))->rxfree ( (rx)); /* free the private data */ |
21614 | SvREFCNT_dec(RXp_PAREN_NAMES(r))Perl_SvREFCNT_dec( ((SV *)({ void *_p = (((r)->paren_names )); _p; }))); |
21615 | } |
21616 | if (r->substrs) { |
21617 | int i; |
21618 | for (i = 0; i < 2; i++) { |
21619 | SvREFCNT_dec(r->substrs->data[i].substr)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (r->substrs->data [i].substr); _p; }))); |
21620 | SvREFCNT_dec(r->substrs->data[i].utf8_substr)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (r->substrs->data [i].utf8_substr); _p; }))); |
21621 | } |
21622 | Safefree(r->substrs)Perl_safesysfree(((void *)(r->substrs))); |
21623 | } |
21624 | RX_MATCH_COPY_FREE(rx)do {if ((Perl_ReANY((const REGEXP *)(rx))->saved_copy)) { if ((((Perl_ReANY((const REGEXP *)(rx))->saved_copy))->sv_flags & (0x08000000|0x00010000|0x00000800|0x01000000 |0x00800000 |0x10000000))) Perl_sv_force_normal_flags( (Perl_ReANY((const REGEXP *)(rx))->saved_copy),4); } if ((((Perl_ReANY((const REGEXP *)(rx)))->extflags) & (1U<<(((0 +12) + 2 )+11)))) { Perl_safesysfree(((void *)((Perl_ReANY((const REGEXP *)(rx))->subbeg)))); (((Perl_ReANY((const REGEXP *)(rx))) ->extflags) &= ~(1U<<(((0 +12) + 2)+11))); }} while (0); |
21625 | #ifdef PERL_ANY_COW |
21626 | SvREFCNT_dec(r->saved_copy)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (r->saved_copy); _p ; }))); |
21627 | #endif |
21628 | Safefree(r->offs)Perl_safesysfree(((void *)(r->offs))); |
21629 | SvREFCNT_dec(r->qr_anoncv)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (r->qr_anoncv); _p ; }))); |
21630 | if (r->recurse_locinput) |
21631 | Safefree(r->recurse_locinput)Perl_safesysfree(((void *)(r->recurse_locinput))); |
21632 | } |
21633 | |
21634 | |
21635 | /* reg_temp_copy() |
21636 | |
21637 | Copy ssv to dsv, both of which should of type SVt_REGEXP or SVt_PVLV, |
21638 | except that dsv will be created if NULL. |
21639 | |
21640 | This function is used in two main ways. First to implement |
21641 | $r = qr/....; $s = $$r; |
21642 | |
21643 | Secondly, it is used as a hacky workaround to the structural issue of |
21644 | match results |
21645 | being stored in the regexp structure which is in turn stored in |
21646 | PL_curpm/PL_reg_curpm. The problem is that due to qr// the pattern |
21647 | could be PL_curpm in multiple contexts, and could require multiple |
21648 | result sets being associated with the pattern simultaneously, such |
21649 | as when doing a recursive match with (??{$qr}) |
21650 | |
21651 | The solution is to make a lightweight copy of the regexp structure |
21652 | when a qr// is returned from the code executed by (??{$qr}) this |
21653 | lightweight copy doesn't actually own any of its data except for |
21654 | the starp/end and the actual regexp structure itself. |
21655 | |
21656 | */ |
21657 | |
21658 | |
21659 | REGEXP * |
21660 | Perl_reg_temp_copy(pTHX_ REGEXP *dsv, REGEXP *ssv) |
21661 | { |
21662 | struct regexp *drx; |
21663 | struct regexp *const srx = ReANY(ssv)Perl_ReANY((const REGEXP *)(ssv)); |
21664 | const bool_Bool islv = dsv && SvTYPE(dsv)((svtype)((dsv)->sv_flags & 0xff)) == SVt_PVLV; |
21665 | |
21666 | PERL_ARGS_ASSERT_REG_TEMP_COPY((ssv) ? (void)0 : __assert2("re_comp.c", 21666, __func__, "ssv" )); |
21667 | |
21668 | if (!dsv) |
21669 | dsv = (REGEXP*) newSV_type(SVt_REGEXP)Perl_newSV_type( SVt_REGEXP); |
21670 | else { |
21671 | assert(SvTYPE(dsv) == SVt_REGEXP || (SvTYPE(dsv) == SVt_PVLV))((((svtype)((dsv)->sv_flags & 0xff)) == SVt_REGEXP || ( ((svtype)((dsv)->sv_flags & 0xff)) == SVt_PVLV)) ? (void )0 : __assert2("re_comp.c", 21671, __func__, "SvTYPE(dsv) == SVt_REGEXP || (SvTYPE(dsv) == SVt_PVLV)" )); |
21672 | |
21673 | /* our only valid caller, sv_setsv_flags(), should have done |
21674 | * a SV_CHECK_THINKFIRST_COW_DROP() by now */ |
21675 | assert(!SvOOK(dsv))((!((dsv)->sv_flags & 0x02000000)) ? (void)0 : __assert2 ("re_comp.c", 21675, __func__, "!SvOOK(dsv)")); |
21676 | assert(!SvIsCOW(dsv))((!((dsv)->sv_flags & 0x10000000)) ? (void)0 : __assert2 ("re_comp.c", 21676, __func__, "!SvIsCOW(dsv)")); |
21677 | assert(!SvROK(dsv))((!((dsv)->sv_flags & 0x00000800)) ? (void)0 : __assert2 ("re_comp.c", 21677, __func__, "!SvROK(dsv)")); |
21678 | |
21679 | if (SvPVX_const(dsv)((const char*)(0 + (dsv)->sv_u.svu_pv))) { |
21680 | if (SvLEN(dsv)((XPV*) (dsv)->sv_any)->xpv_len_u.xpvlenu_len) |
21681 | Safefree(SvPVX(dsv))Perl_safesysfree(((void *)((*({ SV *const _svpvx = ((SV *)({ void *_p = (dsv); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 21681, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21681, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21681, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))))); |
21682 | SvPVX(dsv)(*({ SV *const _svpvx = ((SV *)({ void *_p = (dsv); _p; })); ( (PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21682, __func__ , "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]")); ((!( (((_svpvx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 21682, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 21682, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) = NULL((void*)0); |
21683 | } |
21684 | SvLEN_set(dsv, 0)do { ((PL_valid_types_PVX[((svtype)((dsv)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21684, __func__ , "PL_valid_types_PVX[SvTYPE(dsv) & SVt_MASK]")); ((!(((( dsv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((dsv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((dsv)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21684, __func__, "!isGV_with_GP(dsv)" )); ((!(((svtype)((dsv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (dsv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 21684, __func__, "!(SvTYPE(dsv) == SVt_PVIO && !(IoFLAGS(dsv) & IOf_FAKE_DIRP))" )); (((XPV*) (dsv)->sv_any)->xpv_len_u.xpvlenu_len = (0 )); } while (0); |
21685 | SvCUR_set(dsv, 0)do { ((PL_valid_types_PVX[((svtype)((dsv)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21685, __func__ , "PL_valid_types_PVX[SvTYPE(dsv) & SVt_MASK]")); ((!(((( dsv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((dsv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((dsv)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21685, __func__, "!isGV_with_GP(dsv)" )); ((!(((svtype)((dsv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (dsv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 21685, __func__, "!(SvTYPE(dsv) == SVt_PVIO && !(IoFLAGS(dsv) & IOf_FAKE_DIRP))" )); (((XPV*) (dsv)->sv_any)->xpv_cur = (0)); } while (0 ); |
21686 | SvOK_off((SV *)dsv)(((!(((SV *)dsv)->sv_flags & 0x00000800) || !(*({ SV * const _svrv = ((SV *)({ void *_p = ((SV *)dsv); _p; })); ((PL_valid_types_RV [((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 21686, __func__, "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]" )); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21686, __func__ , "!isGV_with_GP(_svrv)")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21686, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); }))) ? (void)0 : __assert2 ("re_comp.c", 21686, __func__, "!(((SV *)dsv)->sv_flags & 0x00000800) || !(*({ SV *const _svrv = ((SV *)({ void *_p = ((SV *)dsv); _p; })); ((PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2(\"re_comp.c\", 21686, __func__, \"PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]\")); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2(\"re_comp.c\", 21686, __func__, \"!isGV_with_GP(_svrv)\")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2(\"re_comp.c\", 21686, __func__, \"!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))\")); &((_svrv)->sv_u.svu_rv); }))" )), ((!(((((SV *)dsv)->sv_flags & (0x00004000|0x00008000 )) == 0x00008000) && (((svtype)(((SV *)dsv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)(((SV *)dsv)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c" , 21686, __func__, "!(((((SV *)dsv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)(((SV *)dsv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)(((SV *)dsv)->sv_flags & 0xff)) == SVt_PVLV))" )), ((SV *)dsv)->sv_flags &= ~((0x00000100|0x00000200| 0x00000400|0x00000800| 0x00001000|0x00002000|0x00004000|0x00008000 )| 0x80000000|0x20000000), ((void)((((SV *)dsv)->sv_flags & 0x02000000) && (Perl_sv_backoff((SV *)dsv),0)))); |
21687 | |
21688 | if (islv) { |
21689 | /* For PVLVs, the head (sv_any) points to an XPVLV, while |
21690 | * the LV's xpvlenu_rx will point to a regexp body, which |
21691 | * we allocate here */ |
21692 | REGEXP *temp = (REGEXP *)newSV_type(SVt_REGEXP)Perl_newSV_type( SVt_REGEXP); |
21693 | assert(!SvPVX(dsv))((!(*({ SV *const _svpvx = ((SV *)({ void *_p = (dsv); _p; }) ); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21693 , __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21693, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21693, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))) ? (void)0 : __assert2 ("re_comp.c", 21693, __func__, "!SvPVX(dsv)")); |
21694 | ((XPV*)SvANY(dsv)(dsv)->sv_any)->xpv_len_u.xpvlenu_rx = temp->sv_any; |
21695 | temp->sv_any = NULL((void*)0); |
21696 | SvFLAGS(temp)(temp)->sv_flags = (SvFLAGS(temp)(temp)->sv_flags & ~SVTYPEMASK0xff) | SVt_NULL; |
21697 | SvREFCNT_dec_NN(temp)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (temp); _p; }))); |
21698 | /* SvCUR still resides in the xpvlv struct, so the regexp copy- |
21699 | ing below will not set it. */ |
21700 | SvCUR_set(dsv, SvCUR(ssv))do { ((PL_valid_types_PVX[((svtype)((dsv)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21700, __func__ , "PL_valid_types_PVX[SvTYPE(dsv) & SVt_MASK]")); ((!(((( dsv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((dsv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((dsv)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21700, __func__, "!isGV_with_GP(dsv)" )); ((!(((svtype)((dsv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (dsv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 21700, __func__, "!(SvTYPE(dsv) == SVt_PVIO && !(IoFLAGS(dsv) & IOf_FAKE_DIRP))" )); (((XPV*) (dsv)->sv_any)->xpv_cur = ((*({ const SV * const _svcur = (const SV *)(ssv); ((PL_valid_types_PVX[((svtype )((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21700, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21700, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21700, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })))); } while (0); |
21701 | } |
21702 | } |
21703 | /* This ensures that SvTHINKFIRST(sv) is true, and hence that |
21704 | sv_force_normal(sv) is called. */ |
21705 | SvFAKE_on(dsv)((dsv)->sv_flags |= 0x01000000); |
21706 | drx = ReANY(dsv)Perl_ReANY((const REGEXP *)(dsv)); |
21707 | |
21708 | SvFLAGS(dsv)(dsv)->sv_flags |= SvFLAGS(ssv)(ssv)->sv_flags & (SVf_POK0x00000400|SVp_POK0x00004000|SVf_UTF80x20000000); |
21709 | SvPV_set(dsv, RX_WRAPPED(ssv))do { ((PL_valid_types_PVX[((svtype)((dsv)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21709, __func__ , "PL_valid_types_PVX[SvTYPE(dsv) & SVt_MASK]")); ((!(((( dsv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((dsv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((dsv)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21709, __func__, "!isGV_with_GP(dsv)" )); ((!(((svtype)((dsv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (dsv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 21709, __func__, "!(SvTYPE(dsv) == SVt_PVIO && !(IoFLAGS(dsv) & IOf_FAKE_DIRP))" )); ((dsv)->sv_u.svu_pv = ((*({ SV *const _svpvx = ((SV *) ({ void *_p = (ssv); _p; })); ((PL_valid_types_PVX[((svtype)( (_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 21709, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21709, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21709, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })))); } while (0); |
21710 | /* We share the same string buffer as the original regexp, on which we |
21711 | hold a reference count, incremented when mother_re is set below. |
21712 | The string pointer is copied here, being part of the regexp struct. |
21713 | */ |
21714 | memcpy(&(drx->xpv_cur), &(srx->xpv_cur), |
21715 | sizeof(regexp) - STRUCT_OFFSET(regexp, xpv_cur)__builtin_offsetof(regexp, xpv_cur)); |
21716 | if (!islv) |
21717 | SvLEN_set(dsv, 0)do { ((PL_valid_types_PVX[((svtype)((dsv)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21717, __func__ , "PL_valid_types_PVX[SvTYPE(dsv) & SVt_MASK]")); ((!(((( dsv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((dsv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((dsv)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21717, __func__, "!isGV_with_GP(dsv)" )); ((!(((svtype)((dsv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (dsv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 21717, __func__, "!(SvTYPE(dsv) == SVt_PVIO && !(IoFLAGS(dsv) & IOf_FAKE_DIRP))" )); (((XPV*) (dsv)->sv_any)->xpv_len_u.xpvlenu_len = (0 )); } while (0); |
21718 | if (srx->offs) { |
21719 | const I32 npar = srx->nparens+1; |
21720 | Newx(drx->offs, npar, regexp_paren_pair)(drx->offs = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(npar) || sizeof(regexp_paren_pair) > ((size_t )1 << 8*(sizeof(size_t) - sizeof(npar)))) ? (size_t)(npar ) : ((size_t)-1)/sizeof(regexp_paren_pair)) > ((size_t)-1) /sizeof(regexp_paren_pair))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), (regexp_paren_pair*)(Perl_safesysmalloc ((size_t)((npar)*sizeof(regexp_paren_pair)))))); |
21721 | Copy(srx->offs, drx->offs, npar, regexp_paren_pair)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(npar ) || sizeof(regexp_paren_pair) > ((size_t)1 << 8*(sizeof (size_t) - sizeof(npar)))) ? (size_t)(npar) : ((size_t)-1)/sizeof (regexp_paren_pair)) > ((size_t)-1)/sizeof(regexp_paren_pair ))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)(drx->offs)) != 0) ? (void)0 : __assert2 ("re_comp.c", 21721, __func__, "((void*)(drx->offs)) != 0" )), ((((void*)(srx->offs)) != 0) ? (void)0 : __assert2("re_comp.c" , 21721, __func__, "((void*)(srx->offs)) != 0")), (void)memcpy ((char*)(drx->offs),(const char*)(srx->offs), (npar) * sizeof (regexp_paren_pair))); |
21722 | } |
21723 | if (srx->substrs) { |
21724 | int i; |
21725 | Newx(drx->substrs, 1, struct reg_substr_data)(drx->substrs = ((void)(__builtin_expect(((((( sizeof(size_t ) < sizeof(1) || sizeof(struct reg_substr_data) > ((size_t )1 << 8*(sizeof(size_t) - sizeof(1)))) ? (size_t)(1) : ( (size_t)-1)/sizeof(struct reg_substr_data)) > ((size_t)-1) /sizeof(struct reg_substr_data))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), (struct reg_substr_data *)(Perl_safesysmalloc((size_t)((1)*sizeof(struct reg_substr_data )))))); |
21726 | StructCopy(srx->substrs, drx->substrs, struct reg_substr_data)(*((struct reg_substr_data*)(drx->substrs)) = *((struct reg_substr_data *)(srx->substrs))); |
21727 | |
21728 | for (i = 0; i < 2; i++) { |
21729 | SvREFCNT_inc_void(drx->substrs->data[i].substr)Perl_SvREFCNT_inc_void(((SV *)({ void *_p = (drx->substrs-> data[i].substr); _p; }))); |
21730 | SvREFCNT_inc_void(drx->substrs->data[i].utf8_substr)Perl_SvREFCNT_inc_void(((SV *)({ void *_p = (drx->substrs-> data[i].utf8_substr); _p; }))); |
21731 | } |
21732 | |
21733 | /* check_substr and check_utf8, if non-NULL, point to either their |
21734 | anchored or float namesakes, and don't hold a second reference. */ |
21735 | } |
21736 | RX_MATCH_COPIED_off(dsv)(((Perl_ReANY((const REGEXP *)(dsv)))->extflags) &= ~( 1U<<(((0 +12) + 2)+11))); |
21737 | #ifdef PERL_ANY_COW |
21738 | drx->saved_copy = NULL((void*)0); |
21739 | #endif |
21740 | drx->mother_re = ReREFCNT_inc(srx->mother_re ? srx->mother_re : ssv)({ REGEXP *const _rerefcnt_inc = (srx->mother_re ? srx-> mother_re : ssv); ((((svtype)((_rerefcnt_inc)->sv_flags & 0xff)) == SVt_REGEXP) ? (void)0 : __assert2("re_comp.c", 21740 , __func__, "SvTYPE(_rerefcnt_inc) == SVt_REGEXP")); Perl_SvREFCNT_inc (((SV *)({ void *_p = (_rerefcnt_inc); _p; }))); _rerefcnt_inc ; }); |
21741 | SvREFCNT_inc_void(drx->qr_anoncv)Perl_SvREFCNT_inc_void(((SV *)({ void *_p = (drx->qr_anoncv ); _p; }))); |
21742 | if (srx->recurse_locinput) |
21743 | Newx(drx->recurse_locinput, srx->nparens + 1, char *)(drx->recurse_locinput = ((void)(__builtin_expect(((((( sizeof (size_t) < sizeof(srx->nparens + 1) || sizeof(char *) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(srx->nparens + 1)))) ? (size_t)(srx->nparens + 1) : ((size_t)-1)/sizeof (char *)) > ((size_t)-1)/sizeof(char *))) ? (_Bool)1 : (_Bool )0),(0)) && (Perl_croak_memory_wrap(),0)), (char **)( Perl_safesysmalloc((size_t)((srx->nparens + 1)*sizeof(char *)))))); |
21744 | |
21745 | return dsv; |
21746 | } |
21747 | #endif |
21748 | |
21749 | |
21750 | /* regfree_internal() |
21751 | |
21752 | Free the private data in a regexp. This is overloadable by |
21753 | extensions. Perl takes care of the regexp structure in pregfree(), |
21754 | this covers the *pprivate pointer which technically perl doesn't |
21755 | know about, however of course we have to handle the |
21756 | regexp_internal structure when no extension is in use. |
21757 | |
21758 | Note this is called before freeing anything in the regexp |
21759 | structure. |
21760 | */ |
21761 | |
21762 | void |
21763 | Perl_regfree_internalmy_regfree(pTHX_ REGEXP * const rx) |
21764 | { |
21765 | struct regexp *const r = ReANY(rx)Perl_ReANY((const REGEXP *)(rx)); |
21766 | RXi_GET_DECL(r, ri)regexp_internal *ri = ((regexp_internal *)((r)->pprivate)); |
21767 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21767, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 21767, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
21768 | |
21769 | PERL_ARGS_ASSERT_REGFREE_INTERNAL((rx) ? (void)0 : __assert2("re_comp.c", 21769, __func__, "rx" )); |
21770 | |
21771 | if (! ri) { |
21772 | return; |
21773 | } |
21774 | |
21775 | DEBUG_COMPILE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (!PL_colorset) Perl_reginitcolors(); { SV *dsv= Perl_sv_newmortal (); const char * const s = Perl_pv_pretty( (dsv),(((*({ SV *const _svpvx = ((SV *)({ void *_p = (rx); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 21781, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21781, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21781, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) + Perl_ReANY((const REGEXP *)(rx))->pre_prefix)),(((*({ const SV *const _svcur = (const SV *)(rx); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21781, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21781, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21781, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - Perl_ReANY((const REGEXP *)(rx))->pre_prefix - 1)),(PL_dump_re_max_len),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((((rx)->sv_flags & 0x20000000)) ? 0x000100 : 0))); Perl_re_printf( "%sFreeing REx:%s %s\n" , PL_colors[4], PL_colors[5], s); } };} while (0) |
21776 | if (!PL_colorset)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (!PL_colorset) Perl_reginitcolors(); { SV *dsv= Perl_sv_newmortal (); const char * const s = Perl_pv_pretty( (dsv),(((*({ SV *const _svpvx = ((SV *)({ void *_p = (rx); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 21781, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21781, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21781, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) + Perl_ReANY((const REGEXP *)(rx))->pre_prefix)),(((*({ const SV *const _svcur = (const SV *)(rx); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21781, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21781, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21781, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - Perl_ReANY((const REGEXP *)(rx))->pre_prefix - 1)),(PL_dump_re_max_len),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((((rx)->sv_flags & 0x20000000)) ? 0x000100 : 0))); Perl_re_printf( "%sFreeing REx:%s %s\n" , PL_colors[4], PL_colors[5], s); } };} while (0) |
21777 | reginitcolors();do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (!PL_colorset) Perl_reginitcolors(); { SV *dsv= Perl_sv_newmortal (); const char * const s = Perl_pv_pretty( (dsv),(((*({ SV *const _svpvx = ((SV *)({ void *_p = (rx); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 21781, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21781, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21781, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) + Perl_ReANY((const REGEXP *)(rx))->pre_prefix)),(((*({ const SV *const _svcur = (const SV *)(rx); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21781, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21781, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21781, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - Perl_ReANY((const REGEXP *)(rx))->pre_prefix - 1)),(PL_dump_re_max_len),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((((rx)->sv_flags & 0x20000000)) ? 0x000100 : 0))); Perl_re_printf( "%sFreeing REx:%s %s\n" , PL_colors[4], PL_colors[5], s); } };} while (0) |
21778 | {do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (!PL_colorset) Perl_reginitcolors(); { SV *dsv= Perl_sv_newmortal (); const char * const s = Perl_pv_pretty( (dsv),(((*({ SV *const _svpvx = ((SV *)({ void *_p = (rx); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 21781, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21781, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21781, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) + Perl_ReANY((const REGEXP *)(rx))->pre_prefix)),(((*({ const SV *const _svcur = (const SV *)(rx); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21781, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21781, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21781, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - Perl_ReANY((const REGEXP *)(rx))->pre_prefix - 1)),(PL_dump_re_max_len),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((((rx)->sv_flags & 0x20000000)) ? 0x000100 : 0))); Perl_re_printf( "%sFreeing REx:%s %s\n" , PL_colors[4], PL_colors[5], s); } };} while (0) |
21779 | SV *dsv= sv_newmortal();do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (!PL_colorset) Perl_reginitcolors(); { SV *dsv= Perl_sv_newmortal (); const char * const s = Perl_pv_pretty( (dsv),(((*({ SV *const _svpvx = ((SV *)({ void *_p = (rx); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 21781, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21781, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21781, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) + Perl_ReANY((const REGEXP *)(rx))->pre_prefix)),(((*({ const SV *const _svcur = (const SV *)(rx); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21781, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21781, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21781, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - Perl_ReANY((const REGEXP *)(rx))->pre_prefix - 1)),(PL_dump_re_max_len),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((((rx)->sv_flags & 0x20000000)) ? 0x000100 : 0))); Perl_re_printf( "%sFreeing REx:%s %s\n" , PL_colors[4], PL_colors[5], s); } };} while (0) |
21780 | RE_PV_QUOTED_DECL(s, RX_UTF8(rx),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (!PL_colorset) Perl_reginitcolors(); { SV *dsv= Perl_sv_newmortal (); const char * const s = Perl_pv_pretty( (dsv),(((*({ SV *const _svpvx = ((SV *)({ void *_p = (rx); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 21781, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21781, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21781, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) + Perl_ReANY((const REGEXP *)(rx))->pre_prefix)),(((*({ const SV *const _svcur = (const SV *)(rx); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21781, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21781, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21781, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - Perl_ReANY((const REGEXP *)(rx))->pre_prefix - 1)),(PL_dump_re_max_len),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((((rx)->sv_flags & 0x20000000)) ? 0x000100 : 0))); Perl_re_printf( "%sFreeing REx:%s %s\n" , PL_colors[4], PL_colors[5], s); } };} while (0) |
21781 | dsv, RX_PRECOMP(rx), RX_PRELEN(rx), PL_dump_re_max_len);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (!PL_colorset) Perl_reginitcolors(); { SV *dsv= Perl_sv_newmortal (); const char * const s = Perl_pv_pretty( (dsv),(((*({ SV *const _svpvx = ((SV *)({ void *_p = (rx); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 21781, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21781, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21781, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) + Perl_ReANY((const REGEXP *)(rx))->pre_prefix)),(((*({ const SV *const _svcur = (const SV *)(rx); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21781, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21781, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21781, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - Perl_ReANY((const REGEXP *)(rx))->pre_prefix - 1)),(PL_dump_re_max_len),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((((rx)->sv_flags & 0x20000000)) ? 0x000100 : 0))); Perl_re_printf( "%sFreeing REx:%s %s\n" , PL_colors[4], PL_colors[5], s); } };} while (0) |
21782 | Perl_re_printf( aTHX_ "%sFreeing REx:%s %s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (!PL_colorset) Perl_reginitcolors(); { SV *dsv= Perl_sv_newmortal (); const char * const s = Perl_pv_pretty( (dsv),(((*({ SV *const _svpvx = ((SV *)({ void *_p = (rx); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 21781, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21781, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21781, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) + Perl_ReANY((const REGEXP *)(rx))->pre_prefix)),(((*({ const SV *const _svcur = (const SV *)(rx); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21781, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21781, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21781, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - Perl_ReANY((const REGEXP *)(rx))->pre_prefix - 1)),(PL_dump_re_max_len),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((((rx)->sv_flags & 0x20000000)) ? 0x000100 : 0))); Perl_re_printf( "%sFreeing REx:%s %s\n" , PL_colors[4], PL_colors[5], s); } };} while (0) |
21783 | PL_colors[4], PL_colors[5], s);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (!PL_colorset) Perl_reginitcolors(); { SV *dsv= Perl_sv_newmortal (); const char * const s = Perl_pv_pretty( (dsv),(((*({ SV *const _svpvx = ((SV *)({ void *_p = (rx); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 21781, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21781, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21781, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) + Perl_ReANY((const REGEXP *)(rx))->pre_prefix)),(((*({ const SV *const _svcur = (const SV *)(rx); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21781, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21781, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21781, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - Perl_ReANY((const REGEXP *)(rx))->pre_prefix - 1)),(PL_dump_re_max_len),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((((rx)->sv_flags & 0x20000000)) ? 0x000100 : 0))); Perl_re_printf( "%sFreeing REx:%s %s\n" , PL_colors[4], PL_colors[5], s); } };} while (0) |
21784 | }do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (!PL_colorset) Perl_reginitcolors(); { SV *dsv= Perl_sv_newmortal (); const char * const s = Perl_pv_pretty( (dsv),(((*({ SV *const _svpvx = ((SV *)({ void *_p = (rx); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 21781, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21781, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21781, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) + Perl_ReANY((const REGEXP *)(rx))->pre_prefix)),(((*({ const SV *const _svcur = (const SV *)(rx); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21781, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21781, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21781, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - Perl_ReANY((const REGEXP *)(rx))->pre_prefix - 1)),(PL_dump_re_max_len),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((((rx)->sv_flags & 0x20000000)) ? 0x000100 : 0))); Perl_re_printf( "%sFreeing REx:%s %s\n" , PL_colors[4], PL_colors[5], s); } };} while (0) |
21785 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0000FF))) { if (!PL_colorset) Perl_reginitcolors(); { SV *dsv= Perl_sv_newmortal (); const char * const s = Perl_pv_pretty( (dsv),(((*({ SV *const _svpvx = ((SV *)({ void *_p = (rx); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 21781, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21781, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21781, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) + Perl_ReANY((const REGEXP *)(rx))->pre_prefix)),(((*({ const SV *const _svcur = (const SV *)(rx); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21781, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21781, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21781, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - Perl_ReANY((const REGEXP *)(rx))->pre_prefix - 1)),(PL_dump_re_max_len),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((((rx)->sv_flags & 0x20000000)) ? 0x000100 : 0))); Perl_re_printf( "%sFreeing REx:%s %s\n" , PL_colors[4], PL_colors[5], s); } };} while (0); |
21786 | |
21787 | #ifdef RE_TRACK_PATTERN_OFFSETS |
21788 | if (ri->u.offsets) |
21789 | Safefree(ri->u.offsets)Perl_safesysfree(((void *)(ri->u.offsets))); /* 20010421 MJD */ |
21790 | #endif |
21791 | if (ri->code_blocks) |
21792 | S_free_codeblocks(aTHX_ ri->code_blocks); |
21793 | |
21794 | if (ri->data) { |
21795 | int n = ri->data->count; |
21796 | |
21797 | while (--n >= 0) { |
21798 | /* If you add a ->what type here, update the comment in regcomp.h */ |
21799 | switch (ri->data->what[n]) { |
21800 | case 'a': |
21801 | case 'r': |
21802 | case 's': |
21803 | case 'S': |
21804 | case 'u': |
21805 | SvREFCNT_dec(MUTABLE_SV(ri->data->data[n]))Perl_SvREFCNT_dec( ((SV *)({ void *_p = (((SV *)({ void *_p = (ri->data->data[n]); _p; }))); _p; }))); |
21806 | break; |
21807 | case 'f': |
21808 | Safefree(ri->data->data[n])Perl_safesysfree(((void *)(ri->data->data[n]))); |
21809 | break; |
21810 | case 'l': |
21811 | case 'L': |
21812 | break; |
21813 | case 'T': |
21814 | { /* Aho Corasick add-on structure for a trie node. |
21815 | Used in stclass optimization only */ |
21816 | U32 refcount; |
21817 | reg_ac_data *aho=(reg_ac_data*)ri->data->data[n]; |
21818 | #ifdef USE_ITHREADS |
21819 | dVARstruct Perl___notused_struct; |
21820 | #endif |
21821 | OP_REFCNT_LOCK(void)0; |
21822 | refcount = --aho->refcount; |
21823 | OP_REFCNT_UNLOCK(void)0; |
21824 | if ( !refcount ) { |
21825 | PerlMemShared_free(aho->states)free((aho->states)); |
21826 | PerlMemShared_free(aho->fail)free((aho->fail)); |
21827 | /* do this last!!!! */ |
21828 | PerlMemShared_free(ri->data->data[n])free((ri->data->data[n])); |
21829 | /* we should only ever get called once, so |
21830 | * assert as much, and also guard the free |
21831 | * which /might/ happen twice. At the least |
21832 | * it will make code anlyzers happy and it |
21833 | * doesn't cost much. - Yves */ |
21834 | assert(ri->regstclass)((ri->regstclass) ? (void)0 : __assert2("re_comp.c", 21834 , __func__, "ri->regstclass")); |
21835 | if (ri->regstclass) { |
21836 | PerlMemShared_free(ri->regstclass)free((ri->regstclass)); |
21837 | ri->regstclass = 0; |
21838 | } |
21839 | } |
21840 | } |
21841 | break; |
21842 | case 't': |
21843 | { |
21844 | /* trie structure. */ |
21845 | U32 refcount; |
21846 | reg_trie_data *trie=(reg_trie_data*)ri->data->data[n]; |
21847 | #ifdef USE_ITHREADS |
21848 | dVARstruct Perl___notused_struct; |
21849 | #endif |
21850 | OP_REFCNT_LOCK(void)0; |
21851 | refcount = --trie->refcount; |
21852 | OP_REFCNT_UNLOCK(void)0; |
21853 | if ( !refcount ) { |
21854 | PerlMemShared_free(trie->charmap)free((trie->charmap)); |
21855 | PerlMemShared_free(trie->states)free((trie->states)); |
21856 | PerlMemShared_free(trie->trans)free((trie->trans)); |
21857 | if (trie->bitmap) |
21858 | PerlMemShared_free(trie->bitmap)free((trie->bitmap)); |
21859 | if (trie->jump) |
21860 | PerlMemShared_free(trie->jump)free((trie->jump)); |
21861 | PerlMemShared_free(trie->wordinfo)free((trie->wordinfo)); |
21862 | /* do this last!!!! */ |
21863 | PerlMemShared_free(ri->data->data[n])free((ri->data->data[n])); |
21864 | } |
21865 | } |
21866 | break; |
21867 | default: |
21868 | Perl_croak(aTHX_ "panic: regfree data code '%c'", |
21869 | ri->data->what[n]); |
21870 | } |
21871 | } |
21872 | Safefree(ri->data->what)Perl_safesysfree(((void *)(ri->data->what))); |
21873 | Safefree(ri->data)Perl_safesysfree(((void *)(ri->data))); |
21874 | } |
21875 | |
21876 | Safefree(ri)Perl_safesysfree(((void *)(ri))); |
21877 | } |
21878 | |
21879 | #define av_dup_inc(s, t)((AV *)({ void *_p = (sv_dup_inc((const SV *)s, t)); _p; })) MUTABLE_AV(sv_dup_inc((const SV *)s, t))((AV *)({ void *_p = (sv_dup_inc((const SV *)s, t)); _p; })) |
21880 | #define hv_dup_inc(s, t)((HV *)({ void *_p = (sv_dup_inc((const SV *)s, t)); _p; })) MUTABLE_HV(sv_dup_inc((const SV *)s, t))((HV *)({ void *_p = (sv_dup_inc((const SV *)s, t)); _p; })) |
21881 | #define SAVEPVN(p, n)((p) ? Perl_savepvn( p,n) : ((void*)0)) ((p) ? savepvn(p, n)Perl_savepvn( p,n) : NULL((void*)0)) |
21882 | |
21883 | /* |
21884 | re_dup_guts - duplicate a regexp. |
21885 | |
21886 | This routine is expected to clone a given regexp structure. It is only |
21887 | compiled under USE_ITHREADS. |
21888 | |
21889 | After all of the core data stored in struct regexp is duplicated |
21890 | the regexp_engine.dupe method is used to copy any private data |
21891 | stored in the *pprivate pointer. This allows extensions to handle |
21892 | any duplication it needs to do. |
21893 | |
21894 | See pregfree() and regfree_internal() if you change anything here. |
21895 | */ |
21896 | #if defined(USE_ITHREADS) |
21897 | #ifndef PERL_IN_XSUB_RE |
21898 | void |
21899 | Perl_re_dup_guts(pTHX_ const REGEXP *sstr, REGEXP *dstr, CLONE_PARAMS *param) |
21900 | { |
21901 | dVARstruct Perl___notused_struct; |
21902 | I32 npar; |
21903 | const struct regexp *r = ReANY(sstr)Perl_ReANY((const REGEXP *)(sstr)); |
21904 | struct regexp *ret = ReANY(dstr)Perl_ReANY((const REGEXP *)(dstr)); |
21905 | |
21906 | PERL_ARGS_ASSERT_RE_DUP_GUTS; |
21907 | |
21908 | npar = r->nparens+1; |
21909 | Newx(ret->offs, npar, regexp_paren_pair)(ret->offs = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(npar) || sizeof(regexp_paren_pair) > ((size_t )1 << 8*(sizeof(size_t) - sizeof(npar)))) ? (size_t)(npar ) : ((size_t)-1)/sizeof(regexp_paren_pair)) > ((size_t)-1) /sizeof(regexp_paren_pair))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), (regexp_paren_pair*)(Perl_safesysmalloc ((size_t)((npar)*sizeof(regexp_paren_pair)))))); |
21910 | Copy(r->offs, ret->offs, npar, regexp_paren_pair)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(npar ) || sizeof(regexp_paren_pair) > ((size_t)1 << 8*(sizeof (size_t) - sizeof(npar)))) ? (size_t)(npar) : ((size_t)-1)/sizeof (regexp_paren_pair)) > ((size_t)-1)/sizeof(regexp_paren_pair ))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)(ret->offs)) != 0) ? (void)0 : __assert2 ("re_comp.c", 21910, __func__, "((void*)(ret->offs)) != 0" )), ((((void*)(r->offs)) != 0) ? (void)0 : __assert2("re_comp.c" , 21910, __func__, "((void*)(r->offs)) != 0")), (void)memcpy ((char*)(ret->offs),(const char*)(r->offs), (npar) * sizeof (regexp_paren_pair))); |
21911 | |
21912 | if (ret->substrs) { |
21913 | /* Do it this way to avoid reading from *r after the StructCopy(). |
21914 | That way, if any of the sv_dup_inc()s dislodge *r from the L1 |
21915 | cache, it doesn't matter. */ |
21916 | int i; |
21917 | const bool_Bool anchored = r->check_substrsubstrs->data[2].substr |
21918 | ? r->check_substrsubstrs->data[2].substr == r->substrs->data[0].substr |
21919 | : r->check_utf8substrs->data[2].utf8_substr == r->substrs->data[0].utf8_substr; |
21920 | Newx(ret->substrs, 1, struct reg_substr_data)(ret->substrs = ((void)(__builtin_expect(((((( sizeof(size_t ) < sizeof(1) || sizeof(struct reg_substr_data) > ((size_t )1 << 8*(sizeof(size_t) - sizeof(1)))) ? (size_t)(1) : ( (size_t)-1)/sizeof(struct reg_substr_data)) > ((size_t)-1) /sizeof(struct reg_substr_data))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), (struct reg_substr_data *)(Perl_safesysmalloc((size_t)((1)*sizeof(struct reg_substr_data )))))); |
21921 | StructCopy(r->substrs, ret->substrs, struct reg_substr_data)(*((struct reg_substr_data*)(ret->substrs)) = *((struct reg_substr_data *)(r->substrs))); |
21922 | |
21923 | for (i = 0; i < 2; i++) { |
21924 | ret->substrs->data[i].substr = |
21925 | sv_dup_inc(ret->substrs->data[i].substr, param); |
21926 | ret->substrs->data[i].utf8_substr = |
21927 | sv_dup_inc(ret->substrs->data[i].utf8_substr, param); |
21928 | } |
21929 | |
21930 | /* check_substr and check_utf8, if non-NULL, point to either their |
21931 | anchored or float namesakes, and don't hold a second reference. */ |
21932 | |
21933 | if (ret->check_substrsubstrs->data[2].substr) { |
21934 | if (anchored) { |
21935 | assert(r->check_utf8 == r->substrs->data[0].utf8_substr)((r->substrs->data[2].utf8_substr == r->substrs-> data[0].utf8_substr) ? (void)0 : __assert2("re_comp.c", 21935 , __func__, "r->check_utf8 == r->substrs->data[0].utf8_substr" )); |
21936 | |
21937 | ret->check_substrsubstrs->data[2].substr = ret->substrs->data[0].substr; |
21938 | ret->check_utf8substrs->data[2].utf8_substr = ret->substrs->data[0].utf8_substr; |
21939 | } else { |
21940 | assert(r->check_substr == r->substrs->data[1].substr)((r->substrs->data[2].substr == r->substrs->data[ 1].substr) ? (void)0 : __assert2("re_comp.c", 21940, __func__ , "r->check_substr == r->substrs->data[1].substr")); |
21941 | assert(r->check_utf8 == r->substrs->data[1].utf8_substr)((r->substrs->data[2].utf8_substr == r->substrs-> data[1].utf8_substr) ? (void)0 : __assert2("re_comp.c", 21941 , __func__, "r->check_utf8 == r->substrs->data[1].utf8_substr" )); |
21942 | |
21943 | ret->check_substrsubstrs->data[2].substr = ret->substrs->data[1].substr; |
21944 | ret->check_utf8substrs->data[2].utf8_substr = ret->substrs->data[1].utf8_substr; |
21945 | } |
21946 | } else if (ret->check_utf8substrs->data[2].utf8_substr) { |
21947 | if (anchored) { |
21948 | ret->check_utf8substrs->data[2].utf8_substr = ret->substrs->data[0].utf8_substr; |
21949 | } else { |
21950 | ret->check_utf8substrs->data[2].utf8_substr = ret->substrs->data[1].utf8_substr; |
21951 | } |
21952 | } |
21953 | } |
21954 | |
21955 | RXp_PAREN_NAMES(ret)((ret)->paren_names) = hv_dup_inc(RXp_PAREN_NAMES(ret), param)((HV *)({ void *_p = (sv_dup_inc((const SV *)((ret)->paren_names ), param)); _p; })); |
21956 | ret->qr_anoncv = MUTABLE_CV(sv_dup_inc((const SV *)ret->qr_anoncv, param))((CV *)({ void *_p = (sv_dup_inc((const SV *)ret->qr_anoncv , param)); _p; })); |
21957 | if (r->recurse_locinput) |
21958 | Newx(ret->recurse_locinput, r->nparens + 1, char *)(ret->recurse_locinput = ((void)(__builtin_expect(((((( sizeof (size_t) < sizeof(r->nparens + 1) || sizeof(char *) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(r->nparens + 1)))) ? (size_t)(r->nparens + 1) : ((size_t)-1)/sizeof( char *)) > ((size_t)-1)/sizeof(char *))) ? (_Bool)1 : (_Bool )0),(0)) && (Perl_croak_memory_wrap(),0)), (char **)( Perl_safesysmalloc((size_t)((r->nparens + 1)*sizeof(char * )))))); |
21959 | |
21960 | if (ret->pprivate) |
21961 | RXi_SET(ret, CALLREGDUPE_PVT(dstr, param))(ret)->pprivate = (void*)(CALLREGDUPE_PVT(dstr, param)); |
21962 | |
21963 | if (RX_MATCH_COPIED(dstr)(((Perl_ReANY((const REGEXP *)(dstr)))->extflags) & (1U <<(((0 +12) + 2)+11)))) |
21964 | ret->subbeg = SAVEPVN(ret->subbeg, ret->sublen)((ret->subbeg) ? Perl_savepvn( ret->subbeg,ret->sublen ) : ((void*)0)); |
21965 | else |
21966 | ret->subbeg = NULL((void*)0); |
21967 | #ifdef PERL_ANY_COW |
21968 | ret->saved_copy = NULL((void*)0); |
21969 | #endif |
21970 | |
21971 | /* Whether mother_re be set or no, we need to copy the string. We |
21972 | cannot refrain from copying it when the storage points directly to |
21973 | our mother regexp, because that's |
21974 | 1: a buffer in a different thread |
21975 | 2: something we no longer hold a reference on |
21976 | so we need to copy it locally. */ |
21977 | RX_WRAPPED(dstr)(*({ SV *const _svpvx = ((SV *)({ void *_p = (dstr); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21977, __func__ , "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]")); ((!( (((_svpvx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 21977, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 21977, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) = SAVEPVN(RX_WRAPPED_const(sstr), SvCUR(sstr)+1)((((const char*)(0 + (sstr)->sv_u.svu_pv))) ? Perl_savepvn ( ((const char*)(0 + (sstr)->sv_u.svu_pv)),(*({ const SV * const _svcur = (const SV *)(sstr); ((PL_valid_types_PVX[((svtype )((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21977, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21977, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21977, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))+1) : ((void*)0)); |
21978 | /* set malloced length to a non-zero value so it will be freed |
21979 | * (otherwise in combination with SVf_FAKE it looks like an alien |
21980 | * buffer). It doesn't have to be the actual malloced size, since it |
21981 | * should never be grown */ |
21982 | SvLEN_set(dstr, SvCUR(sstr)+1)do { ((PL_valid_types_PVX[((svtype)((dstr)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 21982 , __func__, "PL_valid_types_PVX[SvTYPE(dstr) & SVt_MASK]" )); ((!((((dstr)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((dstr)->sv_flags & 0xff )) == SVt_PVGV || ((svtype)((dstr)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21982, __func__ , "!isGV_with_GP(dstr)")); ((!(((svtype)((dstr)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (dstr)->sv_any) ->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 21982, __func__, "!(SvTYPE(dstr) == SVt_PVIO && !(IoFLAGS(dstr) & IOf_FAKE_DIRP))" )); (((XPV*) (dstr)->sv_any)->xpv_len_u.xpvlenu_len = ( (*({ const SV *const _svcur = (const SV *)(sstr); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 21982, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 21982, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 21982, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))+1)); } while (0); |
21983 | ret->mother_re = NULL((void*)0); |
21984 | } |
21985 | #endif /* PERL_IN_XSUB_RE */ |
21986 | |
21987 | /* |
21988 | regdupe_internal() |
21989 | |
21990 | This is the internal complement to regdupe() which is used to copy |
21991 | the structure pointed to by the *pprivate pointer in the regexp. |
21992 | This is the core version of the extension overridable cloning hook. |
21993 | The regexp structure being duplicated will be copied by perl prior |
21994 | to this and will be provided as the regexp *r argument, however |
21995 | with the /old/ structures pprivate pointer value. Thus this routine |
21996 | may override any copying normally done by perl. |
21997 | |
21998 | It returns a pointer to the new regexp_internal structure. |
21999 | */ |
22000 | |
22001 | void * |
22002 | Perl_regdupe_internalmy_regdupe(pTHX_ REGEXP * const rx, CLONE_PARAMS *param) |
22003 | { |
22004 | dVARstruct Perl___notused_struct; |
22005 | struct regexp *const r = ReANY(rx)Perl_ReANY((const REGEXP *)(rx)); |
22006 | regexp_internal *reti; |
22007 | int len; |
22008 | RXi_GET_DECL(r, ri)regexp_internal *ri = ((regexp_internal *)((r)->pprivate)); |
22009 | |
22010 | PERL_ARGS_ASSERT_REGDUPE_INTERNAL; |
22011 | |
22012 | len = ProgLen(ri)ri->u.offsets[0]; |
22013 | |
22014 | Newxc(reti, sizeof(regexp_internal) + len*sizeof(regnode),(reti = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof (sizeof(regexp_internal) + len*sizeof(regnode)) || sizeof(char ) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(sizeof( regexp_internal) + len*sizeof(regnode))))) ? (size_t)(sizeof( regexp_internal) + len*sizeof(regnode)) : ((size_t)-1)/sizeof (char)) > ((size_t)-1)/sizeof(char))) ? (_Bool)1 : (_Bool) 0),(0)) && (Perl_croak_memory_wrap(),0)), (regexp_internal *)(Perl_safesysmalloc((size_t)((sizeof(regexp_internal) + len *sizeof(regnode))*sizeof(char)))))) |
22015 | char, regexp_internal)(reti = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof (sizeof(regexp_internal) + len*sizeof(regnode)) || sizeof(char ) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(sizeof( regexp_internal) + len*sizeof(regnode))))) ? (size_t)(sizeof( regexp_internal) + len*sizeof(regnode)) : ((size_t)-1)/sizeof (char)) > ((size_t)-1)/sizeof(char))) ? (_Bool)1 : (_Bool) 0),(0)) && (Perl_croak_memory_wrap(),0)), (regexp_internal *)(Perl_safesysmalloc((size_t)((sizeof(regexp_internal) + len *sizeof(regnode))*sizeof(char)))))); |
22016 | Copy(ri->program, reti->program, len+1, regnode)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(len +1) || sizeof(regnode) > ((size_t)1 << 8*(sizeof(size_t ) - sizeof(len+1)))) ? (size_t)(len+1) : ((size_t)-1)/sizeof( regnode)) > ((size_t)-1)/sizeof(regnode))) ? (_Bool)1 : (_Bool )0),(0)) && (Perl_croak_memory_wrap(),0)), ((((void*) (reti->program)) != 0) ? (void)0 : __assert2("re_comp.c", 22016 , __func__, "((void*)(reti->program)) != 0")), ((((void*)( ri->program)) != 0) ? (void)0 : __assert2("re_comp.c", 22016 , __func__, "((void*)(ri->program)) != 0")), (void)memcpy( (char*)(reti->program),(const char*)(ri->program), (len +1) * sizeof(regnode))); |
22017 | |
22018 | |
22019 | if (ri->code_blocks) { |
22020 | int n; |
22021 | Newx(reti->code_blocks, 1, struct reg_code_blocks)(reti->code_blocks = ((void)(__builtin_expect(((((( sizeof (size_t) < sizeof(1) || sizeof(struct reg_code_blocks) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(1)))) ? (size_t )(1) : ((size_t)-1)/sizeof(struct reg_code_blocks)) > ((size_t )-1)/sizeof(struct reg_code_blocks))) ? (_Bool)1 : (_Bool)0), (0)) && (Perl_croak_memory_wrap(),0)), (struct reg_code_blocks *)(Perl_safesysmalloc((size_t)((1)*sizeof(struct reg_code_blocks )))))); |
22022 | Newx(reti->code_blocks->cb, ri->code_blocks->count,(reti->code_blocks->cb = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(ri->code_blocks->count) || sizeof (struct reg_code_block) > ((size_t)1 << 8*(sizeof(size_t ) - sizeof(ri->code_blocks->count)))) ? (size_t)(ri-> code_blocks->count) : ((size_t)-1)/sizeof(struct reg_code_block )) > ((size_t)-1)/sizeof(struct reg_code_block))) ? (_Bool )1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), (struct reg_code_block*)(Perl_safesysmalloc((size_t)((ri-> code_blocks->count)*sizeof(struct reg_code_block)))))) |
22023 | struct reg_code_block)(reti->code_blocks->cb = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(ri->code_blocks->count) || sizeof (struct reg_code_block) > ((size_t)1 << 8*(sizeof(size_t ) - sizeof(ri->code_blocks->count)))) ? (size_t)(ri-> code_blocks->count) : ((size_t)-1)/sizeof(struct reg_code_block )) > ((size_t)-1)/sizeof(struct reg_code_block))) ? (_Bool )1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), (struct reg_code_block*)(Perl_safesysmalloc((size_t)((ri-> code_blocks->count)*sizeof(struct reg_code_block)))))); |
22024 | Copy(ri->code_blocks->cb, reti->code_blocks->cb,((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(ri-> code_blocks->count) || sizeof(struct reg_code_block) > ( (size_t)1 << 8*(sizeof(size_t) - sizeof(ri->code_blocks ->count)))) ? (size_t)(ri->code_blocks->count) : ((size_t )-1)/sizeof(struct reg_code_block)) > ((size_t)-1)/sizeof( struct reg_code_block))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), ((((void*)(reti->code_blocks ->cb)) != 0) ? (void)0 : __assert2("re_comp.c", 22025, __func__ , "((void*)(reti->code_blocks->cb)) != 0")), ((((void*) (ri->code_blocks->cb)) != 0) ? (void)0 : __assert2("re_comp.c" , 22025, __func__, "((void*)(ri->code_blocks->cb)) != 0" )), (void)memcpy((char*)(reti->code_blocks->cb),(const char *)(ri->code_blocks->cb), (ri->code_blocks->count) * sizeof(struct reg_code_block))) |
22025 | ri->code_blocks->count, struct reg_code_block)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(ri-> code_blocks->count) || sizeof(struct reg_code_block) > ( (size_t)1 << 8*(sizeof(size_t) - sizeof(ri->code_blocks ->count)))) ? (size_t)(ri->code_blocks->count) : ((size_t )-1)/sizeof(struct reg_code_block)) > ((size_t)-1)/sizeof( struct reg_code_block))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), ((((void*)(reti->code_blocks ->cb)) != 0) ? (void)0 : __assert2("re_comp.c", 22025, __func__ , "((void*)(reti->code_blocks->cb)) != 0")), ((((void*) (ri->code_blocks->cb)) != 0) ? (void)0 : __assert2("re_comp.c" , 22025, __func__, "((void*)(ri->code_blocks->cb)) != 0" )), (void)memcpy((char*)(reti->code_blocks->cb),(const char *)(ri->code_blocks->cb), (ri->code_blocks->count) * sizeof(struct reg_code_block))); |
22026 | for (n = 0; n < ri->code_blocks->count; n++) |
22027 | reti->code_blocks->cb[n].src_regex = (REGEXP*) |
22028 | sv_dup_inc((SV*)(ri->code_blocks->cb[n].src_regex), param); |
22029 | reti->code_blocks->count = ri->code_blocks->count; |
22030 | reti->code_blocks->refcnt = 1; |
22031 | } |
22032 | else |
22033 | reti->code_blocks = NULL((void*)0); |
22034 | |
22035 | reti->regstclass = NULL((void*)0); |
22036 | |
22037 | if (ri->data) { |
22038 | struct reg_data *d; |
22039 | const int count = ri->data->count; |
22040 | int i; |
22041 | |
22042 | Newxc(d, sizeof(struct reg_data) + count*sizeof(void *),(d = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof (sizeof(struct reg_data) + count*sizeof(void *)) || sizeof(char ) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(sizeof( struct reg_data) + count*sizeof(void *))))) ? (size_t)(sizeof (struct reg_data) + count*sizeof(void *)) : ((size_t)-1)/sizeof (char)) > ((size_t)-1)/sizeof(char))) ? (_Bool)1 : (_Bool) 0),(0)) && (Perl_croak_memory_wrap(),0)), (struct reg_data *)(Perl_safesysmalloc((size_t)((sizeof(struct reg_data) + count *sizeof(void *))*sizeof(char)))))) |
22043 | char, struct reg_data)(d = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof (sizeof(struct reg_data) + count*sizeof(void *)) || sizeof(char ) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(sizeof( struct reg_data) + count*sizeof(void *))))) ? (size_t)(sizeof (struct reg_data) + count*sizeof(void *)) : ((size_t)-1)/sizeof (char)) > ((size_t)-1)/sizeof(char))) ? (_Bool)1 : (_Bool) 0),(0)) && (Perl_croak_memory_wrap(),0)), (struct reg_data *)(Perl_safesysmalloc((size_t)((sizeof(struct reg_data) + count *sizeof(void *))*sizeof(char)))))); |
22044 | Newx(d->what, count, U8)(d->what = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(count) || sizeof(U8) > ((size_t)1 << 8*(sizeof (size_t) - sizeof(count)))) ? (size_t)(count) : ((size_t)-1)/ sizeof(U8)) > ((size_t)-1)/sizeof(U8))) ? (_Bool)1 : (_Bool )0),(0)) && (Perl_croak_memory_wrap(),0)), (U8*)(Perl_safesysmalloc ((size_t)((count)*sizeof(U8)))))); |
22045 | |
22046 | d->count = count; |
22047 | for (i = 0; i < count; i++) { |
22048 | d->what[i] = ri->data->what[i]; |
22049 | switch (d->what[i]) { |
22050 | /* see also regcomp.h and regfree_internal() */ |
22051 | case 'a': /* actually an AV, but the dup function is identical. |
22052 | values seem to be "plain sv's" generally. */ |
22053 | case 'r': /* a compiled regex (but still just another SV) */ |
22054 | case 's': /* an RV (currently only used for an RV to an AV by the ANYOF code) |
22055 | this use case should go away, the code could have used |
22056 | 'a' instead - see S_set_ANYOF_arg() for array contents. */ |
22057 | case 'S': /* actually an SV, but the dup function is identical. */ |
22058 | case 'u': /* actually an HV, but the dup function is identical. |
22059 | values are "plain sv's" */ |
22060 | d->data[i] = sv_dup_inc((const SV *)ri->data->data[i], param); |
22061 | break; |
22062 | case 'f': |
22063 | /* Synthetic Start Class - "Fake" charclass we generate to optimize |
22064 | * patterns which could start with several different things. Pre-TRIE |
22065 | * this was more important than it is now, however this still helps |
22066 | * in some places, for instance /x?a+/ might produce a SSC equivalent |
22067 | * to [xa]. This is used by Perl_re_intuit_start() and S_find_byclass() |
22068 | * in regexec.c |
22069 | */ |
22070 | /* This is cheating. */ |
22071 | Newx(d->data[i], 1, regnode_ssc)(d->data[i] = ((void)(__builtin_expect(((((( sizeof(size_t ) < sizeof(1) || sizeof(regnode_ssc) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(1)))) ? (size_t)(1) : ((size_t)-1 )/sizeof(regnode_ssc)) > ((size_t)-1)/sizeof(regnode_ssc)) ) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (regnode_ssc*)(Perl_safesysmalloc((size_t)((1)*sizeof (regnode_ssc)))))); |
22072 | StructCopy(ri->data->data[i], d->data[i], regnode_ssc)(*((regnode_ssc*)(d->data[i])) = *((regnode_ssc*)(ri->data ->data[i]))); |
22073 | reti->regstclass = (regnode*)d->data[i]; |
22074 | break; |
22075 | case 'T': |
22076 | /* AHO-CORASICK fail table */ |
22077 | /* Trie stclasses are readonly and can thus be shared |
22078 | * without duplication. We free the stclass in pregfree |
22079 | * when the corresponding reg_ac_data struct is freed. |
22080 | */ |
22081 | reti->regstclass= ri->regstclass; |
22082 | /* FALLTHROUGH */ |
22083 | case 't': |
22084 | /* TRIE transition table */ |
22085 | OP_REFCNT_LOCK(void)0; |
22086 | ((reg_trie_data*)ri->data->data[i])->refcount++; |
22087 | OP_REFCNT_UNLOCK(void)0; |
22088 | /* FALLTHROUGH */ |
22089 | case 'l': /* (?{...}) or (??{ ... }) code (cb->block) */ |
22090 | case 'L': /* same when RExC_pm_flags & PMf_HAS_CV and code |
22091 | is not from another regexp */ |
22092 | d->data[i] = ri->data->data[i]; |
22093 | break; |
22094 | default: |
22095 | Perl_croak(aTHX_ "panic: re_dup_guts unknown data code '%c'", |
22096 | ri->data->what[i]); |
22097 | } |
22098 | } |
22099 | |
22100 | reti->data = d; |
22101 | } |
22102 | else |
22103 | reti->data = NULL((void*)0); |
22104 | |
22105 | reti->name_list_idx = ri->name_list_idx; |
22106 | |
22107 | #ifdef RE_TRACK_PATTERN_OFFSETS |
22108 | if (ri->u.offsets) { |
22109 | Newx(reti->u.offsets, 2*len+1, U32)(reti->u.offsets = ((void)(__builtin_expect(((((( sizeof(size_t ) < sizeof(2*len+1) || sizeof(U32) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(2*len+1)))) ? (size_t)(2*len+1) : ((size_t)-1)/sizeof(U32)) > ((size_t)-1)/sizeof(U32))) ? ( _Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap() ,0)), (U32*)(Perl_safesysmalloc((size_t)((2*len+1)*sizeof(U32 )))))); |
22110 | Copy(ri->u.offsets, reti->u.offsets, 2*len+1, U32)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(2*len +1) || sizeof(U32) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(2*len+1)))) ? (size_t)(2*len+1) : ((size_t)-1)/sizeof (U32)) > ((size_t)-1)/sizeof(U32))) ? (_Bool)1 : (_Bool)0) ,(0)) && (Perl_croak_memory_wrap(),0)), ((((void*)(reti ->u.offsets)) != 0) ? (void)0 : __assert2("re_comp.c", 22110 , __func__, "((void*)(reti->u.offsets)) != 0")), ((((void* )(ri->u.offsets)) != 0) ? (void)0 : __assert2("re_comp.c", 22110, __func__, "((void*)(ri->u.offsets)) != 0")), (void )memcpy((char*)(reti->u.offsets),(const char*)(ri->u.offsets ), (2*len+1) * sizeof(U32))); |
22111 | } |
22112 | #else |
22113 | SetProgLen(reti, len)reti->u.offsets[0] = len; |
22114 | #endif |
22115 | |
22116 | return (void*)reti; |
22117 | } |
22118 | |
22119 | #endif /* USE_ITHREADS */ |
22120 | |
22121 | #ifndef PERL_IN_XSUB_RE |
22122 | |
22123 | /* |
22124 | - regnext - dig the "next" pointer out of a node |
22125 | */ |
22126 | regnode * |
22127 | Perl_regnext(pTHX_ regnode *p) |
22128 | { |
22129 | I32 offset; |
22130 | |
22131 | if (!p) |
22132 | return(NULL((void*)0)); |
22133 | |
22134 | if (OP(p)((p)->type) > REGNODE_MAX109) { /* regnode.type is unsigned */ |
22135 | Perl_croak(aTHX_ "Corrupted regexp opcode %d > %d", |
22136 | (int)OP(p)((p)->type), (int)REGNODE_MAX109); |
22137 | } |
22138 | |
22139 | offset = (reg_off_by_arg[OP(p)((p)->type)] ? ARG(p)((((struct regnode_1 *)p)->arg1)) : NEXT_OFF(p)((p)->next_off)); |
22140 | if (offset == 0) |
22141 | return(NULL((void*)0)); |
22142 | |
22143 | return(p+offset); |
22144 | } |
22145 | |
22146 | #endif |
22147 | |
22148 | STATICstatic void |
22149 | S_re_croak(pTHX_ bool_Bool utf8, const char* pat,...) |
22150 | { |
22151 | va_list args; |
22152 | STRLEN len = strlen(pat); |
22153 | char buf[512]; |
22154 | SV *msv; |
22155 | const char *message; |
22156 | |
22157 | PERL_ARGS_ASSERT_RE_CROAK((pat) ? (void)0 : __assert2("re_comp.c", 22157, __func__, "pat" )); |
22158 | |
22159 | if (len > 510) |
22160 | len = 510; |
22161 | Copy(pat, buf, len , char)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(len ) || sizeof(char) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(len)))) ? (size_t)(len) : ((size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof(char))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), ((((void*)(buf)) != 0) ? (void )0 : __assert2("re_comp.c", 22161, __func__, "((void*)(buf)) != 0" )), ((((void*)(pat)) != 0) ? (void)0 : __assert2("re_comp.c", 22161, __func__, "((void*)(pat)) != 0")), (void)memcpy((char *)(buf),(const char*)(pat), (len) * sizeof(char))); |
22162 | buf[len] = '\n'; |
22163 | buf[len + 1] = '\0'; |
22164 | va_start(args, pat)__builtin_va_start(args, pat); |
22165 | msv = vmess(buf, &args)Perl_vmess( buf,&args); |
22166 | va_end(args)__builtin_va_end(args); |
22167 | message = SvPV_const(msv, len)((((msv)->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((len = (*({ const SV *const _svcur = (const SV *)(msv); ( (PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 22167, __func__ , "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]")); ((!( (((_svcur)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 22167, __func__, "!isGV_with_GP(_svcur)" )); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 22167, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))), ((const char*)(0 + (msv)->sv_u.svu_pv ))) : (const char*) Perl_sv_2pv_flags( msv,&len,(2|32))); |
22168 | if (len > 512) |
22169 | len = 512; |
22170 | Copy(message, buf, len , char)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(len ) || sizeof(char) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(len)))) ? (size_t)(len) : ((size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof(char))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), ((((void*)(buf)) != 0) ? (void )0 : __assert2("re_comp.c", 22170, __func__, "((void*)(buf)) != 0" )), ((((void*)(message)) != 0) ? (void)0 : __assert2("re_comp.c" , 22170, __func__, "((void*)(message)) != 0")), (void)memcpy( (char*)(buf),(const char*)(message), (len) * sizeof(char))); |
22171 | /* len-1 to avoid \n */ |
22172 | Perl_croak(aTHX_ "%" UTF8f"d%" "lu" "%4p", UTF8fARG(utf8, len-1, buf)(int)((utf8) ? (_Bool)1 : (_Bool)0), (UV)(len-1), (void*)(buf )); |
22173 | } |
22174 | |
22175 | /* XXX Here's a total kludge. But we need to re-enter for swash routines. */ |
22176 | |
22177 | #ifndef PERL_IN_XSUB_RE |
22178 | void |
22179 | Perl_save_re_context(pTHXvoid) |
22180 | { |
22181 | I32 nparens = -1; |
22182 | I32 i; |
22183 | |
22184 | /* Save $1..$n (#18107: UTF-8 s/(\w+)/uc($1)/e); AMS 20021106. */ |
22185 | |
22186 | if (PL_curpm) { |
22187 | const REGEXP * const rx = PM_GETRE(PL_curpm)((PL_curpm)->op_pmregexp); |
22188 | if (rx) |
22189 | nparens = RX_NPARENS(rx)((Perl_ReANY((const REGEXP *)(rx))->nparens)); |
22190 | } |
22191 | |
22192 | /* RT #124109. This is a complete hack; in the SWASHNEW case we know |
22193 | * that PL_curpm will be null, but that utf8.pm and the modules it |
22194 | * loads will only use $1..$3. |
22195 | * The t/porting/re_context.t test file checks this assumption. |
22196 | */ |
22197 | if (nparens == -1) |
22198 | nparens = 3; |
22199 | |
22200 | for (i = 1; i <= nparens; i++) { |
22201 | char digits[TYPE_CHARS(long)((((sizeof(long) * 8)*146)/485 + 1) + 2)]; |
22202 | const STRLEN len = my_snprintf(digits, sizeof(digits),({ int len = snprintf(digits, sizeof(digits), "%lu", (long)i) ; do { if ((sizeof(digits)) > 0 && (size_t)len > (sizeof(digits))) Perl_croak("panic: %s buffer overflow", "snprintf" ); } while (0); len; }) |
22203 | "%lu", (long)i)({ int len = snprintf(digits, sizeof(digits), "%lu", (long)i) ; do { if ((sizeof(digits)) > 0 && (size_t)len > (sizeof(digits))) Perl_croak("panic: %s buffer overflow", "snprintf" ); } while (0); len; }); |
22204 | GV *const *const gvp |
22205 | = (GV**)hv_fetch(PL_defstash, digits, len, 0)((SV**) Perl_hv_common_key_len( (PL_defstash),(digits),(len), (0) ? (0x20 | 0x10) : 0x20,((void*)0),0)); |
22206 | |
22207 | if (gvp) { |
22208 | GV * const gv = *gvp; |
22209 | if (SvTYPE(gv)((svtype)((gv)->sv_flags & 0xff)) == SVt_PVGV && GvSV(gv)((0+(*({GV *const _gvgp = (GV *) (gv); ((((svtype)((_gvgp)-> sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVLV) ? (void)0 : __assert2("re_comp.c", 22209, __func__, "SvTYPE(_gvgp) == SVt_PVGV || SvTYPE(_gvgp) == SVt_PVLV" )); ((((((_gvgp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 22209, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_sv)) |
22210 | save_scalar(gv)Perl_save_scalar( gv); |
22211 | } |
22212 | } |
22213 | } |
22214 | #endif |
22215 | |
22216 | #ifdef DEBUGGING |
22217 | |
22218 | STATICstatic void |
22219 | S_put_code_point(pTHX_ SV *sv, UV c) |
22220 | { |
22221 | PERL_ARGS_ASSERT_PUT_CODE_POINT((sv) ? (void)0 : __assert2("re_comp.c", 22221, __func__, "sv" )); |
22222 | |
22223 | if (c > 255) { |
22224 | Perl_sv_catpvf(aTHX_ sv, "\\x{%04" UVXf"lX" "}", c); |
22225 | } |
22226 | else if (isPRINT(c)((((0x7e) >= (' ')) ? (void)0 : __assert2("re_comp.c", 22226 , __func__, "(0x7e) >= (' ')")), ( (sizeof(c) == sizeof(U8 )) ? ((((NV) ((' ')) >= 0) ? (void)0 : __assert2("re_comp.c" , 22226, __func__, "(NV) ((' ')) >= 0")), (((NV) (((0x7e) - (' '))) >= 0) ? (void)0 : __assert2("re_comp.c", 22226, __func__ , "(NV) (((0x7e) - (' '))) >= 0")), (((U64) (((((U8) (c))) ) - (((' ')) | 0))) <= (((U64) ((((0x7e) - (' '))) | 0)))) ) : (sizeof(c) == sizeof(U32)) ? ((((NV) ((' ')) >= 0) ? ( void)0 : __assert2("re_comp.c", 22226, __func__, "(NV) ((' ')) >= 0" )), (((NV) (((0x7e) - (' '))) >= 0) ? (void)0 : __assert2( "re_comp.c", 22226, __func__, "(NV) (((0x7e) - (' '))) >= 0" )), (((U64) (((((U32) (c)))) - (((' ')) | 0))) <= (((U64) ( (((0x7e) - (' '))) | 0))))) : (((sizeof(c) == sizeof(U64)) ? ( void)0 : __assert2("re_comp.c", 22226, __func__, "sizeof(c) == sizeof(U64)" )), ((((NV) ((' ')) >= 0) ? (void)0 : __assert2("re_comp.c" , 22226, __func__, "(NV) ((' ')) >= 0")), (((NV) (((0x7e) - (' '))) >= 0) ? (void)0 : __assert2("re_comp.c", 22226, __func__ , "(NV) (((0x7e) - (' '))) >= 0")), (((U64) (((((U64) (c)) )) - (((' ')) | 0))) <= (((U64) ((((0x7e) - (' '))) | 0))) )))))) { |
22227 | const char string = (char) c; |
22228 | |
22229 | /* We use {phrase} as metanotation in the class, so also escape literal |
22230 | * braces */ |
22231 | if (isBACKSLASHED_PUNCT(c)((const char *) memchr("" "-[]\\^" "" , c, sizeof("-[]\\^")-1 )) || c == '{' || c == '}') |
22232 | sv_catpvs(sv, "\\")Perl_sv_catpvn_flags( sv, ("" "\\" ""), (sizeof("\\")-1), 2); |
22233 | sv_catpvn(sv, &string, 1)Perl_sv_catpvn_flags( sv,&string,1,2); |
22234 | } |
22235 | else if (isMNEMONIC_CNTRL(c)((( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF)) && (PL_charclass[(U8) (c)] & (1U << (25)))) ? (_Bool) 1 : (_Bool)0)) { |
22236 | Perl_sv_catpvf(aTHX_ sv, "%s", cntrl_to_mnemonicPerl_cntrl_to_mnemonic((U8) c)); |
22237 | } |
22238 | else { |
22239 | Perl_sv_catpvf(aTHX_ sv, "\\x%02X", (U8) c); |
22240 | } |
22241 | } |
22242 | |
22243 | #define MAX_PRINT_A0x7E MAX_PRINT_A_FOR_USE_ONLY_BY_REGCOMP_DOT_C0x7E |
22244 | |
22245 | STATICstatic void |
22246 | S_put_range(pTHX_ SV *sv, UV start, const UV end, const bool_Bool allow_literals) |
22247 | { |
22248 | /* Appends to 'sv' a displayable version of the range of code points from |
22249 | * 'start' to 'end'. Mnemonics (like '\r') are used for the few controls |
22250 | * that have them, when they occur at the beginning or end of the range. |
22251 | * It uses hex to output the remaining code points, unless 'allow_literals' |
22252 | * is true, in which case the printable ASCII ones are output as-is (though |
22253 | * some of these will be escaped by put_code_point()). |
22254 | * |
22255 | * NOTE: This is designed only for printing ranges of code points that fit |
22256 | * inside an ANYOF bitmap. Higher code points are simply suppressed |
22257 | */ |
22258 | |
22259 | const unsigned int min_range_count = 3; |
22260 | |
22261 | assert(start <= end)((start <= end) ? (void)0 : __assert2("re_comp.c", 22261, __func__ , "start <= end")); |
22262 | |
22263 | PERL_ARGS_ASSERT_PUT_RANGE((sv) ? (void)0 : __assert2("re_comp.c", 22263, __func__, "sv" )); |
22264 | |
22265 | while (start <= end) { |
22266 | UV this_end; |
22267 | const char * format; |
22268 | |
22269 | if (end - start < min_range_count) { |
22270 | |
22271 | /* Output chars individually when they occur in short ranges */ |
22272 | for (; start <= end; start++) { |
22273 | put_code_point(sv, start)S_put_code_point( sv,start); |
22274 | } |
22275 | break; |
22276 | } |
22277 | |
22278 | /* If permitted by the input options, and there is a possibility that |
22279 | * this range contains a printable literal, look to see if there is |
22280 | * one. */ |
22281 | if (allow_literals && start <= MAX_PRINT_A0x7E) { |
22282 | |
22283 | /* If the character at the beginning of the range isn't an ASCII |
22284 | * printable, effectively split the range into two parts: |
22285 | * 1) the portion before the first such printable, |
22286 | * 2) the rest |
22287 | * and output them separately. */ |
22288 | if (! isPRINT_A(start)((((0x7e) >= (' ')) ? (void)0 : __assert2("re_comp.c", 22288 , __func__, "(0x7e) >= (' ')")), ( (sizeof(start) == sizeof (U8)) ? ((((NV) ((' ')) >= 0) ? (void)0 : __assert2("re_comp.c" , 22288, __func__, "(NV) ((' ')) >= 0")), (((NV) (((0x7e) - (' '))) >= 0) ? (void)0 : __assert2("re_comp.c", 22288, __func__ , "(NV) (((0x7e) - (' '))) >= 0")), (((U64) (((((U8) (start )))) - (((' ')) | 0))) <= (((U64) ((((0x7e) - (' '))) | 0) )))) : (sizeof(start) == sizeof(U32)) ? ((((NV) ((' ')) >= 0) ? (void)0 : __assert2("re_comp.c", 22288, __func__, "(NV) ((' ')) >= 0" )), (((NV) (((0x7e) - (' '))) >= 0) ? (void)0 : __assert2( "re_comp.c", 22288, __func__, "(NV) (((0x7e) - (' '))) >= 0" )), (((U64) (((((U32) (start)))) - (((' ')) | 0))) <= (((U64 ) ((((0x7e) - (' '))) | 0))))) : (((sizeof(start) == sizeof(U64 )) ? (void)0 : __assert2("re_comp.c", 22288, __func__, "sizeof(start) == sizeof(U64)" )), ((((NV) ((' ')) >= 0) ? (void)0 : __assert2("re_comp.c" , 22288, __func__, "(NV) ((' ')) >= 0")), (((NV) (((0x7e) - (' '))) >= 0) ? (void)0 : __assert2("re_comp.c", 22288, __func__ , "(NV) (((0x7e) - (' '))) >= 0")), (((U64) (((((U64) (start )))) - (((' ')) | 0))) <= (((U64) ((((0x7e) - (' '))) | 0) )))))))) { |
22289 | UV temp_end = start + 1; |
22290 | |
22291 | /* There is no point looking beyond the final possible |
22292 | * printable, in MAX_PRINT_A */ |
22293 | UV max = MIN(end, MAX_PRINT_A)(((end)<(0x7E))?(end):(0x7E)); |
22294 | |
22295 | while (temp_end <= max && ! isPRINT_A(temp_end)((((0x7e) >= (' ')) ? (void)0 : __assert2("re_comp.c", 22295 , __func__, "(0x7e) >= (' ')")), ( (sizeof(temp_end) == sizeof (U8)) ? ((((NV) ((' ')) >= 0) ? (void)0 : __assert2("re_comp.c" , 22295, __func__, "(NV) ((' ')) >= 0")), (((NV) (((0x7e) - (' '))) >= 0) ? (void)0 : __assert2("re_comp.c", 22295, __func__ , "(NV) (((0x7e) - (' '))) >= 0")), (((U64) (((((U8) (temp_end )))) - (((' ')) | 0))) <= (((U64) ((((0x7e) - (' '))) | 0) )))) : (sizeof(temp_end) == sizeof(U32)) ? ((((NV) ((' ')) >= 0) ? (void)0 : __assert2("re_comp.c", 22295, __func__, "(NV) ((' ')) >= 0" )), (((NV) (((0x7e) - (' '))) >= 0) ? (void)0 : __assert2( "re_comp.c", 22295, __func__, "(NV) (((0x7e) - (' '))) >= 0" )), (((U64) (((((U32) (temp_end)))) - (((' ')) | 0))) <= ( ((U64) ((((0x7e) - (' '))) | 0))))) : (((sizeof(temp_end) == sizeof (U64)) ? (void)0 : __assert2("re_comp.c", 22295, __func__, "sizeof(temp_end) == sizeof(U64)" )), ((((NV) ((' ')) >= 0) ? (void)0 : __assert2("re_comp.c" , 22295, __func__, "(NV) ((' ')) >= 0")), (((NV) (((0x7e) - (' '))) >= 0) ? (void)0 : __assert2("re_comp.c", 22295, __func__ , "(NV) (((0x7e) - (' '))) >= 0")), (((U64) (((((U64) (temp_end )))) - (((' ')) | 0))) <= (((U64) ((((0x7e) - (' '))) | 0) )))))))) { |
22296 | temp_end++; |
22297 | } |
22298 | |
22299 | /* Here, temp_end points to one beyond the first printable if |
22300 | * found, or to one beyond 'max' if not. If none found, make |
22301 | * sure that we use the entire range */ |
22302 | if (temp_end > MAX_PRINT_A0x7E) { |
22303 | temp_end = end + 1; |
22304 | } |
22305 | |
22306 | /* Output the first part of the split range: the part that |
22307 | * doesn't have printables, with the parameter set to not look |
22308 | * for literals (otherwise we would infinitely recurse) */ |
22309 | put_range(sv, start, temp_end - 1, FALSE)S_put_range( sv,start,temp_end - 1,(0)); |
22310 | |
22311 | /* The 2nd part of the range (if any) starts here. */ |
22312 | start = temp_end; |
22313 | |
22314 | /* We do a continue, instead of dropping down, because even if |
22315 | * the 2nd part is non-empty, it could be so short that we want |
22316 | * to output it as individual characters, as tested for at the |
22317 | * top of this loop. */ |
22318 | continue; |
22319 | } |
22320 | |
22321 | /* Here, 'start' is a printable ASCII. If it is an alphanumeric, |
22322 | * output a sub-range of just the digits or letters, then process |
22323 | * the remaining portion as usual. */ |
22324 | if (isALPHANUMERIC_A(start)(( (sizeof(start) == 1) || !(((U64)((start) | 0)) & ~0xFF )) && ((PL_charclass[(U8) (start)] & ((1U << (7)) | (1U << (14)))) == ((1U << (7)) | (1U << (14)))))) { |
22325 | UV mask = (isDIGIT_A(start)(((('9') >= ('0')) ? (void)0 : __assert2("re_comp.c", 22325 , __func__, "('9') >= ('0')")), ( (sizeof(start) == sizeof (U8)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 22325, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 22325, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U8) (start )))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0)) ))) : (sizeof(start) == sizeof(U32)) ? ((((NV) (('0')) >= 0 ) ? (void)0 : __assert2("re_comp.c", 22325, __func__, "(NV) (('0')) >= 0" )), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 22325, __func__, "(NV) ((('9') - ('0'))) >= 0")), (((U64 ) (((((U32) (start)))) - ((('0')) | 0))) <= (((U64) (((('9' ) - ('0'))) | 0))))) : (((sizeof(start) == sizeof(U64)) ? (void )0 : __assert2("re_comp.c", 22325, __func__, "sizeof(start) == sizeof(U64)" )), ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 22325, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 22325, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U64) (start )))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0)) ))))))) |
22326 | ? _CC_DIGIT1 |
22327 | : isUPPER_A(start)(((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 22327 , __func__, "('Z') >= ('A')")), ( (sizeof(start) == sizeof (U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 22327, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 22327, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) (start )))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)) ))) : (sizeof(start) == sizeof(U32)) ? ((((NV) (('A')) >= 0 ) ? (void)0 : __assert2("re_comp.c", 22327, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 22327, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) (start)))) - ((('A')) | 0))) <= (((U64) (((('Z' ) - ('A'))) | 0))))) : (((sizeof(start) == sizeof(U64)) ? (void )0 : __assert2("re_comp.c", 22327, __func__, "sizeof(start) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 22327, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 22327, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) (start )))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)) )))))) |
22328 | ? _CC_UPPER4 |
22329 | : _CC_LOWER3; |
22330 | UV temp_end = start + 1; |
22331 | |
22332 | /* Find the end of the sub-range that includes just the |
22333 | * characters in the same class as the first character in it */ |
22334 | while (temp_end <= end && _generic_isCC_A(temp_end, mask)(( (sizeof(temp_end) == 1) || !(((U64)((temp_end) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (temp_end)] & ((1U << (mask)) | (1U << (14)))) == ((1U << (mask )) | (1U << (14)))))) { |
22335 | temp_end++; |
22336 | } |
22337 | temp_end--; |
22338 | |
22339 | /* For short ranges, don't duplicate the code above to output |
22340 | * them; just call recursively */ |
22341 | if (temp_end - start < min_range_count) { |
22342 | put_range(sv, start, temp_end, FALSE)S_put_range( sv,start,temp_end,(0)); |
22343 | } |
22344 | else { /* Output as a range */ |
22345 | put_code_point(sv, start)S_put_code_point( sv,start); |
22346 | sv_catpvs(sv, "-")Perl_sv_catpvn_flags( sv, ("" "-" ""), (sizeof("-")-1), 2); |
22347 | put_code_point(sv, temp_end)S_put_code_point( sv,temp_end); |
22348 | } |
22349 | start = temp_end + 1; |
22350 | continue; |
22351 | } |
22352 | |
22353 | /* We output any other printables as individual characters */ |
22354 | if (isPUNCT_A(start)(( (sizeof(start) == 1) || !(((U64)((start) | 0)) & ~0xFF )) && ((PL_charclass[(U8) (start)] & ((1U << (5)) | (1U << (14)))) == ((1U << (5)) | (1U << (14))))) || isSPACE_A(start)(( (sizeof(start) == 1) || !(((U64)((start) | 0)) & ~0xFF )) && ((PL_charclass[(U8) (start)] & ((1U << (10)) | (1U << (14)))) == ((1U << (10)) | (1U << (14)))))) { |
22355 | while (start <= end && (isPUNCT_A(start)(( (sizeof(start) == 1) || !(((U64)((start) | 0)) & ~0xFF )) && ((PL_charclass[(U8) (start)] & ((1U << (5)) | (1U << (14)))) == ((1U << (5)) | (1U << (14))))) |
22356 | || isSPACE_A(start)(( (sizeof(start) == 1) || !(((U64)((start) | 0)) & ~0xFF )) && ((PL_charclass[(U8) (start)] & ((1U << (10)) | (1U << (14)))) == ((1U << (10)) | (1U << (14))))))) |
22357 | { |
22358 | put_code_point(sv, start)S_put_code_point( sv,start); |
22359 | start++; |
22360 | } |
22361 | continue; |
22362 | } |
22363 | } /* End of looking for literals */ |
22364 | |
22365 | /* Here is not to output as a literal. Some control characters have |
22366 | * mnemonic names. Split off any of those at the beginning and end of |
22367 | * the range to print mnemonically. It isn't possible for many of |
22368 | * these to be in a row, so this won't overwhelm with output */ |
22369 | if ( start <= end |
22370 | && (isMNEMONIC_CNTRL(start)((( (sizeof(start) == 1) || !(((U64)((start) | 0)) & ~0xFF )) && (PL_charclass[(U8) (start)] & (1U << ( 25)))) ? (_Bool)1 : (_Bool)0) || isMNEMONIC_CNTRL(end)((( (sizeof(end) == 1) || !(((U64)((end) | 0)) & ~0xFF)) && (PL_charclass[(U8) (end)] & (1U << (25)))) ? (_Bool )1 : (_Bool)0))) |
22371 | { |
22372 | while (isMNEMONIC_CNTRL(start)((( (sizeof(start) == 1) || !(((U64)((start) | 0)) & ~0xFF )) && (PL_charclass[(U8) (start)] & (1U << ( 25)))) ? (_Bool)1 : (_Bool)0) && start <= end) { |
22373 | put_code_point(sv, start)S_put_code_point( sv,start); |
22374 | start++; |
22375 | } |
22376 | |
22377 | /* If this didn't take care of the whole range ... */ |
22378 | if (start <= end) { |
22379 | |
22380 | /* Look backwards from the end to find the final non-mnemonic |
22381 | * */ |
22382 | UV temp_end = end; |
22383 | while (isMNEMONIC_CNTRL(temp_end)((( (sizeof(temp_end) == 1) || !(((U64)((temp_end) | 0)) & ~0xFF)) && (PL_charclass[(U8) (temp_end)] & (1U << (25)))) ? (_Bool)1 : (_Bool)0)) { |
22384 | temp_end--; |
22385 | } |
22386 | |
22387 | /* And separately output the interior range that doesn't start |
22388 | * or end with mnemonics */ |
22389 | put_range(sv, start, temp_end, FALSE)S_put_range( sv,start,temp_end,(0)); |
22390 | |
22391 | /* Then output the mnemonic trailing controls */ |
22392 | start = temp_end + 1; |
22393 | while (start <= end) { |
22394 | put_code_point(sv, start)S_put_code_point( sv,start); |
22395 | start++; |
22396 | } |
22397 | break; |
22398 | } |
22399 | } |
22400 | |
22401 | /* As a final resort, output the range or subrange as hex. */ |
22402 | |
22403 | if (start >= NUM_ANYOF_CODE_POINTS(1 << 8)) { |
22404 | this_end = end; |
22405 | } |
22406 | else { /* Have to split range at the bitmap boundary */ |
22407 | this_end = (end < NUM_ANYOF_CODE_POINTS(1 << 8)) |
22408 | ? end |
22409 | : NUM_ANYOF_CODE_POINTS(1 << 8) - 1; |
22410 | } |
22411 | #if NUM_ANYOF_CODE_POINTS(1 << 8) > 256 |
22412 | format = (this_end < 256) |
22413 | ? "\\x%02" UVXf"lX" "-\\x%02" UVXf"lX" |
22414 | : "\\x{%04" UVXf"lX" "}-\\x{%04" UVXf"lX" "}"; |
22415 | #else |
22416 | format = "\\x%02" UVXf"lX" "-\\x%02" UVXf"lX"; |
22417 | #endif |
22418 | GCC_DIAG_IGNORE_STMT(-Wformat-nonliteral)GCC diagnostic push
GCC diagnostic ignored "-Wformat-nonliteral" (void)0; |
22419 | Perl_sv_catpvf(aTHX_ sv, format, start, this_end); |
22420 | GCC_DIAG_RESTORE_STMTGCC diagnostic pop (void)0; |
22421 | break; |
22422 | } |
22423 | } |
22424 | |
22425 | STATICstatic void |
22426 | S_put_charclass_bitmap_innards_invlist(pTHX_ SV *sv, SV* invlist) |
22427 | { |
22428 | /* Concatenate onto the PV in 'sv' a displayable form of the inversion list |
22429 | * 'invlist' */ |
22430 | |
22431 | UV start, end; |
22432 | bool_Bool allow_literals = TRUE(1); |
22433 | |
22434 | PERL_ARGS_ASSERT_PUT_CHARCLASS_BITMAP_INNARDS_INVLIST((sv) ? (void)0 : __assert2("re_comp.c", 22434, __func__, "sv" )); ((invlist) ? (void)0 : __assert2("re_comp.c", 22434, __func__ , "invlist")); |
22435 | |
22436 | /* Generally, it is more readable if printable characters are output as |
22437 | * literals, but if a range (nearly) spans all of them, it's best to output |
22438 | * it as a single range. This code will use a single range if all but 2 |
22439 | * ASCII printables are in it */ |
22440 | invlist_iterinitS_invlist_iterinit(invlist); |
22441 | while (invlist_iternextS_invlist_iternext(invlist, &start, &end)) { |
22442 | |
22443 | /* If the range starts beyond the final printable, it doesn't have any |
22444 | * in it */ |
22445 | if (start > MAX_PRINT_A0x7E) { |
22446 | break; |
22447 | } |
22448 | |
22449 | /* In both ASCII and EBCDIC, a SPACE is the lowest printable. To span |
22450 | * all but two, the range must start and end no later than 2 from |
22451 | * either end */ |
22452 | if (start < ' ' + 2 && end > MAX_PRINT_A0x7E - 2) { |
22453 | if (end > MAX_PRINT_A0x7E) { |
22454 | end = MAX_PRINT_A0x7E; |
22455 | } |
22456 | if (start < ' ') { |
22457 | start = ' '; |
22458 | } |
22459 | if (end - start >= MAX_PRINT_A0x7E - ' ' - 2) { |
22460 | allow_literals = FALSE(0); |
22461 | } |
22462 | break; |
22463 | } |
22464 | } |
22465 | invlist_iterfinishS_invlist_iterfinish(invlist); |
22466 | |
22467 | /* Here we have figured things out. Output each range */ |
22468 | invlist_iterinitS_invlist_iterinit(invlist); |
22469 | while (invlist_iternextS_invlist_iternext(invlist, &start, &end)) { |
22470 | if (start >= NUM_ANYOF_CODE_POINTS(1 << 8)) { |
22471 | break; |
22472 | } |
22473 | put_range(sv, start, end, allow_literals)S_put_range( sv,start,end,allow_literals); |
22474 | } |
22475 | invlist_iterfinishS_invlist_iterfinish(invlist); |
22476 | |
22477 | return; |
22478 | } |
22479 | |
22480 | STATICstatic SV* |
22481 | S_put_charclass_bitmap_innards_common(pTHX_ |
22482 | SV* invlist, /* The bitmap */ |
22483 | SV* posixes, /* Under /l, things like [:word:], \S */ |
22484 | SV* only_utf8, /* Under /d, matches iff the target is UTF-8 */ |
22485 | SV* not_utf8, /* /d, matches iff the target isn't UTF-8 */ |
22486 | SV* only_utf8_locale, /* Under /l, matches if the locale is UTF-8 */ |
22487 | const bool_Bool invert /* Is the result to be inverted? */ |
22488 | ) |
22489 | { |
22490 | /* Create and return an SV containing a displayable version of the bitmap |
22491 | * and associated information determined by the input parameters. If the |
22492 | * output would have been only the inversion indicator '^', NULL is instead |
22493 | * returned. */ |
22494 | |
22495 | dVARstruct Perl___notused_struct; |
22496 | SV * output; |
22497 | |
22498 | PERL_ARGS_ASSERT_PUT_CHARCLASS_BITMAP_INNARDS_COMMON((invlist) ? (void)0 : __assert2("re_comp.c", 22498, __func__ , "invlist")); |
22499 | |
22500 | if (invert) { |
22501 | output = newSVpvs("^")Perl_newSVpvn( ("" "^" ""), (sizeof("^")-1)); |
22502 | } |
22503 | else { |
22504 | output = newSVpvs("")Perl_newSVpvn( ("" "" ""), (sizeof("")-1)); |
22505 | } |
22506 | |
22507 | /* First, the code points in the bitmap that are unconditionally there */ |
22508 | put_charclass_bitmap_innards_invlist(output, invlist)S_put_charclass_bitmap_innards_invlist( output,invlist); |
22509 | |
22510 | /* Traditionally, these have been placed after the main code points */ |
22511 | if (posixes) { |
22512 | sv_catsv(output, posixes)Perl_sv_catsv_flags( output,posixes,2); |
22513 | } |
22514 | |
22515 | if (only_utf8 && _invlist_lenS__invlist_len(only_utf8)) { |
22516 | Perl_sv_catpvf(aTHX_ output, "%s{utf8}%s", PL_colors[1], PL_colors[0]); |
22517 | put_charclass_bitmap_innards_invlist(output, only_utf8)S_put_charclass_bitmap_innards_invlist( output,only_utf8); |
22518 | } |
22519 | |
22520 | if (not_utf8 && _invlist_lenS__invlist_len(not_utf8)) { |
22521 | Perl_sv_catpvf(aTHX_ output, "%s{not utf8}%s", PL_colors[1], PL_colors[0]); |
22522 | put_charclass_bitmap_innards_invlist(output, not_utf8)S_put_charclass_bitmap_innards_invlist( output,not_utf8); |
22523 | } |
22524 | |
22525 | if (only_utf8_locale && _invlist_lenS__invlist_len(only_utf8_locale)) { |
22526 | Perl_sv_catpvf(aTHX_ output, "%s{utf8 locale}%s", PL_colors[1], PL_colors[0]); |
22527 | put_charclass_bitmap_innards_invlist(output, only_utf8_locale)S_put_charclass_bitmap_innards_invlist( output,only_utf8_locale ); |
22528 | |
22529 | /* This is the only list in this routine that can legally contain code |
22530 | * points outside the bitmap range. The call just above to |
22531 | * 'put_charclass_bitmap_innards_invlist' will simply suppress them, so |
22532 | * output them here. There's about a half-dozen possible, and none in |
22533 | * contiguous ranges longer than 2 */ |
22534 | if (invlist_highestS_invlist_highest(only_utf8_locale) >= NUM_ANYOF_CODE_POINTS(1 << 8)) { |
22535 | UV start, end; |
22536 | SV* above_bitmap = NULL((void*)0); |
22537 | |
22538 | _invlist_subtract(only_utf8_locale, PL_InBitmap, &above_bitmap)Perl__invlist_intersection_maybe_complement_2nd( only_utf8_locale ,PL_InBitmap,(1),&above_bitmap); |
22539 | |
22540 | invlist_iterinitS_invlist_iterinit(above_bitmap); |
22541 | while (invlist_iternextS_invlist_iternext(above_bitmap, &start, &end)) { |
22542 | UV i; |
22543 | |
22544 | for (i = start; i <= end; i++) { |
22545 | put_code_point(output, i)S_put_code_point( output,i); |
22546 | } |
22547 | } |
22548 | invlist_iterfinishS_invlist_iterfinish(above_bitmap); |
22549 | SvREFCNT_dec_NN(above_bitmap)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (above_bitmap); _p ; }))); |
22550 | } |
22551 | } |
22552 | |
22553 | if (invert && SvCUR(output)(*({ const SV *const _svcur = (const SV *)(output); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 22553, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 22553, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 22553, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) == 1) { |
22554 | return NULL((void*)0); |
22555 | } |
22556 | |
22557 | return output; |
22558 | } |
22559 | |
22560 | STATICstatic bool_Bool |
22561 | S_put_charclass_bitmap_innards(pTHX_ SV *sv, |
22562 | char *bitmap, |
22563 | SV *nonbitmap_invlist, |
22564 | SV *only_utf8_locale_invlist, |
22565 | const regnode * const node, |
22566 | const U8 flags, |
22567 | const bool_Bool force_as_is_display) |
22568 | { |
22569 | /* Appends to 'sv' a displayable version of the innards of the bracketed |
22570 | * character class defined by the other arguments: |
22571 | * 'bitmap' points to the bitmap, or NULL if to ignore that. |
22572 | * 'nonbitmap_invlist' is an inversion list of the code points that are in |
22573 | * the bitmap range, but for some reason aren't in the bitmap; NULL if |
22574 | * none. The reasons for this could be that they require some |
22575 | * condition such as the target string being or not being in UTF-8 |
22576 | * (under /d), or because they came from a user-defined property that |
22577 | * was not resolved at the time of the regex compilation (under /u) |
22578 | * 'only_utf8_locale_invlist' is an inversion list of the code points that |
22579 | * are valid only if the runtime locale is a UTF-8 one; NULL if none |
22580 | * 'node' is the regex pattern ANYOF node. It is needed only when the |
22581 | * above two parameters are not null, and is passed so that this |
22582 | * routine can tease apart the various reasons for them. |
22583 | * 'flags' is the flags field of 'node' |
22584 | * 'force_as_is_display' is TRUE if this routine should definitely NOT try |
22585 | * to invert things to see if that leads to a cleaner display. If |
22586 | * FALSE, this routine is free to use its judgment about doing this. |
22587 | * |
22588 | * It returns TRUE if there was actually something output. (It may be that |
22589 | * the bitmap, etc is empty.) |
22590 | * |
22591 | * When called for outputting the bitmap of a non-ANYOF node, just pass the |
22592 | * bitmap, with the succeeding parameters set to NULL, and the final one to |
22593 | * FALSE. |
22594 | */ |
22595 | |
22596 | /* In general, it tries to display the 'cleanest' representation of the |
22597 | * innards, choosing whether to display them inverted or not, regardless of |
22598 | * whether the class itself is to be inverted. However, there are some |
22599 | * cases where it can't try inverting, as what actually matches isn't known |
22600 | * until runtime, and hence the inversion isn't either. */ |
22601 | |
22602 | dVARstruct Perl___notused_struct; |
22603 | bool_Bool inverting_allowed = ! force_as_is_display; |
22604 | |
22605 | int i; |
22606 | STRLEN orig_sv_cur = SvCUR(sv)(*({ const SV *const _svcur = (const SV *)(sv); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 22606, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 22606, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 22606, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })); |
22607 | |
22608 | SV* invlist; /* Inversion list we accumulate of code points that |
22609 | are unconditionally matched */ |
22610 | SV* only_utf8 = NULL((void*)0); /* Under /d, list of matches iff the target is |
22611 | UTF-8 */ |
22612 | SV* not_utf8 = NULL((void*)0); /* /d, list of matches iff the target isn't UTF-8 |
22613 | */ |
22614 | SV* posixes = NULL((void*)0); /* Under /l, string of things like [:word:], \D */ |
22615 | SV* only_utf8_locale = NULL((void*)0); /* Under /l, list of matches if the locale |
22616 | is UTF-8 */ |
22617 | |
22618 | SV* as_is_display; /* The output string when we take the inputs |
22619 | literally */ |
22620 | SV* inverted_display; /* The output string when we invert the inputs */ |
22621 | |
22622 | bool_Bool invert = cBOOL(flags & ANYOF_INVERT)((flags & 0x01) ? (_Bool)1 : (_Bool)0); /* Is the input to be inverted |
22623 | to match? */ |
22624 | /* We are biased in favor of displaying things without them being inverted, |
22625 | * as that is generally easier to understand */ |
22626 | const int bias = 5; |
22627 | |
22628 | PERL_ARGS_ASSERT_PUT_CHARCLASS_BITMAP_INNARDS((sv) ? (void)0 : __assert2("re_comp.c", 22628, __func__, "sv" )); |
22629 | |
22630 | /* Start off with whatever code points are passed in. (We clone, so we |
22631 | * don't change the caller's list) */ |
22632 | if (nonbitmap_invlist) { |
22633 | assert(invlist_highest(nonbitmap_invlist) < NUM_ANYOF_CODE_POINTS)((S_invlist_highest(nonbitmap_invlist) < (1 << 8)) ? (void)0 : __assert2("re_comp.c", 22633, __func__, "invlist_highest(nonbitmap_invlist) < NUM_ANYOF_CODE_POINTS" )); |
22634 | invlist = invlist_clone(nonbitmap_invlist, NULL)Perl_invlist_clone( nonbitmap_invlist,((void*)0)); |
22635 | } |
22636 | else { /* Worst case size is every other code point is matched */ |
22637 | invlist = _new_invlist(NUM_ANYOF_CODE_POINTS / 2)Perl__new_invlist( (1 << 8) / 2); |
22638 | } |
22639 | |
22640 | if (flags) { |
22641 | if (OP(node)((node)->type) == ANYOFD19) { |
22642 | |
22643 | /* This flag indicates that the code points below 0x100 in the |
22644 | * nonbitmap list are precisely the ones that match only when the |
22645 | * target is UTF-8 (they should all be non-ASCII). */ |
22646 | if (flags & ANYOF_SHARED_d_UPPER_LATIN1_UTF8_STRING_MATCHES_non_d_RUNTIME_USER_PROP0x40) |
22647 | { |
22648 | _invlist_intersection(invlist, PL_UpperLatin1, &only_utf8)Perl__invlist_intersection_maybe_complement_2nd( invlist,PL_UpperLatin1 ,(0),&only_utf8); |
22649 | _invlist_subtract(invlist, only_utf8, &invlist)Perl__invlist_intersection_maybe_complement_2nd( invlist,only_utf8 ,(1),&invlist); |
22650 | } |
22651 | |
22652 | /* And this flag for matching all non-ASCII 0xFF and below */ |
22653 | if (flags & ANYOF_SHARED_d_MATCHES_ALL_NON_UTF8_NON_ASCII_non_d_WARN_SUPER0x80) |
22654 | { |
22655 | not_utf8 = invlist_clone(PL_UpperLatin1, NULL)Perl_invlist_clone( PL_UpperLatin1,((void*)0)); |
22656 | } |
22657 | } |
22658 | else if (OP(node)((node)->type) == ANYOFL20 || OP(node)((node)->type) == ANYOFPOSIXL21) { |
22659 | |
22660 | /* If either of these flags are set, what matches isn't |
22661 | * determinable except during execution, so don't know enough here |
22662 | * to invert */ |
22663 | if (flags & (ANYOFL_FOLD0x04|ANYOF_MATCHES_POSIXL0x02)) { |
22664 | inverting_allowed = FALSE(0); |
22665 | } |
22666 | |
22667 | /* What the posix classes match also varies at runtime, so these |
22668 | * will be output symbolically. */ |
22669 | if (ANYOF_POSIXL_TEST_ANY_SET(node)((((node)->flags) & 0x02) && (((regnode_charclass_posixl *)(node))->classflags))) { |
22670 | int i; |
22671 | |
22672 | posixes = newSVpvs("")Perl_newSVpvn( ("" "" ""), (sizeof("")-1)); |
22673 | for (i = 0; i < ANYOF_POSIXL_MAX(((15) * 2)); i++) { |
22674 | if (ANYOF_POSIXL_TEST(node, i)((((regnode_charclass_posixl*) (node))->classflags) & ( 1U << ((i))))) { |
22675 | sv_catpv(posixes, anyofs[i])Perl_sv_catpv( posixes,anyofs[i]); |
22676 | } |
22677 | } |
22678 | } |
22679 | } |
22680 | } |
22681 | |
22682 | /* Accumulate the bit map into the unconditional match list */ |
22683 | if (bitmap) { |
22684 | for (i = 0; i < NUM_ANYOF_CODE_POINTS(1 << 8); i++) { |
22685 | if (BITMAP_TEST(bitmap, i)((( (U8*) bitmap) [ ( ( (UV) (i)) >> 3) ] ) & (1U << (((U8)i) & 7)))) { |
22686 | int start = i++; |
22687 | for (; |
22688 | i < NUM_ANYOF_CODE_POINTS(1 << 8) && BITMAP_TEST(bitmap, i)((( (U8*) bitmap) [ ( ( (UV) (i)) >> 3) ] ) & (1U << (((U8)i) & 7))); |
22689 | i++) |
22690 | { /* empty */ } |
22691 | invlist = _add_range_to_invlist(invlist, start, i-1)Perl__add_range_to_invlist( invlist,start,i-1); |
22692 | } |
22693 | } |
22694 | } |
22695 | |
22696 | /* Make sure that the conditional match lists don't have anything in them |
22697 | * that match unconditionally; otherwise the output is quite confusing. |
22698 | * This could happen if the code that populates these misses some |
22699 | * duplication. */ |
22700 | if (only_utf8) { |
22701 | _invlist_subtract(only_utf8, invlist, &only_utf8)Perl__invlist_intersection_maybe_complement_2nd( only_utf8,invlist ,(1),&only_utf8); |
22702 | } |
22703 | if (not_utf8) { |
22704 | _invlist_subtract(not_utf8, invlist, ¬_utf8)Perl__invlist_intersection_maybe_complement_2nd( not_utf8,invlist ,(1),¬_utf8); |
22705 | } |
22706 | |
22707 | if (only_utf8_locale_invlist) { |
22708 | |
22709 | /* Since this list is passed in, we have to make a copy before |
22710 | * modifying it */ |
22711 | only_utf8_locale = invlist_clone(only_utf8_locale_invlist, NULL)Perl_invlist_clone( only_utf8_locale_invlist,((void*)0)); |
22712 | |
22713 | _invlist_subtract(only_utf8_locale, invlist, &only_utf8_locale)Perl__invlist_intersection_maybe_complement_2nd( only_utf8_locale ,invlist,(1),&only_utf8_locale); |
22714 | |
22715 | /* And, it can get really weird for us to try outputting an inverted |
22716 | * form of this list when it has things above the bitmap, so don't even |
22717 | * try */ |
22718 | if (invlist_highestS_invlist_highest(only_utf8_locale) >= NUM_ANYOF_CODE_POINTS(1 << 8)) { |
22719 | inverting_allowed = FALSE(0); |
22720 | } |
22721 | } |
22722 | |
22723 | /* Calculate what the output would be if we take the input as-is */ |
22724 | as_is_display = put_charclass_bitmap_innards_common(invlist,S_put_charclass_bitmap_innards_common( invlist,posixes,only_utf8 ,not_utf8,only_utf8_locale,invert) |
22725 | posixes,S_put_charclass_bitmap_innards_common( invlist,posixes,only_utf8 ,not_utf8,only_utf8_locale,invert) |
22726 | only_utf8,S_put_charclass_bitmap_innards_common( invlist,posixes,only_utf8 ,not_utf8,only_utf8_locale,invert) |
22727 | not_utf8,S_put_charclass_bitmap_innards_common( invlist,posixes,only_utf8 ,not_utf8,only_utf8_locale,invert) |
22728 | only_utf8_locale,S_put_charclass_bitmap_innards_common( invlist,posixes,only_utf8 ,not_utf8,only_utf8_locale,invert) |
22729 | invert)S_put_charclass_bitmap_innards_common( invlist,posixes,only_utf8 ,not_utf8,only_utf8_locale,invert); |
22730 | |
22731 | /* If have to take the output as-is, just do that */ |
22732 | if (! inverting_allowed) { |
22733 | if (as_is_display) { |
22734 | sv_catsv(sv, as_is_display)Perl_sv_catsv_flags( sv,as_is_display,2); |
22735 | SvREFCNT_dec_NN(as_is_display)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (as_is_display); _p ; }))); |
22736 | } |
22737 | } |
22738 | else { /* But otherwise, create the output again on the inverted input, and |
22739 | use whichever version is shorter */ |
22740 | |
22741 | int inverted_bias, as_is_bias; |
22742 | |
22743 | /* We will apply our bias to whichever of the results doesn't have |
22744 | * the '^' */ |
22745 | if (invert) { |
22746 | invert = FALSE(0); |
22747 | as_is_bias = bias; |
22748 | inverted_bias = 0; |
22749 | } |
22750 | else { |
22751 | invert = TRUE(1); |
22752 | as_is_bias = 0; |
22753 | inverted_bias = bias; |
22754 | } |
22755 | |
22756 | /* Now invert each of the lists that contribute to the output, |
22757 | * excluding from the result things outside the possible range */ |
22758 | |
22759 | /* For the unconditional inversion list, we have to add in all the |
22760 | * conditional code points, so that when inverted, they will be gone |
22761 | * from it */ |
22762 | _invlist_union(only_utf8, invlist, &invlist)Perl__invlist_union_maybe_complement_2nd( only_utf8,invlist,( 0),&invlist); |
22763 | _invlist_union(not_utf8, invlist, &invlist)Perl__invlist_union_maybe_complement_2nd( not_utf8,invlist,(0 ),&invlist); |
22764 | _invlist_union(only_utf8_locale, invlist, &invlist)Perl__invlist_union_maybe_complement_2nd( only_utf8_locale,invlist ,(0),&invlist); |
22765 | _invlist_invert(invlist)Perl__invlist_invert( invlist); |
22766 | _invlist_intersection(invlist, PL_InBitmap, &invlist)Perl__invlist_intersection_maybe_complement_2nd( invlist,PL_InBitmap ,(0),&invlist); |
22767 | |
22768 | if (only_utf8) { |
22769 | _invlist_invert(only_utf8)Perl__invlist_invert( only_utf8); |
22770 | _invlist_intersection(only_utf8, PL_UpperLatin1, &only_utf8)Perl__invlist_intersection_maybe_complement_2nd( only_utf8,PL_UpperLatin1 ,(0),&only_utf8); |
22771 | } |
22772 | else if (not_utf8) { |
22773 | |
22774 | /* If a code point matches iff the target string is not in UTF-8, |
22775 | * then complementing the result has it not match iff not in UTF-8, |
22776 | * which is the same thing as matching iff it is UTF-8. */ |
22777 | only_utf8 = not_utf8; |
22778 | not_utf8 = NULL((void*)0); |
22779 | } |
22780 | |
22781 | if (only_utf8_locale) { |
22782 | _invlist_invert(only_utf8_locale)Perl__invlist_invert( only_utf8_locale); |
22783 | _invlist_intersection(only_utf8_locale,Perl__invlist_intersection_maybe_complement_2nd( only_utf8_locale ,PL_InBitmap,(0),&only_utf8_locale) |
22784 | PL_InBitmap,Perl__invlist_intersection_maybe_complement_2nd( only_utf8_locale ,PL_InBitmap,(0),&only_utf8_locale) |
22785 | &only_utf8_locale)Perl__invlist_intersection_maybe_complement_2nd( only_utf8_locale ,PL_InBitmap,(0),&only_utf8_locale); |
22786 | } |
22787 | |
22788 | inverted_display = put_charclass_bitmap_innards_common(S_put_charclass_bitmap_innards_common( invlist,posixes,only_utf8 ,not_utf8,only_utf8_locale,invert) |
22789 | invlist,S_put_charclass_bitmap_innards_common( invlist,posixes,only_utf8 ,not_utf8,only_utf8_locale,invert) |
22790 | posixes,S_put_charclass_bitmap_innards_common( invlist,posixes,only_utf8 ,not_utf8,only_utf8_locale,invert) |
22791 | only_utf8,S_put_charclass_bitmap_innards_common( invlist,posixes,only_utf8 ,not_utf8,only_utf8_locale,invert) |
22792 | not_utf8,S_put_charclass_bitmap_innards_common( invlist,posixes,only_utf8 ,not_utf8,only_utf8_locale,invert) |
22793 | only_utf8_locale, invert)S_put_charclass_bitmap_innards_common( invlist,posixes,only_utf8 ,not_utf8,only_utf8_locale,invert); |
22794 | |
22795 | /* Use the shortest representation, taking into account our bias |
22796 | * against showing it inverted */ |
22797 | if ( inverted_display |
22798 | && ( ! as_is_display |
22799 | || ( SvCUR(inverted_display)(*({ const SV *const _svcur = (const SV *)(inverted_display); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 22799, __func__ , "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]")); ((!( (((_svcur)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 22799, __func__, "!isGV_with_GP(_svcur)" )); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 22799, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) + inverted_bias |
22800 | < SvCUR(as_is_display)(*({ const SV *const _svcur = (const SV *)(as_is_display); (( PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 22800, __func__ , "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]")); ((!( (((_svcur)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 22800, __func__, "!isGV_with_GP(_svcur)" )); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 22800, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) + as_is_bias))) |
22801 | { |
22802 | sv_catsv(sv, inverted_display)Perl_sv_catsv_flags( sv,inverted_display,2); |
22803 | } |
22804 | else if (as_is_display) { |
22805 | sv_catsv(sv, as_is_display)Perl_sv_catsv_flags( sv,as_is_display,2); |
22806 | } |
22807 | |
22808 | SvREFCNT_dec(as_is_display)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (as_is_display); _p; } ))); |
22809 | SvREFCNT_dec(inverted_display)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (inverted_display); _p ; }))); |
22810 | } |
22811 | |
22812 | SvREFCNT_dec_NN(invlist)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (invlist); _p; })) ); |
22813 | SvREFCNT_dec(only_utf8)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (only_utf8); _p; }))); |
22814 | SvREFCNT_dec(not_utf8)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (not_utf8); _p; }))); |
22815 | SvREFCNT_dec(posixes)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (posixes); _p; }))); |
22816 | SvREFCNT_dec(only_utf8_locale)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (only_utf8_locale); _p ; }))); |
22817 | |
22818 | return SvCUR(sv)(*({ const SV *const _svcur = (const SV *)(sv); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 22818, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 22818, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 22818, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) > orig_sv_cur; |
22819 | } |
22820 | |
22821 | #define CLEAR_OPTSTARTif (optstart) do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002 ))) Perl_re_printf( " (%" "ld" " nodes)\n", (IV)(node - optstart ));} while (0); optstart=((void*)0); } while (0) \ |
22822 | if (optstart) STMT_STARTdo { \ |
22823 | DEBUG_OPTIMISE_r(Perl_re_printf( aTHX_ \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_printf ( " (%" "ld" " nodes)\n", (IV)(node - optstart));} while (0) |
22824 | " (%" IVdf " nodes)\n", (IV)(node - optstart)))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_printf ( " (%" "ld" " nodes)\n", (IV)(node - optstart));} while (0); \ |
22825 | optstart=NULL((void*)0); \ |
22826 | } STMT_ENDwhile (0) |
22827 | |
22828 | #define DUMPUNTIL(b,e)if (optstart) do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002 ))) Perl_re_printf( " (%" "ld" " nodes)\n", (IV)(node - optstart ));} while (0); optstart=((void*)0); } while (0); node=S_dumpuntil ( r,start,(b),(e),last,sv,indent+1,depth+1); \ |
22829 | CLEAR_OPTSTARTif (optstart) do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002 ))) Perl_re_printf( " (%" "ld" " nodes)\n", (IV)(node - optstart ));} while (0); optstart=((void*)0); } while (0); \ |
22830 | node=dumpuntil(r,start,(b),(e),last,sv,indent+1,depth+1)S_dumpuntil( r,start,(b),(e),last,sv,indent+1,depth+1); |
22831 | |
22832 | STATICstatic const regnode * |
22833 | S_dumpuntil(pTHX_ const regexp *r, const regnode *start, const regnode *node, |
22834 | const regnode *last, const regnode *plast, |
22835 | SV* sv, I32 indent, U32 depth) |
22836 | { |
22837 | U8 op = PSEUDO108; /* Arbitrary non-END op. */ |
22838 | const regnode *next; |
22839 | const regnode *optstart= NULL((void*)0); |
22840 | |
22841 | RXi_GET_DECL(r, ri)regexp_internal *ri = ((regexp_internal *)((r)->pprivate)); |
22842 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 22842, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 22842, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
22843 | |
22844 | PERL_ARGS_ASSERT_DUMPUNTIL((r) ? (void)0 : __assert2("re_comp.c", 22844, __func__, "r") ); ((start) ? (void)0 : __assert2("re_comp.c", 22844, __func__ , "start")); ((node) ? (void)0 : __assert2("re_comp.c", 22844 , __func__, "node")); ((sv) ? (void)0 : __assert2("re_comp.c" , 22844, __func__, "sv")); |
22845 | |
22846 | #ifdef DEBUG_DUMPUNTIL |
22847 | Perl_re_printf( aTHX_ "--- %d : %d - %d - %d\n", indent, node-start, |
22848 | last ? last-start : 0, plast ? plast-start : 0); |
22849 | #endif |
22850 | |
22851 | if (plast && plast < last) |
22852 | last= plast; |
22853 | |
22854 | while (PL_regkind[op] != END0 && (!last || node < last)) { |
22855 | assert(node)((node) ? (void)0 : __assert2("re_comp.c", 22855, __func__, "node" )); |
22856 | /* While that wasn't END last time... */ |
22857 | NODE_ALIGN(node); |
22858 | op = OP(node)((node)->type); |
22859 | if (op == CLOSE64 || op == SRCLOSE66 || op == WHILEM62) |
22860 | indent--; |
22861 | next = regnext((regnode *)node)Perl_regnext( (regnode *)node); |
22862 | |
22863 | /* Where, what. */ |
22864 | if (OP(node)((node)->type) == OPTIMIZED107) { |
22865 | if (!optstart && RE_DEBUG_FLAG(RE_DEBUG_COMPILE_OPTIMISE)(re_debug_flags & (0x000002))) |
22866 | optstart = node; |
22867 | else |
22868 | goto after_print; |
22869 | } else |
22870 | CLEAR_OPTSTARTif (optstart) do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002 ))) Perl_re_printf( " (%" "ld" " nodes)\n", (IV)(node - optstart ));} while (0); optstart=((void*)0); } while (0); |
22871 | |
22872 | regprop(r, sv, node, NULL, NULL)my_regprop( r,sv,node,((void*)0),((void*)0)); |
22873 | Perl_re_printf( aTHX_ "%4" IVdf"ld" ":%*s%s", (IV)(node - start), |
22874 | (int)(2*indent + 1), "", SvPVX_const(sv)((const char*)(0 + (sv)->sv_u.svu_pv))); |
22875 | |
22876 | if (OP(node)((node)->type) != OPTIMIZED107) { |
22877 | if (next == NULL((void*)0)) /* Next ptr. */ |
22878 | Perl_re_printf( aTHX_ " (0)"); |
22879 | else if (PL_regkind[(U8)op] == BRANCH39 |
22880 | && PL_regkind[OP(next)((next)->type)] != BRANCH39 ) |
22881 | Perl_re_printf( aTHX_ " (FAIL)"); |
22882 | else |
22883 | Perl_re_printf( aTHX_ " (%" IVdf"ld" ")", (IV)(next - start)); |
22884 | Perl_re_printf( aTHX_ "\n"); |
22885 | } |
22886 | |
22887 | after_print: |
22888 | if (PL_regkind[(U8)op] == BRANCHJ78) { |
22889 | assert(next)((next) ? (void)0 : __assert2("re_comp.c", 22889, __func__, "next" )); |
22890 | { |
22891 | const regnode *nnode = (OP(next)((next)->type) == LONGJMP77 |
22892 | ? regnext((regnode *)next)Perl_regnext( (regnode *)next) |
22893 | : next); |
22894 | if (last && nnode > last) |
22895 | nnode = last; |
22896 | DUMPUNTIL(NEXTOPER(NEXTOPER(node)), nnode)if (optstart) do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002 ))) Perl_re_printf( " (%" "ld" " nodes)\n", (IV)(node - optstart ));} while (0); optstart=((void*)0); } while (0); node=S_dumpuntil ( r,start,(((((node) + 1)) + 1)),(nnode),last,sv,indent+1,depth +1);; |
22897 | } |
22898 | } |
22899 | else if (PL_regkind[(U8)op] == BRANCH39) { |
22900 | assert(next)((next) ? (void)0 : __assert2("re_comp.c", 22900, __func__, "next" )); |
22901 | DUMPUNTIL(NEXTOPER(node), next)if (optstart) do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002 ))) Perl_re_printf( " (%" "ld" " nodes)\n", (IV)(node - optstart ));} while (0); optstart=((void*)0); } while (0); node=S_dumpuntil ( r,start,(((node) + 1)),(next),last,sv,indent+1,depth+1);; |
22902 | } |
22903 | else if ( PL_regkind[(U8)op] == TRIE88 ) { |
22904 | const regnode *this_trie = node; |
22905 | const char op = OP(node)((node)->type); |
22906 | const U32 n = ARG(node)((((struct regnode_1 *)node)->arg1)); |
22907 | const reg_ac_data * const ac = op>=AHOCORASICK90 ? |
22908 | (reg_ac_data *)ri->data->data[n] : |
22909 | NULL((void*)0); |
22910 | const reg_trie_data * const trie = |
22911 | (reg_trie_data*)ri->data->data[op<AHOCORASICK90 ? n : ac->trie]; |
22912 | #ifdef DEBUGGING |
22913 | AV *const trie_words |
22914 | = MUTABLE_AV(ri->data->data[n + TRIE_WORDS_OFFSET])((AV *)({ void *_p = (ri->data->data[n + 2]); _p; })); |
22915 | #endif |
22916 | const regnode *nextbranch= NULL((void*)0); |
22917 | I32 word_idx; |
22918 | SvPVCLEAR(sv)Perl_sv_setpv_bufsize( sv,0,0); |
22919 | for (word_idx= 0; word_idx < (I32)trie->wordcount; word_idx++) { |
22920 | SV ** const elem_ptr = av_fetch(trie_words, word_idx, 0)Perl_av_fetch( trie_words,word_idx,0); |
22921 | |
22922 | Perl_re_indentf( aTHX_ "%s ", |
22923 | indent+3, |
22924 | elem_ptr |
22925 | ? pv_pretty(sv, SvPV_nolen_const(*elem_ptr),Perl_pv_pretty( sv,((((*elem_ptr)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (*elem_ptr) ->sv_u.svu_pv)) : Perl_sv_2pv_flags( *elem_ptr,0,2|32)),(* ({ const SV *const _svcur = (const SV *)(*elem_ptr); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 22926, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 22926, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 22926, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),PL_dump_re_max_len,PL_colors[0],PL_colors [1],(((*elem_ptr)->sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000002 | 0x000004) |
22926 | SvCUR(*elem_ptr), PL_dump_re_max_len,Perl_pv_pretty( sv,((((*elem_ptr)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (*elem_ptr) ->sv_u.svu_pv)) : Perl_sv_2pv_flags( *elem_ptr,0,2|32)),(* ({ const SV *const _svcur = (const SV *)(*elem_ptr); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 22926, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 22926, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 22926, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),PL_dump_re_max_len,PL_colors[0],PL_colors [1],(((*elem_ptr)->sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000002 | 0x000004) |
22927 | PL_colors[0], PL_colors[1],Perl_pv_pretty( sv,((((*elem_ptr)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (*elem_ptr) ->sv_u.svu_pv)) : Perl_sv_2pv_flags( *elem_ptr,0,2|32)),(* ({ const SV *const _svcur = (const SV *)(*elem_ptr); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 22926, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 22926, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 22926, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),PL_dump_re_max_len,PL_colors[0],PL_colors [1],(((*elem_ptr)->sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000002 | 0x000004) |
22928 | (SvUTF8(*elem_ptr)Perl_pv_pretty( sv,((((*elem_ptr)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (*elem_ptr) ->sv_u.svu_pv)) : Perl_sv_2pv_flags( *elem_ptr,0,2|32)),(* ({ const SV *const _svcur = (const SV *)(*elem_ptr); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 22926, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 22926, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 22926, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),PL_dump_re_max_len,PL_colors[0],PL_colors [1],(((*elem_ptr)->sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000002 | 0x000004) |
22929 | ? PERL_PV_ESCAPE_UNIPerl_pv_pretty( sv,((((*elem_ptr)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (*elem_ptr) ->sv_u.svu_pv)) : Perl_sv_2pv_flags( *elem_ptr,0,2|32)),(* ({ const SV *const _svcur = (const SV *)(*elem_ptr); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 22926, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 22926, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 22926, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),PL_dump_re_max_len,PL_colors[0],PL_colors [1],(((*elem_ptr)->sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000002 | 0x000004) |
22930 | : 0)Perl_pv_pretty( sv,((((*elem_ptr)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (*elem_ptr) ->sv_u.svu_pv)) : Perl_sv_2pv_flags( *elem_ptr,0,2|32)),(* ({ const SV *const _svcur = (const SV *)(*elem_ptr); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 22926, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 22926, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 22926, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),PL_dump_re_max_len,PL_colors[0],PL_colors [1],(((*elem_ptr)->sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000002 | 0x000004) |
22931 | | PERL_PV_PRETTY_ELLIPSESPerl_pv_pretty( sv,((((*elem_ptr)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (*elem_ptr) ->sv_u.svu_pv)) : Perl_sv_2pv_flags( *elem_ptr,0,2|32)),(* ({ const SV *const _svcur = (const SV *)(*elem_ptr); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 22926, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 22926, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 22926, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),PL_dump_re_max_len,PL_colors[0],PL_colors [1],(((*elem_ptr)->sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000002 | 0x000004) |
22932 | | PERL_PV_PRETTY_LTGTPerl_pv_pretty( sv,((((*elem_ptr)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (*elem_ptr) ->sv_u.svu_pv)) : Perl_sv_2pv_flags( *elem_ptr,0,2|32)),(* ({ const SV *const _svcur = (const SV *)(*elem_ptr); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 22926, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 22926, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 22926, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),PL_dump_re_max_len,PL_colors[0],PL_colors [1],(((*elem_ptr)->sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000002 | 0x000004) |
22933 | )Perl_pv_pretty( sv,((((*elem_ptr)->sv_flags & (0x00000400 |0x00200000)) == 0x00000400) ? ((const char*)(0 + (*elem_ptr) ->sv_u.svu_pv)) : Perl_sv_2pv_flags( *elem_ptr,0,2|32)),(* ({ const SV *const _svcur = (const SV *)(*elem_ptr); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 22926, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 22926, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 22926, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),PL_dump_re_max_len,PL_colors[0],PL_colors [1],(((*elem_ptr)->sv_flags & 0x20000000) ? 0x000100 : 0) | 0x000002 | 0x000004) |
22934 | : "???" |
22935 | ); |
22936 | if (trie->jump) { |
22937 | U16 dist= trie->jump[word_idx+1]; |
22938 | Perl_re_printf( aTHX_ "(%" UVuf"lu" ")\n", |
22939 | (UV)((dist ? this_trie + dist : next) - start)); |
22940 | if (dist) { |
22941 | if (!nextbranch) |
22942 | nextbranch= this_trie + trie->jump[0]; |
22943 | DUMPUNTIL(this_trie + dist, nextbranch)if (optstart) do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002 ))) Perl_re_printf( " (%" "ld" " nodes)\n", (IV)(node - optstart ));} while (0); optstart=((void*)0); } while (0); node=S_dumpuntil ( r,start,(this_trie + dist),(nextbranch),last,sv,indent+1,depth +1);; |
22944 | } |
22945 | if (nextbranch && PL_regkind[OP(nextbranch)((nextbranch)->type)]==BRANCH39) |
22946 | nextbranch= regnext((regnode *)nextbranch)Perl_regnext( (regnode *)nextbranch); |
22947 | } else { |
22948 | Perl_re_printf( aTHX_ "\n"); |
22949 | } |
22950 | } |
22951 | if (last && next > last) |
22952 | node= last; |
22953 | else |
22954 | node= next; |
22955 | } |
22956 | else if ( op == CURLY58 ) { /* "next" might be very big: optimizer */ |
22957 | DUMPUNTIL(NEXTOPER(node) + EXTRA_STEP_2ARGS,if (optstart) do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002 ))) Perl_re_printf( " (%" "ld" " nodes)\n", (IV)(node - optstart ));} while (0); optstart=((void*)0); } while (0); node=S_dumpuntil ( r,start,(((node) + 1) + ((sizeof(struct regnode_2)-1)/sizeof (struct regnode))),(((node) + 1) + ((sizeof(struct regnode_2) -1)/sizeof(struct regnode)) + 1),last,sv,indent+1,depth+1); |
22958 | NEXTOPER(node) + EXTRA_STEP_2ARGS + 1)if (optstart) do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002 ))) Perl_re_printf( " (%" "ld" " nodes)\n", (IV)(node - optstart ));} while (0); optstart=((void*)0); } while (0); node=S_dumpuntil ( r,start,(((node) + 1) + ((sizeof(struct regnode_2)-1)/sizeof (struct regnode))),(((node) + 1) + ((sizeof(struct regnode_2) -1)/sizeof(struct regnode)) + 1),last,sv,indent+1,depth+1);; |
22959 | } |
22960 | else if (PL_regkind[(U8)op] == CURLY58 && op != CURLYX61) { |
22961 | assert(next)((next) ? (void)0 : __assert2("re_comp.c", 22961, __func__, "next" )); |
22962 | DUMPUNTIL(NEXTOPER(node) + EXTRA_STEP_2ARGS, next)if (optstart) do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002 ))) Perl_re_printf( " (%" "ld" " nodes)\n", (IV)(node - optstart ));} while (0); optstart=((void*)0); } while (0); node=S_dumpuntil ( r,start,(((node) + 1) + ((sizeof(struct regnode_2)-1)/sizeof (struct regnode))),(next),last,sv,indent+1,depth+1);; |
22963 | } |
22964 | else if ( op == PLUS57 || op == STAR56) { |
22965 | DUMPUNTIL(NEXTOPER(node), NEXTOPER(node) + 1)if (optstart) do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002 ))) Perl_re_printf( " (%" "ld" " nodes)\n", (IV)(node - optstart ));} while (0); optstart=((void*)0); } while (0); node=S_dumpuntil ( r,start,(((node) + 1)),(((node) + 1) + 1),last,sv,indent+1, depth+1);; |
22966 | } |
22967 | else if (PL_regkind[(U8)op] == EXACT40 || op == ANYOFHs25) { |
22968 | /* Literal string, where present. */ |
22969 | node += NODE_SZ_STR(node)((((((((node)->type) == 41 || ((node)->type) == 51) ? ( ((((node)->type) == 41 || ((node)->type) == 51) ? (void )0 : __assert2("re_comp.c", 22969, __func__, "((node)->type) == 41 || ((node)->type) == 51" )), (((struct regnode_lstring *)node)->str_len)) : (((((node )->type) != 41 && ((node)->type) != 51) ? (void )0 : __assert2("re_comp.c", 22969, __func__, "((node)->type) != 41 && ((node)->type) != 51" )), ((struct regnode_string *)node)->str_len))) + sizeof(regnode ) - 1) / sizeof(regnode)) + 1 + regarglen[(node)->type]) - 1; |
22970 | node = NEXTOPER(node)((node) + 1); |
22971 | } |
22972 | else { |
22973 | node = NEXTOPER(node)((node) + 1); |
22974 | node += regarglen[(U8)op]; |
22975 | } |
22976 | if (op == CURLYX61 || op == OPEN63 || op == SROPEN65) |
22977 | indent++; |
22978 | } |
22979 | CLEAR_OPTSTARTif (optstart) do { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002 ))) Perl_re_printf( " (%" "ld" " nodes)\n", (IV)(node - optstart ));} while (0); optstart=((void*)0); } while (0); |
22980 | #ifdef DEBUG_DUMPUNTIL |
22981 | Perl_re_printf( aTHX_ "--- %d\n", (int)indent); |
22982 | #endif |
22983 | return node; |
22984 | } |
22985 | |
22986 | #endif /* DEBUGGING */ |
22987 | |
22988 | #ifndef PERL_IN_XSUB_RE |
22989 | |
22990 | # include "uni_keywords.h" |
22991 | |
22992 | void |
22993 | Perl_init_uniprops(pTHXvoid) |
22994 | { |
22995 | dVARstruct Perl___notused_struct; |
22996 | |
22997 | # ifdef DEBUGGING |
22998 | char * dump_len_string; |
22999 | |
23000 | dump_len_string = PerlEnv_getenv("PERL_DUMP_RE_MAX_LEN")Perl_mortal_getenv("PERL_DUMP_RE_MAX_LEN"); |
23001 | if ( ! dump_len_string |
23002 | || ! grok_atoUVPerl_grok_atoUV(dump_len_string, (UV *)&PL_dump_re_max_len, NULL((void*)0))) |
23003 | { |
23004 | PL_dump_re_max_len = 60; /* A reasonable default */ |
23005 | } |
23006 | # endif |
23007 | |
23008 | PL_user_def_props = newHV()((HV *)({ void *_p = (Perl_newSV_type( SVt_PVHV)); _p; })); |
23009 | |
23010 | # ifdef USE_ITHREADS |
23011 | |
23012 | HvSHAREKEYS_off(PL_user_def_props)((PL_user_def_props)->sv_flags &= ~0x20000000); |
23013 | PL_user_def_props_aTHX = aTHX; |
23014 | |
23015 | # endif |
23016 | |
23017 | /* Set up the inversion list interpreter-level variables */ |
23018 | |
23019 | PL_XPosix_ptrs[_CC_ASCII14] = _new_invlist_C_array(uni_prop_ptrs[UNI_ASCII])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_ASCII]); |
23020 | PL_XPosix_ptrs[_CC_ALPHANUMERIC7] = _new_invlist_C_array(uni_prop_ptrs[UNI_XPOSIXALNUM])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_XPOSIXALNUM]); |
23021 | PL_XPosix_ptrs[_CC_ALPHA2] = _new_invlist_C_array(uni_prop_ptrs[UNI_XPOSIXALPHA])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_XPOSIXALPHA]); |
23022 | PL_XPosix_ptrs[_CC_BLANK11] = _new_invlist_C_array(uni_prop_ptrs[UNI_XPOSIXBLANK])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_XPOSIXBLANK]); |
23023 | PL_XPosix_ptrs[_CC_CASED9] = _new_invlist_C_array(uni_prop_ptrs[UNI_CASED])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_CASED]); |
23024 | PL_XPosix_ptrs[_CC_CNTRL13] = _new_invlist_C_array(uni_prop_ptrs[UNI_XPOSIXCNTRL])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_XPOSIXCNTRL]); |
23025 | PL_XPosix_ptrs[_CC_DIGIT1] = _new_invlist_C_array(uni_prop_ptrs[UNI_XPOSIXDIGIT])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_XPOSIXDIGIT]); |
23026 | PL_XPosix_ptrs[_CC_GRAPH8] = _new_invlist_C_array(uni_prop_ptrs[UNI_XPOSIXGRAPH])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_XPOSIXGRAPH]); |
23027 | PL_XPosix_ptrs[_CC_LOWER3] = _new_invlist_C_array(uni_prop_ptrs[UNI_XPOSIXLOWER])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_XPOSIXLOWER]); |
23028 | PL_XPosix_ptrs[_CC_PRINT6] = _new_invlist_C_array(uni_prop_ptrs[UNI_XPOSIXPRINT])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_XPOSIXPRINT]); |
23029 | PL_XPosix_ptrs[_CC_PUNCT5] = _new_invlist_C_array(uni_prop_ptrs[UNI_XPOSIXPUNCT])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_XPOSIXPUNCT]); |
23030 | PL_XPosix_ptrs[_CC_SPACE10] = _new_invlist_C_array(uni_prop_ptrs[UNI_XPOSIXSPACE])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_XPOSIXSPACE]); |
23031 | PL_XPosix_ptrs[_CC_UPPER4] = _new_invlist_C_array(uni_prop_ptrs[UNI_XPOSIXUPPER])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_XPOSIXUPPER]); |
23032 | PL_XPosix_ptrs[_CC_VERTSPACE15] = _new_invlist_C_array(uni_prop_ptrs[UNI_VERTSPACE])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_VERTSPACE]); |
23033 | PL_XPosix_ptrs[_CC_WORDCHAR0] = _new_invlist_C_array(uni_prop_ptrs[UNI_XPOSIXWORD])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_XPOSIXWORD]); |
23034 | PL_XPosix_ptrs[_CC_XDIGIT12] = _new_invlist_C_array(uni_prop_ptrs[UNI_XPOSIXXDIGIT])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_XPOSIXXDIGIT]); |
23035 | |
23036 | PL_Posix_ptrs[_CC_ASCII14] = _new_invlist_C_array(uni_prop_ptrs[UNI_ASCII])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_ASCII]); |
23037 | PL_Posix_ptrs[_CC_ALPHANUMERIC7] = _new_invlist_C_array(uni_prop_ptrs[UNI_POSIXALNUM])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_POSIXALNUM]); |
23038 | PL_Posix_ptrs[_CC_ALPHA2] = _new_invlist_C_array(uni_prop_ptrs[UNI_POSIXALPHA])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_POSIXALPHA]); |
23039 | PL_Posix_ptrs[_CC_BLANK11] = _new_invlist_C_array(uni_prop_ptrs[UNI_POSIXBLANK])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_POSIXBLANK]); |
23040 | PL_Posix_ptrs[_CC_CASED9] = PL_Posix_ptrs[_CC_ALPHA2]; |
23041 | PL_Posix_ptrs[_CC_CNTRL13] = _new_invlist_C_array(uni_prop_ptrs[UNI_POSIXCNTRL])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_POSIXCNTRL]); |
23042 | PL_Posix_ptrs[_CC_DIGIT1] = _new_invlist_C_array(uni_prop_ptrs[UNI_POSIXDIGIT])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_POSIXDIGIT]); |
23043 | PL_Posix_ptrs[_CC_GRAPH8] = _new_invlist_C_array(uni_prop_ptrs[UNI_POSIXGRAPH])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_POSIXGRAPH]); |
23044 | PL_Posix_ptrs[_CC_LOWER3] = _new_invlist_C_array(uni_prop_ptrs[UNI_POSIXLOWER])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_POSIXLOWER]); |
23045 | PL_Posix_ptrs[_CC_PRINT6] = _new_invlist_C_array(uni_prop_ptrs[UNI_POSIXPRINT])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_POSIXPRINT]); |
23046 | PL_Posix_ptrs[_CC_PUNCT5] = _new_invlist_C_array(uni_prop_ptrs[UNI_POSIXPUNCT])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_POSIXPUNCT]); |
23047 | PL_Posix_ptrs[_CC_SPACE10] = _new_invlist_C_array(uni_prop_ptrs[UNI_POSIXSPACE])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_POSIXSPACE]); |
23048 | PL_Posix_ptrs[_CC_UPPER4] = _new_invlist_C_array(uni_prop_ptrs[UNI_POSIXUPPER])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_POSIXUPPER]); |
23049 | PL_Posix_ptrs[_CC_VERTSPACE15] = NULL((void*)0); |
23050 | PL_Posix_ptrs[_CC_WORDCHAR0] = _new_invlist_C_array(uni_prop_ptrs[UNI_POSIXWORD])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_POSIXWORD]); |
23051 | PL_Posix_ptrs[_CC_XDIGIT12] = _new_invlist_C_array(uni_prop_ptrs[UNI_POSIXXDIGIT])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_POSIXXDIGIT]); |
23052 | |
23053 | PL_GCB_invlist = _new_invlist_C_array(_Perl_GCB_invlist)Perl__new_invlist_C_array( _Perl_GCB_invlist); |
23054 | PL_SB_invlist = _new_invlist_C_array(_Perl_SB_invlist)Perl__new_invlist_C_array( _Perl_SB_invlist); |
23055 | PL_WB_invlist = _new_invlist_C_array(_Perl_WB_invlist)Perl__new_invlist_C_array( _Perl_WB_invlist); |
23056 | PL_LB_invlist = _new_invlist_C_array(_Perl_LB_invlist)Perl__new_invlist_C_array( _Perl_LB_invlist); |
23057 | PL_SCX_invlist = _new_invlist_C_array(_Perl_SCX_invlist)Perl__new_invlist_C_array( _Perl_SCX_invlist); |
23058 | |
23059 | PL_InBitmap = _new_invlist_C_array(InBitmap_invlist)Perl__new_invlist_C_array( InBitmap_invlist); |
23060 | PL_AboveLatin1 = _new_invlist_C_array(AboveLatin1_invlist)Perl__new_invlist_C_array( AboveLatin1_invlist); |
23061 | PL_Latin1 = _new_invlist_C_array(Latin1_invlist)Perl__new_invlist_C_array( Latin1_invlist); |
23062 | PL_UpperLatin1 = _new_invlist_C_array(UpperLatin1_invlist)Perl__new_invlist_C_array( UpperLatin1_invlist); |
23063 | |
23064 | PL_Assigned_invlist = _new_invlist_C_array(uni_prop_ptrs[UNI_ASSIGNED])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_ASSIGNED]); |
23065 | |
23066 | PL_utf8_perl_idstart = _new_invlist_C_array(uni_prop_ptrs[UNI__PERL_IDSTART])Perl__new_invlist_C_array( uni_prop_ptrs[UNI__PERL_IDSTART]); |
23067 | PL_utf8_perl_idcont = _new_invlist_C_array(uni_prop_ptrs[UNI__PERL_IDCONT])Perl__new_invlist_C_array( uni_prop_ptrs[UNI__PERL_IDCONT]); |
23068 | |
23069 | PL_utf8_charname_begin = _new_invlist_C_array(uni_prop_ptrs[UNI__PERL_CHARNAME_BEGIN])Perl__new_invlist_C_array( uni_prop_ptrs[UNI__PERL_CHARNAME_BEGIN ]); |
23070 | PL_utf8_charname_continue = _new_invlist_C_array(uni_prop_ptrs[UNI__PERL_CHARNAME_CONTINUE])Perl__new_invlist_C_array( uni_prop_ptrs[UNI__PERL_CHARNAME_CONTINUE ]); |
23071 | |
23072 | PL_in_some_fold = _new_invlist_C_array(uni_prop_ptrs[UNI__PERL_ANY_FOLDS])Perl__new_invlist_C_array( uni_prop_ptrs[UNI__PERL_ANY_FOLDS] ); |
23073 | PL_HasMultiCharFold = _new_invlist_C_array(uni_prop_ptrs[Perl__new_invlist_C_array( uni_prop_ptrs[ UNI__PERL_FOLDS_TO_MULTI_CHAR ]) |
23074 | UNI__PERL_FOLDS_TO_MULTI_CHAR])Perl__new_invlist_C_array( uni_prop_ptrs[ UNI__PERL_FOLDS_TO_MULTI_CHAR ]); |
23075 | PL_InMultiCharFold = _new_invlist_C_array(uni_prop_ptrs[Perl__new_invlist_C_array( uni_prop_ptrs[ UNI__PERL_IS_IN_MULTI_CHAR_FOLD ]) |
23076 | UNI__PERL_IS_IN_MULTI_CHAR_FOLD])Perl__new_invlist_C_array( uni_prop_ptrs[ UNI__PERL_IS_IN_MULTI_CHAR_FOLD ]); |
23077 | PL_utf8_toupper = _new_invlist_C_array(Uppercase_Mapping_invlist)Perl__new_invlist_C_array( Uppercase_Mapping_invlist); |
23078 | PL_utf8_tolower = _new_invlist_C_array(Lowercase_Mapping_invlist)Perl__new_invlist_C_array( Lowercase_Mapping_invlist); |
23079 | PL_utf8_totitle = _new_invlist_C_array(Titlecase_Mapping_invlist)Perl__new_invlist_C_array( Titlecase_Mapping_invlist); |
23080 | PL_utf8_tofold = _new_invlist_C_array(Case_Folding_invlist)Perl__new_invlist_C_array( Case_Folding_invlist); |
23081 | PL_utf8_tosimplefold = _new_invlist_C_array(Simple_Case_Folding_invlist)Perl__new_invlist_C_array( Simple_Case_Folding_invlist); |
23082 | PL_utf8_foldclosures = _new_invlist_C_array(_Perl_IVCF_invlist)Perl__new_invlist_C_array( _Perl_IVCF_invlist); |
23083 | PL_utf8_mark = _new_invlist_C_array(uni_prop_ptrs[UNI_M])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_M]); |
23084 | PL_CCC_non0_non230 = _new_invlist_C_array(_Perl_CCC_non0_non230_invlist)Perl__new_invlist_C_array( _Perl_CCC_non0_non230_invlist); |
23085 | PL_Private_Use = _new_invlist_C_array(uni_prop_ptrs[UNI_CO])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_CO]); |
23086 | |
23087 | # ifdef UNI_XIDC |
23088 | /* The below are used only by deprecated functions. They could be removed */ |
23089 | PL_utf8_xidcont = _new_invlist_C_array(uni_prop_ptrs[UNI_XIDC])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_XIDC]); |
23090 | PL_utf8_idcont = _new_invlist_C_array(uni_prop_ptrs[UNI_IDC])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_IDC]); |
23091 | PL_utf8_xidstart = _new_invlist_C_array(uni_prop_ptrs[UNI_XIDS])Perl__new_invlist_C_array( uni_prop_ptrs[UNI_XIDS]); |
23092 | # endif |
23093 | } |
23094 | |
23095 | /* These four functions are compiled only in regcomp.c, where they have access |
23096 | * to the data they return. They are a way for re_comp.c to get access to that |
23097 | * data without having to compile the whole data structures. */ |
23098 | |
23099 | I16 |
23100 | Perl_do_uniprop_match(const char * const key, const U16 key_len) |
23101 | { |
23102 | PERL_ARGS_ASSERT_DO_UNIPROP_MATCH((key) ? (void)0 : __assert2("re_comp.c", 23102, __func__, "key" )); |
23103 | |
23104 | return match_uniprop((U8 *) key, key_len); |
23105 | } |
23106 | |
23107 | SV * |
23108 | Perl_get_prop_definition(pTHX_ const int table_index) |
23109 | { |
23110 | PERL_ARGS_ASSERT_GET_PROP_DEFINITION; |
23111 | |
23112 | /* Create and return the inversion list */ |
23113 | return _new_invlist_C_array(uni_prop_ptrs[table_index])Perl__new_invlist_C_array( uni_prop_ptrs[table_index]); |
23114 | } |
23115 | |
23116 | const char * const * |
23117 | Perl_get_prop_values(const int table_index) |
23118 | { |
23119 | PERL_ARGS_ASSERT_GET_PROP_VALUES; |
23120 | |
23121 | return UNI_prop_value_ptrs[table_index]; |
23122 | } |
23123 | |
23124 | const char * |
23125 | Perl_get_deprecated_property_msg(const Size_tsize_t warning_offset) |
23126 | { |
23127 | PERL_ARGS_ASSERT_GET_DEPRECATED_PROPERTY_MSG; |
23128 | |
23129 | return deprecated_property_msgs[warning_offset]; |
23130 | } |
23131 | |
23132 | # if 0 |
23133 | |
23134 | This code was mainly added for backcompat to give a warning for non-portable |
23135 | code points in user-defined properties. But experiments showed that the |
23136 | warning in earlier perls were only omitted on overflow, which should be an |
23137 | error, so there really isnt a backcompat issue, and actually adding the |
23138 | warning when none was present before might cause breakage, for little gain. So |
23139 | khw left this code in, but not enabled. Tests were never added. |
23140 | |
23141 | embed.fnc entry: |
23142 | Ei |const char *|get_extended_utf8_msg|const UV cp |
23143 | |
23144 | PERL_STATIC_INLINEstatic __inline__ const char * |
23145 | S_get_extended_utf8_msg(pTHX_ const UV cp) |
23146 | { |
23147 | U8 dummy[UTF8_MAXBYTES13 + 1]; |
23148 | HV *msgs; |
23149 | SV **msg; |
23150 | |
23151 | uvchr_to_utf8_flags_msgs(dummy, cp, UNICODE_WARN_PERL_EXTENDED,Perl_uvoffuni_to_utf8_flags_msgs( dummy,((UV) ((cp) | 0)),0x0008 ,&msgs) |
23152 | &msgs)Perl_uvoffuni_to_utf8_flags_msgs( dummy,((UV) ((cp) | 0)),0x0008 ,&msgs); |
23153 | |
23154 | msg = hv_fetchs(msgs, "text", 0)((SV**) Perl_hv_common_key_len( ((msgs)),(("" "text" "")),((sizeof ("text")-1)),((0)) ? (0x20 | 0x10) : 0x20,((void*)0),0)); |
23155 | assert(msg)((msg) ? (void)0 : __assert2("re_comp.c", 23155, __func__, "msg" )); |
23156 | |
23157 | (void) sv_2mortal((SV *) msgs)Perl_sv_2mortal( (SV *) msgs); |
23158 | |
23159 | return SvPVX(*msg)(*({ SV *const _svpvx = ((SV *)({ void *_p = (*msg); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 23159, __func__ , "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]")); ((!( (((_svpvx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 23159, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 23159, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })); |
23160 | } |
23161 | |
23162 | # endif |
23163 | #endif /* end of ! PERL_IN_XSUB_RE */ |
23164 | |
23165 | STATICstatic REGEXP * |
23166 | S_compile_wildcard(pTHX_ const char * subpattern, const STRLEN len, |
23167 | const bool_Bool ignore_case) |
23168 | { |
23169 | /* Pretends that the input subpattern is qr/subpattern/aam, compiling it |
23170 | * possibly with /i if the 'ignore_case' parameter is true. Use /aa |
23171 | * because nothing outside of ASCII will match. Use /m because the input |
23172 | * string may be a bunch of lines strung together. |
23173 | * |
23174 | * Also sets up the debugging info */ |
23175 | |
23176 | U32 flags = PMf_MULTILINE(1U<<0)|PMf_WILDCARD(1U<<(((0 +12)+2)+17)); |
23177 | U32 rx_flags; |
23178 | SV * subpattern_sv = sv_2mortal(newSVpvn(subpattern, len))Perl_sv_2mortal( Perl_newSVpvn( subpattern,len)); |
23179 | REGEXP * subpattern_re; |
23180 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 23180, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 23180, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
23181 | |
23182 | PERL_ARGS_ASSERT_COMPILE_WILDCARD((subpattern) ? (void)0 : __assert2("re_comp.c", 23182, __func__ , "subpattern")); |
23183 | |
23184 | if (ignore_case) { |
23185 | flags |= PMf_FOLD(1U<<2); |
23186 | } |
23187 | set_regex_charset(&flags, REGEX_ASCII_MORE_RESTRICTED_CHARSET); |
23188 | |
23189 | /* Like in op.c, we copy the compile time pm flags to the rx ones */ |
23190 | rx_flags = flags & RXf_PMf_COMPILETIME((1U << (0 +0))|(1U << (0 +1))|(1U << (0 +2 ))|(1U << (0 +3))|(1U << (0 +4))|(1U << (0 + 6))|(1U << (0 +5))|(7U << (((0)+7)))|(1U<<( 0 +10))); |
23191 | |
23192 | #ifndef PERL_IN_XSUB_RE |
23193 | /* Use the core engine if this file is regcomp.c. That means no |
23194 | * 'use re "Debug ..." is in effect, so the core engine is sufficient */ |
23195 | subpattern_re = Perl_re_op_compilemy_re_op_compile(aTHX_ &subpattern_sv, 1, NULL((void*)0), |
23196 | &PL_core_reg_engine, |
23197 | NULL((void*)0), NULL((void*)0), |
23198 | rx_flags, flags); |
23199 | #else |
23200 | if (isDEBUG_WILDCARD(__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : ( _Bool)0),(0)) || (re_debug_flags & (0x2000000)))) { |
23201 | /* Use the special debugging engine if this file is re_comp.c and wants |
23202 | * to output the wildcard matching. This uses whatever |
23203 | * 'use re "Debug ..." is in effect */ |
23204 | subpattern_re = Perl_re_op_compilemy_re_op_compile(aTHX_ &subpattern_sv, 1, NULL((void*)0), |
23205 | &my_reg_engine, |
23206 | NULL((void*)0), NULL((void*)0), |
23207 | rx_flags, flags); |
23208 | } |
23209 | else { |
23210 | /* Use the special wildcard engine if this file is re_comp.c and |
23211 | * doesn't want to output the wildcard matching. This uses whatever |
23212 | * 'use re "Debug ..." is in effect for compilation, but this engine |
23213 | * structure has been set up so that it uses the core engine for |
23214 | * execution, so no execution debugging as a result of re.pm will be |
23215 | * displayed. */ |
23216 | subpattern_re = Perl_re_op_compilemy_re_op_compile(aTHX_ &subpattern_sv, 1, NULL((void*)0), |
23217 | &wild_reg_engine, |
23218 | NULL((void*)0), NULL((void*)0), |
23219 | rx_flags, flags); |
23220 | /* XXX The above has the effect that any user-supplied regex engine |
23221 | * won't be called for matching wildcards. That might be good, or bad. |
23222 | * It could be changed in several ways. The reason it is done the |
23223 | * current way is to avoid having to save and restore |
23224 | * ^{^RE_DEBUG_FLAGS} around the execution. save_scalar() perhaps |
23225 | * could be used. Another suggestion is to keep the authoritative |
23226 | * value of the debug flags in a thread-local variable and add set/get |
23227 | * magic to ${^RE_DEBUG_FLAGS} to keep the C level variable up to date. |
23228 | * Still another is to pass a flag, say in the engine's intflags that |
23229 | * would be checked each time before doing the debug output */ |
23230 | } |
23231 | #endif |
23232 | |
23233 | assert(subpattern_re)((subpattern_re) ? (void)0 : __assert2("re_comp.c", 23233, __func__ , "subpattern_re")); /* Should have died if didn't compile successfully */ |
23234 | return subpattern_re; |
23235 | } |
23236 | |
23237 | STATICstatic I32 |
23238 | S_execute_wildcard(pTHX_ REGEXP * const prog, char* stringarg, char *strend, |
23239 | char *strbeg, SSize_tssize_t minend, SV *screamer, U32 nosave) |
23240 | { |
23241 | I32 result; |
23242 | DECLARE_AND_GET_RE_DEBUG_FLAGSvolatile IV re_debug_flags = 0; ((void)sizeof(re_debug_flags) ); do { SV * re_debug_flags_sv = ((void*)0); re_debug_flags_sv = PL_curcop ? Perl_get_sv( "\022E_DEBUG_FLAGS",0x01) : ((void *)0); if (re_debug_flags_sv) { if (!((re_debug_flags_sv)-> sv_flags & 0x00000100)) Perl_sv_setuv( re_debug_flags_sv, 0x000008 | 0x00FF00); re_debug_flags=((((re_debug_flags_sv)-> sv_flags & (0x00000100|0x00200000)) == 0x00000100) ? (*({ const SV *const _svivx = (const SV *)(re_debug_flags_sv); (( PL_valid_types_IVX[((svtype)((_svivx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 23242, __func__ , "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]")); ((!( (((_svivx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 23242, __func__, "!isGV_with_GP(_svivx)" )); &(((XPVIV*) ({ void *_p = ((_svivx)->sv_any); _p; } ))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags( re_debug_flags_sv ,2)); } } while (0); |
23243 | |
23244 | PERL_ARGS_ASSERT_EXECUTE_WILDCARD((prog) ? (void)0 : __assert2("re_comp.c", 23244, __func__, "prog" )); ((stringarg) ? (void)0 : __assert2("re_comp.c", 23244, __func__ , "stringarg")); ((strend) ? (void)0 : __assert2("re_comp.c", 23244, __func__, "strend")); ((strbeg) ? (void)0 : __assert2 ("re_comp.c", 23244, __func__, "strbeg")); ((screamer) ? (void )0 : __assert2("re_comp.c", 23244, __func__, "screamer")); |
23245 | |
23246 | ENTERdo { Perl_push_scope(); if (__builtin_expect(((PL_debug & 0x00000004) ? (_Bool)1 : (_Bool)0),(0))) Perl_deb( "%s scope %ld (savestack=%ld) at %s:%d\n" , "ENTER", (long)PL_scopestack_ix, (long)PL_savestack_ix, "re_comp.c" , 23246); } while (0); |
23247 | |
23248 | /* The compilation has set things up so that if the program doesn't want to |
23249 | * see the wildcard matching procedure, it will get the core execution |
23250 | * engine, which is subject only to -Dr. So we have to turn that off |
23251 | * around this procedure */ |
23252 | if (! isDEBUG_WILDCARD(__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : ( _Bool)0),(0)) || (re_debug_flags & (0x2000000)))) { |
23253 | /* Note! Casts away 'volatile' */ |
23254 | SAVEI32(PL_debug)Perl_save_I32( (I32*)&(PL_debug)); |
23255 | PL_debug &= ~ DEBUG_r_FLAG0x00000200; |
23256 | } |
23257 | |
23258 | result = CALLREGEXEC(prog, stringarg, strend, strbeg, minend, screamer,(((Perl_ReANY((const REGEXP *)(prog)))->engine))->exec( (prog),(stringarg),(strend), (strbeg),(minend),(screamer),(( (void*)0)),(nosave)) |
23259 | NULL, nosave)(((Perl_ReANY((const REGEXP *)(prog)))->engine))->exec( (prog),(stringarg),(strend), (strbeg),(minend),(screamer),(( (void*)0)),(nosave)); |
23260 | LEAVEdo { if (__builtin_expect(((PL_debug & 0x00000004) ? (_Bool )1 : (_Bool)0),(0))) Perl_deb( "%s scope %ld (savestack=%ld) at %s:%d\n" , "LEAVE", (long)PL_scopestack_ix, (long)PL_savestack_ix, "re_comp.c" , 23260); Perl_pop_scope(); } while (0); |
23261 | |
23262 | return result; |
23263 | } |
23264 | |
23265 | SV * |
23266 | S_handle_user_defined_property(pTHX_ |
23267 | |
23268 | /* Parses the contents of a user-defined property definition; returning the |
23269 | * expanded definition if possible. If so, the return is an inversion |
23270 | * list. |
23271 | * |
23272 | * If there are subroutines that are part of the expansion and which aren't |
23273 | * known at the time of the call to this function, this returns what |
23274 | * parse_uniprop_string() returned for the first one encountered. |
23275 | * |
23276 | * If an error was found, NULL is returned, and 'msg' gets a suitable |
23277 | * message appended to it. (Appending allows the back trace of how we got |
23278 | * to the faulty definition to be displayed through nested calls of |
23279 | * user-defined subs.) |
23280 | * |
23281 | * The caller IS responsible for freeing any returned SV. |
23282 | * |
23283 | * The syntax of the contents is pretty much described in perlunicode.pod, |
23284 | * but we also allow comments on each line */ |
23285 | |
23286 | const char * name, /* Name of property */ |
23287 | const STRLEN name_len, /* The name's length in bytes */ |
23288 | const bool_Bool is_utf8, /* ? Is 'name' encoded in UTF-8 */ |
23289 | const bool_Bool to_fold, /* ? Is this under /i */ |
23290 | const bool_Bool runtime, /* ? Are we in compile- or run-time */ |
23291 | const bool_Bool deferrable, /* Is it ok for this property's full definition |
23292 | to be deferred until later? */ |
23293 | SV* contents, /* The property's definition */ |
23294 | bool_Bool *user_defined_ptr, /* This will be set TRUE as we wouldn't be |
23295 | getting called unless this is thought to be |
23296 | a user-defined property */ |
23297 | SV * msg, /* Any error or warning msg(s) are appended to |
23298 | this */ |
23299 | const STRLEN level) /* Recursion level of this call */ |
23300 | { |
23301 | STRLEN len; |
23302 | const char * string = SvPV_const(contents, len)((((contents)->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((len = (*({ const SV *const _svcur = (const SV *)(contents ); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 23302 , __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 23302, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 23302, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))), ((const char*)(0 + (contents)->sv_u. svu_pv))) : (const char*) Perl_sv_2pv_flags( contents,&len ,(2|32))); |
23303 | const char * const e = string + len; |
23304 | const bool_Bool is_contents_utf8 = cBOOL(SvUTF8(contents))((((contents)->sv_flags & 0x20000000)) ? (_Bool)1 : (_Bool )0); |
23305 | const STRLEN msgs_length_on_entry = SvCUR(msg)(*({ const SV *const _svcur = (const SV *)(msg); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 23305, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 23305, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 23305, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })); |
23306 | |
23307 | const char * s0 = string; /* Points to first byte in the current line |
23308 | being parsed in 'string' */ |
23309 | const char overflow_msg[] = "Code point too large in \""; |
23310 | SV* running_definition = NULL((void*)0); |
23311 | |
23312 | PERL_ARGS_ASSERT_HANDLE_USER_DEFINED_PROPERTY((name) ? (void)0 : __assert2("re_comp.c", 23312, __func__, "name" )); ((contents) ? (void)0 : __assert2("re_comp.c", 23312, __func__ , "contents")); ((user_defined_ptr) ? (void)0 : __assert2("re_comp.c" , 23312, __func__, "user_defined_ptr")); ((msg) ? (void)0 : __assert2 ("re_comp.c", 23312, __func__, "msg")); |
23313 | |
23314 | *user_defined_ptr = TRUE(1); |
23315 | |
23316 | /* Look at each line */ |
23317 | while (s0 < e) { |
23318 | const char * s; /* Current byte */ |
23319 | char op = '+'; /* Default operation is 'union' */ |
23320 | IV min = 0; /* range begin code point */ |
23321 | IV max = -1; /* and range end */ |
23322 | SV* this_definition; |
23323 | |
23324 | /* Skip comment lines */ |
23325 | if (*s0 == '#') { |
23326 | s0 = strchr(s0, '\n'); |
23327 | if (s0 == NULL((void*)0)) { |
23328 | break; |
23329 | } |
23330 | s0++; |
23331 | continue; |
23332 | } |
23333 | |
23334 | /* For backcompat, allow an empty first line */ |
23335 | if (*s0 == '\n') { |
23336 | s0++; |
23337 | continue; |
23338 | } |
23339 | |
23340 | /* First character in the line may optionally be the operation */ |
23341 | if ( *s0 == '+' |
23342 | || *s0 == '!' |
23343 | || *s0 == '-' |
23344 | || *s0 == '&') |
23345 | { |
23346 | op = *s0++; |
23347 | } |
23348 | |
23349 | /* If the line is one or two hex digits separated by blank space, its |
23350 | * a range; otherwise it is either another user-defined property or an |
23351 | * error */ |
23352 | |
23353 | s = s0; |
23354 | |
23355 | if (! isXDIGIT(*s)((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*s)] & (1U << (12)))) ? (_Bool )1 : (_Bool)0)) { |
23356 | goto check_if_property; |
23357 | } |
23358 | |
23359 | do { /* Each new hex digit will add 4 bits. */ |
23360 | if (min > ( (IV) MAX_LEGAL_CP((UV)((IV) ((~(UV)0) >> 1))) >> 4)) { |
23361 | s = strchr(s, '\n'); |
23362 | if (s == NULL((void*)0)) { |
23363 | s = e; |
23364 | } |
23365 | if (SvCUR(msg)(*({ const SV *const _svcur = (const SV *)(msg); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 23365, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 23365, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 23365, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) > 0) sv_catpvs(msg, "; ")Perl_sv_catpvn_flags( msg, ("" "; " ""), (sizeof("; ")-1), 2); |
23366 | sv_catpv(msg, overflow_msg)Perl_sv_catpv( msg,overflow_msg); |
23367 | Perl_sv_catpvf(aTHX_ msg, "%" UTF8f"d%" "lu" "%4p", |
23368 | UTF8fARG(is_contents_utf8, s - s0, s0)(int)((is_contents_utf8) ? (_Bool)1 : (_Bool)0), (UV)(s - s0) , (void*)(s0)); |
23369 | sv_catpvs(msg, "\"")Perl_sv_catpvn_flags( msg, ("" "\"" ""), (sizeof("\"")-1), 2); |
23370 | goto return_failure; |
23371 | } |
23372 | |
23373 | /* Accumulate this digit into the value */ |
23374 | min = (min << 4) + READ_XDIGIT(s)((s)++, (((((( (sizeof(*((s) - 1)) == 1) || !(((U64)((*((s) - 1)) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*((s) - 1))] & (1U << (12)))) ? (_Bool)1 : (_Bool)0)) ? ( void)0 : __assert2("re_comp.c", 23374, __func__, "((( (sizeof(*((s) - 1)) == 1) || !(((U64)((*((s) - 1)) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*((s) - 1))] & (1U << (12)))) ? (_Bool)1 : (_Bool)0)" )), (((((( (sizeof(*((s) - 1)) == 1) || !(((U64)((*((s) - 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 23374 , __func__, "( (sizeof(*((s) - 1)) == 1) || !(((U64)((*((s) - 1)) | 0)) & ~0xFF))" )), ((U8) ((*((s) - 1)) | 0))) >> 6) & 1) + (((((( ( sizeof(*((s) - 1)) == 1) || !(((U64)((*((s) - 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 23374, __func__, "( (sizeof(*((s) - 1)) == 1) || !(((U64)((*((s) - 1)) | 0)) & ~0xFF))" )), ((U8) ((*((s) - 1)) | 0))) >> 3) & 8) + ((*((s) - 1)) & 0xF))); |
23375 | } while (isXDIGIT(*s)((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*s)] & (1U << (12)))) ? (_Bool )1 : (_Bool)0)); |
23376 | |
23377 | while (isBLANK(*s)(( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*s)] & ((1U << (11)) | (1U << (14)))) == ((1U << (11)) | (1U << (14)))))) { s++; } |
23378 | |
23379 | /* We allow comments at the end of the line */ |
23380 | if (*s == '#') { |
23381 | s = strchr(s, '\n'); |
23382 | if (s == NULL((void*)0)) { |
23383 | s = e; |
23384 | } |
23385 | s++; |
23386 | } |
23387 | else if (s < e && *s != '\n') { |
23388 | if (! isXDIGIT(*s)((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*s)] & (1U << (12)))) ? (_Bool )1 : (_Bool)0)) { |
23389 | goto check_if_property; |
23390 | } |
23391 | |
23392 | /* Look for the high point of the range */ |
23393 | max = 0; |
23394 | do { |
23395 | if (max > ( (IV) MAX_LEGAL_CP((UV)((IV) ((~(UV)0) >> 1))) >> 4)) { |
23396 | s = strchr(s, '\n'); |
23397 | if (s == NULL((void*)0)) { |
23398 | s = e; |
23399 | } |
23400 | if (SvCUR(msg)(*({ const SV *const _svcur = (const SV *)(msg); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 23400, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 23400, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 23400, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) > 0) sv_catpvs(msg, "; ")Perl_sv_catpvn_flags( msg, ("" "; " ""), (sizeof("; ")-1), 2); |
23401 | sv_catpv(msg, overflow_msg)Perl_sv_catpv( msg,overflow_msg); |
23402 | Perl_sv_catpvf(aTHX_ msg, "%" UTF8f"d%" "lu" "%4p", |
23403 | UTF8fARG(is_contents_utf8, s - s0, s0)(int)((is_contents_utf8) ? (_Bool)1 : (_Bool)0), (UV)(s - s0) , (void*)(s0)); |
23404 | sv_catpvs(msg, "\"")Perl_sv_catpvn_flags( msg, ("" "\"" ""), (sizeof("\"")-1), 2); |
23405 | goto return_failure; |
23406 | } |
23407 | |
23408 | max = (max << 4) + READ_XDIGIT(s)((s)++, (((((( (sizeof(*((s) - 1)) == 1) || !(((U64)((*((s) - 1)) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*((s) - 1))] & (1U << (12)))) ? (_Bool)1 : (_Bool)0)) ? ( void)0 : __assert2("re_comp.c", 23408, __func__, "((( (sizeof(*((s) - 1)) == 1) || !(((U64)((*((s) - 1)) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*((s) - 1))] & (1U << (12)))) ? (_Bool)1 : (_Bool)0)" )), (((((( (sizeof(*((s) - 1)) == 1) || !(((U64)((*((s) - 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 23408 , __func__, "( (sizeof(*((s) - 1)) == 1) || !(((U64)((*((s) - 1)) | 0)) & ~0xFF))" )), ((U8) ((*((s) - 1)) | 0))) >> 6) & 1) + (((((( ( sizeof(*((s) - 1)) == 1) || !(((U64)((*((s) - 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 23408, __func__, "( (sizeof(*((s) - 1)) == 1) || !(((U64)((*((s) - 1)) | 0)) & ~0xFF))" )), ((U8) ((*((s) - 1)) | 0))) >> 3) & 8) + ((*((s) - 1)) & 0xF))); |
23409 | } while (isXDIGIT(*s)((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*s)] & (1U << (12)))) ? (_Bool )1 : (_Bool)0)); |
23410 | |
23411 | while (isBLANK(*s)(( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*s)] & ((1U << (11)) | (1U << (14)))) == ((1U << (11)) | (1U << (14)))))) { s++; } |
23412 | |
23413 | if (*s == '#') { |
23414 | s = strchr(s, '\n'); |
23415 | if (s == NULL((void*)0)) { |
23416 | s = e; |
23417 | } |
23418 | } |
23419 | else if (s < e && *s != '\n') { |
23420 | goto check_if_property; |
23421 | } |
23422 | } |
23423 | |
23424 | if (max == -1) { /* The line only had one entry */ |
23425 | max = min; |
23426 | } |
23427 | else if (max < min) { |
23428 | if (SvCUR(msg)(*({ const SV *const _svcur = (const SV *)(msg); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 23428, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 23428, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 23428, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) > 0) sv_catpvs(msg, "; ")Perl_sv_catpvn_flags( msg, ("" "; " ""), (sizeof("; ")-1), 2); |
23429 | sv_catpvs(msg, "Illegal range in \"")Perl_sv_catpvn_flags( msg, ("" "Illegal range in \"" ""), (sizeof ("Illegal range in \"")-1), 2); |
23430 | Perl_sv_catpvf(aTHX_ msg, "%" UTF8f"d%" "lu" "%4p", |
23431 | UTF8fARG(is_contents_utf8, s - s0, s0)(int)((is_contents_utf8) ? (_Bool)1 : (_Bool)0), (UV)(s - s0) , (void*)(s0)); |
23432 | sv_catpvs(msg, "\"")Perl_sv_catpvn_flags( msg, ("" "\"" ""), (sizeof("\"")-1), 2); |
23433 | goto return_failure; |
23434 | } |
23435 | |
23436 | # if 0 /* See explanation at definition above of get_extended_utf8_msg() */ |
23437 | |
23438 | if ( UNICODE_IS_PERL_EXTENDED(min)__builtin_expect((((UV) (min) > 0x7FFFFFFF) ? (_Bool)1 : ( _Bool)0),(0)) |
23439 | || UNICODE_IS_PERL_EXTENDED(max)__builtin_expect((((UV) (max) > 0x7FFFFFFF) ? (_Bool)1 : ( _Bool)0),(0))) |
23440 | { |
23441 | if (SvCUR(msg)(*({ const SV *const _svcur = (const SV *)(msg); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 23441, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 23441, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 23441, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) > 0) sv_catpvs(msg, "; ")Perl_sv_catpvn_flags( msg, ("" "; " ""), (sizeof("; ")-1), 2); |
23442 | |
23443 | /* If both code points are non-portable, warn only on the lower |
23444 | * one. */ |
23445 | sv_catpv(msg, get_extended_utf8_msg(Perl_sv_catpv( msg,get_extended_utf8_msg( (__builtin_expect(( ((UV) (min) > 0x7FFFFFFF) ? (_Bool)1 : (_Bool)0),(0))) ? min : max)) |
23446 | (UNICODE_IS_PERL_EXTENDED(min))Perl_sv_catpv( msg,get_extended_utf8_msg( (__builtin_expect(( ((UV) (min) > 0x7FFFFFFF) ? (_Bool)1 : (_Bool)0),(0))) ? min : max)) |
23447 | ? min : max))Perl_sv_catpv( msg,get_extended_utf8_msg( (__builtin_expect(( ((UV) (min) > 0x7FFFFFFF) ? (_Bool)1 : (_Bool)0),(0))) ? min : max)); |
23448 | sv_catpvs(msg, " in \"")Perl_sv_catpvn_flags( msg, ("" " in \"" ""), (sizeof(" in \"" )-1), 2); |
23449 | Perl_sv_catpvf(aTHX_ msg, "%" UTF8f"d%" "lu" "%4p", |
23450 | UTF8fARG(is_contents_utf8, s - s0, s0)(int)((is_contents_utf8) ? (_Bool)1 : (_Bool)0), (UV)(s - s0) , (void*)(s0)); |
23451 | sv_catpvs(msg, "\"")Perl_sv_catpvn_flags( msg, ("" "\"" ""), (sizeof("\"")-1), 2); |
23452 | } |
23453 | |
23454 | # endif |
23455 | |
23456 | /* Here, this line contains a legal range */ |
23457 | this_definition = sv_2mortal(_new_invlist(2))Perl_sv_2mortal( Perl__new_invlist( 2)); |
23458 | this_definition = _add_range_to_invlist(this_definition, min, max)Perl__add_range_to_invlist( this_definition,min,max); |
23459 | goto calculate; |
23460 | |
23461 | check_if_property: |
23462 | |
23463 | /* Here it isn't a legal range line. See if it is a legal property |
23464 | * line. First find the end of the meat of the line */ |
23465 | s = strpbrk(s, "#\n"); |
23466 | if (s == NULL((void*)0)) { |
23467 | s = e; |
23468 | } |
23469 | |
23470 | /* Ignore trailing blanks in keeping with the requirements of |
23471 | * parse_uniprop_string() */ |
23472 | s--; |
23473 | while (s > s0 && isBLANK_A(*s)(( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (*s)] & ((1U << (11)) | (1U << (14)))) == ((1U << (11)) | (1U << (14)))))) { |
23474 | s--; |
23475 | } |
23476 | s++; |
23477 | |
23478 | this_definition = parse_uniprop_string(s0, s - s0,S_parse_uniprop_string( s0,s - s0,is_utf8,to_fold,runtime,deferrable ,((void*)0),user_defined_ptr,msg,(name_len == 0) ? level : level + 1) |
23479 | is_utf8, to_fold, runtime,S_parse_uniprop_string( s0,s - s0,is_utf8,to_fold,runtime,deferrable ,((void*)0),user_defined_ptr,msg,(name_len == 0) ? level : level + 1) |
23480 | deferrable,S_parse_uniprop_string( s0,s - s0,is_utf8,to_fold,runtime,deferrable ,((void*)0),user_defined_ptr,msg,(name_len == 0) ? level : level + 1) |
23481 | NULL,S_parse_uniprop_string( s0,s - s0,is_utf8,to_fold,runtime,deferrable ,((void*)0),user_defined_ptr,msg,(name_len == 0) ? level : level + 1) |
23482 | user_defined_ptr, msg,S_parse_uniprop_string( s0,s - s0,is_utf8,to_fold,runtime,deferrable ,((void*)0),user_defined_ptr,msg,(name_len == 0) ? level : level + 1) |
23483 | (name_len == 0)S_parse_uniprop_string( s0,s - s0,is_utf8,to_fold,runtime,deferrable ,((void*)0),user_defined_ptr,msg,(name_len == 0) ? level : level + 1) |
23484 | ? level /* Don't increase levelS_parse_uniprop_string( s0,s - s0,is_utf8,to_fold,runtime,deferrable ,((void*)0),user_defined_ptr,msg,(name_len == 0) ? level : level + 1) |
23485 | if input is empty */S_parse_uniprop_string( s0,s - s0,is_utf8,to_fold,runtime,deferrable ,((void*)0),user_defined_ptr,msg,(name_len == 0) ? level : level + 1) |
23486 | : level + 1S_parse_uniprop_string( s0,s - s0,is_utf8,to_fold,runtime,deferrable ,((void*)0),user_defined_ptr,msg,(name_len == 0) ? level : level + 1) |
23487 | )S_parse_uniprop_string( s0,s - s0,is_utf8,to_fold,runtime,deferrable ,((void*)0),user_defined_ptr,msg,(name_len == 0) ? level : level + 1); |
23488 | if (this_definition == NULL((void*)0)) { |
23489 | goto return_failure; /* 'msg' should have had the reason |
23490 | appended to it by the above call */ |
23491 | } |
23492 | |
23493 | if (! is_invlistS_is_invlist(this_definition)) { /* Unknown at this time */ |
23494 | return newSVsv(this_definition)Perl_newSVsv_flags( (this_definition),2|16); |
23495 | } |
23496 | |
23497 | if (*s != '\n') { |
23498 | s = strchr(s, '\n'); |
23499 | if (s == NULL((void*)0)) { |
23500 | s = e; |
23501 | } |
23502 | } |
23503 | |
23504 | calculate: |
23505 | |
23506 | switch (op) { |
23507 | case '+': |
23508 | _invlist_union(running_definition, this_definition,Perl__invlist_union_maybe_complement_2nd( running_definition, this_definition,(0),&running_definition) |
23509 | &running_definition)Perl__invlist_union_maybe_complement_2nd( running_definition, this_definition,(0),&running_definition); |
23510 | break; |
23511 | case '-': |
23512 | _invlist_subtract(running_definition, this_definition,Perl__invlist_intersection_maybe_complement_2nd( running_definition ,this_definition,(1),&running_definition) |
23513 | &running_definition)Perl__invlist_intersection_maybe_complement_2nd( running_definition ,this_definition,(1),&running_definition); |
23514 | break; |
23515 | case '&': |
23516 | _invlist_intersection(running_definition, this_definition,Perl__invlist_intersection_maybe_complement_2nd( running_definition ,this_definition,(0),&running_definition) |
23517 | &running_definition)Perl__invlist_intersection_maybe_complement_2nd( running_definition ,this_definition,(0),&running_definition); |
23518 | break; |
23519 | case '!': |
23520 | _invlist_union_complement_2nd(running_definition,Perl__invlist_union_maybe_complement_2nd( running_definition, this_definition,(1),&running_definition) |
23521 | this_definition, &running_definition)Perl__invlist_union_maybe_complement_2nd( running_definition, this_definition,(1),&running_definition); |
23522 | break; |
23523 | default: |
23524 | Perl_croak(aTHX_ "panic: %s: %d: Unexpected operation %d", |
23525 | __FILE__"re_comp.c", __LINE__23525, op); |
23526 | break; |
23527 | } |
23528 | |
23529 | /* Position past the '\n' */ |
23530 | s0 = s + 1; |
23531 | } /* End of loop through the lines of 'contents' */ |
23532 | |
23533 | /* Here, we processed all the lines in 'contents' without error. If we |
23534 | * didn't add any warnings, simply return success */ |
23535 | if (msgs_length_on_entry == SvCUR(msg)(*({ const SV *const _svcur = (const SV *)(msg); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 23535, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 23535, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 23535, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))) { |
23536 | |
23537 | /* If the expansion was empty, the answer isn't nothing: its an empty |
23538 | * inversion list */ |
23539 | if (running_definition == NULL((void*)0)) { |
23540 | running_definition = _new_invlist(1)Perl__new_invlist( 1); |
23541 | } |
23542 | |
23543 | return running_definition; |
23544 | } |
23545 | |
23546 | /* Otherwise, add some explanatory text, but we will return success */ |
23547 | goto return_msg; |
23548 | |
23549 | return_failure: |
23550 | running_definition = NULL((void*)0); |
23551 | |
23552 | return_msg: |
23553 | |
23554 | if (name_len > 0) { |
23555 | sv_catpvs(msg, " in expansion of ")Perl_sv_catpvn_flags( msg, ("" " in expansion of " ""), (sizeof (" in expansion of ")-1), 2); |
23556 | Perl_sv_catpvf(aTHX_ msg, "%" UTF8f"d%" "lu" "%4p", UTF8fARG(is_utf8, name_len, name)(int)((is_utf8) ? (_Bool)1 : (_Bool)0), (UV)(name_len), (void *)(name)); |
23557 | } |
23558 | |
23559 | return running_definition; |
23560 | } |
23561 | |
23562 | /* As explained below, certain operations need to take place in the first |
23563 | * thread created. These macros switch contexts */ |
23564 | # ifdef USE_ITHREADS |
23565 | # define DECLARATION_FOR_GLOBAL_CONTEXTstruct Perl___notused_struct \ |
23566 | PerlInterpreter * save_aTHX = aTHX; |
23567 | # define SWITCH_TO_GLOBAL_CONTEXT(void)0 \ |
23568 | PERL_SET_CONTEXT((aTHX = PL_user_def_props_aTHX))(PL_curinterp = (PerlInterpreter*)(( = PL_user_def_props_aTHX ))) |
23569 | # define RESTORE_CONTEXT(void)0 PERL_SET_CONTEXT((aTHX = save_aTHX))(PL_curinterp = (PerlInterpreter*)(( = save_aTHX))); |
23570 | # define CUR_CONTEXT((void*)0) aTHX |
23571 | # define ORIGINAL_CONTEXT((void*)0) save_aTHX |
23572 | # else |
23573 | # define DECLARATION_FOR_GLOBAL_CONTEXTstruct Perl___notused_struct dNOOPstruct Perl___notused_struct |
23574 | # define SWITCH_TO_GLOBAL_CONTEXT(void)0 NOOP(void)0 |
23575 | # define RESTORE_CONTEXT(void)0 NOOP(void)0 |
23576 | # define CUR_CONTEXT((void*)0) NULL((void*)0) |
23577 | # define ORIGINAL_CONTEXT((void*)0) NULL((void*)0) |
23578 | # endif |
23579 | |
23580 | STATICstatic void |
23581 | S_delete_recursion_entry(pTHX_ void *key) |
23582 | { |
23583 | /* Deletes the entry used to detect recursion when expanding user-defined |
23584 | * properties. This is a function so it can be set up to be called even if |
23585 | * the program unexpectedly quits */ |
23586 | |
23587 | dVARstruct Perl___notused_struct; |
23588 | SV ** current_entry; |
23589 | const STRLEN key_len = strlen((const char *) key); |
23590 | DECLARATION_FOR_GLOBAL_CONTEXTstruct Perl___notused_struct; |
23591 | |
23592 | SWITCH_TO_GLOBAL_CONTEXT(void)0; |
23593 | |
23594 | /* If the entry is one of these types, it is a permanent entry, and not the |
23595 | * one used to detect recursions. This function should delete only the |
23596 | * recursion entry */ |
23597 | current_entry = hv_fetch(PL_user_def_props, (const char *) key, key_len, 0)((SV**) Perl_hv_common_key_len( (PL_user_def_props),((const char *) key),(key_len),(0) ? (0x20 | 0x10) : 0x20,((void*)0),0)); |
23598 | if ( current_entry |
23599 | && ! is_invlistS_is_invlist(*current_entry) |
23600 | && ! SvPOK(*current_entry)((*current_entry)->sv_flags & 0x00000400)) |
23601 | { |
23602 | (void) hv_delete(PL_user_def_props, (const char *) key, key_len,(((SV *)({ void *_p = (Perl_hv_common_key_len( (PL_user_def_props ),((const char *) key),(key_len),(0x4) | 0x40,((void*)0),0)); _p; }))) |
23603 | G_DISCARD)(((SV *)({ void *_p = (Perl_hv_common_key_len( (PL_user_def_props ),((const char *) key),(key_len),(0x4) | 0x40,((void*)0),0)); _p; }))); |
23604 | } |
23605 | |
23606 | RESTORE_CONTEXT(void)0; |
23607 | } |
23608 | |
23609 | STATICstatic SV * |
23610 | S_get_fq_name(pTHX_ |
23611 | const char * const name, /* The first non-blank in the \p{}, \P{} */ |
23612 | const Size_tsize_t name_len, /* Its length in bytes, not including any trailing space */ |
23613 | const bool_Bool is_utf8, /* ? Is 'name' encoded in UTF-8 */ |
23614 | const bool_Bool has_colon_colon |
23615 | ) |
23616 | { |
23617 | /* Returns a mortal SV containing the fully qualified version of the input |
23618 | * name */ |
23619 | |
23620 | SV * fq_name; |
23621 | |
23622 | fq_name = newSVpvs_flags("", SVs_TEMP)Perl_newSVpvn_flags( ("" "" ""), (sizeof("")-1), 0x00080000); |
23623 | |
23624 | /* Use the current package if it wasn't included in our input */ |
23625 | if (! has_colon_colon) { |
23626 | const HV * pkg = (IN_PERL_COMPILETIME((PL_curcop == &PL_compiling) ? (_Bool)1 : (_Bool)0)) |
23627 | ? PL_curstash |
23628 | : CopSTASH(PL_curcop)((PL_curcop)->cop_stash); |
23629 | const char* pkgname = HvNAME(pkg)((((pkg)->sv_flags & 0x02000000) && ((struct xpvhv_aux *)&(((pkg)->sv_u.svu_hash)[((XPVHV*) (pkg)->sv_any) ->xhv_max+1]))->xhv_name_u.xhvnameu_name && ( ( (struct xpvhv_aux*)&(((pkg)->sv_u.svu_hash)[((XPVHV*) ( pkg)->sv_any)->xhv_max+1]))->xhv_name_count ? *((struct xpvhv_aux*)&(((pkg)->sv_u.svu_hash)[((XPVHV*) (pkg)-> sv_any)->xhv_max+1]))->xhv_name_u.xhvnameu_names : ((struct xpvhv_aux*)&(((pkg)->sv_u.svu_hash)[((XPVHV*) (pkg)-> sv_any)->xhv_max+1]))->xhv_name_u.xhvnameu_name )) ? (( ((struct xpvhv_aux*)&(((pkg)->sv_u.svu_hash)[((XPVHV* ) (pkg)->sv_any)->xhv_max+1]))->xhv_name_count ? *(( struct xpvhv_aux*)&(((pkg)->sv_u.svu_hash)[((XPVHV*) ( pkg)->sv_any)->xhv_max+1]))->xhv_name_u.xhvnameu_names : ((struct xpvhv_aux*)&(((pkg)->sv_u.svu_hash)[((XPVHV *) (pkg)->sv_any)->xhv_max+1]))->xhv_name_u.xhvnameu_name ))->hek_key : ((void*)0)); |
23630 | |
23631 | Perl_sv_catpvf(aTHX_ fq_name, "%" UTF8f"d%" "lu" "%4p", |
23632 | UTF8fARG(is_utf8, strlen(pkgname), pkgname)(int)((is_utf8) ? (_Bool)1 : (_Bool)0), (UV)(strlen(pkgname)) , (void*)(pkgname)); |
23633 | sv_catpvs(fq_name, "::")Perl_sv_catpvn_flags( fq_name, ("" "::" ""), (sizeof("::")-1) , 2); |
23634 | } |
23635 | |
23636 | Perl_sv_catpvf(aTHX_ fq_name, "%" UTF8f"d%" "lu" "%4p", |
23637 | UTF8fARG(is_utf8, name_len, name)(int)((is_utf8) ? (_Bool)1 : (_Bool)0), (UV)(name_len), (void *)(name)); |
23638 | return fq_name; |
23639 | } |
23640 | |
23641 | STATICstatic SV * |
23642 | S_parse_uniprop_string(pTHX_ |
23643 | |
23644 | /* Parse the interior of a \p{}, \P{}. Returns its definition if knowable |
23645 | * now. If so, the return is an inversion list. |
23646 | * |
23647 | * If the property is user-defined, it is a subroutine, which in turn |
23648 | * may call other subroutines. This function will call the whole nest of |
23649 | * them to get the definition they return; if some aren't known at the time |
23650 | * of the call to this function, the fully qualified name of the highest |
23651 | * level sub is returned. It is an error to call this function at runtime |
23652 | * without every sub defined. |
23653 | * |
23654 | * If an error was found, NULL is returned, and 'msg' gets a suitable |
23655 | * message appended to it. (Appending allows the back trace of how we got |
23656 | * to the faulty definition to be displayed through nested calls of |
23657 | * user-defined subs.) |
23658 | * |
23659 | * The caller should NOT try to free any returned inversion list. |
23660 | * |
23661 | * Other parameters will be set on return as described below */ |
23662 | |
23663 | const char * const name, /* The first non-blank in the \p{}, \P{} */ |
23664 | Size_tsize_t name_len, /* Its length in bytes, not including any |
23665 | trailing space */ |
23666 | const bool_Bool is_utf8, /* ? Is 'name' encoded in UTF-8 */ |
23667 | const bool_Bool to_fold, /* ? Is this under /i */ |
23668 | const bool_Bool runtime, /* TRUE if this is being called at run time */ |
23669 | const bool_Bool deferrable, /* TRUE if it's ok for the definition to not be |
23670 | known at this call */ |
23671 | AV ** strings, /* To return string property values, like named |
23672 | sequences */ |
23673 | bool_Bool *user_defined_ptr, /* Upon return from this function it will be |
23674 | set to TRUE if any component is a |
23675 | user-defined property */ |
23676 | SV * msg, /* Any error or warning msg(s) are appended to |
23677 | this */ |
23678 | const STRLEN level) /* Recursion level of this call */ |
23679 | { |
23680 | dVARstruct Perl___notused_struct; |
23681 | char* lookup_name; /* normalized name for lookup in our tables */ |
23682 | unsigned lookup_len; /* Its length */ |
23683 | enum { Not_Strict = 0, /* Some properties have stricter name */ |
23684 | Strict, /* normalization rules, which we decide */ |
23685 | As_Is /* upon based on parsing */ |
23686 | } stricter = Not_Strict; |
23687 | |
23688 | /* nv= or numeric_value=, or possibly one of the cjk numeric properties |
23689 | * (though it requires extra effort to download them from Unicode and |
23690 | * compile perl to know about them) */ |
23691 | bool_Bool is_nv_type = FALSE(0); |
23692 | |
23693 | unsigned int i, j = 0; |
23694 | int equals_pos = -1; /* Where the '=' is found, or negative if none */ |
23695 | int slash_pos = -1; /* Where the '/' is found, or negative if none */ |
23696 | int table_index = 0; /* The entry number for this property in the table |
23697 | of all Unicode property names */ |
23698 | bool_Bool starts_with_Is = FALSE(0); /* ? Does the name start with 'Is' */ |
23699 | Size_tsize_t lookup_offset = 0; /* Used to ignore the first few characters of |
23700 | the normalized name in certain situations */ |
23701 | Size_tsize_t non_pkg_begin = 0; /* Offset of first byte in 'name' that isn't |
23702 | part of a package name */ |
23703 | Size_tsize_t lun_non_pkg_begin = 0; /* Similarly for 'lookup_name' */ |
23704 | bool_Bool could_be_user_defined = TRUE(1); /* ? Could this be a user-defined |
23705 | property rather than a Unicode |
23706 | one. */ |
23707 | SV * prop_definition = NULL((void*)0); /* The returned definition of 'name' or NULL |
23708 | if an error. If it is an inversion list, |
23709 | it is the definition. Otherwise it is a |
23710 | string containing the fully qualified sub |
23711 | name of 'name' */ |
23712 | SV * fq_name = NULL((void*)0); /* For user-defined properties, the fully |
23713 | qualified name */ |
23714 | bool_Bool invert_return = FALSE(0); /* ? Do we need to complement the result before |
23715 | returning it */ |
23716 | bool_Bool stripped_utf8_pkg = FALSE(0); /* Set TRUE if the input includes an |
23717 | explicit utf8:: package that we strip |
23718 | off */ |
23719 | /* The expansion of properties that could be either user-defined or |
23720 | * official unicode ones is deferred until runtime, including a marker for |
23721 | * those that might be in the latter category. This boolean indicates if |
23722 | * we've seen that marker. If not, what we're parsing can't be such an |
23723 | * official Unicode property whose expansion was deferred */ |
23724 | bool_Bool could_be_deferred_official = FALSE(0); |
23725 | |
23726 | PERL_ARGS_ASSERT_PARSE_UNIPROP_STRING((name) ? (void)0 : __assert2("re_comp.c", 23726, __func__, "name" )); ((user_defined_ptr) ? (void)0 : __assert2("re_comp.c", 23726 , __func__, "user_defined_ptr")); ((msg) ? (void)0 : __assert2 ("re_comp.c", 23726, __func__, "msg")); |
23727 | |
23728 | /* The input will be normalized into 'lookup_name' */ |
23729 | Newx(lookup_name, name_len, char)(lookup_name = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(name_len) || sizeof(char) > ((size_t)1 << 8* (sizeof(size_t) - sizeof(name_len)))) ? (size_t)(name_len) : ( (size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof(char))) ? ( _Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap() ,0)), (char*)(Perl_safesysmalloc((size_t)((name_len)*sizeof(char )))))); |
23730 | SAVEFREEPV(lookup_name)Perl_save_pushptr( (void *)((char*)(lookup_name)),10); |
23731 | |
23732 | /* Parse the input. */ |
23733 | for (i = 0; i < name_len; i++) { |
23734 | char cur = name[i]; |
23735 | |
23736 | /* Most of the characters in the input will be of this ilk, being parts |
23737 | * of a name */ |
23738 | if (isIDCONT_A(cur)(( (sizeof(cur) == 1) || !(((U64)((cur) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (cur)] & ((1U << (0)) | (1U << (14)))) == ((1U << (0)) | (1U << (14)))))) { |
23739 | |
23740 | /* Case differences are ignored. Our lookup routine assumes |
23741 | * everything is lowercase, so normalize to that */ |
23742 | if (isUPPER_A(cur)(((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 23742 , __func__, "('Z') >= ('A')")), ( (sizeof(cur) == sizeof(U8 )) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 23742, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 23742, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) (cur)) )) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)))) ) : (sizeof(cur) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 23742, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 23742, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) (cur)))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof(cur) == sizeof(U64)) ? (void) 0 : __assert2("re_comp.c", 23742, __func__, "sizeof(cur) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 23742, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 23742, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) (cur) ))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))) )))))) { |
23743 | lookup_name[j++] = toLOWER_A(cur)((((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 23743 , __func__, "('Z') >= ('A')")), ( (sizeof(cur) == sizeof(U8 )) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 23743, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 23743, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) (cur)) )) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)))) ) : (sizeof(cur) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 23743, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 23743, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) (cur)))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof(cur) == sizeof(U64)) ? (void) 0 : __assert2("re_comp.c", 23743, __func__, "sizeof(cur) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 23743, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 23743, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) (cur) ))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))) ))))) ? (U8)((cur) + ('a' - 'A')) : (cur)); |
23744 | continue; |
23745 | } |
23746 | |
23747 | if (cur == '_') { /* Don't include these in the normalized name */ |
23748 | continue; |
23749 | } |
23750 | |
23751 | lookup_name[j++] = cur; |
23752 | |
23753 | /* The first character in a user-defined name must be of this type. |
23754 | * */ |
23755 | if (i - non_pkg_begin == 0 && ! isIDFIRST_A(cur)(( (sizeof(cur) == 1) || !(((U64)((cur) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (cur)] & ((1U << (16)) | (1U << (14)))) == ((1U << (16)) | (1U << (14)))))) { |
23756 | could_be_user_defined = FALSE(0); |
23757 | } |
23758 | |
23759 | continue; |
23760 | } |
23761 | |
23762 | /* Here, the character is not something typically in a name, But these |
23763 | * two types of characters (and the '_' above) can be freely ignored in |
23764 | * most situations. Later it may turn out we shouldn't have ignored |
23765 | * them, and we have to reparse, but we don't have enough information |
23766 | * yet to make that decision */ |
23767 | if (cur == '-' || isSPACE_A(cur)(( (sizeof(cur) == 1) || !(((U64)((cur) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (cur)] & ((1U << (10)) | (1U << (14)))) == ((1U << (10)) | (1U << (14)))))) { |
23768 | could_be_user_defined = FALSE(0); |
23769 | continue; |
23770 | } |
23771 | |
23772 | /* An equals sign or single colon mark the end of the first part of |
23773 | * the property name */ |
23774 | if ( cur == '=' |
23775 | || (cur == ':' && (i >= name_len - 1 || name[i+1] != ':'))) |
23776 | { |
23777 | lookup_name[j++] = '='; /* Treat the colon as an '=' */ |
23778 | equals_pos = j; /* Note where it occurred in the input */ |
23779 | could_be_user_defined = FALSE(0); |
23780 | break; |
23781 | } |
23782 | |
23783 | /* If this looks like it is a marker we inserted at compile time, |
23784 | * set a flag and otherwise ignore it. If it isn't in the final |
23785 | * position, keep it as it would have been user input. */ |
23786 | if ( UNLIKELY(cur == DEFERRED_COULD_BE_OFFICIAL_MARKERc)__builtin_expect(((cur == '~') ? (_Bool)1 : (_Bool)0),(0)) |
23787 | && ! deferrable |
23788 | && could_be_user_defined |
23789 | && i == name_len - 1) |
23790 | { |
23791 | name_len--; |
23792 | could_be_deferred_official = TRUE(1); |
23793 | continue; |
23794 | } |
23795 | |
23796 | /* Otherwise, this character is part of the name. */ |
23797 | lookup_name[j++] = cur; |
23798 | |
23799 | /* Here it isn't a single colon, so if it is a colon, it must be a |
23800 | * double colon */ |
23801 | if (cur == ':') { |
23802 | |
23803 | /* A double colon should be a package qualifier. We note its |
23804 | * position and continue. Note that one could have |
23805 | * pkg1::pkg2::...::foo |
23806 | * so that the position at the end of the loop will be just after |
23807 | * the final qualifier */ |
23808 | |
23809 | i++; |
23810 | non_pkg_begin = i + 1; |
23811 | lookup_name[j++] = ':'; |
23812 | lun_non_pkg_begin = j; |
23813 | } |
23814 | else { /* Only word chars (and '::') can be in a user-defined name */ |
23815 | could_be_user_defined = FALSE(0); |
23816 | } |
23817 | } /* End of parsing through the lhs of the property name (or all of it if |
23818 | no rhs) */ |
23819 | |
23820 | # define STRLENs(s)(sizeof("" s "") - 1) (sizeof("" s "") - 1) |
23821 | |
23822 | /* If there is a single package name 'utf8::', it is ambiguous. It could |
23823 | * be for a user-defined property, or it could be a Unicode property, as |
23824 | * all of them are considered to be for that package. For the purposes of |
23825 | * parsing the rest of the property, strip it off */ |
23826 | if (non_pkg_begin == STRLENs("utf8::")(sizeof("" "utf8::" "") - 1) && memBEGINPs(name, name_len, "utf8::")( (ptrdiff_t) (name_len) > (ptrdiff_t) sizeof("utf8::") - 1 && (memcmp(((const void *) (name)), ((const void *) ( "" "utf8::" "")), sizeof("utf8::")-1) == 0))) { |
23827 | lookup_name += STRLENs("utf8::")(sizeof("" "utf8::" "") - 1); |
23828 | j -= STRLENs("utf8::")(sizeof("" "utf8::" "") - 1); |
23829 | equals_pos -= STRLENs("utf8::")(sizeof("" "utf8::" "") - 1); |
23830 | stripped_utf8_pkg = TRUE(1); |
23831 | } |
23832 | |
23833 | /* Here, we are either done with the whole property name, if it was simple; |
23834 | * or are positioned just after the '=' if it is compound. */ |
23835 | |
23836 | if (equals_pos >= 0) { |
23837 | assert(stricter == Not_Strict)((stricter == Not_Strict) ? (void)0 : __assert2("re_comp.c", 23837 , __func__, "stricter == Not_Strict")); /* We shouldn't have set this yet */ |
23838 | |
23839 | /* Space immediately after the '=' is ignored */ |
23840 | i++; |
23841 | for (; i < name_len; i++) { |
23842 | if (! isSPACE_A(name[i])(( (sizeof(name[i]) == 1) || !(((U64)((name[i]) | 0)) & ~ 0xFF)) && ((PL_charclass[(U8) (name[i])] & ((1U << (10)) | (1U << (14)))) == ((1U << (10)) | (1U << (14)))))) { |
23843 | break; |
23844 | } |
23845 | } |
23846 | |
23847 | /* Most punctuation after the equals indicates a subpattern, like |
23848 | * \p{foo=/bar/} */ |
23849 | if ( isPUNCT_A(name[i])(( (sizeof(name[i]) == 1) || !(((U64)((name[i]) | 0)) & ~ 0xFF)) && ((PL_charclass[(U8) (name[i])] & ((1U << (5)) | (1U << (14)))) == ((1U << (5)) | (1U << (14))))) |
23850 | && name[i] != '-' |
23851 | && name[i] != '+' |
23852 | && name[i] != '_' |
23853 | && name[i] != '{' |
23854 | /* A backslash means the real delimitter is the next character, |
23855 | * but it must be punctuation */ |
23856 | && (name[i] != '\\' || (i < name_len && isPUNCT_A(name[i+1])(( (sizeof(name[i+1]) == 1) || !(((U64)((name[i+1]) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (name[i+1])] & (( 1U << (5)) | (1U << (14)))) == ((1U << (5)) | (1U << (14)))))))) |
23857 | { |
23858 | bool_Bool special_property = memEQs(lookup_name, j - 1, "name")(((sizeof("name")-1) == (j - 1)) && (memcmp(((const void *) ((lookup_name))), ((const void *) (("" "name" ""))), (sizeof ("name")-1)) == 0)) |
23859 | || memEQs(lookup_name, j - 1, "na")(((sizeof("na")-1) == (j - 1)) && (memcmp(((const void *) ((lookup_name))), ((const void *) (("" "na" ""))), (sizeof ("na")-1)) == 0)); |
23860 | if (! special_property) { |
23861 | /* Find the property. The table includes the equals sign, so |
23862 | * we use 'j' as-is */ |
23863 | table_index = do_uniprop_matchPerl_do_uniprop_match(lookup_name, j); |
23864 | } |
23865 | if (special_property || table_index) { |
23866 | REGEXP * subpattern_re; |
23867 | char open = name[i++]; |
23868 | char close; |
23869 | const char * pos_in_brackets; |
23870 | const char * const * prop_values; |
23871 | bool_Bool escaped = 0; |
23872 | |
23873 | /* Backslash => delimitter is the character following. We |
23874 | * already checked that it is punctuation */ |
23875 | if (open == '\\') { |
23876 | open = name[i++]; |
23877 | escaped = 1; |
23878 | } |
23879 | |
23880 | /* This data structure is constructed so that the matching |
23881 | * closing bracket is 3 past its matching opening. The second |
23882 | * set of closing is so that if the opening is something like |
23883 | * ']', the closing will be that as well. Something similar is |
23884 | * done in toke.c */ |
23885 | pos_in_brackets = memCHRs("([<)]>)]>", open)((const char *) memchr("" "([<)]>)]>" "" , open, sizeof ("([<)]>)]>")-1)); |
23886 | close = (pos_in_brackets) ? pos_in_brackets[3] : open; |
23887 | |
23888 | if ( i >= name_len |
23889 | || name[name_len-1] != close |
23890 | || (escaped && name[name_len-2] != '\\') |
23891 | /* Also make sure that there are enough characters. |
23892 | * e.g., '\\\' would show up incorrectly as legal even |
23893 | * though it is too short */ |
23894 | || (SSize_tssize_t) (name_len - i - 1 - escaped) < 0) |
23895 | { |
23896 | sv_catpvs(msg, "Unicode property wildcard not terminated")Perl_sv_catpvn_flags( msg, ("" "Unicode property wildcard not terminated" ""), (sizeof("Unicode property wildcard not terminated")-1), 2); |
23897 | goto append_name_to_msg; |
23898 | } |
23899 | |
23900 | Perl_ck_warner_d(aTHX_ |
23901 | packWARN(WARN_EXPERIMENTAL__UNIPROP_WILDCARDS)(71 ), |
23902 | "The Unicode property wildcards feature is experimental"); |
23903 | |
23904 | if (special_property) { |
23905 | const char * error_msg; |
23906 | const char * revised_name = name + i; |
23907 | Size_tsize_t revised_name_len = name_len - (i + 1 + escaped); |
23908 | |
23909 | /* Currently, the only 'special_property' is name, which we |
23910 | * lookup in _charnames.pm */ |
23911 | |
23912 | if (! load_charnames(newSVpvs("placeholder"),Perl_load_charnames( Perl_newSVpvn( ("" "placeholder" ""), (sizeof ("placeholder")-1)),revised_name,revised_name_len,&error_msg ) |
23913 | revised_name, revised_name_len,Perl_load_charnames( Perl_newSVpvn( ("" "placeholder" ""), (sizeof ("placeholder")-1)),revised_name,revised_name_len,&error_msg ) |
23914 | &error_msg)Perl_load_charnames( Perl_newSVpvn( ("" "placeholder" ""), (sizeof ("placeholder")-1)),revised_name,revised_name_len,&error_msg )) |
23915 | { |
23916 | sv_catpv(msg, error_msg)Perl_sv_catpv( msg,error_msg); |
23917 | goto append_name_to_msg; |
23918 | } |
23919 | |
23920 | /* Farm this out to a function just to make the current |
23921 | * function less unwieldy */ |
23922 | if (handle_names_wildcard(revised_name, revised_name_len,S_handle_names_wildcard( revised_name,revised_name_len,&prop_definition ,strings) |
23923 | &prop_definition,S_handle_names_wildcard( revised_name,revised_name_len,&prop_definition ,strings) |
23924 | strings)S_handle_names_wildcard( revised_name,revised_name_len,&prop_definition ,strings)) |
23925 | { |
23926 | return prop_definition; |
23927 | } |
23928 | |
23929 | goto failed; |
23930 | } |
23931 | |
23932 | prop_values = get_prop_valuesPerl_get_prop_values(table_index); |
23933 | |
23934 | /* Now create and compile the wildcard subpattern. Use /i |
23935 | * because the property values are supposed to match with case |
23936 | * ignored. */ |
23937 | subpattern_re = compile_wildcard(name + i,S_compile_wildcard( name + i,name_len - i - 1 - escaped,(1)) |
23938 | name_len - i - 1 - escaped,S_compile_wildcard( name + i,name_len - i - 1 - escaped,(1)) |
23939 | TRUE /* /i */S_compile_wildcard( name + i,name_len - i - 1 - escaped,(1)) |
23940 | )S_compile_wildcard( name + i,name_len - i - 1 - escaped,(1)); |
23941 | |
23942 | /* For each legal property value, see if the supplied pattern |
23943 | * matches it. */ |
23944 | while (*prop_values) { |
23945 | const char * const entry = *prop_values; |
23946 | const Size_tsize_t len = strlen(entry); |
23947 | SV* entry_sv = newSVpvn_flags(entry, len, SVs_TEMP)Perl_newSVpvn_flags( entry,len,0x00080000); |
23948 | |
23949 | if (execute_wildcard(subpattern_re,S_execute_wildcard( subpattern_re,(char *) entry,(char *) entry + len,(char *) entry,0,entry_sv,0) |
23950 | (char *) entry,S_execute_wildcard( subpattern_re,(char *) entry,(char *) entry + len,(char *) entry,0,entry_sv,0) |
23951 | (char *) entry + len,S_execute_wildcard( subpattern_re,(char *) entry,(char *) entry + len,(char *) entry,0,entry_sv,0) |
23952 | (char *) entry, 0,S_execute_wildcard( subpattern_re,(char *) entry,(char *) entry + len,(char *) entry,0,entry_sv,0) |
23953 | entry_sv,S_execute_wildcard( subpattern_re,(char *) entry,(char *) entry + len,(char *) entry,0,entry_sv,0) |
23954 | 0)S_execute_wildcard( subpattern_re,(char *) entry,(char *) entry + len,(char *) entry,0,entry_sv,0)) |
23955 | { /* Here, matched. Add to the returned list */ |
23956 | Size_tsize_t total_len = j + len; |
23957 | SV * sub_invlist = NULL((void*)0); |
23958 | char * this_string; |
23959 | |
23960 | /* We know this is a legal \p{property=value}. Call |
23961 | * the function to return the list of code points that |
23962 | * match it */ |
23963 | Newxz(this_string, total_len + 1, char)(this_string = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(total_len + 1) || sizeof(char) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(total_len + 1)))) ? (size_t)(total_len + 1) : ((size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof(char ))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (char*)(Perl_safesyscalloc((total_len + 1),sizeof(char ))))); |
23964 | Copy(lookup_name, this_string, j, char)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(j) || sizeof(char) > ((size_t)1 << 8*(sizeof(size_t) - sizeof (j)))) ? (size_t)(j) : ((size_t)-1)/sizeof(char)) > ((size_t )-1)/sizeof(char))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)(this_string)) != 0) ? (void)0 : __assert2( "re_comp.c", 23964, __func__, "((void*)(this_string)) != 0")) , ((((void*)(lookup_name)) != 0) ? (void)0 : __assert2("re_comp.c" , 23964, __func__, "((void*)(lookup_name)) != 0")), (void)memcpy ((char*)(this_string),(const char*)(lookup_name), (j) * sizeof (char))); |
23965 | my_strlcatstrlcat(this_string, entry, total_len + 1); |
23966 | SAVEFREEPV(this_string)Perl_save_pushptr( (void *)((char*)(this_string)),10); |
23967 | sub_invlist = parse_uniprop_string(this_string,S_parse_uniprop_string( this_string,total_len,is_utf8,to_fold ,runtime,deferrable,((void*)0),user_defined_ptr,msg,level + 1 ) |
23968 | total_len,S_parse_uniprop_string( this_string,total_len,is_utf8,to_fold ,runtime,deferrable,((void*)0),user_defined_ptr,msg,level + 1 ) |
23969 | is_utf8,S_parse_uniprop_string( this_string,total_len,is_utf8,to_fold ,runtime,deferrable,((void*)0),user_defined_ptr,msg,level + 1 ) |
23970 | to_fold,S_parse_uniprop_string( this_string,total_len,is_utf8,to_fold ,runtime,deferrable,((void*)0),user_defined_ptr,msg,level + 1 ) |
23971 | runtime,S_parse_uniprop_string( this_string,total_len,is_utf8,to_fold ,runtime,deferrable,((void*)0),user_defined_ptr,msg,level + 1 ) |
23972 | deferrable,S_parse_uniprop_string( this_string,total_len,is_utf8,to_fold ,runtime,deferrable,((void*)0),user_defined_ptr,msg,level + 1 ) |
23973 | NULL,S_parse_uniprop_string( this_string,total_len,is_utf8,to_fold ,runtime,deferrable,((void*)0),user_defined_ptr,msg,level + 1 ) |
23974 | user_defined_ptr,S_parse_uniprop_string( this_string,total_len,is_utf8,to_fold ,runtime,deferrable,((void*)0),user_defined_ptr,msg,level + 1 ) |
23975 | msg,S_parse_uniprop_string( this_string,total_len,is_utf8,to_fold ,runtime,deferrable,((void*)0),user_defined_ptr,msg,level + 1 ) |
23976 | level + 1)S_parse_uniprop_string( this_string,total_len,is_utf8,to_fold ,runtime,deferrable,((void*)0),user_defined_ptr,msg,level + 1 ); |
23977 | _invlist_union(prop_definition, sub_invlist,Perl__invlist_union_maybe_complement_2nd( prop_definition,sub_invlist ,(0),&prop_definition) |
23978 | &prop_definition)Perl__invlist_union_maybe_complement_2nd( prop_definition,sub_invlist ,(0),&prop_definition); |
23979 | } |
23980 | |
23981 | prop_values++; /* Next iteration, look at next propvalue */ |
23982 | } /* End of looking through property values; (the data |
23983 | structure is terminated by a NULL ptr) */ |
23984 | |
23985 | SvREFCNT_dec_NN(subpattern_re)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (subpattern_re); _p ; }))); |
23986 | |
23987 | if (prop_definition) { |
23988 | return prop_definition; |
23989 | } |
23990 | |
23991 | sv_catpvs(msg, "No Unicode property value wildcard matches:")Perl_sv_catpvn_flags( msg, ("" "No Unicode property value wildcard matches:" ""), (sizeof("No Unicode property value wildcard matches:")- 1), 2); |
23992 | goto append_name_to_msg; |
23993 | } |
23994 | |
23995 | /* Here's how khw thinks we should proceed to handle the properties |
23996 | * not yet done: Bidi Mirroring Glyph can map to "" |
23997 | Bidi Paired Bracket can map to "" |
23998 | Case Folding (both full and simple) |
23999 | Shouldn't /i be good enough for Full |
24000 | Decomposition Mapping |
24001 | Equivalent Unified Ideograph can map to "" |
24002 | Lowercase Mapping (both full and simple) |
24003 | NFKC Case Fold can map to "" |
24004 | Titlecase Mapping (both full and simple) |
24005 | Uppercase Mapping (both full and simple) |
24006 | * Handle these the same way Name is done, using say, _wild.pm, but |
24007 | * having both loose and full, like in charclass_invlists.h. |
24008 | * Perhaps move block and script to that as they are somewhat large |
24009 | * in charclass_invlists.h. |
24010 | * For properties where the default is the code point itself, such |
24011 | * as any of the case changing mappings, the string would otherwise |
24012 | * consist of all Unicode code points in UTF-8 strung together. |
24013 | * This would be impractical. So instead, examine their compiled |
24014 | * pattern, looking at the ssc. If none, reject the pattern as an |
24015 | * error. Otherwise run the pattern against every code point in |
24016 | * the ssc. The ssc is kind of like tr18's 3.9 Possible Match Sets |
24017 | * And it might be good to create an API to return the ssc. |
24018 | * Or handle them like the algorithmic names are done |
24019 | */ |
24020 | } /* End of is a wildcard subppattern */ |
24021 | |
24022 | /* \p{name=...} is handled specially. Instead of using the normal |
24023 | * mechanism involving charclass_invlists.h, it uses _charnames.pm |
24024 | * which has the necessary (huge) data accessible to it, and which |
24025 | * doesn't get loaded unless necessary. The legal syntax for names is |
24026 | * somewhat different than other properties due both to the vagaries of |
24027 | * a few outlier official names, and the fact that only a few ASCII |
24028 | * characters are permitted in them */ |
24029 | if ( memEQs(lookup_name, j - 1, "name")(((sizeof("name")-1) == (j - 1)) && (memcmp(((const void *) ((lookup_name))), ((const void *) (("" "name" ""))), (sizeof ("name")-1)) == 0)) |
24030 | || memEQs(lookup_name, j - 1, "na")(((sizeof("na")-1) == (j - 1)) && (memcmp(((const void *) ((lookup_name))), ((const void *) (("" "na" ""))), (sizeof ("na")-1)) == 0))) |
24031 | { |
24032 | dSPSV **sp = PL_stack_sp; |
24033 | HV * table; |
24034 | SV * character; |
24035 | const char * error_msg; |
24036 | CV* lookup_loose; |
24037 | SV * character_name; |
24038 | STRLEN character_len; |
24039 | UV cp; |
24040 | |
24041 | stricter = As_Is; |
24042 | |
24043 | /* Since the RHS (after skipping initial space) is passed unchanged |
24044 | * to charnames, and there are different criteria for what are |
24045 | * legal characters in the name, just parse it here. A character |
24046 | * name must begin with an ASCII alphabetic */ |
24047 | if (! isALPHA(name[i])(((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 24047 , __func__, "('Z') >= ('A')")), ( (sizeof((~('A' ^ 'a') & (name[i]))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void )0 : __assert2("re_comp.c", 24047, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 24047, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U8) ((~('A' ^ 'a') & (name[i])))))) - ((('A')) | 0 ))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & (name[i]))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 24047, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 24047, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) ((~('A' ^ 'a') & (name[i])))))) - ((('A')) | 0 ))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~( 'A' ^ 'a') & (name[i]))) == sizeof(U64)) ? (void)0 : __assert2 ("re_comp.c", 24047, __func__, "sizeof((~('A' ^ 'a') & (name[i]))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 24047, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 24047, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & (name[i])))))) - ((('A')) | 0))) <= (((U64) ( ((('Z') - ('A'))) | 0))))))))) { |
24048 | goto failed; |
24049 | } |
24050 | lookup_name[j++] = name[i]; |
24051 | |
24052 | for (++i; i < name_len; i++) { |
24053 | /* Official names can only be in the ASCII range, and only |
24054 | * certain characters */ |
24055 | if (! isASCII(name[i])((U64)((name[i]) | 0) < 128) || ! isCHARNAME_CONT(name[i])((( (sizeof(name[i]) == 1) || !(((U64)((name[i]) | 0)) & ~ 0xFF)) && (PL_charclass[(U8) (name[i])] & (1U << (17)))) ? (_Bool)1 : (_Bool)0)) { |
24056 | goto failed; |
24057 | } |
24058 | lookup_name[j++] = name[i]; |
24059 | } |
24060 | |
24061 | /* Finished parsing, save the name into an SV */ |
24062 | character_name = newSVpvn(lookup_name + equals_pos, j - equals_pos)Perl_newSVpvn( lookup_name + equals_pos,j - equals_pos); |
24063 | |
24064 | /* Make sure _charnames is loaded. (The parameters give context |
24065 | * for any errors generated */ |
24066 | table = load_charnames(character_name, name, name_len, &error_msg)Perl_load_charnames( character_name,name,name_len,&error_msg ); |
24067 | if (table == NULL((void*)0)) { |
24068 | sv_catpv(msg, error_msg)Perl_sv_catpv( msg,error_msg); |
24069 | goto append_name_to_msg; |
24070 | } |
24071 | |
24072 | lookup_loose = get_cv("_charnames::_loose_regcomp_lookup", 0)Perl_get_cv( "_charnames::_loose_regcomp_lookup",0); |
24073 | if (! lookup_loose) { |
24074 | Perl_croak(aTHX_ |
24075 | "panic: Can't find '_charnames::_loose_regcomp_lookup"); |
24076 | } |
24077 | |
24078 | PUSHSTACKi(PERLSI_REGCOMP)do { PERL_SI *next = PL_curstackinfo->si_next; if (__builtin_expect (((PL_debug & 0x00000004) ? (_Bool)1 : (_Bool)0),(0))) { int i = 0; PERL_SI *p = PL_curstackinfo; while (p) { i++; p = p-> si_prev; } Perl_deb( "push STACKINFO %d at %s:%d\n", i, "re_comp.c" , 24078);} if (!next) { next = Perl_new_stackinfo( 32,2048/sizeof (PERL_CONTEXT) - 1); next->si_prev = PL_curstackinfo; PL_curstackinfo ->si_next = next; } next->si_type = 11; next->si_cxix = -1; next->si_cxsubix = -1; (void)0; ((XPVAV*) (next-> si_stack)->sv_any)->xav_fill = 0; do { ((XPVAV*) (PL_curstack )->sv_any)->xav_fill = sp - PL_stack_base; PL_stack_base = ((next->si_stack)->sv_u.svu_array); PL_stack_max = PL_stack_base + ((XPVAV*) (next->si_stack)->sv_any)->xav_max; sp = PL_stack_sp = PL_stack_base + ((XPVAV*) (next->si_stack)-> sv_any)->xav_fill; PL_curstack = next->si_stack; } while (0); PL_curstackinfo = next; PL_curstackinfo->si_markoff = PL_markstack_ptr - PL_markstack; } while (0); |
24079 | ENTERdo { Perl_push_scope(); if (__builtin_expect(((PL_debug & 0x00000004) ? (_Bool)1 : (_Bool)0),(0))) Perl_deb( "%s scope %ld (savestack=%ld) at %s:%d\n" , "ENTER", (long)PL_scopestack_ix, (long)PL_savestack_ix, "re_comp.c" , 24079); } while (0) ; |
24080 | SAVETMPSPerl_savetmps(); |
24081 | save_re_context()Perl_save_re_context(); |
24082 | |
24083 | PUSHMARK(SP)do { I32 * mark_stack_entry; if (__builtin_expect((((mark_stack_entry = ++PL_markstack_ptr) == PL_markstack_max) ? (_Bool)1 : (_Bool )0),(0))) mark_stack_entry = Perl_markstack_grow(); *mark_stack_entry = (I32)((sp) - PL_stack_base); if (__builtin_expect(((PL_debug & 0x00000002) ? (_Bool)1 : (_Bool)0),(0))) do { if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0))) do {PerlIO_printf(Perl_PerlIO_stderr(), "MARK push %p %" "ld" "\n" , PL_markstack_ptr, (IV)*mark_stack_entry);} while (0); } while (0); } while (0) ; |
24084 | XPUSHs(character_name)do { do { (void)0; if (__builtin_expect(((((1) < 0 || PL_stack_max - (sp) < (1))) ? (_Bool)1 : (_Bool)0),(0))) { sp = Perl_stack_grow ( sp,sp,(sizeof(1) > sizeof(ssize_t) && ((ssize_t) (1) != (1)) ? -1 : (1))); ((void)sizeof(sp)); } } while (0); * ++sp = (character_name); } while (0); |
24085 | PUTBACKPL_stack_sp = sp; |
24086 | call_sv(MUTABLE_SV(lookup_loose), G_SCALAR)Perl_call_sv( ((SV *)({ void *_p = (lookup_loose); _p; })),2); |
24087 | |
24088 | SPAGAINsp = PL_stack_sp ; |
24089 | |
24090 | character = POPs(*sp--); |
24091 | SvREFCNT_inc_simple_void_NN(character)(void)(++(((SV *)({ void *_p = (character); _p; })))->sv_refcnt ); |
24092 | |
24093 | PUTBACKPL_stack_sp = sp ; |
24094 | FREETMPSif (PL_tmps_ix > PL_tmps_floor) Perl_free_tmps() ; |
24095 | LEAVEdo { if (__builtin_expect(((PL_debug & 0x00000004) ? (_Bool )1 : (_Bool)0),(0))) Perl_deb( "%s scope %ld (savestack=%ld) at %s:%d\n" , "LEAVE", (long)PL_scopestack_ix, (long)PL_savestack_ix, "re_comp.c" , 24095); Perl_pop_scope(); } while (0) ; |
24096 | POPSTACKdo { SV **sp = PL_stack_sp; PERL_SI * const prev = PL_curstackinfo ->si_prev; if (__builtin_expect(((PL_debug & 0x00000004 ) ? (_Bool)1 : (_Bool)0),(0))) { int i = -1; PERL_SI *p = PL_curstackinfo ; while (p) { i++; p = p->si_prev; } Perl_deb( "pop STACKINFO %d at %s:%d\n" , i, "re_comp.c", 24096);} if (!prev) { Perl_croak_popstack() ; } do { ((XPVAV*) (PL_curstack)->sv_any)->xav_fill = sp - PL_stack_base; PL_stack_base = ((prev->si_stack)->sv_u .svu_array); PL_stack_max = PL_stack_base + ((XPVAV*) (prev-> si_stack)->sv_any)->xav_max; sp = PL_stack_sp = PL_stack_base + ((XPVAV*) (prev->si_stack)->sv_any)->xav_fill; PL_curstack = prev->si_stack; } while (0); PL_curstackinfo = prev; } while (0); |
24097 | |
24098 | if (! SvOK(character)((character)->sv_flags & (0x00000100|0x00000200|0x00000400 |0x00000800| 0x00001000|0x00002000|0x00004000|0x00008000))) { |
24099 | goto failed; |
24100 | } |
24101 | |
24102 | cp = valid_utf8_to_uvchrPerl_valid_utf8_to_uvchr((U8 *) SvPVX(character)(*({ SV *const _svpvx = ((SV *)({ void *_p = (character); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 24102 , __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 24102, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 24102, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })), &character_len); |
24103 | if (character_len == SvCUR(character)(*({ const SV *const _svcur = (const SV *)(character); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 24103, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 24103, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 24103, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))) { |
24104 | prop_definition = add_cp_to_invlist(NULL, cp)S_add_cp_to_invlist( ((void*)0),cp); |
24105 | } |
24106 | else { |
24107 | AV * this_string; |
24108 | |
24109 | /* First of the remaining characters in the string. */ |
24110 | char * remaining = SvPVX(character)(*({ SV *const _svpvx = ((SV *)({ void *_p = (character); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 24110 , __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 24110, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 24110, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) + character_len; |
24111 | |
24112 | if (strings == NULL((void*)0)) { |
24113 | goto failed; /* XXX Perhaps a specific msg instead, like |
24114 | 'not available here' */ |
24115 | } |
24116 | |
24117 | if (*strings == NULL((void*)0)) { |
24118 | *strings = newAV()((AV *)({ void *_p = (Perl_newSV_type( SVt_PVAV)); _p; })); |
24119 | } |
24120 | |
24121 | this_string = newAV()((AV *)({ void *_p = (Perl_newSV_type( SVt_PVAV)); _p; })); |
24122 | av_push(this_string, newSVuv(cp))Perl_av_push( this_string,Perl_newSVuv( cp)); |
24123 | |
24124 | do { |
24125 | cp = valid_utf8_to_uvchrPerl_valid_utf8_to_uvchr((U8 *) remaining, &character_len); |
24126 | av_push(this_string, newSVuv(cp))Perl_av_push( this_string,Perl_newSVuv( cp)); |
24127 | remaining += character_len; |
24128 | } while (remaining < SvEND(character)((character)->sv_u.svu_pv + ((XPV*)(character)->sv_any) ->xpv_cur)); |
24129 | |
24130 | av_push(*strings, (SV *) this_string)Perl_av_push( *strings,(SV *) this_string); |
24131 | } |
24132 | |
24133 | return prop_definition; |
24134 | } |
24135 | |
24136 | /* Certain properties whose values are numeric need special handling. |
24137 | * They may optionally be prefixed by 'is'. Ignore that prefix for the |
24138 | * purposes of checking if this is one of those properties */ |
24139 | if (memBEGINPs(lookup_name, j, "is")( (ptrdiff_t) (j) > (ptrdiff_t) sizeof("is") - 1 && (memcmp(((const void *) (lookup_name)), ((const void *) ("" "is" "")), sizeof("is")-1) == 0))) { |
24140 | lookup_offset = 2; |
24141 | } |
24142 | |
24143 | /* Then check if it is one of these specially-handled properties. The |
24144 | * possibilities are hard-coded because easier this way, and the list |
24145 | * is unlikely to change. |
24146 | * |
24147 | * All numeric value type properties are of this ilk, and are also |
24148 | * special in a different way later on. So find those first. There |
24149 | * are several numeric value type properties in the Unihan DB (which is |
24150 | * unlikely to be compiled with perl, but we handle it here in case it |
24151 | * does get compiled). They all end with 'numeric'. The interiors |
24152 | * aren't checked for the precise property. This would stop working if |
24153 | * a cjk property were to be created that ended with 'numeric' and |
24154 | * wasn't a numeric type */ |
24155 | is_nv_type = memEQs(lookup_name + lookup_offset,(((sizeof("numericvalue")-1) == (j - 1 - lookup_offset)) && (memcmp(((const void *) ((lookup_name + lookup_offset))), (( const void *) (("" "numericvalue" ""))), (sizeof("numericvalue" )-1)) == 0)) |
24156 | j - 1 - lookup_offset, "numericvalue")(((sizeof("numericvalue")-1) == (j - 1 - lookup_offset)) && (memcmp(((const void *) ((lookup_name + lookup_offset))), (( const void *) (("" "numericvalue" ""))), (sizeof("numericvalue" )-1)) == 0)) |
24157 | || memEQs(lookup_name + lookup_offset,(((sizeof("nv")-1) == (j - 1 - lookup_offset)) && (memcmp (((const void *) ((lookup_name + lookup_offset))), ((const void *) (("" "nv" ""))), (sizeof("nv")-1)) == 0)) |
24158 | j - 1 - lookup_offset, "nv")(((sizeof("nv")-1) == (j - 1 - lookup_offset)) && (memcmp (((const void *) ((lookup_name + lookup_offset))), ((const void *) (("" "nv" ""))), (sizeof("nv")-1)) == 0)) |
24159 | || ( memENDPs(lookup_name + lookup_offset,( (ptrdiff_t) (j - 1 - lookup_offset) > (ptrdiff_t) sizeof ("numeric") && (memcmp(((const void *) (lookup_name + lookup_offset + (j - 1 - lookup_offset) - (sizeof("numeric") - 1))), ((const void *) ("" "numeric" "")), sizeof("numeric" )-1) == 0)) |
24160 | j - 1 - lookup_offset, "numeric")( (ptrdiff_t) (j - 1 - lookup_offset) > (ptrdiff_t) sizeof ("numeric") && (memcmp(((const void *) (lookup_name + lookup_offset + (j - 1 - lookup_offset) - (sizeof("numeric") - 1))), ((const void *) ("" "numeric" "")), sizeof("numeric" )-1) == 0)) |
24161 | && ( memBEGINPs(lookup_name + lookup_offset,( (ptrdiff_t) (j - 1 - lookup_offset) > (ptrdiff_t) sizeof ("cjk") - 1 && (memcmp(((const void *) (lookup_name + lookup_offset)), ((const void *) ("" "cjk" "")), sizeof("cjk" )-1) == 0)) |
24162 | j - 1 - lookup_offset, "cjk")( (ptrdiff_t) (j - 1 - lookup_offset) > (ptrdiff_t) sizeof ("cjk") - 1 && (memcmp(((const void *) (lookup_name + lookup_offset)), ((const void *) ("" "cjk" "")), sizeof("cjk" )-1) == 0)) |
24163 | || memBEGINPs(lookup_name + lookup_offset,( (ptrdiff_t) (j - 1 - lookup_offset) > (ptrdiff_t) sizeof ("k") - 1 && (memcmp(((const void *) (lookup_name + lookup_offset )), ((const void *) ("" "k" "")), sizeof("k")-1) == 0)) |
24164 | j - 1 - lookup_offset, "k")( (ptrdiff_t) (j - 1 - lookup_offset) > (ptrdiff_t) sizeof ("k") - 1 && (memcmp(((const void *) (lookup_name + lookup_offset )), ((const void *) ("" "k" "")), sizeof("k")-1) == 0)))); |
24165 | if ( is_nv_type |
24166 | || memEQs(lookup_name + lookup_offset,(((sizeof("canonicalcombiningclass")-1) == (j - 1 - lookup_offset )) && (memcmp(((const void *) ((lookup_name + lookup_offset ))), ((const void *) (("" "canonicalcombiningclass" ""))), (sizeof ("canonicalcombiningclass")-1)) == 0)) |
24167 | j - 1 - lookup_offset, "canonicalcombiningclass")(((sizeof("canonicalcombiningclass")-1) == (j - 1 - lookup_offset )) && (memcmp(((const void *) ((lookup_name + lookup_offset ))), ((const void *) (("" "canonicalcombiningclass" ""))), (sizeof ("canonicalcombiningclass")-1)) == 0)) |
24168 | || memEQs(lookup_name + lookup_offset,(((sizeof("ccc")-1) == (j - 1 - lookup_offset)) && (memcmp (((const void *) ((lookup_name + lookup_offset))), ((const void *) (("" "ccc" ""))), (sizeof("ccc")-1)) == 0)) |
24169 | j - 1 - lookup_offset, "ccc")(((sizeof("ccc")-1) == (j - 1 - lookup_offset)) && (memcmp (((const void *) ((lookup_name + lookup_offset))), ((const void *) (("" "ccc" ""))), (sizeof("ccc")-1)) == 0)) |
24170 | || memEQs(lookup_name + lookup_offset,(((sizeof("age")-1) == (j - 1 - lookup_offset)) && (memcmp (((const void *) ((lookup_name + lookup_offset))), ((const void *) (("" "age" ""))), (sizeof("age")-1)) == 0)) |
24171 | j - 1 - lookup_offset, "age")(((sizeof("age")-1) == (j - 1 - lookup_offset)) && (memcmp (((const void *) ((lookup_name + lookup_offset))), ((const void *) (("" "age" ""))), (sizeof("age")-1)) == 0)) |
24172 | || memEQs(lookup_name + lookup_offset,(((sizeof("in")-1) == (j - 1 - lookup_offset)) && (memcmp (((const void *) ((lookup_name + lookup_offset))), ((const void *) (("" "in" ""))), (sizeof("in")-1)) == 0)) |
24173 | j - 1 - lookup_offset, "in")(((sizeof("in")-1) == (j - 1 - lookup_offset)) && (memcmp (((const void *) ((lookup_name + lookup_offset))), ((const void *) (("" "in" ""))), (sizeof("in")-1)) == 0)) |
24174 | || memEQs(lookup_name + lookup_offset,(((sizeof("presentin")-1) == (j - 1 - lookup_offset)) && (memcmp(((const void *) ((lookup_name + lookup_offset))), (( const void *) (("" "presentin" ""))), (sizeof("presentin")-1) ) == 0)) |
24175 | j - 1 - lookup_offset, "presentin")(((sizeof("presentin")-1) == (j - 1 - lookup_offset)) && (memcmp(((const void *) ((lookup_name + lookup_offset))), (( const void *) (("" "presentin" ""))), (sizeof("presentin")-1) ) == 0))) |
24176 | { |
24177 | unsigned int k; |
24178 | |
24179 | /* Since the stuff after the '=' is a number, we can't throw away |
24180 | * '-' willy-nilly, as those could be a minus sign. Other stricter |
24181 | * rules also apply. However, these properties all can have the |
24182 | * rhs not be a number, in which case they contain at least one |
24183 | * alphabetic. In those cases, the stricter rules don't apply. |
24184 | * But the numeric type properties can have the alphas [Ee] to |
24185 | * signify an exponent, and it is still a number with stricter |
24186 | * rules. So look for an alpha that signifies not-strict */ |
24187 | stricter = Strict; |
24188 | for (k = i; k < name_len; k++) { |
24189 | if ( isALPHA_A(name[k])(((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 24189 , __func__, "('Z') >= ('A')")), ( (sizeof((~('A' ^ 'a') & (name[k]))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void )0 : __assert2("re_comp.c", 24189, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 24189, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U8) ((~('A' ^ 'a') & (name[k])))))) - ((('A')) | 0 ))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & (name[k]))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 24189, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 24189, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) ((~('A' ^ 'a') & (name[k])))))) - ((('A')) | 0 ))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~( 'A' ^ 'a') & (name[k]))) == sizeof(U64)) ? (void)0 : __assert2 ("re_comp.c", 24189, __func__, "sizeof((~('A' ^ 'a') & (name[k]))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 24189, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 24189, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & (name[k])))))) - ((('A')) | 0))) <= (((U64) ( ((('Z') - ('A'))) | 0)))))))) |
24190 | && (! is_nv_type || ! isALPHA_FOLD_EQ(name[k], 'E')((((((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 24190 , __func__, "('Z') >= ('A')")), ( (sizeof((~('A' ^ 'a') & (name[k]))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void )0 : __assert2("re_comp.c", 24190, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 24190, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U8) ((~('A' ^ 'a') & (name[k])))))) - ((('A')) | 0 ))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & (name[k]))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 24190, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 24190, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) ((~('A' ^ 'a') & (name[k])))))) - ((('A')) | 0 ))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~( 'A' ^ 'a') & (name[k]))) == sizeof(U64)) ? (void)0 : __assert2 ("re_comp.c", 24190, __func__, "sizeof((~('A' ^ 'a') & (name[k]))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 24190, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 24190, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & (name[k])))))) - ((('A')) | 0))) <= (((U64) ( ((('Z') - ('A'))) | 0)))))))) || (((('Z') >= ('A')) ? (void )0 : __assert2("re_comp.c", 24190, __func__, "('Z') >= ('A')" )), ( (sizeof((~('A' ^ 'a') & ('E'))) == sizeof(U8)) ? (( ((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 24190 , __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A')) ) >= 0) ? (void)0 : __assert2("re_comp.c", 24190, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) ((~('A' ^ 'a') & ('E')))))) - ((('A')) | 0))) <= (((U64) (((( 'Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & ('E'))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2 ("re_comp.c", 24190, __func__, "(NV) (('A')) >= 0")), (((NV ) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 24190, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) ((~('A' ^ 'a') & ('E')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a') & ('E'))) == sizeof(U64)) ? (void)0 : __assert2("re_comp.c" , 24190, __func__, "sizeof((~('A' ^ 'a') & ('E'))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 24190, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 24190, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & ('E')))))) - ((('A')) | 0))) <= (((U64) (((( 'Z') - ('A'))) | 0))))))))) ? (void)0 : __assert2("re_comp.c" , 24190, __func__, "(((('Z') >= ('A')) ? (void)0 : __assert2(\"re_comp.c\", 24190, __func__, \"('Z') >= ('A')\")), ( (sizeof((~('A' ^ 'a') & (name[k]))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 24190, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 24190, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U8) ((~('A' ^ 'a') & (name[k])))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & (name[k]))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 24190, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 24190, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U32) ((~('A' ^ 'a') & (name[k])))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a') & (name[k]))) == sizeof(U64)) ? (void)0 : __assert2(\"re_comp.c\", 24190, __func__, \"sizeof((~('A' ^ 'a') & (name[k]))) == sizeof(U64)\")), ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 24190, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 24190, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U64) ((~('A' ^ 'a') & (name[k])))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)))))))) || (((('Z') >= ('A')) ? (void)0 : __assert2(\"re_comp.c\", 24190, __func__, \"('Z') >= ('A')\")), ( (sizeof((~('A' ^ 'a') & ('E'))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 24190, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 24190, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U8) ((~('A' ^ 'a') & ('E')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (sizeof((~('A' ^ 'a') & ('E'))) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 24190, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 24190, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U32) ((~('A' ^ 'a') & ('E')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof((~('A' ^ 'a') & ('E'))) == sizeof(U64)) ? (void)0 : __assert2(\"re_comp.c\", 24190, __func__, \"sizeof((~('A' ^ 'a') & ('E'))) == sizeof(U64)\")), ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 24190, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_comp.c\", 24190, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U64) ((~('A' ^ 'a') & ('E')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))))))" )), ((name[k]) & ~('A' ^ 'a')) == (('E') & ~('A' ^ 'a' ))))) |
24191 | { |
24192 | stricter = Not_Strict; |
24193 | break; |
24194 | } |
24195 | } |
24196 | } |
24197 | |
24198 | if (stricter) { |
24199 | |
24200 | /* A number may have a leading '+' or '-'. The latter is retained |
24201 | * */ |
24202 | if (name[i] == '+') { |
24203 | i++; |
24204 | } |
24205 | else if (name[i] == '-') { |
24206 | lookup_name[j++] = '-'; |
24207 | i++; |
24208 | } |
24209 | |
24210 | /* Skip leading zeros including single underscores separating the |
24211 | * zeros, or between the final leading zero and the first other |
24212 | * digit */ |
24213 | for (; i < name_len - 1; i++) { |
24214 | if ( name[i] != '0' |
24215 | && (name[i] != '_' || ! isDIGIT_A(name[i+1])(((('9') >= ('0')) ? (void)0 : __assert2("re_comp.c", 24215 , __func__, "('9') >= ('0')")), ( (sizeof(name[i+1]) == sizeof (U8)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 24215, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 24215, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U8) (name[ i+1])))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0))))) : (sizeof(name[i+1]) == sizeof(U32)) ? ((((NV) (('0') ) >= 0) ? (void)0 : __assert2("re_comp.c", 24215, __func__ , "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 24215, __func__, "(NV) ((('9') - ('0'))) >= 0" )), (((U64) (((((U32) (name[i+1])))) - ((('0')) | 0))) <= ( ((U64) (((('9') - ('0'))) | 0))))) : (((sizeof(name[i+1]) == sizeof (U64)) ? (void)0 : __assert2("re_comp.c", 24215, __func__, "sizeof(name[i+1]) == sizeof(U64)" )), ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 24215, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 24215, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U64) (name [i+1])))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0)))))))))) |
24216 | { |
24217 | break; |
24218 | } |
24219 | } |
24220 | } |
24221 | } |
24222 | else { /* No '=' */ |
24223 | |
24224 | /* Only a few properties without an '=' should be parsed with stricter |
24225 | * rules. The list is unlikely to change. */ |
24226 | if ( memBEGINPs(lookup_name, j, "perl")( (ptrdiff_t) (j) > (ptrdiff_t) sizeof("perl") - 1 && (memcmp(((const void *) (lookup_name)), ((const void *) ("" "perl" "")), sizeof("perl")-1) == 0)) |
24227 | && memNEs(lookup_name + 4, j - 4, "space")(! (((sizeof("space")-1) == (j - 4)) && (memcmp(((const void *) ((lookup_name + 4))), ((const void *) (("" "space" "" ))), (sizeof("space")-1)) == 0))) |
24228 | && memNEs(lookup_name + 4, j - 4, "word")(! (((sizeof("word")-1) == (j - 4)) && (memcmp(((const void *) ((lookup_name + 4))), ((const void *) (("" "word" "" ))), (sizeof("word")-1)) == 0)))) |
24229 | { |
24230 | stricter = Strict; |
24231 | |
24232 | /* We set the inputs back to 0 and the code below will reparse, |
24233 | * using strict */ |
24234 | i = j = 0; |
24235 | } |
24236 | } |
24237 | |
24238 | /* Here, we have either finished the property, or are positioned to parse |
24239 | * the remainder, and we know if stricter rules apply. Finish out, if not |
24240 | * already done */ |
24241 | for (; i < name_len; i++) { |
24242 | char cur = name[i]; |
24243 | |
24244 | /* In all instances, case differences are ignored, and we normalize to |
24245 | * lowercase */ |
24246 | if (isUPPER_A(cur)(((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 24246 , __func__, "('Z') >= ('A')")), ( (sizeof(cur) == sizeof(U8 )) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 24246, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 24246, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) (cur)) )) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)))) ) : (sizeof(cur) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 24246, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 24246, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) (cur)))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof(cur) == sizeof(U64)) ? (void) 0 : __assert2("re_comp.c", 24246, __func__, "sizeof(cur) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 24246, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 24246, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) (cur) ))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))) )))))) { |
24247 | lookup_name[j++] = toLOWER(cur)((((('Z') >= ('A')) ? (void)0 : __assert2("re_comp.c", 24247 , __func__, "('Z') >= ('A')")), ( (sizeof(cur) == sizeof(U8 )) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 24247, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 24247, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U8) (cur)) )) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)))) ) : (sizeof(cur) == sizeof(U32)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c", 24247, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c" , 24247, __func__, "(NV) ((('Z') - ('A'))) >= 0")), (((U64 ) (((((U32) (cur)))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))) : (((sizeof(cur) == sizeof(U64)) ? (void) 0 : __assert2("re_comp.c", 24247, __func__, "sizeof(cur) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_comp.c" , 24247, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_comp.c", 24247, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) (cur) ))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))) ))))) ? (U8)((cur) + ('a' - 'A')) : (cur)); |
24248 | continue; |
24249 | } |
24250 | |
24251 | /* An underscore is skipped, but not under strict rules unless it |
24252 | * separates two digits */ |
24253 | if (cur == '_') { |
24254 | if ( stricter |
24255 | && ( i == 0 || (int) i == equals_pos || i == name_len- 1 |
24256 | || ! isDIGIT_A(name[i-1])(((('9') >= ('0')) ? (void)0 : __assert2("re_comp.c", 24256 , __func__, "('9') >= ('0')")), ( (sizeof(name[i-1]) == sizeof (U8)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 24256, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 24256, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U8) (name[ i-1])))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0))))) : (sizeof(name[i-1]) == sizeof(U32)) ? ((((NV) (('0') ) >= 0) ? (void)0 : __assert2("re_comp.c", 24256, __func__ , "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 24256, __func__, "(NV) ((('9') - ('0'))) >= 0" )), (((U64) (((((U32) (name[i-1])))) - ((('0')) | 0))) <= ( ((U64) (((('9') - ('0'))) | 0))))) : (((sizeof(name[i-1]) == sizeof (U64)) ? (void)0 : __assert2("re_comp.c", 24256, __func__, "sizeof(name[i-1]) == sizeof(U64)" )), ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 24256, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 24256, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U64) (name [i-1])))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0)))))))) || ! isDIGIT_A(name[i+1])(((('9') >= ('0')) ? (void)0 : __assert2("re_comp.c", 24256 , __func__, "('9') >= ('0')")), ( (sizeof(name[i+1]) == sizeof (U8)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 24256, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 24256, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U8) (name[ i+1])))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0))))) : (sizeof(name[i+1]) == sizeof(U32)) ? ((((NV) (('0') ) >= 0) ? (void)0 : __assert2("re_comp.c", 24256, __func__ , "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 24256, __func__, "(NV) ((('9') - ('0'))) >= 0" )), (((U64) (((((U32) (name[i+1])))) - ((('0')) | 0))) <= ( ((U64) (((('9') - ('0'))) | 0))))) : (((sizeof(name[i+1]) == sizeof (U64)) ? (void)0 : __assert2("re_comp.c", 24256, __func__, "sizeof(name[i+1]) == sizeof(U64)" )), ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 24256, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 24256, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U64) (name [i+1])))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0)))))))))) |
24257 | { |
24258 | lookup_name[j++] = '_'; |
24259 | } |
24260 | continue; |
24261 | } |
24262 | |
24263 | /* Hyphens are skipped except under strict */ |
24264 | if (cur == '-' && ! stricter) { |
24265 | continue; |
24266 | } |
24267 | |
24268 | /* XXX Bug in documentation. It says white space skipped adjacent to |
24269 | * non-word char. Maybe we should, but shouldn't skip it next to a dot |
24270 | * in a number */ |
24271 | if (isSPACE_A(cur)(( (sizeof(cur) == 1) || !(((U64)((cur) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (cur)] & ((1U << (10)) | (1U << (14)))) == ((1U << (10)) | (1U << (14))))) && ! stricter) { |
24272 | continue; |
24273 | } |
24274 | |
24275 | lookup_name[j++] = cur; |
24276 | |
24277 | /* Unless this is a non-trailing slash, we are done with it */ |
24278 | if (i >= name_len - 1 || cur != '/') { |
24279 | continue; |
24280 | } |
24281 | |
24282 | slash_pos = j; |
24283 | |
24284 | /* A slash in the 'numeric value' property indicates that what follows |
24285 | * is a denominator. It can have a leading '+' and '0's that should be |
24286 | * skipped. But we have never allowed a negative denominator, so treat |
24287 | * a minus like every other character. (No need to rule out a second |
24288 | * '/', as that won't match anything anyway */ |
24289 | if (is_nv_type) { |
24290 | i++; |
24291 | if (i < name_len && name[i] == '+') { |
24292 | i++; |
24293 | } |
24294 | |
24295 | /* Skip leading zeros including underscores separating digits */ |
24296 | for (; i < name_len - 1; i++) { |
24297 | if ( name[i] != '0' |
24298 | && (name[i] != '_' || ! isDIGIT_A(name[i+1])(((('9') >= ('0')) ? (void)0 : __assert2("re_comp.c", 24298 , __func__, "('9') >= ('0')")), ( (sizeof(name[i+1]) == sizeof (U8)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 24298, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 24298, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U8) (name[ i+1])))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0))))) : (sizeof(name[i+1]) == sizeof(U32)) ? ((((NV) (('0') ) >= 0) ? (void)0 : __assert2("re_comp.c", 24298, __func__ , "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 24298, __func__, "(NV) ((('9') - ('0'))) >= 0" )), (((U64) (((((U32) (name[i+1])))) - ((('0')) | 0))) <= ( ((U64) (((('9') - ('0'))) | 0))))) : (((sizeof(name[i+1]) == sizeof (U64)) ? (void)0 : __assert2("re_comp.c", 24298, __func__, "sizeof(name[i+1]) == sizeof(U64)" )), ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_comp.c" , 24298, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_comp.c", 24298, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U64) (name [i+1])))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0)))))))))) |
24299 | { |
24300 | break; |
24301 | } |
24302 | } |
24303 | |
24304 | /* Store the first real character in the denominator */ |
24305 | if (i < name_len) { |
24306 | lookup_name[j++] = name[i]; |
24307 | } |
24308 | } |
24309 | } |
24310 | |
24311 | /* Here are completely done parsing the input 'name', and 'lookup_name' |
24312 | * contains a copy, normalized. |
24313 | * |
24314 | * This special case is grandfathered in: 'L_' and 'GC=L_' are accepted and |
24315 | * different from without the underscores. */ |
24316 | if ( ( UNLIKELY(memEQs(lookup_name, j, "l"))__builtin_expect((((((sizeof("l")-1) == (j)) && (memcmp (((const void *) ((lookup_name))), ((const void *) (("" "l" "" ))), (sizeof("l")-1)) == 0))) ? (_Bool)1 : (_Bool)0),(0)) |
24317 | || UNLIKELY(memEQs(lookup_name, j, "gc=l"))__builtin_expect((((((sizeof("gc=l")-1) == (j)) && (memcmp (((const void *) ((lookup_name))), ((const void *) (("" "gc=l" ""))), (sizeof("gc=l")-1)) == 0))) ? (_Bool)1 : (_Bool)0),(0 ))) |
24318 | && UNLIKELY(name[name_len-1] == '_')__builtin_expect(((name[name_len-1] == '_') ? (_Bool)1 : (_Bool )0),(0))) |
24319 | { |
24320 | lookup_name[j++] = '&'; |
24321 | } |
24322 | |
24323 | /* If the original input began with 'In' or 'Is', it could be a subroutine |
24324 | * call to a user-defined property instead of a Unicode property name. */ |
24325 | if ( name_len - non_pkg_begin > 2 |
24326 | && name[non_pkg_begin+0] == 'I' |
24327 | && (name[non_pkg_begin+1] == 'n' || name[non_pkg_begin+1] == 's')) |
24328 | { |
24329 | /* Names that start with In have different characterstics than those |
24330 | * that start with Is */ |
24331 | if (name[non_pkg_begin+1] == 's') { |
24332 | starts_with_Is = TRUE(1); |
24333 | } |
24334 | } |
24335 | else { |
24336 | could_be_user_defined = FALSE(0); |
24337 | } |
24338 | |
24339 | if (could_be_user_defined) { |
24340 | CV* user_sub; |
24341 | |
24342 | /* If the user defined property returns the empty string, it could |
24343 | * easily be because the pattern is being compiled before the data it |
24344 | * actually needs to compile is available. This could be argued to be |
24345 | * a bug in the perl code, but this is a change of behavior for Perl, |
24346 | * so we handle it. This means that intentionally returning nothing |
24347 | * will not be resolved until runtime */ |
24348 | bool_Bool empty_return = FALSE(0); |
24349 | |
24350 | /* Here, the name could be for a user defined property, which are |
24351 | * implemented as subs. */ |
24352 | user_sub = get_cvn_flags(name, name_len, 0)Perl_get_cvn_flags( name,name_len,0); |
24353 | if (! user_sub) { |
24354 | |
24355 | /* Here, the property name could be a user-defined one, but there |
24356 | * is no subroutine to handle it (as of now). Defer handling it |
24357 | * until runtime. Otherwise, a block defined by Unicode in a later |
24358 | * release would get the synonym InFoo added for it, and existing |
24359 | * code that used that name would suddenly break if it referred to |
24360 | * the property before the sub was declared. See [perl #134146] */ |
24361 | if (deferrable) { |
24362 | goto definition_deferred; |
24363 | } |
24364 | |
24365 | /* Here, we are at runtime, and didn't find the user property. It |
24366 | * could be an official property, but only if no package was |
24367 | * specified, or just the utf8:: package. */ |
24368 | if (could_be_deferred_official) { |
24369 | lookup_name += lun_non_pkg_begin; |
24370 | j -= lun_non_pkg_begin; |
24371 | } |
24372 | else if (! stripped_utf8_pkg) { |
24373 | goto unknown_user_defined; |
24374 | } |
24375 | |
24376 | /* Drop down to look up in the official properties */ |
24377 | } |
24378 | else { |
24379 | const char insecure[] = "Insecure user-defined property"; |
24380 | |
24381 | /* Here, there is a sub by the correct name. Normally we call it |
24382 | * to get the property definition */ |
24383 | dSPSV **sp = PL_stack_sp; |
24384 | SV * user_sub_sv = MUTABLE_SV(user_sub)((SV *)({ void *_p = (user_sub); _p; })); |
24385 | SV * error; /* Any error returned by calling 'user_sub' */ |
24386 | SV * key; /* The key into the hash of user defined sub names |
24387 | */ |
24388 | SV * placeholder; |
24389 | SV ** saved_user_prop_ptr; /* Hash entry for this property */ |
24390 | |
24391 | /* How many times to retry when another thread is in the middle of |
24392 | * expanding the same definition we want */ |
24393 | PERL_INT_FAST8_T retry_countdown = 10; |
24394 | |
24395 | DECLARATION_FOR_GLOBAL_CONTEXTstruct Perl___notused_struct; |
24396 | |
24397 | /* If we get here, we know this property is user-defined */ |
24398 | *user_defined_ptr = TRUE(1); |
24399 | |
24400 | /* We refuse to call a potentially tainted subroutine; returning an |
24401 | * error instead */ |
24402 | if (TAINT_get(((__builtin_expect(((PL_tainted) ? (_Bool)1 : (_Bool)0),(0)) ) ? (_Bool)1 : (_Bool)0))) { |
24403 | if (SvCUR(msg)(*({ const SV *const _svcur = (const SV *)(msg); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 24403, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 24403, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 24403, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) > 0) sv_catpvs(msg, "; ")Perl_sv_catpvn_flags( msg, ("" "; " ""), (sizeof("; ")-1), 2); |
24404 | sv_catpvn(msg, insecure, sizeof(insecure) - 1)Perl_sv_catpvn_flags( msg,insecure,sizeof(insecure) - 1,2); |
24405 | goto append_name_to_msg; |
24406 | } |
24407 | |
24408 | /* In principal, we only call each subroutine property definition |
24409 | * once during the life of the program. This guarantees that the |
24410 | * property definition never changes. The results of the single |
24411 | * sub call are stored in a hash, which is used instead for future |
24412 | * references to this property. The property definition is thus |
24413 | * immutable. But, to allow the user to have a /i-dependent |
24414 | * definition, we call the sub once for non-/i, and once for /i, |
24415 | * should the need arise, passing the /i status as a parameter. |
24416 | * |
24417 | * We start by constructing the hash key name, consisting of the |
24418 | * fully qualified subroutine name, preceded by the /i status, so |
24419 | * that there is a key for /i and a different key for non-/i */ |
24420 | key = newSVpvn(((to_fold) ? "1" : "0"), 1)Perl_newSVpvn( ((to_fold) ? "1" : "0"),1); |
24421 | fq_name = S_get_fq_name(aTHX_ name, name_len, is_utf8, |
24422 | non_pkg_begin != 0); |
24423 | sv_catsv(key, fq_name)Perl_sv_catsv_flags( key,fq_name,2); |
24424 | sv_2mortal(key)Perl_sv_2mortal( key); |
24425 | |
24426 | /* We only call the sub once throughout the life of the program |
24427 | * (with the /i, non-/i exception noted above). That means the |
24428 | * hash must be global and accessible to all threads. It is |
24429 | * created at program start-up, before any threads are created, so |
24430 | * is accessible to all children. But this creates some |
24431 | * complications. |
24432 | * |
24433 | * 1) The keys can't be shared, or else problems arise; sharing is |
24434 | * turned off at hash creation time |
24435 | * 2) All SVs in it are there for the remainder of the life of the |
24436 | * program, and must be created in the same interpreter context |
24437 | * as the hash, or else they will be freed from the wrong pool |
24438 | * at global destruction time. This is handled by switching to |
24439 | * the hash's context to create each SV going into it, and then |
24440 | * immediately switching back |
24441 | * 3) All accesses to the hash must be controlled by a mutex, to |
24442 | * prevent two threads from getting an unstable state should |
24443 | * they simultaneously be accessing it. The code below is |
24444 | * crafted so that the mutex is locked whenever there is an |
24445 | * access and unlocked only when the next stable state is |
24446 | * achieved. |
24447 | * |
24448 | * The hash stores either the definition of the property if it was |
24449 | * valid, or, if invalid, the error message that was raised. We |
24450 | * use the type of SV to distinguish. |
24451 | * |
24452 | * There's also the need to guard against the definition expansion |
24453 | * from infinitely recursing. This is handled by storing the aTHX |
24454 | * of the expanding thread during the expansion. Again the SV type |
24455 | * is used to distinguish this from the other two cases. If we |
24456 | * come to here and the hash entry for this property is our aTHX, |
24457 | * it means we have recursed, and the code assumes that we would |
24458 | * infinitely recurse, so instead stops and raises an error. |
24459 | * (Any recursion has always been treated as infinite recursion in |
24460 | * this feature.) |
24461 | * |
24462 | * If instead, the entry is for a different aTHX, it means that |
24463 | * that thread has gotten here first, and hasn't finished expanding |
24464 | * the definition yet. We just have to wait until it is done. We |
24465 | * sleep and retry a few times, returning an error if the other |
24466 | * thread doesn't complete. */ |
24467 | |
24468 | re_fetch: |
24469 | USER_PROP_MUTEX_LOCK(void)0; |
24470 | |
24471 | /* If we have an entry for this key, the subroutine has already |
24472 | * been called once with this /i status. */ |
24473 | saved_user_prop_ptr = hv_fetch(PL_user_def_props,((SV**) Perl_hv_common_key_len( (PL_user_def_props),((*({ SV * const _svpvx = ((SV *)({ void *_p = (key); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 24474, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 24474, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 24474, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))),((*({ const SV *const _svcur = (const SV *)(key); ((PL_valid_types_PVX[((svtype)(( _svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 24474, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 24474, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 24474, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))),(0) ? (0x20 | 0x10) : 0x20,((void*)0),0) ) |
24474 | SvPVX(key), SvCUR(key), 0)((SV**) Perl_hv_common_key_len( (PL_user_def_props),((*({ SV * const _svpvx = ((SV *)({ void *_p = (key); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 24474, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 24474, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 24474, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))),((*({ const SV *const _svcur = (const SV *)(key); ((PL_valid_types_PVX[((svtype)(( _svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 24474, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 24474, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 24474, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))),(0) ? (0x20 | 0x10) : 0x20,((void*)0),0) ); |
24475 | if (saved_user_prop_ptr) { |
24476 | |
24477 | /* If the saved result is an inversion list, it is the valid |
24478 | * definition of this property */ |
24479 | if (is_invlistS_is_invlist(*saved_user_prop_ptr)) { |
24480 | prop_definition = *saved_user_prop_ptr; |
24481 | |
24482 | /* The SV in the hash won't be removed until global |
24483 | * destruction, so it is stable and we can unlock */ |
24484 | USER_PROP_MUTEX_UNLOCK(void)0; |
24485 | |
24486 | /* The caller shouldn't try to free this SV */ |
24487 | return prop_definition; |
24488 | } |
24489 | |
24490 | /* Otherwise, if it is a string, it is the error message |
24491 | * that was returned when we first tried to evaluate this |
24492 | * property. Fail, and append the message */ |
24493 | if (SvPOK(*saved_user_prop_ptr)((*saved_user_prop_ptr)->sv_flags & 0x00000400)) { |
24494 | if (SvCUR(msg)(*({ const SV *const _svcur = (const SV *)(msg); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 24494, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 24494, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 24494, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) > 0) sv_catpvs(msg, "; ")Perl_sv_catpvn_flags( msg, ("" "; " ""), (sizeof("; ")-1), 2); |
24495 | sv_catsv(msg, *saved_user_prop_ptr)Perl_sv_catsv_flags( msg,*saved_user_prop_ptr,2); |
24496 | |
24497 | /* The SV in the hash won't be removed until global |
24498 | * destruction, so it is stable and we can unlock */ |
24499 | USER_PROP_MUTEX_UNLOCK(void)0; |
24500 | |
24501 | return NULL((void*)0); |
24502 | } |
24503 | |
24504 | assert(SvIOK(*saved_user_prop_ptr))((((*saved_user_prop_ptr)->sv_flags & 0x00000100)) ? ( void)0 : __assert2("re_comp.c", 24504, __func__, "SvIOK(*saved_user_prop_ptr)" )); |
24505 | |
24506 | /* Here, we have an unstable entry in the hash. Either another |
24507 | * thread is in the middle of expanding the property's |
24508 | * definition, or we are ourselves recursing. We use the aTHX |
24509 | * in it to distinguish */ |
24510 | if (SvIV(*saved_user_prop_ptr)((((*saved_user_prop_ptr)->sv_flags & (0x00000100|0x00200000 )) == 0x00000100) ? (*({ const SV *const _svivx = (const SV * )(*saved_user_prop_ptr); ((PL_valid_types_IVX[((svtype)((_svivx )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 24510, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 24510, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( *saved_user_prop_ptr,2)) != PTR2IV(CUR_CONTEXT)(IV)(((void*)0))) { |
24511 | |
24512 | /* Here, it's another thread doing the expanding. We've |
24513 | * looked as much as we are going to at the contents of the |
24514 | * hash entry. It's safe to unlock. */ |
24515 | USER_PROP_MUTEX_UNLOCK(void)0; |
24516 | |
24517 | /* Retry a few times */ |
24518 | if (retry_countdown-- > 0) { |
24519 | PerlProc_sleep(1)sleep((1)); |
24520 | goto re_fetch; |
24521 | } |
24522 | |
24523 | if (SvCUR(msg)(*({ const SV *const _svcur = (const SV *)(msg); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 24523, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 24523, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 24523, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) > 0) sv_catpvs(msg, "; ")Perl_sv_catpvn_flags( msg, ("" "; " ""), (sizeof("; ")-1), 2); |
24524 | sv_catpvs(msg, "Timeout waiting for another thread to "Perl_sv_catpvn_flags( msg, ("" "Timeout waiting for another thread to " "define" ""), (sizeof("Timeout waiting for another thread to " "define")-1), 2) |
24525 | "define")Perl_sv_catpvn_flags( msg, ("" "Timeout waiting for another thread to " "define" ""), (sizeof("Timeout waiting for another thread to " "define")-1), 2); |
24526 | goto append_name_to_msg; |
24527 | } |
24528 | |
24529 | /* Here, we are recursing; don't dig any deeper */ |
24530 | USER_PROP_MUTEX_UNLOCK(void)0; |
24531 | |
24532 | if (SvCUR(msg)(*({ const SV *const _svcur = (const SV *)(msg); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 24532, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 24532, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 24532, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) > 0) sv_catpvs(msg, "; ")Perl_sv_catpvn_flags( msg, ("" "; " ""), (sizeof("; ")-1), 2); |
24533 | sv_catpvs(msg,Perl_sv_catpvn_flags( msg, ("" "Infinite recursion in user-defined property" ""), (sizeof("Infinite recursion in user-defined property")- 1), 2) |
24534 | "Infinite recursion in user-defined property")Perl_sv_catpvn_flags( msg, ("" "Infinite recursion in user-defined property" ""), (sizeof("Infinite recursion in user-defined property")- 1), 2); |
24535 | goto append_name_to_msg; |
24536 | } |
24537 | |
24538 | /* Here, this thread has exclusive control, and there is no entry |
24539 | * for this property in the hash. So we have the go ahead to |
24540 | * expand the definition ourselves. */ |
24541 | |
24542 | PUSHSTACKi(PERLSI_REGCOMP)do { PERL_SI *next = PL_curstackinfo->si_next; if (__builtin_expect (((PL_debug & 0x00000004) ? (_Bool)1 : (_Bool)0),(0))) { int i = 0; PERL_SI *p = PL_curstackinfo; while (p) { i++; p = p-> si_prev; } Perl_deb( "push STACKINFO %d at %s:%d\n", i, "re_comp.c" , 24542);} if (!next) { next = Perl_new_stackinfo( 32,2048/sizeof (PERL_CONTEXT) - 1); next->si_prev = PL_curstackinfo; PL_curstackinfo ->si_next = next; } next->si_type = 11; next->si_cxix = -1; next->si_cxsubix = -1; (void)0; ((XPVAV*) (next-> si_stack)->sv_any)->xav_fill = 0; do { ((XPVAV*) (PL_curstack )->sv_any)->xav_fill = sp - PL_stack_base; PL_stack_base = ((next->si_stack)->sv_u.svu_array); PL_stack_max = PL_stack_base + ((XPVAV*) (next->si_stack)->sv_any)->xav_max; sp = PL_stack_sp = PL_stack_base + ((XPVAV*) (next->si_stack)-> sv_any)->xav_fill; PL_curstack = next->si_stack; } while (0); PL_curstackinfo = next; PL_curstackinfo->si_markoff = PL_markstack_ptr - PL_markstack; } while (0); |
24543 | ENTERdo { Perl_push_scope(); if (__builtin_expect(((PL_debug & 0x00000004) ? (_Bool)1 : (_Bool)0),(0))) Perl_deb( "%s scope %ld (savestack=%ld) at %s:%d\n" , "ENTER", (long)PL_scopestack_ix, (long)PL_savestack_ix, "re_comp.c" , 24543); } while (0); |
24544 | |
24545 | /* Create a temporary placeholder in the hash to detect recursion |
24546 | * */ |
24547 | SWITCH_TO_GLOBAL_CONTEXT(void)0; |
24548 | placeholder= newSVuv(PTR2IV(ORIGINAL_CONTEXT))Perl_newSVuv( (IV)(((void*)0))); |
24549 | (void) hv_store_ent(PL_user_def_props, key, placeholder, 0)((HE *) Perl_hv_common( (PL_user_def_props),(key),((void*)0), 0,0,0x04,(placeholder),(0))); |
24550 | RESTORE_CONTEXT(void)0; |
24551 | |
24552 | /* Now that we have a placeholder, we can let other threads |
24553 | * continue */ |
24554 | USER_PROP_MUTEX_UNLOCK(void)0; |
24555 | |
24556 | /* Make sure the placeholder always gets destroyed */ |
24557 | SAVEDESTRUCTOR_X(S_delete_recursion_entry, SvPVX(key))Perl_save_destructor_x( (DESTRUCTORFUNC_t)(S_delete_recursion_entry ),(void*)((*({ SV *const _svpvx = ((SV *)({ void *_p = (key); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 24557, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 24557, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 24557, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })))); |
24558 | |
24559 | PUSHMARK(SP)do { I32 * mark_stack_entry; if (__builtin_expect((((mark_stack_entry = ++PL_markstack_ptr) == PL_markstack_max) ? (_Bool)1 : (_Bool )0),(0))) mark_stack_entry = Perl_markstack_grow(); *mark_stack_entry = (I32)((sp) - PL_stack_base); if (__builtin_expect(((PL_debug & 0x00000002) ? (_Bool)1 : (_Bool)0),(0))) do { if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0))) do {PerlIO_printf(Perl_PerlIO_stderr(), "MARK push %p %" "ld" "\n" , PL_markstack_ptr, (IV)*mark_stack_entry);} while (0); } while (0); } while (0); |
24560 | SAVETMPSPerl_savetmps(); |
24561 | |
24562 | /* Call the user's function, with the /i status as a parameter. |
24563 | * Note that we have gone to a lot of trouble to keep this call |
24564 | * from being within the locked mutex region. */ |
24565 | XPUSHs(boolSV(to_fold))do { do { (void)0; if (__builtin_expect(((((1) < 0 || PL_stack_max - (sp) < (1))) ? (_Bool)1 : (_Bool)0),(0))) { sp = Perl_stack_grow ( sp,sp,(sizeof(1) > sizeof(ssize_t) && ((ssize_t) (1) != (1)) ? -1 : (1))); ((void)sizeof(sp)); } } while (0); * ++sp = (((to_fold) ? &(PL_sv_immortals[0]) : &(PL_sv_immortals [2]))); } while (0); |
24566 | PUTBACKPL_stack_sp = sp; |
24567 | |
24568 | /* The following block was taken from swash_init(). Presumably |
24569 | * they apply to here as well, though we no longer use a swash -- |
24570 | * khw */ |
24571 | SAVEHINTS()Perl_save_hints(); |
24572 | save_re_context()Perl_save_re_context(); |
24573 | /* We might get here via a subroutine signature which uses a utf8 |
24574 | * parameter name, at which point PL_subname will have been set |
24575 | * but not yet used. */ |
24576 | save_item(PL_subname)Perl_save_item( PL_subname); |
24577 | |
24578 | /* G_SCALAR guarantees a single return value */ |
24579 | (void) call_sv(user_sub_sv, G_EVAL|G_SCALAR)Perl_call_sv( user_sub_sv,0x8|2); |
24580 | |
24581 | SPAGAINsp = PL_stack_sp; |
24582 | |
24583 | error = ERRSV(*((0+(*({GV *const _gvgp = (GV *) (PL_errgv); ((((svtype)((_gvgp )->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)-> sv_flags & 0xff)) == SVt_PVLV) ? (void)0 : __assert2("re_comp.c" , 24583, __func__, "SvTYPE(_gvgp) == SVt_PVGV || SvTYPE(_gvgp) == SVt_PVLV" )); ((((((_gvgp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 24583, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_sv ? &((0+(*({GV *const _gvgp = (GV *) (PL_errgv ); ((((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVLV) ? ( void)0 : __assert2("re_comp.c", 24583, __func__, "SvTYPE(_gvgp) == SVt_PVGV || SvTYPE(_gvgp) == SVt_PVLV" )); ((((((_gvgp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 24583, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_sv) : &((0+(*({GV *const _gvgp = (GV *) (Perl_gv_add_by_type ( (PL_errgv),SVt_NULL)); ((((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff )) == SVt_PVLV) ? (void)0 : __assert2("re_comp.c", 24583, __func__ , "SvTYPE(_gvgp) == SVt_PVGV || SvTYPE(_gvgp) == SVt_PVLV")); ((((((_gvgp)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVLV)) ) ? (void)0 : __assert2("re_comp.c", 24583, __func__, "isGV_with_GP(_gvgp)" )); &((_gvgp)->sv_u.svu_gp);})))->gp_sv))); |
24584 | if (TAINT_get(((__builtin_expect(((PL_tainted) ? (_Bool)1 : (_Bool)0),(0)) ) ? (_Bool)1 : (_Bool)0)) || SvTRUE(error)Perl_SvTRUE( error)) { |
24585 | if (SvCUR(msg)(*({ const SV *const _svcur = (const SV *)(msg); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 24585, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 24585, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 24585, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) > 0) sv_catpvs(msg, "; ")Perl_sv_catpvn_flags( msg, ("" "; " ""), (sizeof("; ")-1), 2); |
24586 | if (SvTRUE(error)Perl_SvTRUE( error)) { |
24587 | sv_catpvs(msg, "Error \"")Perl_sv_catpvn_flags( msg, ("" "Error \"" ""), (sizeof("Error \"" )-1), 2); |
24588 | sv_catsv(msg, error)Perl_sv_catsv_flags( msg,error,2); |
24589 | sv_catpvs(msg, "\"")Perl_sv_catpvn_flags( msg, ("" "\"" ""), (sizeof("\"")-1), 2); |
24590 | } |
24591 | if (TAINT_get(((__builtin_expect(((PL_tainted) ? (_Bool)1 : (_Bool)0),(0)) ) ? (_Bool)1 : (_Bool)0))) { |
24592 | if (SvTRUE(error)Perl_SvTRUE( error)) sv_catpvs(msg, "; ")Perl_sv_catpvn_flags( msg, ("" "; " ""), (sizeof("; ")-1), 2); |
24593 | sv_catpvn(msg, insecure, sizeof(insecure) - 1)Perl_sv_catpvn_flags( msg,insecure,sizeof(insecure) - 1,2); |
24594 | } |
24595 | |
24596 | if (name_len > 0) { |
24597 | sv_catpvs(msg, " in expansion of ")Perl_sv_catpvn_flags( msg, ("" " in expansion of " ""), (sizeof (" in expansion of ")-1), 2); |
24598 | Perl_sv_catpvf(aTHX_ msg, "%" UTF8f"d%" "lu" "%4p", UTF8fARG(is_utf8,(int)((is_utf8) ? (_Bool)1 : (_Bool)0), (UV)(name_len), (void *)(name) |
24599 | name_len,(int)((is_utf8) ? (_Bool)1 : (_Bool)0), (UV)(name_len), (void *)(name) |
24600 | name)(int)((is_utf8) ? (_Bool)1 : (_Bool)0), (UV)(name_len), (void *)(name)); |
24601 | } |
24602 | |
24603 | (void) POPs(*sp--); |
24604 | prop_definition = NULL((void*)0); |
24605 | } |
24606 | else { |
24607 | SV * contents = POPs(*sp--); |
24608 | |
24609 | /* The contents is supposed to be the expansion of the property |
24610 | * definition. If the definition is deferrable, and we got an |
24611 | * empty string back, set a flag to later defer it (after clean |
24612 | * up below). */ |
24613 | if ( deferrable |
24614 | && (! SvPOK(contents)((contents)->sv_flags & 0x00000400) || SvCUR(contents)(*({ const SV *const _svcur = (const SV *)(contents); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 24614, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 24614, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 24614, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) == 0)) |
24615 | { |
24616 | empty_return = TRUE(1); |
24617 | } |
24618 | else { /* Otherwise, call a function to check for valid syntax, |
24619 | and handle it */ |
24620 | |
24621 | prop_definition = handle_user_defined_property(S_handle_user_defined_property( name,name_len,is_utf8,to_fold ,runtime,deferrable,contents,user_defined_ptr,msg,level) |
24622 | name, name_len,S_handle_user_defined_property( name,name_len,is_utf8,to_fold ,runtime,deferrable,contents,user_defined_ptr,msg,level) |
24623 | is_utf8, to_fold, runtime,S_handle_user_defined_property( name,name_len,is_utf8,to_fold ,runtime,deferrable,contents,user_defined_ptr,msg,level) |
24624 | deferrable,S_handle_user_defined_property( name,name_len,is_utf8,to_fold ,runtime,deferrable,contents,user_defined_ptr,msg,level) |
24625 | contents, user_defined_ptr,S_handle_user_defined_property( name,name_len,is_utf8,to_fold ,runtime,deferrable,contents,user_defined_ptr,msg,level) |
24626 | msg,S_handle_user_defined_property( name,name_len,is_utf8,to_fold ,runtime,deferrable,contents,user_defined_ptr,msg,level) |
24627 | level)S_handle_user_defined_property( name,name_len,is_utf8,to_fold ,runtime,deferrable,contents,user_defined_ptr,msg,level); |
24628 | } |
24629 | } |
24630 | |
24631 | /* Here, we have the results of the expansion. Delete the |
24632 | * placeholder, and if the definition is now known, replace it with |
24633 | * that definition. We need exclusive access to the hash, and we |
24634 | * can't let anyone else in, between when we delete the placeholder |
24635 | * and add the permanent entry */ |
24636 | USER_PROP_MUTEX_LOCK(void)0; |
24637 | |
24638 | S_delete_recursion_entry(aTHX_ SvPVX(key)(*({ SV *const _svpvx = ((SV *)({ void *_p = (key); _p; })); ( (PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 24638, __func__ , "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]")); ((!( (((_svpvx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 24638, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 24638, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))); |
24639 | |
24640 | if ( ! empty_return |
24641 | && (! prop_definition || is_invlistS_is_invlist(prop_definition))) |
24642 | { |
24643 | /* If we got success we use the inversion list defining the |
24644 | * property; otherwise use the error message */ |
24645 | SWITCH_TO_GLOBAL_CONTEXT(void)0; |
24646 | (void) hv_store_ent(PL_user_def_props,((HE *) Perl_hv_common( (PL_user_def_props),(key),((void*)0), 0,0,0x04,(((prop_definition) ? Perl_newSVsv_flags( (prop_definition ),2|16) : Perl_newSVsv_flags( (msg),2|16))),(0))) |
24647 | key,((HE *) Perl_hv_common( (PL_user_def_props),(key),((void*)0), 0,0,0x04,(((prop_definition) ? Perl_newSVsv_flags( (prop_definition ),2|16) : Perl_newSVsv_flags( (msg),2|16))),(0))) |
24648 | ((prop_definition)((HE *) Perl_hv_common( (PL_user_def_props),(key),((void*)0), 0,0,0x04,(((prop_definition) ? Perl_newSVsv_flags( (prop_definition ),2|16) : Perl_newSVsv_flags( (msg),2|16))),(0))) |
24649 | ? newSVsv(prop_definition)((HE *) Perl_hv_common( (PL_user_def_props),(key),((void*)0), 0,0,0x04,(((prop_definition) ? Perl_newSVsv_flags( (prop_definition ),2|16) : Perl_newSVsv_flags( (msg),2|16))),(0))) |
24650 | : newSVsv(msg)),((HE *) Perl_hv_common( (PL_user_def_props),(key),((void*)0), 0,0,0x04,(((prop_definition) ? Perl_newSVsv_flags( (prop_definition ),2|16) : Perl_newSVsv_flags( (msg),2|16))),(0))) |
24651 | 0)((HE *) Perl_hv_common( (PL_user_def_props),(key),((void*)0), 0,0,0x04,(((prop_definition) ? Perl_newSVsv_flags( (prop_definition ),2|16) : Perl_newSVsv_flags( (msg),2|16))),(0))); |
24652 | RESTORE_CONTEXT(void)0; |
24653 | } |
24654 | |
24655 | /* All done, and the hash now has a permanent entry for this |
24656 | * property. Give up exclusive control */ |
24657 | USER_PROP_MUTEX_UNLOCK(void)0; |
24658 | |
24659 | FREETMPSif (PL_tmps_ix > PL_tmps_floor) Perl_free_tmps(); |
24660 | LEAVEdo { if (__builtin_expect(((PL_debug & 0x00000004) ? (_Bool )1 : (_Bool)0),(0))) Perl_deb( "%s scope %ld (savestack=%ld) at %s:%d\n" , "LEAVE", (long)PL_scopestack_ix, (long)PL_savestack_ix, "re_comp.c" , 24660); Perl_pop_scope(); } while (0); |
24661 | POPSTACKdo { SV **sp = PL_stack_sp; PERL_SI * const prev = PL_curstackinfo ->si_prev; if (__builtin_expect(((PL_debug & 0x00000004 ) ? (_Bool)1 : (_Bool)0),(0))) { int i = -1; PERL_SI *p = PL_curstackinfo ; while (p) { i++; p = p->si_prev; } Perl_deb( "pop STACKINFO %d at %s:%d\n" , i, "re_comp.c", 24661);} if (!prev) { Perl_croak_popstack() ; } do { ((XPVAV*) (PL_curstack)->sv_any)->xav_fill = sp - PL_stack_base; PL_stack_base = ((prev->si_stack)->sv_u .svu_array); PL_stack_max = PL_stack_base + ((XPVAV*) (prev-> si_stack)->sv_any)->xav_max; sp = PL_stack_sp = PL_stack_base + ((XPVAV*) (prev->si_stack)->sv_any)->xav_fill; PL_curstack = prev->si_stack; } while (0); PL_curstackinfo = prev; } while (0); |
24662 | |
24663 | if (empty_return) { |
24664 | goto definition_deferred; |
24665 | } |
24666 | |
24667 | if (prop_definition) { |
24668 | |
24669 | /* If the definition is for something not known at this time, |
24670 | * we toss it, and go return the main property name, as that's |
24671 | * the one the user will be aware of */ |
24672 | if (! is_invlistS_is_invlist(prop_definition)) { |
24673 | SvREFCNT_dec_NN(prop_definition)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (prop_definition); _p; }))); |
24674 | goto definition_deferred; |
24675 | } |
24676 | |
24677 | sv_2mortal(prop_definition)Perl_sv_2mortal( prop_definition); |
24678 | } |
24679 | |
24680 | /* And return */ |
24681 | return prop_definition; |
24682 | |
24683 | } /* End of calling the subroutine for the user-defined property */ |
24684 | } /* End of it could be a user-defined property */ |
24685 | |
24686 | /* Here it wasn't a user-defined property that is known at this time. See |
24687 | * if it is a Unicode property */ |
24688 | |
24689 | lookup_len = j; /* This is a more mnemonic name than 'j' */ |
24690 | |
24691 | /* Get the index into our pointer table of the inversion list corresponding |
24692 | * to the property */ |
24693 | table_index = do_uniprop_matchPerl_do_uniprop_match(lookup_name, lookup_len); |
24694 | |
24695 | /* If it didn't find the property ... */ |
24696 | if (table_index == 0) { |
24697 | |
24698 | /* Try again stripping off any initial 'Is'. This is because we |
24699 | * promise that an initial Is is optional. The same isn't true of |
24700 | * names that start with 'In'. Those can match only blocks, and the |
24701 | * lookup table already has those accounted for. */ |
24702 | if (starts_with_Is) { |
24703 | lookup_name += 2; |
24704 | lookup_len -= 2; |
24705 | equals_pos -= 2; |
24706 | slash_pos -= 2; |
24707 | |
24708 | table_index = do_uniprop_matchPerl_do_uniprop_match(lookup_name, lookup_len); |
24709 | } |
24710 | |
24711 | if (table_index == 0) { |
24712 | char * canonical; |
24713 | |
24714 | /* Here, we didn't find it. If not a numeric type property, and |
24715 | * can't be a user-defined one, it isn't a legal property */ |
24716 | if (! is_nv_type) { |
24717 | if (! could_be_user_defined) { |
24718 | goto failed; |
24719 | } |
24720 | |
24721 | /* Here, the property name is legal as a user-defined one. At |
24722 | * compile time, it might just be that the subroutine for that |
24723 | * property hasn't been encountered yet, but at runtime, it's |
24724 | * an error to try to use an undefined one */ |
24725 | if (! deferrable) { |
24726 | goto unknown_user_defined;; |
24727 | } |
24728 | |
24729 | goto definition_deferred; |
24730 | } /* End of isn't a numeric type property */ |
24731 | |
24732 | /* The numeric type properties need more work to decide. What we |
24733 | * do is make sure we have the number in canonical form and look |
24734 | * that up. */ |
24735 | |
24736 | if (slash_pos < 0) { /* No slash */ |
24737 | |
24738 | /* When it isn't a rational, take the input, convert it to a |
24739 | * NV, then create a canonical string representation of that |
24740 | * NV. */ |
24741 | |
24742 | NV value; |
24743 | SSize_tssize_t value_len = lookup_len - equals_pos; |
24744 | |
24745 | /* Get the value */ |
24746 | if ( value_len <= 0 |
24747 | || my_atof3(lookup_name + equals_pos, &value,Perl_my_atof3( lookup_name + equals_pos,&value,value_len) |
24748 | value_len)Perl_my_atof3( lookup_name + equals_pos,&value,value_len) |
24749 | != lookup_name + lookup_len) |
24750 | { |
24751 | goto failed; |
24752 | } |
24753 | |
24754 | /* If the value is an integer, the canonical value is integral |
24755 | * */ |
24756 | if (Perl_ceilceil(value) == value) { |
24757 | canonical = Perl_form(aTHX_ "%.*s%.0" NVff"f", |
24758 | equals_pos, lookup_name, value); |
24759 | } |
24760 | else { /* Otherwise, it is %e with a known precision */ |
24761 | char * exp_ptr; |
24762 | |
24763 | canonical = Perl_form(aTHX_ "%.*s%.*" NVef"e", |
24764 | equals_pos, lookup_name, |
24765 | PL_E_FORMAT_PRECISION2, value); |
24766 | |
24767 | /* The exponent generated is expecting two digits, whereas |
24768 | * %e on some systems will generate three. Remove leading |
24769 | * zeros in excess of 2 from the exponent. We start |
24770 | * looking for them after the '=' */ |
24771 | exp_ptr = strchr(canonical + equals_pos, 'e'); |
24772 | if (exp_ptr) { |
24773 | char * cur_ptr = exp_ptr + 2; /* past the 'e[+-]' */ |
24774 | SSize_tssize_t excess_exponent_len = strlen(cur_ptr) - 2; |
24775 | |
24776 | assert(*(cur_ptr - 1) == '-' || *(cur_ptr - 1) == '+')((*(cur_ptr - 1) == '-' || *(cur_ptr - 1) == '+') ? (void)0 : __assert2("re_comp.c", 24776, __func__, "*(cur_ptr - 1) == '-' || *(cur_ptr - 1) == '+'" )); |
24777 | |
24778 | if (excess_exponent_len > 0) { |
24779 | SSize_tssize_t leading_zeros = strspn(cur_ptr, "0"); |
24780 | SSize_tssize_t excess_leading_zeros |
24781 | = MIN(leading_zeros, excess_exponent_len)(((leading_zeros)<(excess_exponent_len))?(leading_zeros):( excess_exponent_len)); |
24782 | if (excess_leading_zeros > 0) { |
24783 | Move(cur_ptr + excess_leading_zeros,((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(strlen (cur_ptr) - excess_leading_zeros + 1) || sizeof(char) > (( size_t)1 << 8*(sizeof(size_t) - sizeof(strlen(cur_ptr) - excess_leading_zeros + 1)))) ? (size_t)(strlen(cur_ptr) - excess_leading_zeros + 1) : ((size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof(char ))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)(cur_ptr)) != 0) ? (void)0 : __assert2("re_comp.c" , 24787, __func__, "((void*)(cur_ptr)) != 0")), ((((void*)(cur_ptr + excess_leading_zeros)) != 0) ? (void)0 : __assert2("re_comp.c" , 24787, __func__, "((void*)(cur_ptr + excess_leading_zeros)) != 0" )), (void)memmove((char*)(cur_ptr),(const char*)(cur_ptr + excess_leading_zeros ), (strlen(cur_ptr) - excess_leading_zeros + 1) * sizeof(char ))) |
24784 | cur_ptr,((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(strlen (cur_ptr) - excess_leading_zeros + 1) || sizeof(char) > (( size_t)1 << 8*(sizeof(size_t) - sizeof(strlen(cur_ptr) - excess_leading_zeros + 1)))) ? (size_t)(strlen(cur_ptr) - excess_leading_zeros + 1) : ((size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof(char ))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)(cur_ptr)) != 0) ? (void)0 : __assert2("re_comp.c" , 24787, __func__, "((void*)(cur_ptr)) != 0")), ((((void*)(cur_ptr + excess_leading_zeros)) != 0) ? (void)0 : __assert2("re_comp.c" , 24787, __func__, "((void*)(cur_ptr + excess_leading_zeros)) != 0" )), (void)memmove((char*)(cur_ptr),(const char*)(cur_ptr + excess_leading_zeros ), (strlen(cur_ptr) - excess_leading_zeros + 1) * sizeof(char ))) |
24785 | strlen(cur_ptr) - excess_leading_zeros((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(strlen (cur_ptr) - excess_leading_zeros + 1) || sizeof(char) > (( size_t)1 << 8*(sizeof(size_t) - sizeof(strlen(cur_ptr) - excess_leading_zeros + 1)))) ? (size_t)(strlen(cur_ptr) - excess_leading_zeros + 1) : ((size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof(char ))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)(cur_ptr)) != 0) ? (void)0 : __assert2("re_comp.c" , 24787, __func__, "((void*)(cur_ptr)) != 0")), ((((void*)(cur_ptr + excess_leading_zeros)) != 0) ? (void)0 : __assert2("re_comp.c" , 24787, __func__, "((void*)(cur_ptr + excess_leading_zeros)) != 0" )), (void)memmove((char*)(cur_ptr),(const char*)(cur_ptr + excess_leading_zeros ), (strlen(cur_ptr) - excess_leading_zeros + 1) * sizeof(char ))) |
24786 | + 1, /* Copy the NUL as well */((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(strlen (cur_ptr) - excess_leading_zeros + 1) || sizeof(char) > (( size_t)1 << 8*(sizeof(size_t) - sizeof(strlen(cur_ptr) - excess_leading_zeros + 1)))) ? (size_t)(strlen(cur_ptr) - excess_leading_zeros + 1) : ((size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof(char ))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)(cur_ptr)) != 0) ? (void)0 : __assert2("re_comp.c" , 24787, __func__, "((void*)(cur_ptr)) != 0")), ((((void*)(cur_ptr + excess_leading_zeros)) != 0) ? (void)0 : __assert2("re_comp.c" , 24787, __func__, "((void*)(cur_ptr + excess_leading_zeros)) != 0" )), (void)memmove((char*)(cur_ptr),(const char*)(cur_ptr + excess_leading_zeros ), (strlen(cur_ptr) - excess_leading_zeros + 1) * sizeof(char ))) |
24787 | char)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(strlen (cur_ptr) - excess_leading_zeros + 1) || sizeof(char) > (( size_t)1 << 8*(sizeof(size_t) - sizeof(strlen(cur_ptr) - excess_leading_zeros + 1)))) ? (size_t)(strlen(cur_ptr) - excess_leading_zeros + 1) : ((size_t)-1)/sizeof(char)) > ((size_t)-1)/sizeof(char ))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), ((((void*)(cur_ptr)) != 0) ? (void)0 : __assert2("re_comp.c" , 24787, __func__, "((void*)(cur_ptr)) != 0")), ((((void*)(cur_ptr + excess_leading_zeros)) != 0) ? (void)0 : __assert2("re_comp.c" , 24787, __func__, "((void*)(cur_ptr + excess_leading_zeros)) != 0" )), (void)memmove((char*)(cur_ptr),(const char*)(cur_ptr + excess_leading_zeros ), (strlen(cur_ptr) - excess_leading_zeros + 1) * sizeof(char ))); |
24788 | } |
24789 | } |
24790 | } |
24791 | } |
24792 | } |
24793 | else { /* Has a slash. Create a rational in canonical form */ |
24794 | UV numerator, denominator, gcd, trial; |
24795 | const char * end_ptr; |
24796 | const char * sign = ""; |
24797 | |
24798 | /* We can't just find the numerator, denominator, and do the |
24799 | * division, then use the method above, because that is |
24800 | * inexact. And the input could be a rational that is within |
24801 | * epsilon (given our precision) of a valid rational, and would |
24802 | * then incorrectly compare valid. |
24803 | * |
24804 | * We're only interested in the part after the '=' */ |
24805 | const char * this_lookup_name = lookup_name + equals_pos; |
24806 | lookup_len -= equals_pos; |
24807 | slash_pos -= equals_pos; |
24808 | |
24809 | /* Handle any leading minus */ |
24810 | if (this_lookup_name[0] == '-') { |
24811 | sign = "-"; |
24812 | this_lookup_name++; |
24813 | lookup_len--; |
24814 | slash_pos--; |
24815 | } |
24816 | |
24817 | /* Convert the numerator to numeric */ |
24818 | end_ptr = this_lookup_name + slash_pos; |
24819 | if (! grok_atoUVPerl_grok_atoUV(this_lookup_name, &numerator, &end_ptr)) { |
24820 | goto failed; |
24821 | } |
24822 | |
24823 | /* It better have included all characters before the slash */ |
24824 | if (*end_ptr != '/') { |
24825 | goto failed; |
24826 | } |
24827 | |
24828 | /* Set to look at just the denominator */ |
24829 | this_lookup_name += slash_pos; |
24830 | lookup_len -= slash_pos; |
24831 | end_ptr = this_lookup_name + lookup_len; |
24832 | |
24833 | /* Convert the denominator to numeric */ |
24834 | if (! grok_atoUVPerl_grok_atoUV(this_lookup_name, &denominator, &end_ptr)) { |
24835 | goto failed; |
24836 | } |
24837 | |
24838 | /* It better be the rest of the characters, and don't divide by |
24839 | * 0 */ |
24840 | if ( end_ptr != this_lookup_name + lookup_len |
24841 | || denominator == 0) |
24842 | { |
24843 | goto failed; |
24844 | } |
24845 | |
24846 | /* Get the greatest common denominator using |
24847 | http://en.wikipedia.org/wiki/Euclidean_algorithm */ |
24848 | gcd = numerator; |
24849 | trial = denominator; |
24850 | while (trial != 0) { |
24851 | UV temp = trial; |
24852 | trial = gcd % trial; |
24853 | gcd = temp; |
24854 | } |
24855 | |
24856 | /* If already in lowest possible terms, we have already tried |
24857 | * looking this up */ |
24858 | if (gcd == 1) { |
24859 | goto failed; |
24860 | } |
24861 | |
24862 | /* Reduce the rational, which should put it in canonical form |
24863 | * */ |
24864 | numerator /= gcd; |
24865 | denominator /= gcd; |
24866 | |
24867 | canonical = Perl_form(aTHX_ "%.*s%s%" UVuf"lu" "/%" UVuf"lu", |
24868 | equals_pos, lookup_name, sign, numerator, denominator); |
24869 | } |
24870 | |
24871 | /* Here, we have the number in canonical form. Try that */ |
24872 | table_index = do_uniprop_matchPerl_do_uniprop_match(canonical, strlen(canonical)); |
24873 | if (table_index == 0) { |
24874 | goto failed; |
24875 | } |
24876 | } /* End of still didn't find the property in our table */ |
24877 | } /* End of didn't find the property in our table */ |
24878 | |
24879 | /* Here, we have a non-zero return, which is an index into a table of ptrs. |
24880 | * A negative return signifies that the real index is the absolute value, |
24881 | * but the result needs to be inverted */ |
24882 | if (table_index < 0) { |
24883 | invert_return = TRUE(1); |
24884 | table_index = -table_index; |
24885 | } |
24886 | |
24887 | /* Out-of band indices indicate a deprecated property. The proper index is |
24888 | * modulo it with the table size. And dividing by the table size yields |
24889 | * an offset into a table constructed by regen/mk_invlists.pl to contain |
24890 | * the corresponding warning message */ |
24891 | if (table_index > MAX_UNI_KEYWORD_INDEXUNI__PERL_SURROGATE) { |
24892 | Size_tsize_t warning_offset = table_index / MAX_UNI_KEYWORD_INDEXUNI__PERL_SURROGATE; |
24893 | table_index %= MAX_UNI_KEYWORD_INDEXUNI__PERL_SURROGATE; |
24894 | Perl_ck_warner_d(aTHX_ packWARN(WARN_DEPRECATED)(2 ), |
24895 | "Use of '%.*s' in \\p{} or \\P{} is deprecated because: %s", |
24896 | (int) name_len, name, |
24897 | get_deprecated_property_msgPerl_get_deprecated_property_msg(warning_offset)); |
24898 | } |
24899 | |
24900 | /* In a few properties, a different property is used under /i. These are |
24901 | * unlikely to change, so are hard-coded here. */ |
24902 | if (to_fold) { |
24903 | if ( table_index == UNI_XPOSIXUPPER |
24904 | || table_index == UNI_XPOSIXLOWER |
24905 | || table_index == UNI_TITLE) |
24906 | { |
24907 | table_index = UNI_CASED; |
24908 | } |
24909 | else if ( table_index == UNI_UPPERCASELETTER |
24910 | || table_index == UNI_LOWERCASELETTER |
24911 | # ifdef UNI_TITLECASELETTERUNI_TITLE /* Missing from early Unicodes */ |
24912 | || table_index == UNI_TITLECASELETTERUNI_TITLE |
24913 | # endif |
24914 | ) { |
24915 | table_index = UNI_CASEDLETTER; |
24916 | } |
24917 | else if ( table_index == UNI_POSIXUPPER |
24918 | || table_index == UNI_POSIXLOWER) |
24919 | { |
24920 | table_index = UNI_POSIXALPHA; |
24921 | } |
24922 | } |
24923 | |
24924 | /* Create and return the inversion list */ |
24925 | prop_definition = get_prop_definition(table_index)Perl_get_prop_definition( table_index); |
24926 | sv_2mortal(prop_definition)Perl_sv_2mortal( prop_definition); |
24927 | |
24928 | /* See if there is a private use override to add to this definition */ |
24929 | { |
24930 | COPHH * hinthash = (IN_PERL_COMPILETIME((PL_curcop == &PL_compiling) ? (_Bool)1 : (_Bool)0)) |
24931 | ? CopHINTHASH_get(&PL_compiling)((COPHH*)((&PL_compiling)->cop_hints_hash)) |
24932 | : CopHINTHASH_get(PL_curcop)((COPHH*)((PL_curcop)->cop_hints_hash)); |
24933 | SV * pu_overrides = cophh_fetch_pv(hinthash, "private_use", 0, 0)Perl_refcounted_he_fetch_pv( hinthash, "private_use", 0, 0); |
24934 | |
24935 | if (UNLIKELY(pu_overrides && SvPOK(pu_overrides))__builtin_expect(((pu_overrides && ((pu_overrides)-> sv_flags & 0x00000400)) ? (_Bool)1 : (_Bool)0),(0))) { |
24936 | |
24937 | /* See if there is an element in the hints hash for this table */ |
24938 | SV * pu_lookup = Perl_newSVpvf(aTHX_ "%d=", table_index); |
24939 | const char * pos = strstr(SvPVX(pu_overrides)(*({ SV *const _svpvx = ((SV *)({ void *_p = (pu_overrides); _p ; })); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 24939 , __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 24939, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 24939, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })), SvPVX(pu_lookup)(*({ SV *const _svpvx = ((SV *)({ void *_p = (pu_lookup); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 24939 , __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 24939, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 24939, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))); |
24940 | |
24941 | if (pos) { |
24942 | bool_Bool dummy; |
24943 | SV * pu_definition; |
24944 | SV * pu_invlist; |
24945 | SV * expanded_prop_definition = |
24946 | sv_2mortal(invlist_clone(prop_definition, NULL))Perl_sv_2mortal( Perl_invlist_clone( prop_definition,((void*) 0))); |
24947 | |
24948 | /* If so, it's definition is the string from here to the next |
24949 | * \a character. And its format is the same as a user-defined |
24950 | * property */ |
24951 | pos += SvCUR(pu_lookup)(*({ const SV *const _svcur = (const SV *)(pu_lookup); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 24951, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 24951, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 24951, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })); |
24952 | pu_definition = newSVpvn(pos, strchr(pos, '\a') - pos)Perl_newSVpvn( pos,strchr(pos, '\a') - pos); |
24953 | pu_invlist = handle_user_defined_property(lookup_name,S_handle_user_defined_property( lookup_name,lookup_len,0,0,runtime ,deferrable,pu_definition,&dummy,msg,level) |
24954 | lookup_len,S_handle_user_defined_property( lookup_name,lookup_len,0,0,runtime ,deferrable,pu_definition,&dummy,msg,level) |
24955 | 0, /* Not UTF-8 */S_handle_user_defined_property( lookup_name,lookup_len,0,0,runtime ,deferrable,pu_definition,&dummy,msg,level) |
24956 | 0, /* Not folded */S_handle_user_defined_property( lookup_name,lookup_len,0,0,runtime ,deferrable,pu_definition,&dummy,msg,level) |
24957 | runtime,S_handle_user_defined_property( lookup_name,lookup_len,0,0,runtime ,deferrable,pu_definition,&dummy,msg,level) |
24958 | deferrable,S_handle_user_defined_property( lookup_name,lookup_len,0,0,runtime ,deferrable,pu_definition,&dummy,msg,level) |
24959 | pu_definition,S_handle_user_defined_property( lookup_name,lookup_len,0,0,runtime ,deferrable,pu_definition,&dummy,msg,level) |
24960 | &dummy,S_handle_user_defined_property( lookup_name,lookup_len,0,0,runtime ,deferrable,pu_definition,&dummy,msg,level) |
24961 | msg,S_handle_user_defined_property( lookup_name,lookup_len,0,0,runtime ,deferrable,pu_definition,&dummy,msg,level) |
24962 | level)S_handle_user_defined_property( lookup_name,lookup_len,0,0,runtime ,deferrable,pu_definition,&dummy,msg,level); |
24963 | if (TAINT_get(((__builtin_expect(((PL_tainted) ? (_Bool)1 : (_Bool)0),(0)) ) ? (_Bool)1 : (_Bool)0))) { |
24964 | if (SvCUR(msg)(*({ const SV *const _svcur = (const SV *)(msg); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 24964, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 24964, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 24964, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) > 0) sv_catpvs(msg, "; ")Perl_sv_catpvn_flags( msg, ("" "; " ""), (sizeof("; ")-1), 2); |
24965 | sv_catpvs(msg, "Insecure private-use override")Perl_sv_catpvn_flags( msg, ("" "Insecure private-use override" ""), (sizeof("Insecure private-use override")-1), 2); |
24966 | goto append_name_to_msg; |
24967 | } |
24968 | |
24969 | /* For now, as a safety measure, make sure that it doesn't |
24970 | * override non-private use code points */ |
24971 | _invlist_intersection(pu_invlist, PL_Private_Use, &pu_invlist)Perl__invlist_intersection_maybe_complement_2nd( pu_invlist,PL_Private_Use ,(0),&pu_invlist); |
24972 | |
24973 | /* Add it to the list to be returned */ |
24974 | _invlist_union(prop_definition, pu_invlist,Perl__invlist_union_maybe_complement_2nd( prop_definition,pu_invlist ,(0),&expanded_prop_definition) |
24975 | &expanded_prop_definition)Perl__invlist_union_maybe_complement_2nd( prop_definition,pu_invlist ,(0),&expanded_prop_definition); |
24976 | prop_definition = expanded_prop_definition; |
24977 | Perl_ck_warner_d(aTHX_ packWARN(WARN_EXPERIMENTAL__PRIVATE_USE)(70 ), "The private_use feature is experimental"); |
24978 | } |
24979 | } |
24980 | } |
24981 | |
24982 | if (invert_return) { |
24983 | _invlist_invert(prop_definition)Perl__invlist_invert( prop_definition); |
24984 | } |
24985 | return prop_definition; |
24986 | |
24987 | unknown_user_defined: |
24988 | if (SvCUR(msg)(*({ const SV *const _svcur = (const SV *)(msg); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 24988, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 24988, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 24988, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) > 0) sv_catpvs(msg, "; ")Perl_sv_catpvn_flags( msg, ("" "; " ""), (sizeof("; ")-1), 2); |
24989 | sv_catpvs(msg, "Unknown user-defined property name")Perl_sv_catpvn_flags( msg, ("" "Unknown user-defined property name" ""), (sizeof("Unknown user-defined property name")-1), 2); |
24990 | goto append_name_to_msg; |
24991 | |
24992 | failed: |
24993 | if (non_pkg_begin != 0) { |
24994 | if (SvCUR(msg)(*({ const SV *const _svcur = (const SV *)(msg); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 24994, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 24994, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 24994, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) > 0) sv_catpvs(msg, "; ")Perl_sv_catpvn_flags( msg, ("" "; " ""), (sizeof("; ")-1), 2); |
24995 | sv_catpvs(msg, "Illegal user-defined property name")Perl_sv_catpvn_flags( msg, ("" "Illegal user-defined property name" ""), (sizeof("Illegal user-defined property name")-1), 2); |
24996 | } |
24997 | else { |
24998 | if (SvCUR(msg)(*({ const SV *const _svcur = (const SV *)(msg); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 24998, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 24998, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 24998, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) > 0) sv_catpvs(msg, "; ")Perl_sv_catpvn_flags( msg, ("" "; " ""), (sizeof("; ")-1), 2); |
24999 | sv_catpvs(msg, "Can't find Unicode property definition")Perl_sv_catpvn_flags( msg, ("" "Can't find Unicode property definition" ""), (sizeof("Can't find Unicode property definition")-1), 2 ); |
25000 | } |
25001 | /* FALLTHROUGH */ |
25002 | |
25003 | append_name_to_msg: |
25004 | { |
25005 | const char * prefix = (runtime && level == 0) ? " \\p{" : " \""; |
25006 | const char * suffix = (runtime && level == 0) ? "}" : "\""; |
25007 | |
25008 | sv_catpv(msg, prefix)Perl_sv_catpv( msg,prefix); |
25009 | Perl_sv_catpvf(aTHX_ msg, "%" UTF8f"d%" "lu" "%4p", UTF8fARG(is_utf8, name_len, name)(int)((is_utf8) ? (_Bool)1 : (_Bool)0), (UV)(name_len), (void *)(name)); |
25010 | sv_catpv(msg, suffix)Perl_sv_catpv( msg,suffix); |
25011 | } |
25012 | |
25013 | return NULL((void*)0); |
25014 | |
25015 | definition_deferred: |
25016 | |
25017 | { |
25018 | bool_Bool is_qualified = non_pkg_begin != 0; /* If has "::" */ |
25019 | |
25020 | /* Here it could yet to be defined, so defer evaluation of this until |
25021 | * its needed at runtime. We need the fully qualified property name to |
25022 | * avoid ambiguity */ |
25023 | if (! fq_name) { |
25024 | fq_name = S_get_fq_name(aTHX_ name, name_len, is_utf8, |
25025 | is_qualified); |
25026 | } |
25027 | |
25028 | /* If it didn't come with a package, or the package is utf8::, this |
25029 | * actually could be an official Unicode property whose inclusion we |
25030 | * are deferring until runtime to make sure that it isn't overridden by |
25031 | * a user-defined property of the same name (which we haven't |
25032 | * encountered yet). Add a marker to indicate this possibility, for |
25033 | * use at such time when we first need the definition during pattern |
25034 | * matching execution */ |
25035 | if (! is_qualified || memBEGINPs(name, non_pkg_begin, "utf8::")( (ptrdiff_t) (non_pkg_begin) > (ptrdiff_t) sizeof("utf8::" ) - 1 && (memcmp(((const void *) (name)), ((const void *) ("" "utf8::" "")), sizeof("utf8::")-1) == 0))) { |
25036 | sv_catpvs(fq_name, DEFERRED_COULD_BE_OFFICIAL_MARKERs)Perl_sv_catpvn_flags( fq_name, ("" "~" ""), (sizeof("~")-1), 2 ); |
25037 | } |
25038 | |
25039 | /* We also need a trailing newline */ |
25040 | sv_catpvs(fq_name, "\n")Perl_sv_catpvn_flags( fq_name, ("" "\n" ""), (sizeof("\n")-1) , 2); |
25041 | |
25042 | *user_defined_ptr = TRUE(1); |
25043 | return fq_name; |
25044 | } |
25045 | } |
25046 | |
25047 | STATICstatic bool_Bool |
25048 | S_handle_names_wildcard(pTHX_ const char * wname, /* wildcard name to match */ |
25049 | const STRLEN wname_len, /* Its length */ |
25050 | SV ** prop_definition, |
25051 | AV ** strings) |
25052 | { |
25053 | /* Deal with Name property wildcard subpatterns; returns TRUE if there were |
25054 | * any matches, adding them to prop_definition */ |
25055 | |
25056 | dSPSV **sp = PL_stack_sp; |
25057 | |
25058 | CV * get_names_info; /* entry to charnames.pm to get info we need */ |
25059 | SV * names_string; /* Contains all character names, except algo */ |
25060 | SV * algorithmic_names; /* Contains info about algorithmically |
25061 | generated character names */ |
25062 | REGEXP * subpattern_re; /* The user's pattern to match with */ |
25063 | struct regexp * prog; /* The compiled pattern */ |
25064 | char * all_names_start; /* lib/unicore/Name.pl string of every |
25065 | (non-algorithmic) character name */ |
25066 | char * cur_pos; /* We match, effectively using /gc; this is |
25067 | where we are now */ |
25068 | bool_Bool found_matches = FALSE(0); /* Did any name match so far? */ |
25069 | SV * empty; /* For matching zero length names */ |
25070 | SV * must_sv; /* Contains the substring, if any, that must be |
25071 | in a name for the subpattern to match */ |
25072 | const char * must; /* The PV of 'must' */ |
25073 | STRLEN must_len; /* And its length */ |
25074 | SV * syllable_name = NULL((void*)0); /* For Hangul syllables */ |
25075 | const char hangul_prefix[] = "HANGUL SYLLABLE "; |
25076 | const STRLEN hangul_prefix_len = sizeof(hangul_prefix) - 1; |
25077 | |
25078 | /* By inspection, there are a maximum of 7 bytes in the suffix of a hangul |
25079 | * syllable name, and these are immutable and guaranteed by the Unicode |
25080 | * standard to never be extended */ |
25081 | const STRLEN syl_max_len = hangul_prefix_len + 7; |
25082 | |
25083 | IV i; |
25084 | |
25085 | PERL_ARGS_ASSERT_HANDLE_NAMES_WILDCARD((wname) ? (void)0 : __assert2("re_comp.c", 25085, __func__, "wname" )); ((prop_definition) ? (void)0 : __assert2("re_comp.c", 25085 , __func__, "prop_definition")); ((strings) ? (void)0 : __assert2 ("re_comp.c", 25085, __func__, "strings")); |
25086 | |
25087 | /* Make sure _charnames is loaded. (The parameters give context |
25088 | * for any errors generated */ |
25089 | get_names_info = get_cv("_charnames::_get_names_info", 0)Perl_get_cv( "_charnames::_get_names_info",0); |
25090 | if (! get_names_info) { |
25091 | Perl_croak(aTHX_ "panic: Can't find '_charnames::_get_names_info"); |
25092 | } |
25093 | |
25094 | /* Get the charnames data */ |
25095 | PUSHSTACKi(PERLSI_REGCOMP)do { PERL_SI *next = PL_curstackinfo->si_next; if (__builtin_expect (((PL_debug & 0x00000004) ? (_Bool)1 : (_Bool)0),(0))) { int i = 0; PERL_SI *p = PL_curstackinfo; while (p) { i++; p = p-> si_prev; } Perl_deb( "push STACKINFO %d at %s:%d\n", i, "re_comp.c" , 25095);} if (!next) { next = Perl_new_stackinfo( 32,2048/sizeof (PERL_CONTEXT) - 1); next->si_prev = PL_curstackinfo; PL_curstackinfo ->si_next = next; } next->si_type = 11; next->si_cxix = -1; next->si_cxsubix = -1; (void)0; ((XPVAV*) (next-> si_stack)->sv_any)->xav_fill = 0; do { ((XPVAV*) (PL_curstack )->sv_any)->xav_fill = sp - PL_stack_base; PL_stack_base = ((next->si_stack)->sv_u.svu_array); PL_stack_max = PL_stack_base + ((XPVAV*) (next->si_stack)->sv_any)->xav_max; sp = PL_stack_sp = PL_stack_base + ((XPVAV*) (next->si_stack)-> sv_any)->xav_fill; PL_curstack = next->si_stack; } while (0); PL_curstackinfo = next; PL_curstackinfo->si_markoff = PL_markstack_ptr - PL_markstack; } while (0); |
25096 | ENTERdo { Perl_push_scope(); if (__builtin_expect(((PL_debug & 0x00000004) ? (_Bool)1 : (_Bool)0),(0))) Perl_deb( "%s scope %ld (savestack=%ld) at %s:%d\n" , "ENTER", (long)PL_scopestack_ix, (long)PL_savestack_ix, "re_comp.c" , 25096); } while (0) ; |
25097 | SAVETMPSPerl_savetmps(); |
25098 | save_re_context()Perl_save_re_context(); |
25099 | |
25100 | PUSHMARK(SP)do { I32 * mark_stack_entry; if (__builtin_expect((((mark_stack_entry = ++PL_markstack_ptr) == PL_markstack_max) ? (_Bool)1 : (_Bool )0),(0))) mark_stack_entry = Perl_markstack_grow(); *mark_stack_entry = (I32)((sp) - PL_stack_base); if (__builtin_expect(((PL_debug & 0x00000002) ? (_Bool)1 : (_Bool)0),(0))) do { if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0))) do {PerlIO_printf(Perl_PerlIO_stderr(), "MARK push %p %" "ld" "\n" , PL_markstack_ptr, (IV)*mark_stack_entry);} while (0); } while (0); } while (0) ; |
25101 | PUTBACKPL_stack_sp = sp; |
25102 | |
25103 | /* Special _charnames entry point that returns the info this routine |
25104 | * requires */ |
25105 | call_sv(MUTABLE_SV(get_names_info), G_ARRAY)Perl_call_sv( ((SV *)({ void *_p = (get_names_info); _p; })), 3); |
25106 | |
25107 | SPAGAINsp = PL_stack_sp ; |
25108 | |
25109 | /* Data structure for names which end in their very own code points */ |
25110 | algorithmic_names = POPs(*sp--); |
25111 | SvREFCNT_inc_simple_void_NN(algorithmic_names)(void)(++(((SV *)({ void *_p = (algorithmic_names); _p; })))-> sv_refcnt); |
25112 | |
25113 | /* The lib/unicore/Name.pl string */ |
25114 | names_string = POPs(*sp--); |
25115 | SvREFCNT_inc_simple_void_NN(names_string)(void)(++(((SV *)({ void *_p = (names_string); _p; })))->sv_refcnt ); |
25116 | |
25117 | PUTBACKPL_stack_sp = sp ; |
25118 | FREETMPSif (PL_tmps_ix > PL_tmps_floor) Perl_free_tmps() ; |
25119 | LEAVEdo { if (__builtin_expect(((PL_debug & 0x00000004) ? (_Bool )1 : (_Bool)0),(0))) Perl_deb( "%s scope %ld (savestack=%ld) at %s:%d\n" , "LEAVE", (long)PL_scopestack_ix, (long)PL_savestack_ix, "re_comp.c" , 25119); Perl_pop_scope(); } while (0) ; |
25120 | POPSTACKdo { SV **sp = PL_stack_sp; PERL_SI * const prev = PL_curstackinfo ->si_prev; if (__builtin_expect(((PL_debug & 0x00000004 ) ? (_Bool)1 : (_Bool)0),(0))) { int i = -1; PERL_SI *p = PL_curstackinfo ; while (p) { i++; p = p->si_prev; } Perl_deb( "pop STACKINFO %d at %s:%d\n" , i, "re_comp.c", 25120);} if (!prev) { Perl_croak_popstack() ; } do { ((XPVAV*) (PL_curstack)->sv_any)->xav_fill = sp - PL_stack_base; PL_stack_base = ((prev->si_stack)->sv_u .svu_array); PL_stack_max = PL_stack_base + ((XPVAV*) (prev-> si_stack)->sv_any)->xav_max; sp = PL_stack_sp = PL_stack_base + ((XPVAV*) (prev->si_stack)->sv_any)->xav_fill; PL_curstack = prev->si_stack; } while (0); PL_curstackinfo = prev; } while (0); |
25121 | |
25122 | if ( ! SvROK(names_string)((names_string)->sv_flags & 0x00000800) |
25123 | || ! SvROK(algorithmic_names)((algorithmic_names)->sv_flags & 0x00000800)) |
25124 | { /* Perhaps should panic instead XXX */ |
25125 | SvREFCNT_dec(names_string)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (names_string); _p; } ))); |
25126 | SvREFCNT_dec(algorithmic_names)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (algorithmic_names); _p ; }))); |
25127 | return FALSE(0); |
25128 | } |
25129 | |
25130 | names_string = sv_2mortal(SvRV(names_string))Perl_sv_2mortal( (*({ SV *const _svrv = ((SV *)({ void *_p = ( names_string); _p; })); ((PL_valid_types_RV[((svtype)((_svrv) ->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 25130, __func__, "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]" )); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25130, __func__ , "!isGV_with_GP(_svrv)")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25130, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); }))); |
25131 | all_names_start = SvPVX(names_string)(*({ SV *const _svpvx = ((SV *)({ void *_p = (names_string); _p ; })); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25131 , __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25131, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25131, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })); |
25132 | cur_pos = all_names_start; |
25133 | |
25134 | algorithmic_names= sv_2mortal(SvRV(algorithmic_names))Perl_sv_2mortal( (*({ SV *const _svrv = ((SV *)({ void *_p = ( algorithmic_names); _p; })); ((PL_valid_types_RV[((svtype)((_svrv )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 25134, __func__, "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]" )); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25134, __func__ , "!isGV_with_GP(_svrv)")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25134, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); }))); |
25135 | |
25136 | /* Compile the subpattern consisting of the name being looked for */ |
25137 | subpattern_re = compile_wildcard(wname, wname_len, FALSE /* /-i */ )S_compile_wildcard( wname,wname_len,(0)); |
25138 | |
25139 | must_sv = re_intuit_string(subpattern_re)my_re_intuit_string( subpattern_re); |
25140 | if (must_sv) { |
25141 | /* regexec.c can free the re_intuit_string() return. GH #17734 */ |
25142 | must_sv = sv_2mortal(newSVsv(must_sv))Perl_sv_2mortal( Perl_newSVsv_flags( (must_sv),2|16)); |
25143 | must = SvPV(must_sv, must_len)((((must_sv)->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((must_len = (*({ const SV *const _svcur = (const SV *)(must_sv ); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25143 , __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25143, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25143, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))), (*({ SV *const _svpvx = ((SV *)({ void * _p = (must_sv); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_comp.c", 25143, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25143, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25143, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))) : Perl_sv_2pv_flags ( must_sv,&must_len,2)); |
25144 | } |
25145 | else { |
25146 | must = ""; |
25147 | must_len = 0; |
25148 | } |
25149 | |
25150 | /* (Note: 'must' could contain a NUL. And yet we use strspn() below on it. |
25151 | * This works because the NUL causes the function to return early, thus |
25152 | * showing that there are characters in it other than the acceptable ones, |
25153 | * which is our desired result.) */ |
25154 | |
25155 | prog = ReANY(subpattern_re)Perl_ReANY((const REGEXP *)(subpattern_re)); |
25156 | |
25157 | /* If only nothing is matched, skip to where empty names are looked for */ |
25158 | if (prog->maxlen == 0) { |
25159 | goto check_empty; |
25160 | } |
25161 | |
25162 | /* And match against the string of all names /gc. Don't even try if it |
25163 | * must match a character not found in any name. */ |
25164 | if (strspn(must, "\n -0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ()") == must_len) |
25165 | { |
25166 | while (execute_wildcard(subpattern_re,S_execute_wildcard( subpattern_re,cur_pos,((names_string)-> sv_u.svu_pv + ((XPV*)(names_string)->sv_any)->xpv_cur), all_names_start,0,names_string,0) |
25167 | cur_pos,S_execute_wildcard( subpattern_re,cur_pos,((names_string)-> sv_u.svu_pv + ((XPV*)(names_string)->sv_any)->xpv_cur), all_names_start,0,names_string,0) |
25168 | SvEND(names_string),S_execute_wildcard( subpattern_re,cur_pos,((names_string)-> sv_u.svu_pv + ((XPV*)(names_string)->sv_any)->xpv_cur), all_names_start,0,names_string,0) |
25169 | all_names_start, 0,S_execute_wildcard( subpattern_re,cur_pos,((names_string)-> sv_u.svu_pv + ((XPV*)(names_string)->sv_any)->xpv_cur), all_names_start,0,names_string,0) |
25170 | names_string,S_execute_wildcard( subpattern_re,cur_pos,((names_string)-> sv_u.svu_pv + ((XPV*)(names_string)->sv_any)->xpv_cur), all_names_start,0,names_string,0) |
25171 | 0)S_execute_wildcard( subpattern_re,cur_pos,((names_string)-> sv_u.svu_pv + ((XPV*)(names_string)->sv_any)->xpv_cur), all_names_start,0,names_string,0)) |
25172 | { /* Here, matched. */ |
25173 | |
25174 | /* Note the string entries look like |
25175 | * 00001\nSTART OF HEADING\n\n |
25176 | * so we could match anywhere in that string. We have to rule out |
25177 | * matching a code point line */ |
25178 | char * this_name_start = all_names_start |
25179 | + RX_OFFS(subpattern_re)((Perl_ReANY((const REGEXP *)(subpattern_re))->offs))->start; |
25180 | char * this_name_end = all_names_start |
25181 | + RX_OFFS(subpattern_re)((Perl_ReANY((const REGEXP *)(subpattern_re))->offs))->end; |
25182 | char * cp_start; |
25183 | char * cp_end; |
25184 | UV cp = 0; /* Silences some compilers */ |
25185 | AV * this_string = NULL((void*)0); |
25186 | bool_Bool is_multi = FALSE(0); |
25187 | |
25188 | /* If matched nothing, advance to next possible match */ |
25189 | if (this_name_start == this_name_end) { |
25190 | cur_pos = (char *) memchr(this_name_end + 1, '\n', |
25191 | SvEND(names_string)((names_string)->sv_u.svu_pv + ((XPV*)(names_string)->sv_any )->xpv_cur) - this_name_end); |
25192 | if (cur_pos == NULL((void*)0)) { |
25193 | break; |
25194 | } |
25195 | } |
25196 | else { |
25197 | /* Position the next match to start beyond the current returned |
25198 | * entry */ |
25199 | cur_pos = (char *) memchr(this_name_end, '\n', |
25200 | SvEND(names_string)((names_string)->sv_u.svu_pv + ((XPV*)(names_string)->sv_any )->xpv_cur) - this_name_end); |
25201 | } |
25202 | |
25203 | /* Back up to the \n just before the beginning of the character. */ |
25204 | cp_end = (char *) my_memrchrmemrchr(all_names_start, |
25205 | '\n', |
25206 | this_name_start - all_names_start); |
25207 | |
25208 | /* If we didn't find a \n, it means it matched somewhere in the |
25209 | * initial '00000' in the string, so isn't a real match */ |
25210 | if (cp_end == NULL((void*)0)) { |
25211 | continue; |
25212 | } |
25213 | |
25214 | this_name_start = cp_end + 1; /* The name starts just after */ |
25215 | cp_end--; /* the \n, and the code point */ |
25216 | /* ends just before it */ |
25217 | |
25218 | /* All code points are 5 digits long */ |
25219 | cp_start = cp_end - 4; |
25220 | |
25221 | /* This shouldn't happen, as we found a \n, and the first \n is |
25222 | * further along than what we subtracted */ |
25223 | assert(cp_start >= all_names_start)((cp_start >= all_names_start) ? (void)0 : __assert2("re_comp.c" , 25223, __func__, "cp_start >= all_names_start")); |
25224 | |
25225 | if (cp_start == all_names_start) { |
25226 | *prop_definition = add_cp_to_invlist(*prop_definition, 0)S_add_cp_to_invlist( *prop_definition,0); |
25227 | continue; |
25228 | } |
25229 | |
25230 | /* If the character is a blank, we either have a named sequence, or |
25231 | * something is wrong */ |
25232 | if (*(cp_start - 1) == ' ') { |
25233 | cp_start = (char *) my_memrchrmemrchr(all_names_start, |
25234 | '\n', |
25235 | cp_start - all_names_start); |
25236 | cp_start++; |
25237 | } |
25238 | |
25239 | assert(cp_start != NULL && cp_start >= all_names_start + 2)((cp_start != ((void*)0) && cp_start >= all_names_start + 2) ? (void)0 : __assert2("re_comp.c", 25239, __func__, "cp_start != NULL && cp_start >= all_names_start + 2" )); |
25240 | |
25241 | /* Except for the first line in the string, the sequence before the |
25242 | * code point is \n\n. If that isn't the case here, we didn't |
25243 | * match the name of a character. (We could have matched a named |
25244 | * sequence, not currently handled */ |
25245 | if (*(cp_start - 1) != '\n' || *(cp_start - 2) != '\n') { |
25246 | continue; |
25247 | } |
25248 | |
25249 | /* We matched! Add this to the list */ |
25250 | found_matches = TRUE(1); |
25251 | |
25252 | /* Loop through all the code points in the sequence */ |
25253 | while (cp_start < cp_end) { |
25254 | |
25255 | /* Calculate this code point from its 5 digits */ |
25256 | cp = (XDIGIT_VALUE(cp_start[0])(((((( (sizeof(cp_start[0]) == 1) || !(((U64)((cp_start[0]) | 0)) & ~0xFF)) && (PL_charclass[(U8) (cp_start[0] )] & (1U << (12)))) ? (_Bool)1 : (_Bool)0)) ? (void )0 : __assert2("re_comp.c", 25256, __func__, "((( (sizeof(cp_start[0]) == 1) || !(((U64)((cp_start[0]) | 0)) & ~0xFF)) && (PL_charclass[(U8) (cp_start[0])] & (1U << (12)))) ? (_Bool)1 : (_Bool)0)" )), (((((( (sizeof(cp_start[0]) == 1) || !(((U64)((cp_start[0 ]) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 25256 , __func__, "( (sizeof(cp_start[0]) == 1) || !(((U64)((cp_start[0]) | 0)) & ~0xFF))" )), ((U8) ((cp_start[0]) | 0))) >> 6) & 1) + (((((( (sizeof(cp_start[0]) == 1) || !(((U64)((cp_start[0]) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 25256, __func__, "( (sizeof(cp_start[0]) == 1) || !(((U64)((cp_start[0]) | 0)) & ~0xFF))" )), ((U8) ((cp_start[0]) | 0))) >> 3) & 8) + ((cp_start [0]) & 0xF)) << 16) |
25257 | + (XDIGIT_VALUE(cp_start[1])(((((( (sizeof(cp_start[1]) == 1) || !(((U64)((cp_start[1]) | 0)) & ~0xFF)) && (PL_charclass[(U8) (cp_start[1] )] & (1U << (12)))) ? (_Bool)1 : (_Bool)0)) ? (void )0 : __assert2("re_comp.c", 25257, __func__, "((( (sizeof(cp_start[1]) == 1) || !(((U64)((cp_start[1]) | 0)) & ~0xFF)) && (PL_charclass[(U8) (cp_start[1])] & (1U << (12)))) ? (_Bool)1 : (_Bool)0)" )), (((((( (sizeof(cp_start[1]) == 1) || !(((U64)((cp_start[1 ]) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 25257 , __func__, "( (sizeof(cp_start[1]) == 1) || !(((U64)((cp_start[1]) | 0)) & ~0xFF))" )), ((U8) ((cp_start[1]) | 0))) >> 6) & 1) + (((((( (sizeof(cp_start[1]) == 1) || !(((U64)((cp_start[1]) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 25257, __func__, "( (sizeof(cp_start[1]) == 1) || !(((U64)((cp_start[1]) | 0)) & ~0xFF))" )), ((U8) ((cp_start[1]) | 0))) >> 3) & 8) + ((cp_start [1]) & 0xF)) << 12) |
25258 | + (XDIGIT_VALUE(cp_start[2])(((((( (sizeof(cp_start[2]) == 1) || !(((U64)((cp_start[2]) | 0)) & ~0xFF)) && (PL_charclass[(U8) (cp_start[2] )] & (1U << (12)))) ? (_Bool)1 : (_Bool)0)) ? (void )0 : __assert2("re_comp.c", 25258, __func__, "((( (sizeof(cp_start[2]) == 1) || !(((U64)((cp_start[2]) | 0)) & ~0xFF)) && (PL_charclass[(U8) (cp_start[2])] & (1U << (12)))) ? (_Bool)1 : (_Bool)0)" )), (((((( (sizeof(cp_start[2]) == 1) || !(((U64)((cp_start[2 ]) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 25258 , __func__, "( (sizeof(cp_start[2]) == 1) || !(((U64)((cp_start[2]) | 0)) & ~0xFF))" )), ((U8) ((cp_start[2]) | 0))) >> 6) & 1) + (((((( (sizeof(cp_start[2]) == 1) || !(((U64)((cp_start[2]) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 25258, __func__, "( (sizeof(cp_start[2]) == 1) || !(((U64)((cp_start[2]) | 0)) & ~0xFF))" )), ((U8) ((cp_start[2]) | 0))) >> 3) & 8) + ((cp_start [2]) & 0xF)) << 8) |
25259 | + (XDIGIT_VALUE(cp_start[3])(((((( (sizeof(cp_start[3]) == 1) || !(((U64)((cp_start[3]) | 0)) & ~0xFF)) && (PL_charclass[(U8) (cp_start[3] )] & (1U << (12)))) ? (_Bool)1 : (_Bool)0)) ? (void )0 : __assert2("re_comp.c", 25259, __func__, "((( (sizeof(cp_start[3]) == 1) || !(((U64)((cp_start[3]) | 0)) & ~0xFF)) && (PL_charclass[(U8) (cp_start[3])] & (1U << (12)))) ? (_Bool)1 : (_Bool)0)" )), (((((( (sizeof(cp_start[3]) == 1) || !(((U64)((cp_start[3 ]) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 25259 , __func__, "( (sizeof(cp_start[3]) == 1) || !(((U64)((cp_start[3]) | 0)) & ~0xFF))" )), ((U8) ((cp_start[3]) | 0))) >> 6) & 1) + (((((( (sizeof(cp_start[3]) == 1) || !(((U64)((cp_start[3]) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 25259, __func__, "( (sizeof(cp_start[3]) == 1) || !(((U64)((cp_start[3]) | 0)) & ~0xFF))" )), ((U8) ((cp_start[3]) | 0))) >> 3) & 8) + ((cp_start [3]) & 0xF)) << 4) |
25260 | + XDIGIT_VALUE(cp_start[4])(((((( (sizeof(cp_start[4]) == 1) || !(((U64)((cp_start[4]) | 0)) & ~0xFF)) && (PL_charclass[(U8) (cp_start[4] )] & (1U << (12)))) ? (_Bool)1 : (_Bool)0)) ? (void )0 : __assert2("re_comp.c", 25260, __func__, "((( (sizeof(cp_start[4]) == 1) || !(((U64)((cp_start[4]) | 0)) & ~0xFF)) && (PL_charclass[(U8) (cp_start[4])] & (1U << (12)))) ? (_Bool)1 : (_Bool)0)" )), (((((( (sizeof(cp_start[4]) == 1) || !(((U64)((cp_start[4 ]) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 25260 , __func__, "( (sizeof(cp_start[4]) == 1) || !(((U64)((cp_start[4]) | 0)) & ~0xFF))" )), ((U8) ((cp_start[4]) | 0))) >> 6) & 1) + (((((( (sizeof(cp_start[4]) == 1) || !(((U64)((cp_start[4]) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_comp.c", 25260, __func__, "( (sizeof(cp_start[4]) == 1) || !(((U64)((cp_start[4]) | 0)) & ~0xFF))" )), ((U8) ((cp_start[4]) | 0))) >> 3) & 8) + ((cp_start [4]) & 0xF)); |
25261 | |
25262 | cp_start += 6; /* Go past any blank */ |
25263 | |
25264 | if (cp_start < cp_end || is_multi) { |
25265 | if (this_string == NULL((void*)0)) { |
25266 | this_string = newAV()((AV *)({ void *_p = (Perl_newSV_type( SVt_PVAV)); _p; })); |
25267 | } |
25268 | |
25269 | is_multi = TRUE(1); |
25270 | av_push(this_string, newSVuv(cp))Perl_av_push( this_string,Perl_newSVuv( cp)); |
25271 | } |
25272 | } |
25273 | |
25274 | if (is_multi) { /* Was more than one code point */ |
25275 | if (*strings == NULL((void*)0)) { |
25276 | *strings = newAV()((AV *)({ void *_p = (Perl_newSV_type( SVt_PVAV)); _p; })); |
25277 | } |
25278 | |
25279 | av_push(*strings, (SV *) this_string)Perl_av_push( *strings,(SV *) this_string); |
25280 | } |
25281 | else { /* Only a single code point */ |
25282 | *prop_definition = add_cp_to_invlist(*prop_definition, cp)S_add_cp_to_invlist( *prop_definition,cp); |
25283 | } |
25284 | } /* End of loop through the non-algorithmic names string */ |
25285 | } |
25286 | |
25287 | /* There are also character names not in 'names_string'. These are |
25288 | * algorithmically generatable. Try this pattern on each possible one. |
25289 | * (khw originally planned to leave this out given the large number of |
25290 | * matches attempted; but the speed turned out to be quite acceptable |
25291 | * |
25292 | * There are plenty of opportunities to optimize to skip many of the tests. |
25293 | * beyond the rudimentary ones already here */ |
25294 | |
25295 | /* First see if the subpattern matches any of the algorithmic generatable |
25296 | * Hangul syllable names. |
25297 | * |
25298 | * We know none of these syllable names will match if the input pattern |
25299 | * requires more bytes than any syllable has, or if the input pattern only |
25300 | * matches an empty name, or if the pattern has something it must match and |
25301 | * one of the characters in that isn't in any Hangul syllable. */ |
25302 | if ( prog->minlen <= (SSize_tssize_t) syl_max_len |
25303 | && prog->maxlen > 0 |
25304 | && (strspn(must, "\n ABCDEGHIJKLMNOPRSTUWY") == must_len)) |
25305 | { |
25306 | /* These constants, names, values, and algorithm are adapted from the |
25307 | * Unicode standard, version 5.1, section 3.12, and should never |
25308 | * change. */ |
25309 | const char * JamoL[] = { |
25310 | "G", "GG", "N", "D", "DD", "R", "M", "B", "BB", |
25311 | "S", "SS", "", "J", "JJ", "C", "K", "T", "P", "H" |
25312 | }; |
25313 | const int LCount = C_ARRAY_LENGTH(JamoL)(sizeof(JamoL)/sizeof((JamoL)[0])); |
25314 | |
25315 | const char * JamoV[] = { |
25316 | "A", "AE", "YA", "YAE", "EO", "E", "YEO", "YE", "O", "WA", |
25317 | "WAE", "OE", "YO", "U", "WEO", "WE", "WI", "YU", "EU", "YI", |
25318 | "I" |
25319 | }; |
25320 | const int VCount = C_ARRAY_LENGTH(JamoV)(sizeof(JamoV)/sizeof((JamoV)[0])); |
25321 | |
25322 | const char * JamoT[] = { |
25323 | "", "G", "GG", "GS", "N", "NJ", "NH", "D", "L", |
25324 | "LG", "LM", "LB", "LS", "LT", "LP", "LH", "M", "B", |
25325 | "BS", "S", "SS", "NG", "J", "C", "K", "T", "P", "H" |
25326 | }; |
25327 | const int TCount = C_ARRAY_LENGTH(JamoT)(sizeof(JamoT)/sizeof((JamoT)[0])); |
25328 | |
25329 | int L, V, T; |
25330 | |
25331 | /* This is the initial Hangul syllable code point; each time through the |
25332 | * inner loop, it maps to the next higher code point. For more info, |
25333 | * see the Hangul syllable section of the Unicode standard. */ |
25334 | int cp = 0xAC00; |
25335 | |
25336 | syllable_name = sv_2mortal(newSV(syl_max_len))Perl_sv_2mortal( Perl_newSV( syl_max_len)); |
25337 | sv_setpvn(syllable_name, hangul_prefix, hangul_prefix_len)Perl_sv_setpvn( syllable_name,hangul_prefix,hangul_prefix_len ); |
25338 | |
25339 | for (L = 0; L < LCount; L++) { |
25340 | for (V = 0; V < VCount; V++) { |
25341 | for (T = 0; T < TCount; T++) { |
25342 | |
25343 | /* Truncate back to the prefix, which is unvarying */ |
25344 | SvCUR_set(syllable_name, hangul_prefix_len)do { ((PL_valid_types_PVX[((svtype)((syllable_name)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25344, __func__, "PL_valid_types_PVX[SvTYPE(syllable_name) & SVt_MASK]" )); ((!((((syllable_name)->sv_flags & (0x00004000|0x00008000 )) == 0x00008000) && (((svtype)((syllable_name)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((syllable_name)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c" , 25344, __func__, "!isGV_with_GP(syllable_name)")); ((!(((svtype )((syllable_name)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (syllable_name)->sv_any)->xio_flags & 64 ))) ? (void)0 : __assert2("re_comp.c", 25344, __func__, "!(SvTYPE(syllable_name) == SVt_PVIO && !(IoFLAGS(syllable_name) & IOf_FAKE_DIRP))" )); (((XPV*) (syllable_name)->sv_any)->xpv_cur = (hangul_prefix_len )); } while (0); |
25345 | |
25346 | sv_catpv(syllable_name, JamoL[L])Perl_sv_catpv( syllable_name,JamoL[L]); |
25347 | sv_catpv(syllable_name, JamoV[V])Perl_sv_catpv( syllable_name,JamoV[V]); |
25348 | sv_catpv(syllable_name, JamoT[T])Perl_sv_catpv( syllable_name,JamoT[T]); |
25349 | |
25350 | if (execute_wildcard(subpattern_re,S_execute_wildcard( subpattern_re,(*({ SV *const _svpvx = ((SV *)({ void *_p = (syllable_name); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 25351, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25351, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25351, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),((syllable_name)-> sv_u.svu_pv + ((XPV*)(syllable_name)->sv_any)->xpv_cur) ,(*({ SV *const _svpvx = ((SV *)({ void *_p = (syllable_name) ; _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25353, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25353, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25353, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),0,syllable_name,0) |
25351 | SvPVX(syllable_name),S_execute_wildcard( subpattern_re,(*({ SV *const _svpvx = ((SV *)({ void *_p = (syllable_name); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 25351, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25351, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25351, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),((syllable_name)-> sv_u.svu_pv + ((XPV*)(syllable_name)->sv_any)->xpv_cur) ,(*({ SV *const _svpvx = ((SV *)({ void *_p = (syllable_name) ; _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25353, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25353, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25353, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),0,syllable_name,0) |
25352 | SvEND(syllable_name),S_execute_wildcard( subpattern_re,(*({ SV *const _svpvx = ((SV *)({ void *_p = (syllable_name); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 25351, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25351, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25351, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),((syllable_name)-> sv_u.svu_pv + ((XPV*)(syllable_name)->sv_any)->xpv_cur) ,(*({ SV *const _svpvx = ((SV *)({ void *_p = (syllable_name) ; _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25353, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25353, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25353, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),0,syllable_name,0) |
25353 | SvPVX(syllable_name), 0,S_execute_wildcard( subpattern_re,(*({ SV *const _svpvx = ((SV *)({ void *_p = (syllable_name); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 25351, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25351, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25351, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),((syllable_name)-> sv_u.svu_pv + ((XPV*)(syllable_name)->sv_any)->xpv_cur) ,(*({ SV *const _svpvx = ((SV *)({ void *_p = (syllable_name) ; _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25353, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25353, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25353, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),0,syllable_name,0) |
25354 | syllable_name,S_execute_wildcard( subpattern_re,(*({ SV *const _svpvx = ((SV *)({ void *_p = (syllable_name); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 25351, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25351, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25351, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),((syllable_name)-> sv_u.svu_pv + ((XPV*)(syllable_name)->sv_any)->xpv_cur) ,(*({ SV *const _svpvx = ((SV *)({ void *_p = (syllable_name) ; _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25353, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25353, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25353, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),0,syllable_name,0) |
25355 | 0)S_execute_wildcard( subpattern_re,(*({ SV *const _svpvx = ((SV *)({ void *_p = (syllable_name); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 25351, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25351, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25351, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),((syllable_name)-> sv_u.svu_pv + ((XPV*)(syllable_name)->sv_any)->xpv_cur) ,(*({ SV *const _svpvx = ((SV *)({ void *_p = (syllable_name) ; _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25353, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25353, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25353, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),0,syllable_name,0)) |
25356 | { |
25357 | *prop_definition = add_cp_to_invlist(*prop_definition,S_add_cp_to_invlist( *prop_definition,cp) |
25358 | cp)S_add_cp_to_invlist( *prop_definition,cp); |
25359 | found_matches = TRUE(1); |
25360 | } |
25361 | |
25362 | cp++; |
25363 | } |
25364 | } |
25365 | } |
25366 | } |
25367 | |
25368 | /* The rest of the algorithmically generatable names are of the form |
25369 | * "PREFIX-code_point". The prefixes and the code point limits of each |
25370 | * were returned to us in the array 'algorithmic_names' from data in |
25371 | * lib/unicore/Name.pm. 'code_point' in the name is expressed in hex. */ |
25372 | for (i = 0; i <= av_top_index((AV *) algorithmic_names)Perl_av_top_index( (AV *) algorithmic_names); i++) { |
25373 | IV j; |
25374 | |
25375 | /* Each element of the array is a hash, giving the details for the |
25376 | * series of names it covers. There is the base name of the characters |
25377 | * in the series, and the low and high code points in the series. And, |
25378 | * for optimization purposes a string containing all the legal |
25379 | * characters that could possibly be in a name in this series. */ |
25380 | HV * this_series = (HV *) SvRV(* av_fetch((AV *) algorithmic_names, i, 0))(*({ SV *const _svrv = ((SV *)({ void *_p = (* Perl_av_fetch( (AV *) algorithmic_names,i,0)); _p; })); ((PL_valid_types_RV [((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 25380, __func__, "PL_valid_types_RV[SvTYPE(_svrv) & SVt_MASK]" )); ((!((((_svrv)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svrv)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25380, __func__ , "!isGV_with_GP(_svrv)")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25380, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); })); |
25381 | SV * prefix = * hv_fetchs(this_series, "name", 0)((SV**) Perl_hv_common_key_len( ((this_series)),(("" "name" "" )),((sizeof("name")-1)),((0)) ? (0x20 | 0x10) : 0x20,((void*) 0),0)); |
25382 | IV low = SvIV(* hv_fetchs(this_series, "low", 0))((((* ((SV**) Perl_hv_common_key_len( ((this_series)),(("" "low" "")),((sizeof("low")-1)),((0)) ? (0x20 | 0x10) : 0x20,((void *)0),0)))->sv_flags & (0x00000100|0x00200000)) == 0x00000100 ) ? (*({ const SV *const _svivx = (const SV *)(* ((SV**) Perl_hv_common_key_len ( ((this_series)),(("" "low" "")),((sizeof("low")-1)),((0)) ? (0x20 | 0x10) : 0x20,((void*)0),0))); ((PL_valid_types_IVX[( (svtype)((_svivx)->sv_flags & 0xff)) & 0x1f]) ? (void )0 : __assert2("re_comp.c", 25382, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25382, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( * ((SV**) Perl_hv_common_key_len( ((this_series)),(("" "low" "")),((sizeof("low")-1)),((0)) ? (0x20 | 0x10) : 0x20,((void *)0),0)),2)); |
25383 | IV high = SvIV(* hv_fetchs(this_series, "high", 0))((((* ((SV**) Perl_hv_common_key_len( ((this_series)),(("" "high" "")),((sizeof("high")-1)),((0)) ? (0x20 | 0x10) : 0x20,((void *)0),0)))->sv_flags & (0x00000100|0x00200000)) == 0x00000100 ) ? (*({ const SV *const _svivx = (const SV *)(* ((SV**) Perl_hv_common_key_len ( ((this_series)),(("" "high" "")),((sizeof("high")-1)),((0)) ? (0x20 | 0x10) : 0x20,((void*)0),0))); ((PL_valid_types_IVX [((svtype)((_svivx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 25383, __func__, "PL_valid_types_IVX[SvTYPE(_svivx) & SVt_MASK]" )); ((!((((_svivx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svivx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svivx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25383, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( * ((SV**) Perl_hv_common_key_len( ((this_series)),(("" "high" "")),((sizeof("high")-1)),((0)) ? (0x20 | 0x10) : 0x20,((void *)0),0)),2)); |
25384 | char * legal = SvPVX(* hv_fetchs(this_series, "legal", 0))(*({ SV *const _svpvx = ((SV *)({ void *_p = (* ((SV**) Perl_hv_common_key_len ( ((this_series)),(("" "legal" "")),((sizeof("legal")-1)),((0 )) ? (0x20 | 0x10) : 0x20,((void*)0),0))); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 25384, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25384, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25384, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })); |
25385 | |
25386 | /* Pre-allocate an SV with enough space */ |
25387 | SV * algo_name = sv_2mortal(Perl_newSVpvf(aTHX_ "%s-0000",Perl_sv_2mortal( Perl_newSVpvf( "%s-0000", (*({ SV *const _svpvx = ((SV *)({ void *_p = (prefix); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 25388, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25388, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25388, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })))) |
25388 | SvPVX(prefix)))Perl_sv_2mortal( Perl_newSVpvf( "%s-0000", (*({ SV *const _svpvx = ((SV *)({ void *_p = (prefix); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 25388, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25388, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25388, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })))); |
25389 | if (high >= 0x10000) { |
25390 | sv_catpvs(algo_name, "0")Perl_sv_catpvn_flags( algo_name, ("" "0" ""), (sizeof("0")-1) , 2); |
25391 | } |
25392 | |
25393 | /* This series can be skipped entirely if the pattern requires |
25394 | * something longer than any name in the series, or can only match an |
25395 | * empty name, or contains a character not found in any name in the |
25396 | * series */ |
25397 | if ( prog->minlen <= (SSize_tssize_t) SvCUR(algo_name)(*({ const SV *const _svcur = (const SV *)(algo_name); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 25397, __func__, "PL_valid_types_PVX[SvTYPE(_svcur) & SVt_MASK]" )); ((!((((_svcur)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svcur)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25397, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25397, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) |
25398 | && prog->maxlen > 0 |
25399 | && (strspn(must, legal) == must_len)) |
25400 | { |
25401 | for (j = low; j <= high; j++) { /* For each code point in the series */ |
25402 | |
25403 | /* Get its name, and see if it matches the subpattern */ |
25404 | Perl_sv_setpvf(aTHX_ algo_name, "%s-%X", SvPVX(prefix)(*({ SV *const _svpvx = ((SV *)({ void *_p = (prefix); _p; }) ); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25404 , __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25404, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25404, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })), |
25405 | (unsigned) j); |
25406 | |
25407 | if (execute_wildcard(subpattern_re,S_execute_wildcard( subpattern_re,(*({ SV *const _svpvx = ((SV *)({ void *_p = (algo_name); _p; })); ((PL_valid_types_PVX[( (svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void )0 : __assert2("re_comp.c", 25408, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25408, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25408, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),((algo_name)->sv_u .svu_pv + ((XPV*)(algo_name)->sv_any)->xpv_cur),(*({ SV *const _svpvx = ((SV *)({ void *_p = (algo_name); _p; })); ( (PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25410, __func__ , "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]")); ((!( (((_svpvx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 25410, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 25410, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),0,algo_name,0) |
25408 | SvPVX(algo_name),S_execute_wildcard( subpattern_re,(*({ SV *const _svpvx = ((SV *)({ void *_p = (algo_name); _p; })); ((PL_valid_types_PVX[( (svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void )0 : __assert2("re_comp.c", 25408, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25408, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25408, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),((algo_name)->sv_u .svu_pv + ((XPV*)(algo_name)->sv_any)->xpv_cur),(*({ SV *const _svpvx = ((SV *)({ void *_p = (algo_name); _p; })); ( (PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25410, __func__ , "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]")); ((!( (((_svpvx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 25410, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 25410, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),0,algo_name,0) |
25409 | SvEND(algo_name),S_execute_wildcard( subpattern_re,(*({ SV *const _svpvx = ((SV *)({ void *_p = (algo_name); _p; })); ((PL_valid_types_PVX[( (svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void )0 : __assert2("re_comp.c", 25408, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25408, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25408, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),((algo_name)->sv_u .svu_pv + ((XPV*)(algo_name)->sv_any)->xpv_cur),(*({ SV *const _svpvx = ((SV *)({ void *_p = (algo_name); _p; })); ( (PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25410, __func__ , "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]")); ((!( (((_svpvx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 25410, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 25410, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),0,algo_name,0) |
25410 | SvPVX(algo_name), 0,S_execute_wildcard( subpattern_re,(*({ SV *const _svpvx = ((SV *)({ void *_p = (algo_name); _p; })); ((PL_valid_types_PVX[( (svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void )0 : __assert2("re_comp.c", 25408, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25408, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25408, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),((algo_name)->sv_u .svu_pv + ((XPV*)(algo_name)->sv_any)->xpv_cur),(*({ SV *const _svpvx = ((SV *)({ void *_p = (algo_name); _p; })); ( (PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25410, __func__ , "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]")); ((!( (((_svpvx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 25410, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 25410, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),0,algo_name,0) |
25411 | algo_name,S_execute_wildcard( subpattern_re,(*({ SV *const _svpvx = ((SV *)({ void *_p = (algo_name); _p; })); ((PL_valid_types_PVX[( (svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void )0 : __assert2("re_comp.c", 25408, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25408, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25408, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),((algo_name)->sv_u .svu_pv + ((XPV*)(algo_name)->sv_any)->xpv_cur),(*({ SV *const _svpvx = ((SV *)({ void *_p = (algo_name); _p; })); ( (PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25410, __func__ , "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]")); ((!( (((_svpvx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 25410, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 25410, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),0,algo_name,0) |
25412 | 0)S_execute_wildcard( subpattern_re,(*({ SV *const _svpvx = ((SV *)({ void *_p = (algo_name); _p; })); ((PL_valid_types_PVX[( (svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void )0 : __assert2("re_comp.c", 25408, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25408, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25408, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),((algo_name)->sv_u .svu_pv + ((XPV*)(algo_name)->sv_any)->xpv_cur),(*({ SV *const _svpvx = ((SV *)({ void *_p = (algo_name); _p; })); ( (PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25410, __func__ , "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]")); ((!( (((_svpvx)->sv_flags & (0x00004000|0x00008000)) == 0x00008000 ) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVLV ))) ? (void)0 : __assert2("re_comp.c", 25410, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c", 25410, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),0,algo_name,0)) |
25413 | { |
25414 | *prop_definition = add_cp_to_invlist(*prop_definition, j)S_add_cp_to_invlist( *prop_definition,j); |
25415 | found_matches = TRUE(1); |
25416 | } |
25417 | } |
25418 | } |
25419 | } |
25420 | |
25421 | check_empty: |
25422 | /* Finally, see if the subpattern matches an empty string */ |
25423 | empty = newSVpvs("")Perl_newSVpvn( ("" "" ""), (sizeof("")-1)); |
25424 | if (execute_wildcard(subpattern_re,S_execute_wildcard( subpattern_re,(*({ SV *const _svpvx = ((SV *)({ void *_p = (empty); _p; })); ((PL_valid_types_PVX[((svtype )((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25425, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25425, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25425, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),((empty)->sv_u.svu_pv + ((XPV*)(empty)->sv_any)->xpv_cur),(*({ SV *const _svpvx = ((SV *)({ void *_p = (empty); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 25427, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25427, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25427, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),0,empty,0) |
25425 | SvPVX(empty),S_execute_wildcard( subpattern_re,(*({ SV *const _svpvx = ((SV *)({ void *_p = (empty); _p; })); ((PL_valid_types_PVX[((svtype )((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25425, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25425, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25425, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),((empty)->sv_u.svu_pv + ((XPV*)(empty)->sv_any)->xpv_cur),(*({ SV *const _svpvx = ((SV *)({ void *_p = (empty); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 25427, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25427, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25427, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),0,empty,0) |
25426 | SvEND(empty),S_execute_wildcard( subpattern_re,(*({ SV *const _svpvx = ((SV *)({ void *_p = (empty); _p; })); ((PL_valid_types_PVX[((svtype )((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25425, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25425, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25425, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),((empty)->sv_u.svu_pv + ((XPV*)(empty)->sv_any)->xpv_cur),(*({ SV *const _svpvx = ((SV *)({ void *_p = (empty); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 25427, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25427, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25427, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),0,empty,0) |
25427 | SvPVX(empty), 0,S_execute_wildcard( subpattern_re,(*({ SV *const _svpvx = ((SV *)({ void *_p = (empty); _p; })); ((PL_valid_types_PVX[((svtype )((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25425, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25425, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25425, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),((empty)->sv_u.svu_pv + ((XPV*)(empty)->sv_any)->xpv_cur),(*({ SV *const _svpvx = ((SV *)({ void *_p = (empty); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 25427, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25427, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25427, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),0,empty,0) |
25428 | empty,S_execute_wildcard( subpattern_re,(*({ SV *const _svpvx = ((SV *)({ void *_p = (empty); _p; })); ((PL_valid_types_PVX[((svtype )((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25425, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25425, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25425, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),((empty)->sv_u.svu_pv + ((XPV*)(empty)->sv_any)->xpv_cur),(*({ SV *const _svpvx = ((SV *)({ void *_p = (empty); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 25427, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25427, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25427, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),0,empty,0) |
25429 | 0)S_execute_wildcard( subpattern_re,(*({ SV *const _svpvx = ((SV *)({ void *_p = (empty); _p; })); ((PL_valid_types_PVX[((svtype )((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25425, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25425, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25425, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),((empty)->sv_u.svu_pv + ((XPV*)(empty)->sv_any)->xpv_cur),(*({ SV *const _svpvx = ((SV *)({ void *_p = (empty); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 25427, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25427, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25427, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),0,empty,0)) |
25430 | { |
25431 | /* Many code points have empty names. Currently these are the \p{GC=C} |
25432 | * ones, minus CC and CF */ |
25433 | |
25434 | SV * empty_names_ref = get_prop_definition(UNI_C)Perl_get_prop_definition( UNI_C); |
25435 | SV * empty_names = invlist_clone(empty_names_ref, NULL)Perl_invlist_clone( empty_names_ref,((void*)0)); |
25436 | |
25437 | SV * subtract = get_prop_definition(UNI_CC)Perl_get_prop_definition( UNI_XPOSIXCNTRL); |
25438 | |
25439 | _invlist_subtract(empty_names, subtract, &empty_names)Perl__invlist_intersection_maybe_complement_2nd( empty_names, subtract,(1),&empty_names); |
25440 | SvREFCNT_dec_NN(empty_names_ref)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (empty_names_ref); _p; }))); |
25441 | SvREFCNT_dec_NN(subtract)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (subtract); _p; }) )); |
25442 | |
25443 | subtract = get_prop_definition(UNI_CF)Perl_get_prop_definition( UNI_CF); |
25444 | _invlist_subtract(empty_names, subtract, &empty_names)Perl__invlist_intersection_maybe_complement_2nd( empty_names, subtract,(1),&empty_names); |
25445 | SvREFCNT_dec_NN(subtract)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (subtract); _p; }) )); |
25446 | |
25447 | _invlist_union(*prop_definition, empty_names, prop_definition)Perl__invlist_union_maybe_complement_2nd( *prop_definition,empty_names ,(0),prop_definition); |
25448 | found_matches = TRUE(1); |
25449 | SvREFCNT_dec_NN(empty_names)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (empty_names); _p; }))); |
25450 | } |
25451 | SvREFCNT_dec_NN(empty)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (empty); _p; }))); |
25452 | |
25453 | #if 0 |
25454 | /* If we ever were to accept aliases for, say private use names, we would |
25455 | * need to do something fancier to find empty names. The code below works |
25456 | * (at the time it was written), and is slower than the above */ |
25457 | const char empties_pat[] = "^."; |
25458 | if (strNE(name, empties_pat)(strcmp(name,empties_pat) != 0)) { |
25459 | SV * empty = newSVpvs("")Perl_newSVpvn( ("" "" ""), (sizeof("")-1)); |
25460 | if (execute_wildcard(subpattern_re,S_execute_wildcard( subpattern_re,(*({ SV *const _svpvx = ((SV *)({ void *_p = (empty); _p; })); ((PL_valid_types_PVX[((svtype )((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25461, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25461, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25461, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),((empty)->sv_u.svu_pv + ((XPV*)(empty)->sv_any)->xpv_cur),(*({ SV *const _svpvx = ((SV *)({ void *_p = (empty); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 25463, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25463, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25463, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),0,empty,0) |
25461 | SvPVX(empty),S_execute_wildcard( subpattern_re,(*({ SV *const _svpvx = ((SV *)({ void *_p = (empty); _p; })); ((PL_valid_types_PVX[((svtype )((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25461, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25461, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25461, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),((empty)->sv_u.svu_pv + ((XPV*)(empty)->sv_any)->xpv_cur),(*({ SV *const _svpvx = ((SV *)({ void *_p = (empty); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 25463, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25463, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25463, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),0,empty,0) |
25462 | SvEND(empty),S_execute_wildcard( subpattern_re,(*({ SV *const _svpvx = ((SV *)({ void *_p = (empty); _p; })); ((PL_valid_types_PVX[((svtype )((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25461, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25461, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25461, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),((empty)->sv_u.svu_pv + ((XPV*)(empty)->sv_any)->xpv_cur),(*({ SV *const _svpvx = ((SV *)({ void *_p = (empty); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 25463, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25463, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25463, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),0,empty,0) |
25463 | SvPVX(empty), 0,S_execute_wildcard( subpattern_re,(*({ SV *const _svpvx = ((SV *)({ void *_p = (empty); _p; })); ((PL_valid_types_PVX[((svtype )((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25461, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25461, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25461, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),((empty)->sv_u.svu_pv + ((XPV*)(empty)->sv_any)->xpv_cur),(*({ SV *const _svpvx = ((SV *)({ void *_p = (empty); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 25463, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25463, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25463, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),0,empty,0) |
25464 | empty,S_execute_wildcard( subpattern_re,(*({ SV *const _svpvx = ((SV *)({ void *_p = (empty); _p; })); ((PL_valid_types_PVX[((svtype )((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25461, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25461, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25461, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),((empty)->sv_u.svu_pv + ((XPV*)(empty)->sv_any)->xpv_cur),(*({ SV *const _svpvx = ((SV *)({ void *_p = (empty); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 25463, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25463, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25463, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),0,empty,0) |
25465 | 0)S_execute_wildcard( subpattern_re,(*({ SV *const _svpvx = ((SV *)({ void *_p = (empty); _p; })); ((PL_valid_types_PVX[((svtype )((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_comp.c", 25461, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25461, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25461, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),((empty)->sv_u.svu_pv + ((XPV*)(empty)->sv_any)->xpv_cur),(*({ SV *const _svpvx = ((SV *)({ void *_p = (empty); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_comp.c", 25463, __func__, "PL_valid_types_PVX[SvTYPE(_svpvx) & SVt_MASK]" )); ((!((((_svpvx)->sv_flags & (0x00004000|0x00008000) ) == 0x00008000) && (((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_svpvx)->sv_flags & 0xff )) == SVt_PVLV))) ? (void)0 : __assert2("re_comp.c", 25463, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_comp.c" , 25463, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })),0,empty,0)) |
25466 | { |
25467 | SV * empties = NULL((void*)0); |
25468 | |
25469 | (void) handle_names_wildcard(empties_pat, strlen(empties_pat), &empties); |
25470 | |
25471 | _invlist_union_complement_2nd(*prop_definition, empties, prop_definition)Perl__invlist_union_maybe_complement_2nd( *prop_definition,empties ,(1),prop_definition); |
25472 | SvREFCNT_dec_NN(empties)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (empties); _p; })) ); |
25473 | |
25474 | found_matches = TRUE(1); |
25475 | } |
25476 | SvREFCNT_dec_NN(empty)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (empty); _p; }))); |
25477 | } |
25478 | #endif |
25479 | |
25480 | SvREFCNT_dec_NN(subpattern_re)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (subpattern_re); _p ; }))); |
25481 | return found_matches; |
25482 | } |
25483 | |
25484 | /* |
25485 | * ex: set ts=8 sts=4 sw=4 et: |
25486 | */ |