File: | obj/gnu/usr.bin/perl/ext/re/re_exec.c |
Warning: | line 4818, column 21 Value stored to 'temp' during its initialization is never read |
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1 | /* regexec.c |
2 | */ |
3 | |
4 | /* |
5 | * One Ring to rule them all, One Ring to find them |
6 | * |
7 | * [p.v of _The Lord of the Rings_, opening poem] |
8 | * [p.50 of _The Lord of the Rings_, I/iii: "The Shadow of the Past"] |
9 | * [p.254 of _The Lord of the Rings_, II/ii: "The Council of Elrond"] |
10 | */ |
11 | |
12 | /* This file contains functions for executing a regular expression. See |
13 | * also regcomp.c which funnily enough, contains functions for compiling |
14 | * a regular expression. |
15 | * |
16 | * This file is also copied at build time to ext/re/re_exec.c, where |
17 | * it's built with -DPERL_EXT_RE_BUILD -DPERL_EXT_RE_DEBUG -DPERL_EXT. |
18 | * This causes the main functions to be compiled under new names and with |
19 | * debugging support added, which makes "use re 'debug'" work. |
20 | */ |
21 | |
22 | /* NOTE: this is derived from Henry Spencer's regexp code, and should not |
23 | * confused with the original package (see point 3 below). Thanks, Henry! |
24 | */ |
25 | |
26 | /* Additional note: this code is very heavily munged from Henry's version |
27 | * in places. In some spots I've traded clarity for efficiency, so don't |
28 | * blame Henry for some of the lack of readability. |
29 | */ |
30 | |
31 | /* The names of the functions have been changed from regcomp and |
32 | * regexec to pregcomp and pregexec in order to avoid conflicts |
33 | * with the POSIX routines of the same names. |
34 | */ |
35 | |
36 | #ifdef PERL_EXT_RE_BUILD1 |
37 | #include "re_top.h" |
38 | #endif |
39 | |
40 | /* |
41 | * pregcomp and pregexec -- regsub and regerror are not used in perl |
42 | * |
43 | * Copyright (c) 1986 by University of Toronto. |
44 | * Written by Henry Spencer. Not derived from licensed software. |
45 | * |
46 | * Permission is granted to anyone to use this software for any |
47 | * purpose on any computer system, and to redistribute it freely, |
48 | * subject to the following restrictions: |
49 | * |
50 | * 1. The author is not responsible for the consequences of use of |
51 | * this software, no matter how awful, even if they arise |
52 | * from defects in it. |
53 | * |
54 | * 2. The origin of this software must not be misrepresented, either |
55 | * by explicit claim or by omission. |
56 | * |
57 | * 3. Altered versions must be plainly marked as such, and must not |
58 | * be misrepresented as being the original software. |
59 | * |
60 | **** Alterations to Henry's code are... |
61 | **** |
62 | **** Copyright (C) 1991, 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, |
63 | **** 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008 |
64 | **** by Larry Wall and others |
65 | **** |
66 | **** You may distribute under the terms of either the GNU General Public |
67 | **** License or the Artistic License, as specified in the README file. |
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 | #include "EXTERN.h" |
74 | #define PERL_IN_REGEXEC_C |
75 | #include "perl.h" |
76 | |
77 | #ifdef PERL_IN_XSUB_RE |
78 | # include "re_comp.h" |
79 | #else |
80 | # include "regcomp.h" |
81 | #endif |
82 | |
83 | #include "invlist_inline.h" |
84 | #include "unicode_constants.h" |
85 | |
86 | #define B_ON_NON_UTF8_LOCALE_IS_WRONG"Use of \\b{} or \\B{} for non-UTF-8 locale is wrong. Assuming a UTF-8 locale" \ |
87 | "Use of \\b{} or \\B{} for non-UTF-8 locale is wrong. Assuming a UTF-8 locale" |
88 | |
89 | static const char utf8_locale_required[] = |
90 | "Use of (?[ ]) for non-UTF-8 locale is wrong. Assuming a UTF-8 locale"; |
91 | |
92 | #ifdef DEBUGGING |
93 | /* At least one required character in the target string is expressible only in |
94 | * UTF-8. */ |
95 | static const char non_utf8_target_but_utf8_required[] |
96 | = "Can't match, because target string needs to be in UTF-8\n"; |
97 | #endif |
98 | |
99 | #define NON_UTF8_TARGET_BUT_UTF8_REQUIRED(target)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00)) ) Perl_re_printf( "%s", non_utf8_target_but_utf8_required);} while (0); goto target; } while (0) STMT_STARTdo { \ |
100 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_ "%s", non_utf8_target_but_utf8_required))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%s", non_utf8_target_but_utf8_required);} while (0);\ |
101 | goto target; \ |
102 | } STMT_ENDwhile (0) |
103 | |
104 | #define HAS_NONLATIN1_FOLD_CLOSURE(i)((! ((( (sizeof(i) == 1) || !(((U64)((i) | 0)) & ~0xFF))) ? (_Bool)1 : (_Bool)0)) || (PL_charclass[(U8) (i)] & (1U << (18)))) _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)))) |
105 | |
106 | #ifndef STATICstatic |
107 | #define STATICstatic static |
108 | #endif |
109 | |
110 | /* |
111 | * Forwards. |
112 | */ |
113 | |
114 | #define CHR_SVLEN(sv)(utf8_target ? 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_exec.c" , 114, __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_exec.c", 114, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 114, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))) (utf8_target ? 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_exec.c", 114, __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_exec.c", 114, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 114, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))) |
115 | |
116 | #define HOPc(pos,off)(char *)(reginfo->is_utf8_target ? S_reghop3((U8*)pos, off , (U8*)(off >= 0 ? reginfo->strend : reginfo->strbeg )) : (U8*)(pos + off)) \ |
117 | (char *)(reginfo->is_utf8_target \ |
118 | ? reghop3S_reghop3((U8*)pos, off, \ |
119 | (U8*)(off >= 0 ? reginfo->strend : reginfo->strbeg)) \ |
120 | : (U8*)(pos + off)) |
121 | |
122 | /* like HOPMAYBE3 but backwards. lim must be +ve. Returns NULL on overshoot */ |
123 | #define HOPBACK3(pos, off, lim)(reginfo->is_utf8_target ? S_reghopmaybe3((U8*)pos, (ssize_t )0-off, (U8*)(lim)) : (pos - off >= lim) ? (U8*)pos - off : ((void*)0)) \ |
124 | (reginfo->is_utf8_target \ |
125 | ? reghopmaybe3S_reghopmaybe3((U8*)pos, (SSize_tssize_t)0-off, (U8*)(lim)) \ |
126 | : (pos - off >= lim) \ |
127 | ? (U8*)pos - off \ |
128 | : NULL((void*)0)) |
129 | |
130 | #define HOPBACKc(pos, off)((char*)(reginfo->is_utf8_target ? S_reghopmaybe3((U8*)pos , (ssize_t)0-off, (U8*)(reginfo->strbeg)) : (pos - off >= reginfo->strbeg) ? (U8*)pos - off : ((void*)0))) ((char*)HOPBACK3(pos, off, reginfo->strbeg)(reginfo->is_utf8_target ? S_reghopmaybe3((U8*)pos, (ssize_t )0-off, (U8*)(reginfo->strbeg)) : (pos - off >= reginfo ->strbeg) ? (U8*)pos - off : ((void*)0))) |
131 | |
132 | #define HOP3(pos,off,lim)(reginfo->is_utf8_target ? S_reghop3((U8*)(pos), off, (U8* )(lim)) : (U8*)(pos + off)) (reginfo->is_utf8_target ? reghop3S_reghop3((U8*)(pos), off, (U8*)(lim)) : (U8*)(pos + off)) |
133 | #define HOP3c(pos,off,lim)((char*)(reginfo->is_utf8_target ? S_reghop3((U8*)(pos), off , (U8*)(lim)) : (U8*)(pos + off))) ((char*)HOP3(pos,off,lim)(reginfo->is_utf8_target ? S_reghop3((U8*)(pos), off, (U8* )(lim)) : (U8*)(pos + off))) |
134 | |
135 | /* lim must be +ve. Returns NULL on overshoot */ |
136 | #define HOPMAYBE3(pos,off,lim)(reginfo->is_utf8_target ? S_reghopmaybe3((U8*)pos, off, ( U8*)(lim)) : ((U8*)pos + off <= lim) ? (U8*)pos + off : (( void*)0)) \ |
137 | (reginfo->is_utf8_target \ |
138 | ? reghopmaybe3S_reghopmaybe3((U8*)pos, off, (U8*)(lim)) \ |
139 | : ((U8*)pos + off <= lim) \ |
140 | ? (U8*)pos + off \ |
141 | : NULL((void*)0)) |
142 | |
143 | /* like HOP3, but limits the result to <= lim even for the non-utf8 case. |
144 | * off must be >=0; args should be vars rather than expressions */ |
145 | #define HOP3lim(pos,off,lim)(reginfo->is_utf8_target ? S_reghop3((U8*)(pos), off, (U8* )(lim)) : (U8*)((pos + off) > lim ? lim : (pos + off))) (reginfo->is_utf8_target \ |
146 | ? reghop3S_reghop3((U8*)(pos), off, (U8*)(lim)) \ |
147 | : (U8*)((pos + off) > lim ? lim : (pos + off))) |
148 | #define HOP3clim(pos,off,lim)((char*)(reginfo->is_utf8_target ? S_reghop3((U8*)(pos), off , (U8*)(lim)) : (U8*)((pos + off) > lim ? lim : (pos + off )))) ((char*)HOP3lim(pos,off,lim)(reginfo->is_utf8_target ? S_reghop3((U8*)(pos), off, (U8* )(lim)) : (U8*)((pos + off) > lim ? lim : (pos + off)))) |
149 | |
150 | #define HOP4(pos,off,llim, rlim)(reginfo->is_utf8_target ? S_reghop4((U8*)(pos), off, (U8* )(llim), (U8*)(rlim)) : (U8*)(pos + off)) (reginfo->is_utf8_target \ |
151 | ? reghop4S_reghop4((U8*)(pos), off, (U8*)(llim), (U8*)(rlim)) \ |
152 | : (U8*)(pos + off)) |
153 | #define HOP4c(pos,off,llim, rlim)((char*)(reginfo->is_utf8_target ? S_reghop4((U8*)(pos), off , (U8*)(llim), (U8*)(rlim)) : (U8*)(pos + off))) ((char*)HOP4(pos,off,llim, rlim)(reginfo->is_utf8_target ? S_reghop4((U8*)(pos), off, (U8* )(llim), (U8*)(rlim)) : (U8*)(pos + off))) |
154 | |
155 | #define PLACEHOLDER /* Something for the preprocessor to grab onto */ |
156 | /* TODO: Combine JUMPABLE and HAS_TEXT to cache OP(rn) */ |
157 | |
158 | /* for use after a quantifier and before an EXACT-like node -- japhy */ |
159 | /* it would be nice to rework regcomp.sym to generate this stuff. sigh |
160 | * |
161 | * NOTE that *nothing* that affects backtracking should be in here, specifically |
162 | * VERBS must NOT be included. JUMPABLE is used to determine if we can ignore a |
163 | * node that is in between two EXACT like nodes when ascertaining what the required |
164 | * "follow" character is. This should probably be moved to regex compile time |
165 | * although it may be done at run time beause of the REF possibility - more |
166 | * investigation required. -- demerphq |
167 | */ |
168 | #define JUMPABLE(rn)( ((rn)->type) == 63 || (((rn)->type) == 64 && ! ( ( ( cur_eval ) ) && ( ( cur_eval )->u.eval.close_paren ) && ( ( ( cur_eval )->u.eval.close_paren ) == ( ( ((((struct regnode_1 *)rn)->arg1))) + 1 ) ) ) ) || ((rn)-> type) == 84 || ((rn)->type) == 81 || ((rn)->type) == 79 || ((rn)->type) == 57 || ((rn)->type) == 85 || ((rn)-> type) == 105 || (PL_regkind[((rn)->type)] == 58 && ((((struct regnode_2 *)rn)->arg1)) > 0) ) ( \ |
169 | OP(rn)((rn)->type) == OPEN63 || \ |
170 | (OP(rn)((rn)->type) == CLOSE64 && \ |
171 | !EVAL_CLOSE_PAREN_IS(cur_eval,ARG(rn))( ( ( cur_eval ) ) && ( ( cur_eval )->u.eval.close_paren ) && ( ( ( cur_eval )->u.eval.close_paren ) == ( ( ((((struct regnode_1 *)rn)->arg1))) + 1 ) ) ) ) || \ |
172 | OP(rn)((rn)->type) == EVAL84 || \ |
173 | OP(rn)((rn)->type) == SUSPEND81 || OP(rn)((rn)->type) == IFMATCH79 || \ |
174 | OP(rn)((rn)->type) == PLUS57 || OP(rn)((rn)->type) == MINMOD85 || \ |
175 | OP(rn)((rn)->type) == KEEPS105 || \ |
176 | (PL_regkind[OP(rn)((rn)->type)] == CURLY58 && ARG1(rn)((((struct regnode_2 *)rn)->arg1)) > 0) \ |
177 | ) |
178 | #define IS_EXACT(rn)(PL_regkind[((rn)->type)] == 40) (PL_regkind[OP(rn)((rn)->type)] == EXACT40) |
179 | |
180 | #define HAS_TEXT(rn)( (PL_regkind[((rn)->type)] == 40) || PL_regkind[((rn)-> type)] == 67 ) ( IS_EXACT(rn)(PL_regkind[((rn)->type)] == 40) || PL_regkind[OP(rn)((rn)->type)] == REF67 ) |
181 | |
182 | /* |
183 | Search for mandatory following text node; for lookahead, the text must |
184 | follow but for lookbehind (rn->flags != 0) we skip to the next step. |
185 | */ |
186 | #define FIND_NEXT_IMPT(rn)do { while (( ((rn)->type) == 63 || (((rn)->type) == 64 && !( ( ( cur_eval ) ) && ( ( cur_eval )-> u.eval.close_paren ) && ( ( ( cur_eval )->u.eval.close_paren ) == ( (((((struct regnode_1 *)rn)->arg1))) + 1 ) ) ) ) || ((rn)->type) == 84 || ((rn)->type) == 81 || ((rn)-> type) == 79 || ((rn)->type) == 57 || ((rn)->type) == 85 || ((rn)->type) == 105 || (PL_regkind[((rn)->type)] == 58 && ((((struct regnode_2 *)rn)->arg1)) > 0) ) ) { const U16 type = ((rn)->type); if (type == 81 || PL_regkind [type] == 58) rn = ((((rn) + 1)) + 1); else if (type == 57) rn = ((rn) + 1); else if (type == 79) rn = (rn->flags == 0) ? ((((rn) + 1)) + 1) : rn + ((((struct regnode_1 *)rn)->arg1 )); else rn += ((rn)->next_off); } } while (0) STMT_STARTdo { \ |
187 | while (JUMPABLE(rn)( ((rn)->type) == 63 || (((rn)->type) == 64 && ! ( ( ( cur_eval ) ) && ( ( cur_eval )->u.eval.close_paren ) && ( ( ( cur_eval )->u.eval.close_paren ) == ( ( ((((struct regnode_1 *)rn)->arg1))) + 1 ) ) ) ) || ((rn)-> type) == 84 || ((rn)->type) == 81 || ((rn)->type) == 79 || ((rn)->type) == 57 || ((rn)->type) == 85 || ((rn)-> type) == 105 || (PL_regkind[((rn)->type)] == 58 && ((((struct regnode_2 *)rn)->arg1)) > 0) )) { \ |
188 | const OPCODEU16 type = OP(rn)((rn)->type); \ |
189 | if (type == SUSPEND81 || PL_regkind[type] == CURLY58) \ |
190 | rn = NEXTOPER(NEXTOPER(rn))((((rn) + 1)) + 1); \ |
191 | else if (type == PLUS57) \ |
192 | rn = NEXTOPER(rn)((rn) + 1); \ |
193 | else if (type == IFMATCH79) \ |
194 | rn = (rn->flags == 0) ? NEXTOPER(NEXTOPER(rn))((((rn) + 1)) + 1) : rn + ARG(rn)((((struct regnode_1 *)rn)->arg1)); \ |
195 | else rn += NEXT_OFF(rn)((rn)->next_off); \ |
196 | } \ |
197 | } STMT_ENDwhile (0) |
198 | |
199 | #define SLAB_FIRST(s)(&(s)->states[0]) (&(s)->states[0]) |
200 | #define SLAB_LAST(s)(&(s)->states[((4096 - 3 * sizeof (void*)) / sizeof(regmatch_state ))-1]) (&(s)->states[PERL_REGMATCH_SLAB_SLOTS((4096 - 3 * sizeof (void*)) / sizeof(regmatch_state))-1]) |
201 | |
202 | static void S_setup_eval_state(pTHX_ regmatch_info *const reginfo); |
203 | static void S_cleanup_regmatch_info_aux(pTHX_ void *arg); |
204 | static regmatch_state * S_push_slab(pTHXvoid); |
205 | |
206 | #define REGCP_PAREN_ELEMS3 3 |
207 | #define REGCP_OTHER_ELEMS3 3 |
208 | #define REGCP_FRAME_ELEMS1 1 |
209 | /* REGCP_FRAME_ELEMS are not part of the REGCP_OTHER_ELEMS and |
210 | * are needed for the regexp context stack bookkeeping. */ |
211 | |
212 | STATICstatic CHECKPOINT |
213 | S_regcppush(pTHX_ const regexp *rex, I32 parenfloor, U32 maxopenparen _pDEPTH,U32 depth) |
214 | { |
215 | const int retval = PL_savestack_ix; |
216 | const int paren_elems_to_push = |
217 | (maxopenparen - parenfloor) * REGCP_PAREN_ELEMS3; |
218 | const UV total_elems = paren_elems_to_push + REGCP_OTHER_ELEMS3; |
219 | const UV elems_shifted = total_elems << SAVE_TIGHT_SHIFT6; |
220 | I32 p; |
221 | 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_exec.c", 221, __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_exec.c", 221, __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); |
222 | |
223 | PERL_ARGS_ASSERT_REGCPPUSH((rex) ? (void)0 : __assert2("re_exec.c", 223, __func__, "rex" )); |
224 | |
225 | if (paren_elems_to_push < 0) |
226 | Perl_croak(aTHX_ "panic: paren_elems_to_push, %i < 0, maxopenparen: %i parenfloor: %i REGCP_PAREN_ELEMS: %u", |
227 | (int)paren_elems_to_push, (int)maxopenparen, |
228 | (int)parenfloor, (unsigned)REGCP_PAREN_ELEMS3); |
229 | |
230 | if ((elems_shifted >> SAVE_TIGHT_SHIFT6) != total_elems) |
231 | Perl_croak(aTHX_ "panic: paren_elems_to_push offset %" UVuf"lu" |
232 | " out of range (%lu-%ld)", |
233 | total_elems, |
234 | (unsigned long)maxopenparen, |
235 | (long)parenfloor); |
236 | |
237 | SSGROW(total_elems + REGCP_FRAME_ELEMS)if (__builtin_expect(((PL_savestack_ix + (I32)(total_elems + 1 ) > PL_savestack_max) ? (_Bool)1 : (_Bool)0),(0))) Perl_savestack_grow_cnt ( total_elems + 1); |
238 | |
239 | DEBUG_BUFFERS_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) if ((int)maxopenparen > (int)parenfloor) Perl_re_exec_indentf ( "rex=0x%" "lx" " offs=0x%" "lx" ": saving capture indices:\n" , depth, (UV)(rex), (UV)(rex->offs) );;} while (0) |
240 | if ((int)maxopenparen > (int)parenfloor)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) if ((int)maxopenparen > (int)parenfloor) Perl_re_exec_indentf ( "rex=0x%" "lx" " offs=0x%" "lx" ": saving capture indices:\n" , depth, (UV)(rex), (UV)(rex->offs) );;} while (0) |
241 | Perl_re_exec_indentf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) if ((int)maxopenparen > (int)parenfloor) Perl_re_exec_indentf ( "rex=0x%" "lx" " offs=0x%" "lx" ": saving capture indices:\n" , depth, (UV)(rex), (UV)(rex->offs) );;} while (0) |
242 | "rex=0x%" UVxf " offs=0x%" UVxf ": saving capture indices:\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) if ((int)maxopenparen > (int)parenfloor) Perl_re_exec_indentf ( "rex=0x%" "lx" " offs=0x%" "lx" ": saving capture indices:\n" , depth, (UV)(rex), (UV)(rex->offs) );;} while (0) |
243 | depth,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) if ((int)maxopenparen > (int)parenfloor) Perl_re_exec_indentf ( "rex=0x%" "lx" " offs=0x%" "lx" ": saving capture indices:\n" , depth, (UV)(rex), (UV)(rex->offs) );;} while (0) |
244 | PTR2UV(rex),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) if ((int)maxopenparen > (int)parenfloor) Perl_re_exec_indentf ( "rex=0x%" "lx" " offs=0x%" "lx" ": saving capture indices:\n" , depth, (UV)(rex), (UV)(rex->offs) );;} while (0) |
245 | PTR2UV(rex->offs)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) if ((int)maxopenparen > (int)parenfloor) Perl_re_exec_indentf ( "rex=0x%" "lx" " offs=0x%" "lx" ": saving capture indices:\n" , depth, (UV)(rex), (UV)(rex->offs) );;} while (0) |
246 | );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) if ((int)maxopenparen > (int)parenfloor) Perl_re_exec_indentf ( "rex=0x%" "lx" " offs=0x%" "lx" ": saving capture indices:\n" , depth, (UV)(rex), (UV)(rex->offs) );;} while (0) |
247 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) if ((int)maxopenparen > (int)parenfloor) Perl_re_exec_indentf ( "rex=0x%" "lx" " offs=0x%" "lx" ": saving capture indices:\n" , depth, (UV)(rex), (UV)(rex->offs) );;} while (0); |
248 | for (p = parenfloor+1; p <= (I32)maxopenparen; p++) { |
249 | /* REGCP_PARENS_ELEMS are pushed per pairs of parentheses. */ |
250 | SSPUSHIV(rex->offs[p].end)(PL_savestack[PL_savestack_ix++].any_iv = (IV)(rex->offs[p ].end)); |
251 | SSPUSHIV(rex->offs[p].start)(PL_savestack[PL_savestack_ix++].any_iv = (IV)(rex->offs[p ].start)); |
252 | SSPUSHINT(rex->offs[p].start_tmp)(PL_savestack[PL_savestack_ix++].any_i32 = (I32)(rex->offs [p].start_tmp)); |
253 | DEBUG_BUFFERS_r(Perl_re_exec_indentf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( " \\%" "lu" ": %" "ld" "(%" "ld" ")..%" "ld" "\n", depth , (UV)p, (IV)rex->offs[p].start, (IV)rex->offs[p].start_tmp , (IV)rex->offs[p].end );} while (0) |
254 | " \\%" UVuf ": %" IVdf "(%" IVdf ")..%" IVdf "\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( " \\%" "lu" ": %" "ld" "(%" "ld" ")..%" "ld" "\n", depth , (UV)p, (IV)rex->offs[p].start, (IV)rex->offs[p].start_tmp , (IV)rex->offs[p].end );} while (0) |
255 | depth,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( " \\%" "lu" ": %" "ld" "(%" "ld" ")..%" "ld" "\n", depth , (UV)p, (IV)rex->offs[p].start, (IV)rex->offs[p].start_tmp , (IV)rex->offs[p].end );} while (0) |
256 | (UV)p,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( " \\%" "lu" ": %" "ld" "(%" "ld" ")..%" "ld" "\n", depth , (UV)p, (IV)rex->offs[p].start, (IV)rex->offs[p].start_tmp , (IV)rex->offs[p].end );} while (0) |
257 | (IV)rex->offs[p].start,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( " \\%" "lu" ": %" "ld" "(%" "ld" ")..%" "ld" "\n", depth , (UV)p, (IV)rex->offs[p].start, (IV)rex->offs[p].start_tmp , (IV)rex->offs[p].end );} while (0) |
258 | (IV)rex->offs[p].start_tmp,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( " \\%" "lu" ": %" "ld" "(%" "ld" ")..%" "ld" "\n", depth , (UV)p, (IV)rex->offs[p].start, (IV)rex->offs[p].start_tmp , (IV)rex->offs[p].end );} while (0) |
259 | (IV)rex->offs[p].enddo {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( " \\%" "lu" ": %" "ld" "(%" "ld" ")..%" "ld" "\n", depth , (UV)p, (IV)rex->offs[p].start, (IV)rex->offs[p].start_tmp , (IV)rex->offs[p].end );} while (0) |
260 | ))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( " \\%" "lu" ": %" "ld" "(%" "ld" ")..%" "ld" "\n", depth , (UV)p, (IV)rex->offs[p].start, (IV)rex->offs[p].start_tmp , (IV)rex->offs[p].end );} while (0); |
261 | } |
262 | /* REGCP_OTHER_ELEMS are pushed in any case, parentheses or no. */ |
263 | SSPUSHINT(maxopenparen)(PL_savestack[PL_savestack_ix++].any_i32 = (I32)(maxopenparen )); |
264 | SSPUSHINT(rex->lastparen)(PL_savestack[PL_savestack_ix++].any_i32 = (I32)(rex->lastparen )); |
265 | SSPUSHINT(rex->lastcloseparen)(PL_savestack[PL_savestack_ix++].any_i32 = (I32)(rex->lastcloseparen )); |
266 | SSPUSHUV(SAVEt_REGCONTEXT | elems_shifted)(PL_savestack[PL_savestack_ix++].any_uv = (UV)(3 | elems_shifted )); /* Magic cookie. */ |
267 | |
268 | return retval; |
269 | } |
270 | |
271 | /* These are needed since we do not localize EVAL nodes: */ |
272 | #define REGCP_SET(cp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) Perl_re_exec_indentf ( "Setting an EVAL scope, savestack=%" "ld" ",\n", depth, (IV )PL_savestack_ix );} while (0); cp = PL_savestack_ix \ |
273 | DEBUG_STATE_r( \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) Perl_re_exec_indentf ( "Setting an EVAL scope, savestack=%" "ld" ",\n", depth, (IV )PL_savestack_ix );} while (0) |
274 | Perl_re_exec_indentf( aTHX_ \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) Perl_re_exec_indentf ( "Setting an EVAL scope, savestack=%" "ld" ",\n", depth, (IV )PL_savestack_ix );} while (0) |
275 | "Setting an EVAL scope, savestack=%" IVdf ",\n", \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) Perl_re_exec_indentf ( "Setting an EVAL scope, savestack=%" "ld" ",\n", depth, (IV )PL_savestack_ix );} while (0) |
276 | depth, (IV)PL_savestack_ix \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) Perl_re_exec_indentf ( "Setting an EVAL scope, savestack=%" "ld" ",\n", depth, (IV )PL_savestack_ix );} while (0) |
277 | ) \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) Perl_re_exec_indentf ( "Setting an EVAL scope, savestack=%" "ld" ",\n", depth, (IV )PL_savestack_ix );} while (0) |
278 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) Perl_re_exec_indentf ( "Setting an EVAL scope, savestack=%" "ld" ",\n", depth, (IV )PL_savestack_ix );} while (0); \ |
279 | cp = PL_savestack_ix |
280 | |
281 | #define REGCP_UNWIND(cp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) if (cp != PL_savestack_ix) Perl_re_exec_indentf( "Clearing an EVAL scope, savestack=%" "ld" "..%" "ld" "\n", depth, (IV)(cp), (IV)PL_savestack_ix ) ;} while (0); do { if (PL_savestack_ix > cp) Perl_leave_scope ( cp); } while (0) \ |
282 | DEBUG_STATE_r( \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) if (cp != PL_savestack_ix) Perl_re_exec_indentf( "Clearing an EVAL scope, savestack=%" "ld" "..%" "ld" "\n", depth, (IV)(cp), (IV)PL_savestack_ix ) ;} while (0) |
283 | if (cp != PL_savestack_ix) \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) if (cp != PL_savestack_ix) Perl_re_exec_indentf( "Clearing an EVAL scope, savestack=%" "ld" "..%" "ld" "\n", depth, (IV)(cp), (IV)PL_savestack_ix ) ;} while (0) |
284 | Perl_re_exec_indentf( aTHX_ \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) if (cp != PL_savestack_ix) Perl_re_exec_indentf( "Clearing an EVAL scope, savestack=%" "ld" "..%" "ld" "\n", depth, (IV)(cp), (IV)PL_savestack_ix ) ;} while (0) |
285 | "Clearing an EVAL scope, savestack=%" \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) if (cp != PL_savestack_ix) Perl_re_exec_indentf( "Clearing an EVAL scope, savestack=%" "ld" "..%" "ld" "\n", depth, (IV)(cp), (IV)PL_savestack_ix ) ;} while (0) |
286 | IVdf "..%" IVdf "\n", \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) if (cp != PL_savestack_ix) Perl_re_exec_indentf( "Clearing an EVAL scope, savestack=%" "ld" "..%" "ld" "\n", depth, (IV)(cp), (IV)PL_savestack_ix ) ;} while (0) |
287 | depth, (IV)(cp), (IV)PL_savestack_ix \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) if (cp != PL_savestack_ix) Perl_re_exec_indentf( "Clearing an EVAL scope, savestack=%" "ld" "..%" "ld" "\n", depth, (IV)(cp), (IV)PL_savestack_ix ) ;} while (0) |
288 | ) \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) if (cp != PL_savestack_ix) Perl_re_exec_indentf( "Clearing an EVAL scope, savestack=%" "ld" "..%" "ld" "\n", depth, (IV)(cp), (IV)PL_savestack_ix ) ;} while (0) |
289 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) if (cp != PL_savestack_ix) Perl_re_exec_indentf( "Clearing an EVAL scope, savestack=%" "ld" "..%" "ld" "\n", depth, (IV)(cp), (IV)PL_savestack_ix ) ;} while (0); \ |
290 | regcpblow(cp)do { if (PL_savestack_ix > cp) Perl_leave_scope( cp); } while (0) |
291 | |
292 | /* set the start and end positions of capture ix */ |
293 | #define CLOSE_CAPTURE(ix, s, e)rex->offs[ix].start = s; rex->offs[ix].end = e; if (ix > rex->lastparen) rex->lastparen = ix; rex->lastcloseparen = ix; do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000 ))) Perl_re_exec_indentf( "CLOSE: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" "..%" "ld" " max: %" "lu" "\n", depth , (UV)(rex), (UV)(rex->offs), (UV)ix, (IV)rex->offs[ix] .start, (IV)rex->offs[ix].end, (UV)rex->lastparen );} while (0) \ |
294 | rex->offs[ix].start = s; \ |
295 | rex->offs[ix].end = e; \ |
296 | if (ix > rex->lastparen) \ |
297 | rex->lastparen = ix; \ |
298 | rex->lastcloseparen = ix; \ |
299 | DEBUG_BUFFERS_r(Perl_re_exec_indentf( aTHX_ \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "CLOSE: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" "..%" "ld" " max: %" "lu" "\n", depth, (UV)(rex), (UV)( rex->offs), (UV)ix, (IV)rex->offs[ix].start, (IV)rex-> offs[ix].end, (UV)rex->lastparen );} while (0) |
300 | "CLOSE: rex=0x%" UVxf " offs=0x%" UVxf ": \\%" UVuf ": set %" IVdf "..%" IVdf " max: %" UVuf "\n", \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "CLOSE: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" "..%" "ld" " max: %" "lu" "\n", depth, (UV)(rex), (UV)( rex->offs), (UV)ix, (IV)rex->offs[ix].start, (IV)rex-> offs[ix].end, (UV)rex->lastparen );} while (0) |
301 | depth, \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "CLOSE: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" "..%" "ld" " max: %" "lu" "\n", depth, (UV)(rex), (UV)( rex->offs), (UV)ix, (IV)rex->offs[ix].start, (IV)rex-> offs[ix].end, (UV)rex->lastparen );} while (0) |
302 | PTR2UV(rex), \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "CLOSE: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" "..%" "ld" " max: %" "lu" "\n", depth, (UV)(rex), (UV)( rex->offs), (UV)ix, (IV)rex->offs[ix].start, (IV)rex-> offs[ix].end, (UV)rex->lastparen );} while (0) |
303 | PTR2UV(rex->offs), \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "CLOSE: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" "..%" "ld" " max: %" "lu" "\n", depth, (UV)(rex), (UV)( rex->offs), (UV)ix, (IV)rex->offs[ix].start, (IV)rex-> offs[ix].end, (UV)rex->lastparen );} while (0) |
304 | (UV)ix, \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "CLOSE: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" "..%" "ld" " max: %" "lu" "\n", depth, (UV)(rex), (UV)( rex->offs), (UV)ix, (IV)rex->offs[ix].start, (IV)rex-> offs[ix].end, (UV)rex->lastparen );} while (0) |
305 | (IV)rex->offs[ix].start, \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "CLOSE: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" "..%" "ld" " max: %" "lu" "\n", depth, (UV)(rex), (UV)( rex->offs), (UV)ix, (IV)rex->offs[ix].start, (IV)rex-> offs[ix].end, (UV)rex->lastparen );} while (0) |
306 | (IV)rex->offs[ix].end, \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "CLOSE: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" "..%" "ld" " max: %" "lu" "\n", depth, (UV)(rex), (UV)( rex->offs), (UV)ix, (IV)rex->offs[ix].start, (IV)rex-> offs[ix].end, (UV)rex->lastparen );} while (0) |
307 | (UV)rex->lastparen \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "CLOSE: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" "..%" "ld" " max: %" "lu" "\n", depth, (UV)(rex), (UV)( rex->offs), (UV)ix, (IV)rex->offs[ix].start, (IV)rex-> offs[ix].end, (UV)rex->lastparen );} while (0) |
308 | ))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "CLOSE: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" "..%" "ld" " max: %" "lu" "\n", depth, (UV)(rex), (UV)( rex->offs), (UV)ix, (IV)rex->offs[ix].start, (IV)rex-> offs[ix].end, (UV)rex->lastparen );} while (0) |
309 | |
310 | #define UNWIND_PAREN(lp, lcp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "UNWIND_PAREN: rex=0x%" "lx" " offs=0x%" "lx" ": invalidate (%" "lu" "..%" "lu" "] set lcp: %" "lu" "\n", depth, (UV)(rex), ( UV)(rex->offs), (UV)(lp), (UV)(rex->lastparen), (UV)(lcp ) );} while (0); for (n = rex->lastparen; n > lp; n--) rex ->offs[n].end = -1; rex->lastparen = n; rex->lastcloseparen = lcp; \ |
311 | DEBUG_BUFFERS_r(Perl_re_exec_indentf( aTHX_ \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "UNWIND_PAREN: rex=0x%" "lx" " offs=0x%" "lx" ": invalidate (%" "lu" "..%" "lu" "] set lcp: %" "lu" "\n", depth, (UV)(rex), ( UV)(rex->offs), (UV)(lp), (UV)(rex->lastparen), (UV)(lcp ) );} while (0) |
312 | "UNWIND_PAREN: rex=0x%" UVxf " offs=0x%" UVxf ": invalidate (%" UVuf "..%" UVuf "] set lcp: %" UVuf "\n", \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "UNWIND_PAREN: rex=0x%" "lx" " offs=0x%" "lx" ": invalidate (%" "lu" "..%" "lu" "] set lcp: %" "lu" "\n", depth, (UV)(rex), ( UV)(rex->offs), (UV)(lp), (UV)(rex->lastparen), (UV)(lcp ) );} while (0) |
313 | depth, \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "UNWIND_PAREN: rex=0x%" "lx" " offs=0x%" "lx" ": invalidate (%" "lu" "..%" "lu" "] set lcp: %" "lu" "\n", depth, (UV)(rex), ( UV)(rex->offs), (UV)(lp), (UV)(rex->lastparen), (UV)(lcp ) );} while (0) |
314 | PTR2UV(rex), \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "UNWIND_PAREN: rex=0x%" "lx" " offs=0x%" "lx" ": invalidate (%" "lu" "..%" "lu" "] set lcp: %" "lu" "\n", depth, (UV)(rex), ( UV)(rex->offs), (UV)(lp), (UV)(rex->lastparen), (UV)(lcp ) );} while (0) |
315 | PTR2UV(rex->offs), \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "UNWIND_PAREN: rex=0x%" "lx" " offs=0x%" "lx" ": invalidate (%" "lu" "..%" "lu" "] set lcp: %" "lu" "\n", depth, (UV)(rex), ( UV)(rex->offs), (UV)(lp), (UV)(rex->lastparen), (UV)(lcp ) );} while (0) |
316 | (UV)(lp), \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "UNWIND_PAREN: rex=0x%" "lx" " offs=0x%" "lx" ": invalidate (%" "lu" "..%" "lu" "] set lcp: %" "lu" "\n", depth, (UV)(rex), ( UV)(rex->offs), (UV)(lp), (UV)(rex->lastparen), (UV)(lcp ) );} while (0) |
317 | (UV)(rex->lastparen), \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "UNWIND_PAREN: rex=0x%" "lx" " offs=0x%" "lx" ": invalidate (%" "lu" "..%" "lu" "] set lcp: %" "lu" "\n", depth, (UV)(rex), ( UV)(rex->offs), (UV)(lp), (UV)(rex->lastparen), (UV)(lcp ) );} while (0) |
318 | (UV)(lcp) \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "UNWIND_PAREN: rex=0x%" "lx" " offs=0x%" "lx" ": invalidate (%" "lu" "..%" "lu" "] set lcp: %" "lu" "\n", depth, (UV)(rex), ( UV)(rex->offs), (UV)(lp), (UV)(rex->lastparen), (UV)(lcp ) );} while (0) |
319 | ))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "UNWIND_PAREN: rex=0x%" "lx" " offs=0x%" "lx" ": invalidate (%" "lu" "..%" "lu" "] set lcp: %" "lu" "\n", depth, (UV)(rex), ( UV)(rex->offs), (UV)(lp), (UV)(rex->lastparen), (UV)(lcp ) );} while (0); \ |
320 | for (n = rex->lastparen; n > lp; n--) \ |
321 | rex->offs[n].end = -1; \ |
322 | rex->lastparen = n; \ |
323 | rex->lastcloseparen = lcp; |
324 | |
325 | |
326 | STATICstatic void |
327 | S_regcppop(pTHX_ regexp *rex, U32 *maxopenparen_p _pDEPTH,U32 depth) |
328 | { |
329 | UV i; |
330 | U32 paren; |
331 | 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_exec.c", 331, __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_exec.c", 331, __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); |
332 | |
333 | PERL_ARGS_ASSERT_REGCPPOP((rex) ? (void)0 : __assert2("re_exec.c", 333, __func__, "rex" )); ((maxopenparen_p) ? (void)0 : __assert2("re_exec.c", 333, __func__, "maxopenparen_p")); |
334 | |
335 | /* Pop REGCP_OTHER_ELEMS before the parentheses loop starts. */ |
336 | i = SSPOPUV(PL_savestack[--PL_savestack_ix].any_uv); |
337 | assert((i & SAVE_MASK) == SAVEt_REGCONTEXT)(((i & 0x3F) == 3) ? (void)0 : __assert2("re_exec.c", 337 , __func__, "(i & SAVE_MASK) == SAVEt_REGCONTEXT")); /* Check that the magic cookie is there. */ |
338 | i >>= SAVE_TIGHT_SHIFT6; /* Parentheses elements to pop. */ |
339 | rex->lastcloseparen = SSPOPINT(PL_savestack[--PL_savestack_ix].any_i32); |
340 | rex->lastparen = SSPOPINT(PL_savestack[--PL_savestack_ix].any_i32); |
341 | *maxopenparen_p = SSPOPINT(PL_savestack[--PL_savestack_ix].any_i32); |
342 | |
343 | i -= REGCP_OTHER_ELEMS3; |
344 | /* Now restore the parentheses context. */ |
345 | DEBUG_BUFFERS_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) if (i || rex->lastparen + 1 <= rex->nparens) Perl_re_exec_indentf ( "rex=0x%" "lx" " offs=0x%" "lx" ": restoring capture indices to:\n" , depth, (UV)(rex), (UV)(rex->offs) );;} while (0) |
346 | if (i || rex->lastparen + 1 <= rex->nparens)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) if (i || rex->lastparen + 1 <= rex->nparens) Perl_re_exec_indentf ( "rex=0x%" "lx" " offs=0x%" "lx" ": restoring capture indices to:\n" , depth, (UV)(rex), (UV)(rex->offs) );;} while (0) |
347 | Perl_re_exec_indentf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) if (i || rex->lastparen + 1 <= rex->nparens) Perl_re_exec_indentf ( "rex=0x%" "lx" " offs=0x%" "lx" ": restoring capture indices to:\n" , depth, (UV)(rex), (UV)(rex->offs) );;} while (0) |
348 | "rex=0x%" UVxf " offs=0x%" UVxf ": restoring capture indices to:\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) if (i || rex->lastparen + 1 <= rex->nparens) Perl_re_exec_indentf ( "rex=0x%" "lx" " offs=0x%" "lx" ": restoring capture indices to:\n" , depth, (UV)(rex), (UV)(rex->offs) );;} while (0) |
349 | depth,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) if (i || rex->lastparen + 1 <= rex->nparens) Perl_re_exec_indentf ( "rex=0x%" "lx" " offs=0x%" "lx" ": restoring capture indices to:\n" , depth, (UV)(rex), (UV)(rex->offs) );;} while (0) |
350 | PTR2UV(rex),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) if (i || rex->lastparen + 1 <= rex->nparens) Perl_re_exec_indentf ( "rex=0x%" "lx" " offs=0x%" "lx" ": restoring capture indices to:\n" , depth, (UV)(rex), (UV)(rex->offs) );;} while (0) |
351 | PTR2UV(rex->offs)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) if (i || rex->lastparen + 1 <= rex->nparens) Perl_re_exec_indentf ( "rex=0x%" "lx" " offs=0x%" "lx" ": restoring capture indices to:\n" , depth, (UV)(rex), (UV)(rex->offs) );;} while (0) |
352 | );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) if (i || rex->lastparen + 1 <= rex->nparens) Perl_re_exec_indentf ( "rex=0x%" "lx" " offs=0x%" "lx" ": restoring capture indices to:\n" , depth, (UV)(rex), (UV)(rex->offs) );;} while (0) |
353 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) if (i || rex->lastparen + 1 <= rex->nparens) Perl_re_exec_indentf ( "rex=0x%" "lx" " offs=0x%" "lx" ": restoring capture indices to:\n" , depth, (UV)(rex), (UV)(rex->offs) );;} while (0); |
354 | paren = *maxopenparen_p; |
355 | for ( ; i > 0; i -= REGCP_PAREN_ELEMS3) { |
356 | SSize_tssize_t tmps; |
357 | rex->offs[paren].start_tmp = SSPOPINT(PL_savestack[--PL_savestack_ix].any_i32); |
358 | rex->offs[paren].start = SSPOPIV(PL_savestack[--PL_savestack_ix].any_iv); |
359 | tmps = SSPOPIV(PL_savestack[--PL_savestack_ix].any_iv); |
360 | if (paren <= rex->lastparen) |
361 | rex->offs[paren].end = tmps; |
362 | DEBUG_BUFFERS_r( Perl_re_exec_indentf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( " \\%" "lu" ": %" "ld" "(%" "ld" ")..%" "ld" "%s\n", depth , (UV)paren, (IV)rex->offs[paren].start, (IV)rex->offs[ paren].start_tmp, (IV)rex->offs[paren].end, (paren > rex ->lastparen ? "(skipped)" : ""));;} while (0) |
363 | " \\%" UVuf ": %" IVdf "(%" IVdf ")..%" IVdf "%s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( " \\%" "lu" ": %" "ld" "(%" "ld" ")..%" "ld" "%s\n", depth , (UV)paren, (IV)rex->offs[paren].start, (IV)rex->offs[ paren].start_tmp, (IV)rex->offs[paren].end, (paren > rex ->lastparen ? "(skipped)" : ""));;} while (0) |
364 | depth,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( " \\%" "lu" ": %" "ld" "(%" "ld" ")..%" "ld" "%s\n", depth , (UV)paren, (IV)rex->offs[paren].start, (IV)rex->offs[ paren].start_tmp, (IV)rex->offs[paren].end, (paren > rex ->lastparen ? "(skipped)" : ""));;} while (0) |
365 | (UV)paren,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( " \\%" "lu" ": %" "ld" "(%" "ld" ")..%" "ld" "%s\n", depth , (UV)paren, (IV)rex->offs[paren].start, (IV)rex->offs[ paren].start_tmp, (IV)rex->offs[paren].end, (paren > rex ->lastparen ? "(skipped)" : ""));;} while (0) |
366 | (IV)rex->offs[paren].start,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( " \\%" "lu" ": %" "ld" "(%" "ld" ")..%" "ld" "%s\n", depth , (UV)paren, (IV)rex->offs[paren].start, (IV)rex->offs[ paren].start_tmp, (IV)rex->offs[paren].end, (paren > rex ->lastparen ? "(skipped)" : ""));;} while (0) |
367 | (IV)rex->offs[paren].start_tmp,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( " \\%" "lu" ": %" "ld" "(%" "ld" ")..%" "ld" "%s\n", depth , (UV)paren, (IV)rex->offs[paren].start, (IV)rex->offs[ paren].start_tmp, (IV)rex->offs[paren].end, (paren > rex ->lastparen ? "(skipped)" : ""));;} while (0) |
368 | (IV)rex->offs[paren].end,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( " \\%" "lu" ": %" "ld" "(%" "ld" ")..%" "ld" "%s\n", depth , (UV)paren, (IV)rex->offs[paren].start, (IV)rex->offs[ paren].start_tmp, (IV)rex->offs[paren].end, (paren > rex ->lastparen ? "(skipped)" : ""));;} while (0) |
369 | (paren > rex->lastparen ? "(skipped)" : ""));do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( " \\%" "lu" ": %" "ld" "(%" "ld" ")..%" "ld" "%s\n", depth , (UV)paren, (IV)rex->offs[paren].start, (IV)rex->offs[ paren].start_tmp, (IV)rex->offs[paren].end, (paren > rex ->lastparen ? "(skipped)" : ""));;} while (0) |
370 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( " \\%" "lu" ": %" "ld" "(%" "ld" ")..%" "ld" "%s\n", depth , (UV)paren, (IV)rex->offs[paren].start, (IV)rex->offs[ paren].start_tmp, (IV)rex->offs[paren].end, (paren > rex ->lastparen ? "(skipped)" : ""));;} while (0); |
371 | paren--; |
372 | } |
373 | #if 1 |
374 | /* It would seem that the similar code in regtry() |
375 | * already takes care of this, and in fact it is in |
376 | * a better location to since this code can #if 0-ed out |
377 | * but the code in regtry() is needed or otherwise tests |
378 | * requiring null fields (pat.t#187 and split.t#{13,14} |
379 | * (as of patchlevel 7877) will fail. Then again, |
380 | * this code seems to be necessary or otherwise |
381 | * this erroneously leaves $1 defined: "1" =~ /^(?:(\d)x)?\d$/ |
382 | * --jhi updated by dapm */ |
383 | for (i = rex->lastparen + 1; i <= rex->nparens; i++) { |
384 | if (i > *maxopenparen_p) |
385 | rex->offs[i].start = -1; |
386 | rex->offs[i].end = -1; |
387 | DEBUG_BUFFERS_r( Perl_re_exec_indentf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( " \\%" "lu" ": %s ..-1 undeffing\n", depth, (UV)i, (i > *maxopenparen_p) ? "-1" : " " );} while (0) |
388 | " \\%" UVuf ": %s ..-1 undeffing\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( " \\%" "lu" ": %s ..-1 undeffing\n", depth, (UV)i, (i > *maxopenparen_p) ? "-1" : " " );} while (0) |
389 | depth,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( " \\%" "lu" ": %s ..-1 undeffing\n", depth, (UV)i, (i > *maxopenparen_p) ? "-1" : " " );} while (0) |
390 | (UV)i,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( " \\%" "lu" ": %s ..-1 undeffing\n", depth, (UV)i, (i > *maxopenparen_p) ? "-1" : " " );} while (0) |
391 | (i > *maxopenparen_p) ? "-1" : " "do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( " \\%" "lu" ": %s ..-1 undeffing\n", depth, (UV)i, (i > *maxopenparen_p) ? "-1" : " " );} while (0) |
392 | ))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( " \\%" "lu" ": %s ..-1 undeffing\n", depth, (UV)i, (i > *maxopenparen_p) ? "-1" : " " );} while (0); |
393 | } |
394 | #endif |
395 | } |
396 | |
397 | /* restore the parens and associated vars at savestack position ix, |
398 | * but without popping the stack */ |
399 | |
400 | STATICstatic void |
401 | S_regcp_restore(pTHX_ regexp *rex, I32 ix, U32 *maxopenparen_p _pDEPTH,U32 depth) |
402 | { |
403 | I32 tmpix = PL_savestack_ix; |
404 | PERL_ARGS_ASSERT_REGCP_RESTORE((rex) ? (void)0 : __assert2("re_exec.c", 404, __func__, "rex" )); ((maxopenparen_p) ? (void)0 : __assert2("re_exec.c", 404, __func__, "maxopenparen_p")); |
405 | |
406 | PL_savestack_ix = ix; |
407 | regcppop(rex, maxopenparen_p)S_regcppop( rex,maxopenparen_p ,depth); |
408 | PL_savestack_ix = tmpix; |
409 | } |
410 | |
411 | #define regcpblow(cp)do { if (PL_savestack_ix > cp) Perl_leave_scope( cp); } while (0) LEAVE_SCOPE(cp)do { if (PL_savestack_ix > cp) Perl_leave_scope( cp); } while (0) /* Ignores regcppush()ed data. */ |
412 | |
413 | #ifndef PERL_IN_XSUB_RE |
414 | |
415 | bool_Bool |
416 | Perl_isFOO_lc(pTHX_ const U8 classnum, const U8 character) |
417 | { |
418 | /* Returns a boolean as to whether or not 'character' is a member of the |
419 | * Posix character class given by 'classnum' that should be equivalent to a |
420 | * value in the typedef '_char_class_number'. |
421 | * |
422 | * Ideally this could be replaced by a just an array of function pointers |
423 | * to the C library functions that implement the macros this calls. |
424 | * However, to compile, the precise function signatures are required, and |
425 | * these may vary from platform to platform. To avoid having to figure |
426 | * out what those all are on each platform, I (khw) am using this method, |
427 | * which adds an extra layer of function call overhead (unless the C |
428 | * optimizer strips it away). But we don't particularly care about |
429 | * performance with locales anyway. */ |
430 | |
431 | switch ((_char_class_number) classnum) { |
432 | case _CC_ENUM_ALPHANUMERIC: return isALPHANUMERIC_LC(character)(! ( (sizeof(character) == 1) || !(((U64)((character) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) ( character)] & (1U << (7))) ? (_Bool)1 : (_Bool)0) : ((isalnum( (U8) (character))) ? (_Bool)1 : (_Bool)0)); |
433 | case _CC_ENUM_ALPHA: return isALPHA_LC(character)(! ( (sizeof(character) == 1) || !(((U64)((character) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) ( character)] & (1U << (2))) ? (_Bool)1 : (_Bool)0) : ((isalpha( (U8) (character))) ? (_Bool)1 : (_Bool)0)); |
434 | case _CC_ENUM_ASCII: return isASCII_LC(character)(( (sizeof(character) == 1) || !(((U64)((character) | 0)) & ~0xFF)) && isascii( (U8) (character))); |
435 | case _CC_ENUM_BLANK: return isBLANK_LC(character)(! ( (sizeof(character) == 1) || !(((U64)((character) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) ( character)] & (1U << (11))) ? (_Bool)1 : (_Bool)0) : ((isblank( (U8) (character))) ? (_Bool)1 : (_Bool)0)); |
436 | case _CC_ENUM_CASED: return isLOWER_LC(character)(! ( (sizeof(character) == 1) || !(((U64)((character) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) ( character)] & (1U << (3))) ? (_Bool)1 : (_Bool)0) : ((islower( (U8) (character))) ? (_Bool)1 : (_Bool)0)) |
437 | || isUPPER_LC(character)(! ( (sizeof(character) == 1) || !(((U64)((character) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) ( character)] & (1U << (4))) ? (_Bool)1 : (_Bool)0) : ((isupper( (U8) (character))) ? (_Bool)1 : (_Bool)0)); |
438 | case _CC_ENUM_CNTRL: return isCNTRL_LC(character)(! ( (sizeof(character) == 1) || !(((U64)((character) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) ( character)] & (1U << (13))) ? (_Bool)1 : (_Bool)0) : ((iscntrl( (U8) (character))) ? (_Bool)1 : (_Bool)0)); |
439 | case _CC_ENUM_DIGIT: return isDIGIT_LC(character)(! ( (sizeof(character) == 1) || !(((U64)((character) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) ( character)] & (1U << (1))) ? (_Bool)1 : (_Bool)0) : ((isdigit( (U8) (character))) ? (_Bool)1 : (_Bool)0)); |
440 | case _CC_ENUM_GRAPH: return isGRAPH_LC(character)(! ( (sizeof(character) == 1) || !(((U64)((character) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) ( character)] & (1U << (8))) ? (_Bool)1 : (_Bool)0) : ((isgraph( (U8) (character))) ? (_Bool)1 : (_Bool)0)); |
441 | case _CC_ENUM_LOWER: return isLOWER_LC(character)(! ( (sizeof(character) == 1) || !(((U64)((character) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) ( character)] & (1U << (3))) ? (_Bool)1 : (_Bool)0) : ((islower( (U8) (character))) ? (_Bool)1 : (_Bool)0)); |
442 | case _CC_ENUM_PRINT: return isPRINT_LC(character)(! ( (sizeof(character) == 1) || !(((U64)((character) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) ( character)] & (1U << (6))) ? (_Bool)1 : (_Bool)0) : ((isprint( (U8) (character))) ? (_Bool)1 : (_Bool)0)); |
443 | case _CC_ENUM_PUNCT: return isPUNCT_LC(character)(! ( (sizeof(character) == 1) || !(((U64)((character) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) ( character)] & (1U << (5))) ? (_Bool)1 : (_Bool)0) : ((ispunct( (U8) (character))) ? (_Bool)1 : (_Bool)0)); |
444 | case _CC_ENUM_SPACE: return isSPACE_LC(character)(! ( (sizeof(character) == 1) || !(((U64)((character) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) ( character)] & (1U << (10))) ? (_Bool)1 : (_Bool)0) : ((isspace( (U8) (character))) ? (_Bool)1 : (_Bool)0)); |
445 | case _CC_ENUM_UPPER: return isUPPER_LC(character)(! ( (sizeof(character) == 1) || !(((U64)((character) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) ( character)] & (1U << (4))) ? (_Bool)1 : (_Bool)0) : ((isupper( (U8) (character))) ? (_Bool)1 : (_Bool)0)); |
446 | case _CC_ENUM_WORDCHAR: return isWORDCHAR_LC(character)(! ( (sizeof(character) == 1) || !(((U64)((character) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) ( character)] & (1U << (0))) ? (_Bool)1 : (_Bool)0) : (((isalnum( (U8) (character)) || (char)(character) == '_')) ? (_Bool)1 : (_Bool)0)); |
447 | case _CC_ENUM_XDIGIT: return isXDIGIT_LC(character)(! ( (sizeof(character) == 1) || !(((U64)((character) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) ( character)] & (1U << (12))) ? (_Bool)1 : (_Bool)0) : ((isxdigit( (U8) (character))) ? (_Bool)1 : (_Bool)0)); |
448 | default: /* VERTSPACE should never occur in locales */ |
449 | Perl_croak(aTHX_ "panic: isFOO_lc() has an unexpected character class '%d'", classnum); |
450 | } |
451 | |
452 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 452 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
453 | return FALSE(0); |
454 | } |
455 | |
456 | #endif |
457 | |
458 | PERL_STATIC_INLINEstatic __inline__ I32 |
459 | S_foldEQ_latin1_s2_folded(const char *s1, const char *s2, I32 len) |
460 | { |
461 | /* Compare non-UTF-8 using Unicode (Latin1) semantics. s2 must already be |
462 | * folded. Works on all folds representable without UTF-8, except for |
463 | * LATIN_SMALL_LETTER_SHARP_S, and does not check for this. Nor does it |
464 | * check that the strings each have at least 'len' characters. |
465 | * |
466 | * There is almost an identical API function where s2 need not be folded: |
467 | * Perl_foldEQ_latin1() */ |
468 | |
469 | const U8 *a = (const U8 *)s1; |
470 | const U8 *b = (const U8 *)s2; |
471 | |
472 | PERL_ARGS_ASSERT_FOLDEQ_LATIN1_S2_FOLDED((a) ? (void)0 : __assert2("re_exec.c", 472, __func__, "a")); ((b) ? (void)0 : __assert2("re_exec.c", 472, __func__, "b")); |
473 | |
474 | assert(len >= 0)((len >= 0) ? (void)0 : __assert2("re_exec.c", 474, __func__ , "len >= 0")); |
475 | |
476 | while (len--) { |
477 | assert(! isUPPER_L1(*b))((! ((( (sizeof(*b) == 1) || !(((U64)((*b) | 0)) & ~0xFF) ) && (PL_charclass[(U8) (*b)] & (1U << (4)) )) ? (_Bool)1 : (_Bool)0)) ? (void)0 : __assert2("re_exec.c", 477, __func__, "! isUPPER_L1(*b)")); |
478 | if (toLOWER_L1(*a)((! ( (sizeof(*a) == 1) || !(((U64)((*a) | 0)) & ~0xFF))) ? (*a) : PL_latin1_lc[ (U8) (*a) ]) != *b) { |
479 | return 0; |
480 | } |
481 | a++, b++; |
482 | } |
483 | return 1; |
484 | } |
485 | |
486 | STATICstatic bool_Bool |
487 | S_isFOO_utf8_lc(pTHX_ const U8 classnum, const U8* character, const U8* e) |
488 | { |
489 | /* Returns a boolean as to whether or not the (well-formed) UTF-8-encoded |
490 | * 'character' is a member of the Posix character class given by 'classnum' |
491 | * that should be equivalent to a value in the typedef |
492 | * '_char_class_number'. |
493 | * |
494 | * This just calls isFOO_lc on the code point for the character if it is in |
495 | * the range 0-255. Outside that range, all characters use Unicode |
496 | * rules, ignoring any locale. So use the Unicode function if this class |
497 | * requires an inversion list, and use the Unicode macro otherwise. */ |
498 | |
499 | dVARstruct Perl___notused_struct; |
500 | |
501 | PERL_ARGS_ASSERT_ISFOO_UTF8_LC((character) ? (void)0 : __assert2("re_exec.c", 501, __func__ , "character")); ((e) ? (void)0 : __assert2("re_exec.c", 501, __func__, "e")); |
502 | |
503 | if (UTF8_IS_INVARIANT(*character)((((U64)(((UV) (((*character) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) { |
504 | return isFOO_lc(classnum, *character)Perl_isFOO_lc( classnum,*character); |
505 | } |
506 | else if (UTF8_IS_DOWNGRADEABLE_START(*character)(((( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 506, __func__ , "( (sizeof(*character) == 1) || !(((U64)((*character) | 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_exec.c", 506 , __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(*character) == 1) || !(((U64)((*character ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 506 , __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))" )), ((U8) ((*character) | 0)))) == sizeof(U8)) ? ((((NV) (((( (((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 506, __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_exec.c" , 506, __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(*character) == 1) || !(((U64 )((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 506, __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))" )), ((U8) ((*character) | 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(*character) == 1) || !(((U64)( (*character) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 506, __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))" )), ((U8) ((*character) | 0)))) == sizeof(U32)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 506, __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_exec.c" , 506, __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(*character) == 1) || !((( U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2( "re_exec.c", 506, __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))" )), ((U8) ((*character) | 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(*character) == 1) || !(((U64 )((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 506, __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))" )), ((U8) ((*character) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 506, __func__, "sizeof((((( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 506, __func__, \"( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))\")), ((U8) ((*character) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 506, __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_exec.c" , 506, __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(*character) == 1) || !((( U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2( "re_exec.c", 506, __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))" )), ((U8) ((*character) | 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)))))))))) { |
507 | return isFOO_lc(classnum,Perl_isFOO_lc( classnum,( (((((( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 508, __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 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_exec.c", 508 , __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(*character) == 1) || !(((U64)((*character ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 508 , __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))" )), ((U8) ((*character) | 0)))) == sizeof(U8)) ? ((((NV) (((( (((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 508, __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_exec.c" , 508, __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(*character) == 1) || !(((U64 )((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 508, __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))" )), ((U8) ((*character) | 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(*character) == 1) || !(((U64)( (*character) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 508, __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))" )), ((U8) ((*character) | 0)))) == sizeof(U32)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 508, __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_exec.c" , 508, __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(*character) == 1) || !((( U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2( "re_exec.c", 508, __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))" )), ((U8) ((*character) | 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(*character) == 1) || !(((U64 )((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 508, __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))" )), ((U8) ((*character) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 508, __func__, "sizeof((((( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))\")), ((U8) ((*character) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 508, __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_exec.c" , 508, __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(*character) == 1) || !((( U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2( "re_exec.c", 508, __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))" )), ((U8) ((*character) | 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_exec.c", 508, __func__ , "(((( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof(*character) == 1) || !(((U64)((*character) | 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_exec.c\", 508, __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(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))\")), ((U8) ((*character) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 508, __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_exec.c\", 508, __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(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))\")), ((U8) ((*character) | 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(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))\")), ((U8) ((*character) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 508, __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_exec.c\", 508, __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(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))\")), ((U8) ((*character) | 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(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))\")), ((U8) ((*character) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"sizeof((((( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 508, __func__, \\\"( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))\\\")), ((U8) ((*character) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 508, __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_exec.c\", 508, __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(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))\")), ((U8) ((*character) | 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(*(character + 1)) == 1) || !(((U64)((*(character + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 508, __func__, "( (sizeof(*(character + 1)) == 1) || !(((U64)((*(character + 1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(character + 1)) == 1) || !(((U64)((*(character + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 508, __func__, "( (sizeof(*(character + 1)) == 1) || !(((U64)((*(character + 1)) | 0)) & ~0xFF))" )), ((U8) ((*(character + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 508, __func__, "(((( (sizeof(*(character + 1)) == 1) || !(((U64)((*(character + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof(*(character + 1)) == 1) || !(((U64)((*(character + 1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(character + 1)) == 1) || !(((U64)((*(character + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof(*(character + 1)) == 1) || !(((U64)((*(character + 1)) | 0)) & ~0xFF))\")), ((U8) ((*(character + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(character + 1))) == 1) || !( ((U64)(((*(character + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 508, __func__, "( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*character) == 1) || !(((U64)((*character ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 508 , __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))" )), ((U8) ((*character) | 0))) & (((2) >= 7) ? 0x00 : ( 0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 508, __func__, "( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(character + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(character + 1 ))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF) )) ? (void)0 : __assert2("re_exec.c", 508, __func__, "( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*character) == 1) || !(((U64)((*character ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 508 , __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))" )), ((U8) ((*character) | 0))) & (((2) >= 7) ? 0x00 : ( 0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 508, __func__, "( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(character + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 508, __func__, "( (sizeof((((( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))\")), ((U8) ((*character) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(character + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))\")), ((U8) ((*character) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(character + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(character + 1))) == 1) || !(((U64 )(((*(character + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 508, __func__, "( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*character) == 1) || !(((U64)((*character ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 508 , __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))" )), ((U8) ((*character) | 0))) & (((2) >= 7) ? 0x00 : ( 0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 508, __func__, "( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(character + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) |
508 | EIGHT_BIT_UTF8_TO_NATIVE(*character, *(character + 1)))Perl_isFOO_lc( classnum,( (((((( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 508, __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 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_exec.c", 508 , __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(*character) == 1) || !(((U64)((*character ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 508 , __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))" )), ((U8) ((*character) | 0)))) == sizeof(U8)) ? ((((NV) (((( (((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 508, __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_exec.c" , 508, __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(*character) == 1) || !(((U64 )((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 508, __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))" )), ((U8) ((*character) | 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(*character) == 1) || !(((U64)( (*character) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 508, __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))" )), ((U8) ((*character) | 0)))) == sizeof(U32)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 508, __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_exec.c" , 508, __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(*character) == 1) || !((( U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2( "re_exec.c", 508, __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))" )), ((U8) ((*character) | 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(*character) == 1) || !(((U64 )((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 508, __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))" )), ((U8) ((*character) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 508, __func__, "sizeof((((( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))\")), ((U8) ((*character) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 508, __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_exec.c" , 508, __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(*character) == 1) || !((( U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2( "re_exec.c", 508, __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))" )), ((U8) ((*character) | 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_exec.c", 508, __func__ , "(((( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof(*character) == 1) || !(((U64)((*character) | 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_exec.c\", 508, __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(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))\")), ((U8) ((*character) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 508, __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_exec.c\", 508, __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(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))\")), ((U8) ((*character) | 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(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))\")), ((U8) ((*character) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 508, __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_exec.c\", 508, __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(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))\")), ((U8) ((*character) | 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(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))\")), ((U8) ((*character) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"sizeof((((( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 508, __func__, \\\"( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))\\\")), ((U8) ((*character) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 508, __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_exec.c\", 508, __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(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))\")), ((U8) ((*character) | 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(*(character + 1)) == 1) || !(((U64)((*(character + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 508, __func__, "( (sizeof(*(character + 1)) == 1) || !(((U64)((*(character + 1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(character + 1)) == 1) || !(((U64)((*(character + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 508, __func__, "( (sizeof(*(character + 1)) == 1) || !(((U64)((*(character + 1)) | 0)) & ~0xFF))" )), ((U8) ((*(character + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 508, __func__, "(((( (sizeof(*(character + 1)) == 1) || !(((U64)((*(character + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof(*(character + 1)) == 1) || !(((U64)((*(character + 1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(character + 1)) == 1) || !(((U64)((*(character + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof(*(character + 1)) == 1) || !(((U64)((*(character + 1)) | 0)) & ~0xFF))\")), ((U8) ((*(character + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(character + 1))) == 1) || !( ((U64)(((*(character + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 508, __func__, "( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*character) == 1) || !(((U64)((*character ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 508 , __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))" )), ((U8) ((*character) | 0))) & (((2) >= 7) ? 0x00 : ( 0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 508, __func__, "( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(character + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(character + 1 ))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF) )) ? (void)0 : __assert2("re_exec.c", 508, __func__, "( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*character) == 1) || !(((U64)((*character ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 508 , __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))" )), ((U8) ((*character) | 0))) & (((2) >= 7) ? 0x00 : ( 0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 508, __func__, "( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(character + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 508, __func__, "( (sizeof((((( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))\")), ((U8) ((*character) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(character + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))\")), ((U8) ((*character) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 508, __func__, \"( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(character + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(character + 1))) == 1) || !(((U64 )(((*(character + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 508, __func__, "( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*character) == 1) || !(((U64)((*character ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 508 , __func__, "( (sizeof(*character) == 1) || !(((U64)((*character) | 0)) & ~0xFF))" )), ((U8) ((*character) | 0))) & (((2) >= 7) ? 0x00 : ( 0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 508, __func__, "( (sizeof((*(character + 1))) == 1) || !(((U64)(((*(character + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(character + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))); |
509 | } |
510 | |
511 | _CHECK_AND_OUTPUT_WIDE_LOCALE_UTF8_MSG(character, e)do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) (character)),(const U8 *) (U8 *) (e),((void*)0)); Perl_warner ( (63 ), "Wide character (U+%" "lX" ") in %s", (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field ( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type ])); } } while (0); |
512 | |
513 | switch ((_char_class_number) classnum) { |
514 | case _CC_ENUM_SPACE: return is_XPERLSPACE_high(character)( ( 0xE1 == ((const U8*)character)[0] ) ? ( ( ( 0x9A == ((const U8*)character)[1] ) && ( 0x80 == ((const U8*)character )[2] ) ) ? 3 : 0 ): ( 0xE2 == ((const U8*)character)[0] ) ? ( ( 0x80 == ((const U8*)character)[1] ) ? ( ( ((((0x8A) >= ( 0x80)) ? (void)0 : __assert2("re_exec.c", 514, __func__, "(0x8A) >= (0x80)" )), ( (sizeof(((const U8*)character)[2]) == sizeof(U8)) ? ((( (NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_exec.c", 514 , __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x8A) - (0x80 ))) >= 0) ? (void)0 : __assert2("re_exec.c", 514, __func__ , "(NV) (((0x8A) - (0x80))) >= 0")), (((U64) (((((U8) (((const U8*)character)[2])))) - (((0x80)) | 0))) <= (((U64) ((((0x8A ) - (0x80))) | 0))))) : (sizeof(((const U8*)character)[2]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2 ("re_exec.c", 514, __func__, "(NV) ((0x80)) >= 0")), (((NV ) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c" , 514, __func__, "(NV) (((0x8A) - (0x80))) >= 0")), (((U64 ) (((((U32) (((const U8*)character)[2])))) - (((0x80)) | 0))) <= (((U64) ((((0x8A) - (0x80))) | 0))))) : (((sizeof(((const U8*)character)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 514, __func__, "sizeof(((const U8*)character)[2]) == sizeof(U64)" )), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_exec.c" , 514, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c", 514, __func__ , "(NV) (((0x8A) - (0x80))) >= 0")), (((U64) (((((U64) ((( const U8*)character)[2])))) - (((0x80)) | 0))) <= (((U64) ( (((0x8A) - (0x80))) | 0)))))))) || ((((0xA9) >= (0xA8)) ? ( void)0 : __assert2("re_exec.c", 514, __func__, "(0xA9) >= (0xA8)" )), ( (sizeof(((const U8*)character)[2]) == sizeof(U8)) ? ((( (NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_exec.c", 514 , __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8 ))) >= 0) ? (void)0 : __assert2("re_exec.c", 514, __func__ , "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) (((((U8) (((const U8*)character)[2])))) - (((0xA8)) | 0))) <= (((U64) ((((0xA9 ) - (0xA8))) | 0))))) : (sizeof(((const U8*)character)[2]) == sizeof(U32)) ? ((((NV) ((0xA8)) >= 0) ? (void)0 : __assert2 ("re_exec.c", 514, __func__, "(NV) ((0xA8)) >= 0")), (((NV ) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c" , 514, __func__, "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64 ) (((((U32) (((const U8*)character)[2])))) - (((0xA8)) | 0))) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (((sizeof(((const U8*)character)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 514, __func__, "sizeof(((const U8*)character)[2]) == sizeof(U64)" )), ((((NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_exec.c" , 514, __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c", 514, __func__ , "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) (((((U64) ((( const U8*)character)[2])))) - (((0xA8)) | 0))) <= (((U64) ( (((0xA9) - (0xA8))) | 0)))))))) || 0xAF == ((const U8*)character )[2] ) ? 3 : 0 ) : ( ( 0x81 == ((const U8*)character)[1] ) && ( 0x9F == ((const U8*)character)[2] ) ) ? 3 : 0 ): ( ( ( 0xE3 == ((const U8*)character)[0] ) && ( 0x80 == ((const U8 *)character)[1] ) ) && ( 0x80 == ((const U8*)character )[2] ) ) ? 3 : 0 ); |
515 | case _CC_ENUM_BLANK: return is_HORIZWS_high(character)( ( 0xE1 == ((const U8*)character)[0] ) ? ( ( ( 0x9A == ((const U8*)character)[1] ) && ( 0x80 == ((const U8*)character )[2] ) ) ? 3 : 0 ): ( 0xE2 == ((const U8*)character)[0] ) ? ( ( 0x80 == ((const U8*)character)[1] ) ? ( ( ((((0x8A) >= ( 0x80)) ? (void)0 : __assert2("re_exec.c", 515, __func__, "(0x8A) >= (0x80)" )), ( (sizeof(((const U8*)character)[2]) == sizeof(U8)) ? ((( (NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_exec.c", 515 , __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x8A) - (0x80 ))) >= 0) ? (void)0 : __assert2("re_exec.c", 515, __func__ , "(NV) (((0x8A) - (0x80))) >= 0")), (((U64) (((((U8) (((const U8*)character)[2])))) - (((0x80)) | 0))) <= (((U64) ((((0x8A ) - (0x80))) | 0))))) : (sizeof(((const U8*)character)[2]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2 ("re_exec.c", 515, __func__, "(NV) ((0x80)) >= 0")), (((NV ) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c" , 515, __func__, "(NV) (((0x8A) - (0x80))) >= 0")), (((U64 ) (((((U32) (((const U8*)character)[2])))) - (((0x80)) | 0))) <= (((U64) ((((0x8A) - (0x80))) | 0))))) : (((sizeof(((const U8*)character)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 515, __func__, "sizeof(((const U8*)character)[2]) == sizeof(U64)" )), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_exec.c" , 515, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c", 515, __func__ , "(NV) (((0x8A) - (0x80))) >= 0")), (((U64) (((((U64) ((( const U8*)character)[2])))) - (((0x80)) | 0))) <= (((U64) ( (((0x8A) - (0x80))) | 0)))))))) || 0xAF == ((const U8*)character )[2] ) ? 3 : 0 ) : ( ( 0x81 == ((const U8*)character)[1] ) && ( 0x9F == ((const U8*)character)[2] ) ) ? 3 : 0 ): ( ( ( 0xE3 == ((const U8*)character)[0] ) && ( 0x80 == ((const U8 *)character)[1] ) ) && ( 0x80 == ((const U8*)character )[2] ) ) ? 3 : 0 ); |
516 | case _CC_ENUM_XDIGIT: return is_XDIGIT_high(character)( ( 0xEF == ((const U8*)character)[0] ) ? ( ( 0xBC == ((const U8*)character)[1] ) ? ( ( ((((0x99) >= (0x90)) ? (void)0 : __assert2("re_exec.c", 516, __func__, "(0x99) >= (0x90)") ), ( (sizeof(((const U8*)character)[2]) == sizeof(U8)) ? (((( NV) ((0x90)) >= 0) ? (void)0 : __assert2("re_exec.c", 516, __func__, "(NV) ((0x90)) >= 0")), (((NV) (((0x99) - (0x90 ))) >= 0) ? (void)0 : __assert2("re_exec.c", 516, __func__ , "(NV) (((0x99) - (0x90))) >= 0")), (((U64) (((((U8) (((const U8*)character)[2])))) - (((0x90)) | 0))) <= (((U64) ((((0x99 ) - (0x90))) | 0))))) : (sizeof(((const U8*)character)[2]) == sizeof(U32)) ? ((((NV) ((0x90)) >= 0) ? (void)0 : __assert2 ("re_exec.c", 516, __func__, "(NV) ((0x90)) >= 0")), (((NV ) (((0x99) - (0x90))) >= 0) ? (void)0 : __assert2("re_exec.c" , 516, __func__, "(NV) (((0x99) - (0x90))) >= 0")), (((U64 ) (((((U32) (((const U8*)character)[2])))) - (((0x90)) | 0))) <= (((U64) ((((0x99) - (0x90))) | 0))))) : (((sizeof(((const U8*)character)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 516, __func__, "sizeof(((const U8*)character)[2]) == sizeof(U64)" )), ((((NV) ((0x90)) >= 0) ? (void)0 : __assert2("re_exec.c" , 516, __func__, "(NV) ((0x90)) >= 0")), (((NV) (((0x99) - (0x90))) >= 0) ? (void)0 : __assert2("re_exec.c", 516, __func__ , "(NV) (((0x99) - (0x90))) >= 0")), (((U64) (((((U64) ((( const U8*)character)[2])))) - (((0x90)) | 0))) <= (((U64) ( (((0x99) - (0x90))) | 0)))))))) || ((((0xA6) >= (0xA1)) ? ( void)0 : __assert2("re_exec.c", 516, __func__, "(0xA6) >= (0xA1)" )), ( (sizeof(((const U8*)character)[2]) == sizeof(U8)) ? ((( (NV) ((0xA1)) >= 0) ? (void)0 : __assert2("re_exec.c", 516 , __func__, "(NV) ((0xA1)) >= 0")), (((NV) (((0xA6) - (0xA1 ))) >= 0) ? (void)0 : __assert2("re_exec.c", 516, __func__ , "(NV) (((0xA6) - (0xA1))) >= 0")), (((U64) (((((U8) (((const U8*)character)[2])))) - (((0xA1)) | 0))) <= (((U64) ((((0xA6 ) - (0xA1))) | 0))))) : (sizeof(((const U8*)character)[2]) == sizeof(U32)) ? ((((NV) ((0xA1)) >= 0) ? (void)0 : __assert2 ("re_exec.c", 516, __func__, "(NV) ((0xA1)) >= 0")), (((NV ) (((0xA6) - (0xA1))) >= 0) ? (void)0 : __assert2("re_exec.c" , 516, __func__, "(NV) (((0xA6) - (0xA1))) >= 0")), (((U64 ) (((((U32) (((const U8*)character)[2])))) - (((0xA1)) | 0))) <= (((U64) ((((0xA6) - (0xA1))) | 0))))) : (((sizeof(((const U8*)character)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 516, __func__, "sizeof(((const U8*)character)[2]) == sizeof(U64)" )), ((((NV) ((0xA1)) >= 0) ? (void)0 : __assert2("re_exec.c" , 516, __func__, "(NV) ((0xA1)) >= 0")), (((NV) (((0xA6) - (0xA1))) >= 0) ? (void)0 : __assert2("re_exec.c", 516, __func__ , "(NV) (((0xA6) - (0xA1))) >= 0")), (((U64) (((((U64) ((( const U8*)character)[2])))) - (((0xA1)) | 0))) <= (((U64) ( (((0xA6) - (0xA1))) | 0)))))))) ) ? 3 : 0 ) : ( ( 0xBD == ((const U8*)character)[1] ) && ( ((((0x86) >= (0x81)) ? ( void)0 : __assert2("re_exec.c", 516, __func__, "(0x86) >= (0x81)" )), ( (sizeof(((const U8*)character)[2]) == sizeof(U8)) ? ((( (NV) ((0x81)) >= 0) ? (void)0 : __assert2("re_exec.c", 516 , __func__, "(NV) ((0x81)) >= 0")), (((NV) (((0x86) - (0x81 ))) >= 0) ? (void)0 : __assert2("re_exec.c", 516, __func__ , "(NV) (((0x86) - (0x81))) >= 0")), (((U64) (((((U8) (((const U8*)character)[2])))) - (((0x81)) | 0))) <= (((U64) ((((0x86 ) - (0x81))) | 0))))) : (sizeof(((const U8*)character)[2]) == sizeof(U32)) ? ((((NV) ((0x81)) >= 0) ? (void)0 : __assert2 ("re_exec.c", 516, __func__, "(NV) ((0x81)) >= 0")), (((NV ) (((0x86) - (0x81))) >= 0) ? (void)0 : __assert2("re_exec.c" , 516, __func__, "(NV) (((0x86) - (0x81))) >= 0")), (((U64 ) (((((U32) (((const U8*)character)[2])))) - (((0x81)) | 0))) <= (((U64) ((((0x86) - (0x81))) | 0))))) : (((sizeof(((const U8*)character)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 516, __func__, "sizeof(((const U8*)character)[2]) == sizeof(U64)" )), ((((NV) ((0x81)) >= 0) ? (void)0 : __assert2("re_exec.c" , 516, __func__, "(NV) ((0x81)) >= 0")), (((NV) (((0x86) - (0x81))) >= 0) ? (void)0 : __assert2("re_exec.c", 516, __func__ , "(NV) (((0x86) - (0x81))) >= 0")), (((U64) (((((U64) ((( const U8*)character)[2])))) - (((0x81)) | 0))) <= (((U64) ( (((0x86) - (0x81))) | 0)))))))) ) ) ? 3 : 0 ): 0 ); |
517 | case _CC_ENUM_VERTSPACE: return is_VERTWS_high(character)( ( ( ( 0xE2 == ((const U8*)character)[0] ) && ( 0x80 == ((const U8*)character)[1] ) ) && ( ((((0xA9) >= (0xA8)) ? (void)0 : __assert2("re_exec.c", 517, __func__, "(0xA9) >= (0xA8)" )), ( (sizeof(((const U8*)character)[2]) == sizeof(U8)) ? ((( (NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_exec.c", 517 , __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8 ))) >= 0) ? (void)0 : __assert2("re_exec.c", 517, __func__ , "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) (((((U8) (((const U8*)character)[2])))) - (((0xA8)) | 0))) <= (((U64) ((((0xA9 ) - (0xA8))) | 0))))) : (sizeof(((const U8*)character)[2]) == sizeof(U32)) ? ((((NV) ((0xA8)) >= 0) ? (void)0 : __assert2 ("re_exec.c", 517, __func__, "(NV) ((0xA8)) >= 0")), (((NV ) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c" , 517, __func__, "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64 ) (((((U32) (((const U8*)character)[2])))) - (((0xA8)) | 0))) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (((sizeof(((const U8*)character)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 517, __func__, "sizeof(((const U8*)character)[2]) == sizeof(U64)" )), ((((NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_exec.c" , 517, __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c", 517, __func__ , "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) (((((U64) ((( const U8*)character)[2])))) - (((0xA8)) | 0))) <= (((U64) ( (((0xA9) - (0xA8))) | 0)))))))) ) ) ? 3 : 0 ); |
518 | default: |
519 | return _invlist_contains_cpS__invlist_contains_cp(PL_XPosix_ptrs[classnum], |
520 | utf8_to_uvchr_buf(character, e, NULL)Perl_utf8_to_uvchr_buf_helper( (const U8 *) (character),(const U8 *) e,((void*)0))); |
521 | } |
522 | |
523 | return FALSE(0); /* Things like CNTRL are always below 256 */ |
524 | } |
525 | |
526 | STATICstatic U8 * |
527 | S_find_span_end(U8 * s, const U8 * send, const U8 span_byte) |
528 | { |
529 | /* Returns the position of the first byte in the sequence between 's' and |
530 | * 'send-1' inclusive that isn't 'span_byte'; returns 'send' if none found. |
531 | * */ |
532 | |
533 | PERL_ARGS_ASSERT_FIND_SPAN_END((s) ? (void)0 : __assert2("re_exec.c", 533, __func__, "s")); ((send) ? (void)0 : __assert2("re_exec.c", 533, __func__, "send" )); |
534 | |
535 | assert(send >= s)((send >= s) ? (void)0 : __assert2("re_exec.c", 535, __func__ , "send >= s")); |
536 | |
537 | if ((STRLEN) (send - s) >= PERL_WORDSIZEsizeof(PERL_UINTMAX_T) |
538 | + PERL_WORDSIZEsizeof(PERL_UINTMAX_T) * PERL_IS_SUBWORD_ADDR(s)(1 & ( (UV)(s) | ( (UV)(s) >> 1) | ( ( ((UV)(s) & (sizeof(PERL_UINTMAX_T) - 1)) >> 2)))) |
539 | - (PTR2nat(s)(UV)(s) & PERL_WORD_BOUNDARY_MASK(sizeof(PERL_UINTMAX_T) - 1))) |
540 | { |
541 | PERL_UINTMAX_T span_word; |
542 | |
543 | /* Process per-byte until reach word boundary. XXX This loop could be |
544 | * eliminated if we knew that this platform had fast unaligned reads */ |
545 | while (PTR2nat(s)(UV)(s) & PERL_WORD_BOUNDARY_MASK(sizeof(PERL_UINTMAX_T) - 1)) { |
546 | if (*s != span_byte) { |
547 | return s; |
548 | } |
549 | s++; |
550 | } |
551 | |
552 | /* Create a word filled with the bytes we are spanning */ |
553 | span_word = PERL_COUNT_MULTIPLIER(~ (0ULL) / 0xFF) * span_byte; |
554 | |
555 | /* Process per-word as long as we have at least a full word left */ |
556 | do { |
557 | |
558 | /* Keep going if the whole word is composed of 'span_byte's */ |
559 | if ((* (PERL_UINTMAX_T *) s) == span_word) { |
560 | s += PERL_WORDSIZEsizeof(PERL_UINTMAX_T); |
561 | continue; |
562 | } |
563 | |
564 | /* Here, at least one byte in the word isn't 'span_byte'. */ |
565 | |
566 | #ifdef EBCDIC |
567 | |
568 | break; |
569 | |
570 | #else |
571 | |
572 | /* This xor leaves 1 bits only in those non-matching bytes */ |
573 | span_word ^= * (PERL_UINTMAX_T *) s; |
574 | |
575 | /* Make sure the upper bit of each non-matching byte is set. This |
576 | * makes each such byte look like an ASCII platform variant byte */ |
577 | span_word |= span_word << 1; |
578 | span_word |= span_word << 2; |
579 | span_word |= span_word << 4; |
580 | |
581 | /* That reduces the problem to what this function solves */ |
582 | return s + variant_byte_numberPerl_variant_byte_number(span_word); |
583 | |
584 | #endif |
585 | |
586 | } while (s + PERL_WORDSIZEsizeof(PERL_UINTMAX_T) <= send); |
587 | } |
588 | |
589 | /* Process the straggler bytes beyond the final word boundary */ |
590 | while (s < send) { |
591 | if (*s != span_byte) { |
592 | return s; |
593 | } |
594 | s++; |
595 | } |
596 | |
597 | return s; |
598 | } |
599 | |
600 | STATICstatic U8 * |
601 | S_find_next_masked(U8 * s, const U8 * send, const U8 byte, const U8 mask) |
602 | { |
603 | /* Returns the position of the first byte in the sequence between 's' |
604 | * and 'send-1' inclusive that when ANDed with 'mask' yields 'byte'; |
605 | * returns 'send' if none found. It uses word-level operations instead of |
606 | * byte to speed up the process */ |
607 | |
608 | PERL_ARGS_ASSERT_FIND_NEXT_MASKED((s) ? (void)0 : __assert2("re_exec.c", 608, __func__, "s")); ((send) ? (void)0 : __assert2("re_exec.c", 608, __func__, "send" )); |
609 | |
610 | assert(send >= s)((send >= s) ? (void)0 : __assert2("re_exec.c", 610, __func__ , "send >= s")); |
611 | assert((byte & mask) == byte)(((byte & mask) == byte) ? (void)0 : __assert2("re_exec.c" , 611, __func__, "(byte & mask) == byte")); |
612 | |
613 | #ifndef EBCDIC |
614 | |
615 | if ((STRLEN) (send - s) >= PERL_WORDSIZEsizeof(PERL_UINTMAX_T) |
616 | + PERL_WORDSIZEsizeof(PERL_UINTMAX_T) * PERL_IS_SUBWORD_ADDR(s)(1 & ( (UV)(s) | ( (UV)(s) >> 1) | ( ( ((UV)(s) & (sizeof(PERL_UINTMAX_T) - 1)) >> 2)))) |
617 | - (PTR2nat(s)(UV)(s) & PERL_WORD_BOUNDARY_MASK(sizeof(PERL_UINTMAX_T) - 1))) |
618 | { |
619 | PERL_UINTMAX_T word, mask_word; |
620 | |
621 | while (PTR2nat(s)(UV)(s) & PERL_WORD_BOUNDARY_MASK(sizeof(PERL_UINTMAX_T) - 1)) { |
622 | if (((*s) & mask) == byte) { |
623 | return s; |
624 | } |
625 | s++; |
626 | } |
627 | |
628 | word = PERL_COUNT_MULTIPLIER(~ (0ULL) / 0xFF) * byte; |
629 | mask_word = PERL_COUNT_MULTIPLIER(~ (0ULL) / 0xFF) * mask; |
630 | |
631 | do { |
632 | PERL_UINTMAX_T masked = (* (PERL_UINTMAX_T *) s) & mask_word; |
633 | |
634 | /* If 'masked' contains bytes with the bit pattern of 'byte' within |
635 | * it, xoring with 'word' will leave each of the 8 bits in such |
636 | * bytes be 0, and no byte containing any other bit pattern will be |
637 | * 0. */ |
638 | masked ^= word; |
639 | |
640 | /* This causes the most significant bit to be set to 1 for any |
641 | * bytes in the word that aren't completely 0 */ |
642 | masked |= masked << 1; |
643 | masked |= masked << 2; |
644 | masked |= masked << 4; |
645 | |
646 | /* The msbits are the same as what marks a byte as variant, so we |
647 | * can use this mask. If all msbits are 1, the word doesn't |
648 | * contain 'byte' */ |
649 | if ((masked & PERL_VARIANTS_WORD_MASK((~ (0ULL) / 0xFF) * 0x80)) == PERL_VARIANTS_WORD_MASK((~ (0ULL) / 0xFF) * 0x80)) { |
650 | s += PERL_WORDSIZEsizeof(PERL_UINTMAX_T); |
651 | continue; |
652 | } |
653 | |
654 | /* Here, the msbit of bytes in the word that aren't 'byte' are 1, |
655 | * and any that are, are 0. Complement and re-AND to swap that */ |
656 | masked = ~ masked; |
657 | masked &= PERL_VARIANTS_WORD_MASK((~ (0ULL) / 0xFF) * 0x80); |
658 | |
659 | /* This reduces the problem to that solved by this function */ |
660 | s += variant_byte_numberPerl_variant_byte_number(masked); |
661 | return s; |
662 | |
663 | } while (s + PERL_WORDSIZEsizeof(PERL_UINTMAX_T) <= send); |
664 | } |
665 | |
666 | #endif |
667 | |
668 | while (s < send) { |
669 | if (((*s) & mask) == byte) { |
670 | return s; |
671 | } |
672 | s++; |
673 | } |
674 | |
675 | return s; |
676 | } |
677 | |
678 | STATICstatic U8 * |
679 | S_find_span_end_mask(U8 * s, const U8 * send, const U8 span_byte, const U8 mask) |
680 | { |
681 | /* Returns the position of the first byte in the sequence between 's' and |
682 | * 'send-1' inclusive that when ANDed with 'mask' isn't 'span_byte'. |
683 | * 'span_byte' should have been ANDed with 'mask' in the call of this |
684 | * function. Returns 'send' if none found. Works like find_span_end(), |
685 | * except for the AND */ |
686 | |
687 | PERL_ARGS_ASSERT_FIND_SPAN_END_MASK((s) ? (void)0 : __assert2("re_exec.c", 687, __func__, "s")); ((send) ? (void)0 : __assert2("re_exec.c", 687, __func__, "send" )); |
688 | |
689 | assert(send >= s)((send >= s) ? (void)0 : __assert2("re_exec.c", 689, __func__ , "send >= s")); |
690 | assert((span_byte & mask) == span_byte)(((span_byte & mask) == span_byte) ? (void)0 : __assert2( "re_exec.c", 690, __func__, "(span_byte & mask) == span_byte" )); |
691 | |
692 | if ((STRLEN) (send - s) >= PERL_WORDSIZEsizeof(PERL_UINTMAX_T) |
693 | + PERL_WORDSIZEsizeof(PERL_UINTMAX_T) * PERL_IS_SUBWORD_ADDR(s)(1 & ( (UV)(s) | ( (UV)(s) >> 1) | ( ( ((UV)(s) & (sizeof(PERL_UINTMAX_T) - 1)) >> 2)))) |
694 | - (PTR2nat(s)(UV)(s) & PERL_WORD_BOUNDARY_MASK(sizeof(PERL_UINTMAX_T) - 1))) |
695 | { |
696 | PERL_UINTMAX_T span_word, mask_word; |
697 | |
698 | while (PTR2nat(s)(UV)(s) & PERL_WORD_BOUNDARY_MASK(sizeof(PERL_UINTMAX_T) - 1)) { |
699 | if (((*s) & mask) != span_byte) { |
700 | return s; |
701 | } |
702 | s++; |
703 | } |
704 | |
705 | span_word = PERL_COUNT_MULTIPLIER(~ (0ULL) / 0xFF) * span_byte; |
706 | mask_word = PERL_COUNT_MULTIPLIER(~ (0ULL) / 0xFF) * mask; |
707 | |
708 | do { |
709 | PERL_UINTMAX_T masked = (* (PERL_UINTMAX_T *) s) & mask_word; |
710 | |
711 | if (masked == span_word) { |
712 | s += PERL_WORDSIZEsizeof(PERL_UINTMAX_T); |
713 | continue; |
714 | } |
715 | |
716 | #ifdef EBCDIC |
717 | |
718 | break; |
719 | |
720 | #else |
721 | |
722 | masked ^= span_word; |
723 | masked |= masked << 1; |
724 | masked |= masked << 2; |
725 | masked |= masked << 4; |
726 | return s + variant_byte_numberPerl_variant_byte_number(masked); |
727 | |
728 | #endif |
729 | |
730 | } while (s + PERL_WORDSIZEsizeof(PERL_UINTMAX_T) <= send); |
731 | } |
732 | |
733 | while (s < send) { |
734 | if (((*s) & mask) != span_byte) { |
735 | return s; |
736 | } |
737 | s++; |
738 | } |
739 | |
740 | return s; |
741 | } |
742 | |
743 | /* |
744 | * pregexec and friends |
745 | */ |
746 | |
747 | #ifndef PERL_IN_XSUB_RE |
748 | /* |
749 | - pregexec - match a regexp against a string |
750 | */ |
751 | I32 |
752 | Perl_pregexec(pTHX_ REGEXP * const prog, char* stringarg, char *strend, |
753 | char *strbeg, SSize_tssize_t minend, SV *screamer, U32 nosave) |
754 | /* stringarg: the point in the string at which to begin matching */ |
755 | /* strend: pointer to null at end of string */ |
756 | /* strbeg: real beginning of string */ |
757 | /* minend: end of match must be >= minend bytes after stringarg. */ |
758 | /* screamer: SV being matched: only used for utf8 flag, pos() etc; string |
759 | * itself is accessed via the pointers above */ |
760 | /* nosave: For optimizations. */ |
761 | { |
762 | PERL_ARGS_ASSERT_PREGEXEC((prog) ? (void)0 : __assert2("re_exec.c", 762, __func__, "prog" )); ((stringarg) ? (void)0 : __assert2("re_exec.c", 762, __func__ , "stringarg")); ((strend) ? (void)0 : __assert2("re_exec.c", 762, __func__, "strend")); ((strbeg) ? (void)0 : __assert2("re_exec.c" , 762, __func__, "strbeg")); ((screamer) ? (void)0 : __assert2 ("re_exec.c", 762, __func__, "screamer")); |
763 | |
764 | return |
765 | regexec_flags(prog, stringarg, strend, strbeg, minend, screamer, NULL,my_regexec( prog,stringarg,strend,strbeg,minend,screamer,((void *)0),nosave ? 0 : 0x01) |
766 | nosave ? 0 : REXEC_COPY_STR)my_regexec( prog,stringarg,strend,strbeg,minend,screamer,((void *)0),nosave ? 0 : 0x01); |
767 | } |
768 | #endif |
769 | |
770 | |
771 | |
772 | /* re_intuit_start(): |
773 | * |
774 | * Based on some optimiser hints, try to find the earliest position in the |
775 | * string where the regex could match. |
776 | * |
777 | * rx: the regex to match against |
778 | * sv: the SV being matched: only used for utf8 flag; the string |
779 | * itself is accessed via the pointers below. Note that on |
780 | * something like an overloaded SV, SvPOK(sv) may be false |
781 | * and the string pointers may point to something unrelated to |
782 | * the SV itself. |
783 | * strbeg: real beginning of string |
784 | * strpos: the point in the string at which to begin matching |
785 | * strend: pointer to the byte following the last char of the string |
786 | * flags currently unused; set to 0 |
787 | * data: currently unused; set to NULL |
788 | * |
789 | * The basic idea of re_intuit_start() is to use some known information |
790 | * about the pattern, namely: |
791 | * |
792 | * a) the longest known anchored substring (i.e. one that's at a |
793 | * constant offset from the beginning of the pattern; but not |
794 | * necessarily at a fixed offset from the beginning of the |
795 | * string); |
796 | * b) the longest floating substring (i.e. one that's not at a constant |
797 | * offset from the beginning of the pattern); |
798 | * c) Whether the pattern is anchored to the string; either |
799 | * an absolute anchor: /^../, or anchored to \n: /^.../m, |
800 | * or anchored to pos(): /\G/; |
801 | * d) A start class: a real or synthetic character class which |
802 | * represents which characters are legal at the start of the pattern; |
803 | * |
804 | * to either quickly reject the match, or to find the earliest position |
805 | * within the string at which the pattern might match, thus avoiding |
806 | * running the full NFA engine at those earlier locations, only to |
807 | * eventually fail and retry further along. |
808 | * |
809 | * Returns NULL if the pattern can't match, or returns the address within |
810 | * the string which is the earliest place the match could occur. |
811 | * |
812 | * The longest of the anchored and floating substrings is called 'check' |
813 | * and is checked first. The other is called 'other' and is checked |
814 | * second. The 'other' substring may not be present. For example, |
815 | * |
816 | * /(abc|xyz)ABC\d{0,3}DEFG/ |
817 | * |
818 | * will have |
819 | * |
820 | * check substr (float) = "DEFG", offset 6..9 chars |
821 | * other substr (anchored) = "ABC", offset 3..3 chars |
822 | * stclass = [ax] |
823 | * |
824 | * Be aware that during the course of this function, sometimes 'anchored' |
825 | * refers to a substring being anchored relative to the start of the |
826 | * pattern, and sometimes to the pattern itself being anchored relative to |
827 | * the string. For example: |
828 | * |
829 | * /\dabc/: "abc" is anchored to the pattern; |
830 | * /^\dabc/: "abc" is anchored to the pattern and the string; |
831 | * /\d+abc/: "abc" is anchored to neither the pattern nor the string; |
832 | * /^\d+abc/: "abc" is anchored to neither the pattern nor the string, |
833 | * but the pattern is anchored to the string. |
834 | */ |
835 | |
836 | char * |
837 | Perl_re_intuit_startmy_re_intuit_start(pTHX_ |
838 | REGEXP * const rx, |
839 | SV *sv, |
840 | const char * const strbeg, |
841 | char *strpos, |
842 | char *strend, |
843 | const U32 flags, |
844 | re_scream_pos_data *data) |
845 | { |
846 | struct regexp *const prog = ReANY(rx)Perl_ReANY((const REGEXP *)(rx)); |
847 | SSize_tssize_t start_shift = prog->check_offset_minsubstrs->data[2].min_offset; |
848 | /* Should be nonnegative! */ |
849 | SSize_tssize_t end_shift = 0; |
850 | /* current lowest pos in string where the regex can start matching */ |
851 | char *rx_origin = strpos; |
852 | SV *check; |
853 | const bool_Bool utf8_target = (sv && SvUTF8(sv)((sv)->sv_flags & 0x20000000)) ? 1 : 0; /* if no sv we have to assume bytes */ |
854 | U8 other_ix = 1 - prog->substrs->check_ix; |
855 | bool_Bool ml_anch = 0; |
856 | char *other_last = strpos;/* latest pos 'other' substr already checked to */ |
857 | char *check_at = NULL((void*)0); /* check substr found at this pos */ |
858 | const I32 multiline = prog->extflags & RXf_PMf_MULTILINE(1U << (0 +0)); |
859 | RXi_GET_DECL(prog,progi)regexp_internal *progi = ((regexp_internal *)((prog)->pprivate )); |
860 | regmatch_info reginfo_buf; /* create some info to pass to find_byclass */ |
861 | regmatch_info *const reginfo = ®info_buf; |
862 | 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_exec.c", 862, __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_exec.c", 862, __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); |
863 | |
864 | PERL_ARGS_ASSERT_RE_INTUIT_START((rx) ? (void)0 : __assert2("re_exec.c", 864, __func__, "rx") ); ((strbeg) ? (void)0 : __assert2("re_exec.c", 864, __func__ , "strbeg")); ((strpos) ? (void)0 : __assert2("re_exec.c", 864 , __func__, "strpos")); ((strend) ? (void)0 : __assert2("re_exec.c" , 864, __func__, "strend")); |
865 | PERL_UNUSED_ARG(flags)((void)sizeof(flags)); |
866 | PERL_UNUSED_ARG(data)((void)sizeof(data)); |
867 | |
868 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "Intuit: trying to determine minimum start position...\n"); } while (0) |
869 | "Intuit: trying to determine minimum start position...\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "Intuit: trying to determine minimum start position...\n"); } while (0); |
870 | |
871 | /* for now, assume that all substr offsets are positive. If at some point |
872 | * in the future someone wants to do clever things with lookbehind and |
873 | * -ve offsets, they'll need to fix up any code in this function |
874 | * which uses these offsets. See the thread beginning |
875 | * <20140113145929.GF27210@iabyn.com> |
876 | */ |
877 | assert(prog->substrs->data[0].min_offset >= 0)((prog->substrs->data[0].min_offset >= 0) ? (void)0 : __assert2("re_exec.c", 877, __func__, "prog->substrs->data[0].min_offset >= 0" )); |
878 | assert(prog->substrs->data[0].max_offset >= 0)((prog->substrs->data[0].max_offset >= 0) ? (void)0 : __assert2("re_exec.c", 878, __func__, "prog->substrs->data[0].max_offset >= 0" )); |
879 | assert(prog->substrs->data[1].min_offset >= 0)((prog->substrs->data[1].min_offset >= 0) ? (void)0 : __assert2("re_exec.c", 879, __func__, "prog->substrs->data[1].min_offset >= 0" )); |
880 | assert(prog->substrs->data[1].max_offset >= 0)((prog->substrs->data[1].max_offset >= 0) ? (void)0 : __assert2("re_exec.c", 880, __func__, "prog->substrs->data[1].max_offset >= 0" )); |
881 | assert(prog->substrs->data[2].min_offset >= 0)((prog->substrs->data[2].min_offset >= 0) ? (void)0 : __assert2("re_exec.c", 881, __func__, "prog->substrs->data[2].min_offset >= 0" )); |
882 | assert(prog->substrs->data[2].max_offset >= 0)((prog->substrs->data[2].max_offset >= 0) ? (void)0 : __assert2("re_exec.c", 882, __func__, "prog->substrs->data[2].max_offset >= 0" )); |
883 | |
884 | /* for now, assume that if both present, that the floating substring |
885 | * doesn't start before the anchored substring. |
886 | * If you break this assumption (e.g. doing better optimisations |
887 | * with lookahead/behind), then you'll need to audit the code in this |
888 | * function carefully first |
889 | */ |
890 | assert(((! ( (prog->substrs->data[0].utf8_substr || prog->substrs ->data[0].substr) && (prog->substrs->data[1] .utf8_substr || prog->substrs->data[1].substr)) || (prog ->substrs->data[1].min_offset >= prog->substrs-> data[0].min_offset)) ? (void)0 : __assert2("re_exec.c", 893, __func__ , "! ( (prog->anchored_utf8 || prog->anchored_substr) && (prog->float_utf8 || prog->float_substr)) || (prog->float_min_offset >= prog->anchored_offset)" )) |
891 | ! ( (prog->anchored_utf8 || prog->anchored_substr)((! ( (prog->substrs->data[0].utf8_substr || prog->substrs ->data[0].substr) && (prog->substrs->data[1] .utf8_substr || prog->substrs->data[1].substr)) || (prog ->substrs->data[1].min_offset >= prog->substrs-> data[0].min_offset)) ? (void)0 : __assert2("re_exec.c", 893, __func__ , "! ( (prog->anchored_utf8 || prog->anchored_substr) && (prog->float_utf8 || prog->float_substr)) || (prog->float_min_offset >= prog->anchored_offset)" )) |
892 | && (prog->float_utf8 || prog->float_substr))((! ( (prog->substrs->data[0].utf8_substr || prog->substrs ->data[0].substr) && (prog->substrs->data[1] .utf8_substr || prog->substrs->data[1].substr)) || (prog ->substrs->data[1].min_offset >= prog->substrs-> data[0].min_offset)) ? (void)0 : __assert2("re_exec.c", 893, __func__ , "! ( (prog->anchored_utf8 || prog->anchored_substr) && (prog->float_utf8 || prog->float_substr)) || (prog->float_min_offset >= prog->anchored_offset)" )) |
893 | || (prog->float_min_offset >= prog->anchored_offset))((! ( (prog->substrs->data[0].utf8_substr || prog->substrs ->data[0].substr) && (prog->substrs->data[1] .utf8_substr || prog->substrs->data[1].substr)) || (prog ->substrs->data[1].min_offset >= prog->substrs-> data[0].min_offset)) ? (void)0 : __assert2("re_exec.c", 893, __func__ , "! ( (prog->anchored_utf8 || prog->anchored_substr) && (prog->float_utf8 || prog->float_substr)) || (prog->float_min_offset >= prog->anchored_offset)" )); |
894 | |
895 | /* byte rather than char calculation for efficiency. It fails |
896 | * to quickly reject some cases that can't match, but will reject |
897 | * them later after doing full char arithmetic */ |
898 | if (prog->minlen > strend - strpos) { |
899 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " String too short...\n");} while (0) |
900 | " String too short...\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " String too short...\n");} while (0); |
901 | goto fail; |
902 | } |
903 | |
904 | RXp_MATCH_UTF8_set(prog, utf8_target)((utf8_target) ? (((prog)->extflags) |= (1U<<(((0 +12 ) + 2)+6))) : (((prog)->extflags) &= ~(1U<<(((0 + 12) + 2)+6)))); |
905 | reginfo->is_utf8_target = cBOOL(utf8_target)((utf8_target) ? (_Bool)1 : (_Bool)0); |
906 | reginfo->info_aux = NULL((void*)0); |
907 | reginfo->strbeg = strbeg; |
908 | reginfo->strend = strend; |
909 | reginfo->is_utf8_pat = cBOOL(RX_UTF8(rx))((((rx)->sv_flags & 0x20000000)) ? (_Bool)1 : (_Bool)0 ); |
910 | reginfo->intuit = 1; |
911 | /* not actually used within intuit, but zero for safety anyway */ |
912 | reginfo->poscache_maxiter = 0; |
913 | |
914 | if (utf8_target) { |
915 | if ((!prog->anchored_utf8substrs->data[0].utf8_substr && prog->anchored_substrsubstrs->data[0].substr) |
916 | || (!prog->float_utf8substrs->data[1].utf8_substr && prog->float_substrsubstrs->data[1].substr)) |
917 | to_utf8_substr(prog)S_to_utf8_substr( prog); |
918 | check = prog->check_utf8substrs->data[2].utf8_substr; |
919 | } else { |
920 | if (!prog->check_substrsubstrs->data[2].substr && prog->check_utf8substrs->data[2].utf8_substr) { |
921 | if (! to_byte_substr(prog)S_to_byte_substr( prog)) { |
922 | NON_UTF8_TARGET_BUT_UTF8_REQUIRED(fail)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00)) ) Perl_re_printf( "%s", non_utf8_target_but_utf8_required);} while (0); goto fail; } while (0); |
923 | } |
924 | } |
925 | check = prog->check_substrsubstrs->data[2].substr; |
926 | } |
927 | |
928 | /* dump the various substring data */ |
929 | DEBUG_OPTIMISE_MORE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { int i; for (i=0; i<=2; i++ ) { SV *sv = (utf8_target ? prog->substrs->data[i].utf8_substr : prog->substrs->data[i].substr); if (!sv) continue; Perl_re_printf ( " substrs[%d]: min=%" "ld" " max=%" "ld" " end shift=%" "ld" " useful=%" "ld" " utf8=%d [%s]\n", i, (IV)prog->substrs-> data[i].min_offset, (IV)prog->substrs->data[i].max_offset , (IV)prog->substrs->data[i].end_shift, (*({ SV *const _bmuseful = ((SV *)({ void *_p = (sv); _p; })); ((((svtype)((_bmuseful )->sv_flags & 0xff)) >= SVt_PVIV) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_bmuseful) >= SVt_PVIV" )); ((( ((_bmuseful)->sv_flags & 0x00004000) && ((_bmuseful)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &(( (XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))->xmg_u .xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_bmuseful , 'B')) )) ? (void)0 : __assert2("re_exec.c", 944, __func__, "SvVALID(_bmuseful)" )); ((!((_bmuseful)->sv_flags & 0x00000100)) ? (void)0 : __assert2("re_exec.c", 944, __func__, "!SvIOK(_bmuseful)") ); &(((XPVIV*) (_bmuseful)->sv_any)->xiv_u.xivu_iv) ; })), utf8_target ? 1 : 0, Perl_sv_peek( sv)); } };} while ( 0) |
930 | int i;do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { int i; for (i=0; i<=2; i++ ) { SV *sv = (utf8_target ? prog->substrs->data[i].utf8_substr : prog->substrs->data[i].substr); if (!sv) continue; Perl_re_printf ( " substrs[%d]: min=%" "ld" " max=%" "ld" " end shift=%" "ld" " useful=%" "ld" " utf8=%d [%s]\n", i, (IV)prog->substrs-> data[i].min_offset, (IV)prog->substrs->data[i].max_offset , (IV)prog->substrs->data[i].end_shift, (*({ SV *const _bmuseful = ((SV *)({ void *_p = (sv); _p; })); ((((svtype)((_bmuseful )->sv_flags & 0xff)) >= SVt_PVIV) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_bmuseful) >= SVt_PVIV" )); ((( ((_bmuseful)->sv_flags & 0x00004000) && ((_bmuseful)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &(( (XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))->xmg_u .xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_bmuseful , 'B')) )) ? (void)0 : __assert2("re_exec.c", 944, __func__, "SvVALID(_bmuseful)" )); ((!((_bmuseful)->sv_flags & 0x00000100)) ? (void)0 : __assert2("re_exec.c", 944, __func__, "!SvIOK(_bmuseful)") ); &(((XPVIV*) (_bmuseful)->sv_any)->xiv_u.xivu_iv) ; })), utf8_target ? 1 : 0, Perl_sv_peek( sv)); } };} while ( 0) |
931 | 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)))) { int i; for (i=0; i<=2; i++ ) { SV *sv = (utf8_target ? prog->substrs->data[i].utf8_substr : prog->substrs->data[i].substr); if (!sv) continue; Perl_re_printf ( " substrs[%d]: min=%" "ld" " max=%" "ld" " end shift=%" "ld" " useful=%" "ld" " utf8=%d [%s]\n", i, (IV)prog->substrs-> data[i].min_offset, (IV)prog->substrs->data[i].max_offset , (IV)prog->substrs->data[i].end_shift, (*({ SV *const _bmuseful = ((SV *)({ void *_p = (sv); _p; })); ((((svtype)((_bmuseful )->sv_flags & 0xff)) >= SVt_PVIV) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_bmuseful) >= SVt_PVIV" )); ((( ((_bmuseful)->sv_flags & 0x00004000) && ((_bmuseful)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &(( (XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))->xmg_u .xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_bmuseful , 'B')) )) ? (void)0 : __assert2("re_exec.c", 944, __func__, "SvVALID(_bmuseful)" )); ((!((_bmuseful)->sv_flags & 0x00000100)) ? (void)0 : __assert2("re_exec.c", 944, __func__, "!SvIOK(_bmuseful)") ); &(((XPVIV*) (_bmuseful)->sv_any)->xiv_u.xivu_iv) ; })), utf8_target ? 1 : 0, Perl_sv_peek( sv)); } };} while ( 0) |
932 | SV *sv = (utf8_target ? prog->substrs->data[i].utf8_substrdo {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { int i; for (i=0; i<=2; i++ ) { SV *sv = (utf8_target ? prog->substrs->data[i].utf8_substr : prog->substrs->data[i].substr); if (!sv) continue; Perl_re_printf ( " substrs[%d]: min=%" "ld" " max=%" "ld" " end shift=%" "ld" " useful=%" "ld" " utf8=%d [%s]\n", i, (IV)prog->substrs-> data[i].min_offset, (IV)prog->substrs->data[i].max_offset , (IV)prog->substrs->data[i].end_shift, (*({ SV *const _bmuseful = ((SV *)({ void *_p = (sv); _p; })); ((((svtype)((_bmuseful )->sv_flags & 0xff)) >= SVt_PVIV) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_bmuseful) >= SVt_PVIV" )); ((( ((_bmuseful)->sv_flags & 0x00004000) && ((_bmuseful)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &(( (XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))->xmg_u .xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_bmuseful , 'B')) )) ? (void)0 : __assert2("re_exec.c", 944, __func__, "SvVALID(_bmuseful)" )); ((!((_bmuseful)->sv_flags & 0x00000100)) ? (void)0 : __assert2("re_exec.c", 944, __func__, "!SvIOK(_bmuseful)") ); &(((XPVIV*) (_bmuseful)->sv_any)->xiv_u.xivu_iv) ; })), utf8_target ? 1 : 0, Perl_sv_peek( sv)); } };} while ( 0) |
933 | : prog->substrs->data[i].substr);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { int i; for (i=0; i<=2; i++ ) { SV *sv = (utf8_target ? prog->substrs->data[i].utf8_substr : prog->substrs->data[i].substr); if (!sv) continue; Perl_re_printf ( " substrs[%d]: min=%" "ld" " max=%" "ld" " end shift=%" "ld" " useful=%" "ld" " utf8=%d [%s]\n", i, (IV)prog->substrs-> data[i].min_offset, (IV)prog->substrs->data[i].max_offset , (IV)prog->substrs->data[i].end_shift, (*({ SV *const _bmuseful = ((SV *)({ void *_p = (sv); _p; })); ((((svtype)((_bmuseful )->sv_flags & 0xff)) >= SVt_PVIV) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_bmuseful) >= SVt_PVIV" )); ((( ((_bmuseful)->sv_flags & 0x00004000) && ((_bmuseful)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &(( (XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))->xmg_u .xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_bmuseful , 'B')) )) ? (void)0 : __assert2("re_exec.c", 944, __func__, "SvVALID(_bmuseful)" )); ((!((_bmuseful)->sv_flags & 0x00000100)) ? (void)0 : __assert2("re_exec.c", 944, __func__, "!SvIOK(_bmuseful)") ); &(((XPVIV*) (_bmuseful)->sv_any)->xiv_u.xivu_iv) ; })), utf8_target ? 1 : 0, Perl_sv_peek( sv)); } };} while ( 0) |
934 | if (!sv)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { int i; for (i=0; i<=2; i++ ) { SV *sv = (utf8_target ? prog->substrs->data[i].utf8_substr : prog->substrs->data[i].substr); if (!sv) continue; Perl_re_printf ( " substrs[%d]: min=%" "ld" " max=%" "ld" " end shift=%" "ld" " useful=%" "ld" " utf8=%d [%s]\n", i, (IV)prog->substrs-> data[i].min_offset, (IV)prog->substrs->data[i].max_offset , (IV)prog->substrs->data[i].end_shift, (*({ SV *const _bmuseful = ((SV *)({ void *_p = (sv); _p; })); ((((svtype)((_bmuseful )->sv_flags & 0xff)) >= SVt_PVIV) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_bmuseful) >= SVt_PVIV" )); ((( ((_bmuseful)->sv_flags & 0x00004000) && ((_bmuseful)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &(( (XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))->xmg_u .xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_bmuseful , 'B')) )) ? (void)0 : __assert2("re_exec.c", 944, __func__, "SvVALID(_bmuseful)" )); ((!((_bmuseful)->sv_flags & 0x00000100)) ? (void)0 : __assert2("re_exec.c", 944, __func__, "!SvIOK(_bmuseful)") ); &(((XPVIV*) (_bmuseful)->sv_any)->xiv_u.xivu_iv) ; })), utf8_target ? 1 : 0, Perl_sv_peek( sv)); } };} while ( 0) |
935 | continue;do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { int i; for (i=0; i<=2; i++ ) { SV *sv = (utf8_target ? prog->substrs->data[i].utf8_substr : prog->substrs->data[i].substr); if (!sv) continue; Perl_re_printf ( " substrs[%d]: min=%" "ld" " max=%" "ld" " end shift=%" "ld" " useful=%" "ld" " utf8=%d [%s]\n", i, (IV)prog->substrs-> data[i].min_offset, (IV)prog->substrs->data[i].max_offset , (IV)prog->substrs->data[i].end_shift, (*({ SV *const _bmuseful = ((SV *)({ void *_p = (sv); _p; })); ((((svtype)((_bmuseful )->sv_flags & 0xff)) >= SVt_PVIV) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_bmuseful) >= SVt_PVIV" )); ((( ((_bmuseful)->sv_flags & 0x00004000) && ((_bmuseful)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &(( (XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))->xmg_u .xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_bmuseful , 'B')) )) ? (void)0 : __assert2("re_exec.c", 944, __func__, "SvVALID(_bmuseful)" )); ((!((_bmuseful)->sv_flags & 0x00000100)) ? (void)0 : __assert2("re_exec.c", 944, __func__, "!SvIOK(_bmuseful)") ); &(((XPVIV*) (_bmuseful)->sv_any)->xiv_u.xivu_iv) ; })), utf8_target ? 1 : 0, Perl_sv_peek( sv)); } };} while ( 0) |
936 | |
937 | Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { int i; for (i=0; i<=2; i++ ) { SV *sv = (utf8_target ? prog->substrs->data[i].utf8_substr : prog->substrs->data[i].substr); if (!sv) continue; Perl_re_printf ( " substrs[%d]: min=%" "ld" " max=%" "ld" " end shift=%" "ld" " useful=%" "ld" " utf8=%d [%s]\n", i, (IV)prog->substrs-> data[i].min_offset, (IV)prog->substrs->data[i].max_offset , (IV)prog->substrs->data[i].end_shift, (*({ SV *const _bmuseful = ((SV *)({ void *_p = (sv); _p; })); ((((svtype)((_bmuseful )->sv_flags & 0xff)) >= SVt_PVIV) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_bmuseful) >= SVt_PVIV" )); ((( ((_bmuseful)->sv_flags & 0x00004000) && ((_bmuseful)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &(( (XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))->xmg_u .xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_bmuseful , 'B')) )) ? (void)0 : __assert2("re_exec.c", 944, __func__, "SvVALID(_bmuseful)" )); ((!((_bmuseful)->sv_flags & 0x00000100)) ? (void)0 : __assert2("re_exec.c", 944, __func__, "!SvIOK(_bmuseful)") ); &(((XPVIV*) (_bmuseful)->sv_any)->xiv_u.xivu_iv) ; })), utf8_target ? 1 : 0, Perl_sv_peek( sv)); } };} while ( 0) |
938 | " substrs[%d]: min=%" IVdf " max=%" IVdf " end shift=%" IVdfdo {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { int i; for (i=0; i<=2; i++ ) { SV *sv = (utf8_target ? prog->substrs->data[i].utf8_substr : prog->substrs->data[i].substr); if (!sv) continue; Perl_re_printf ( " substrs[%d]: min=%" "ld" " max=%" "ld" " end shift=%" "ld" " useful=%" "ld" " utf8=%d [%s]\n", i, (IV)prog->substrs-> data[i].min_offset, (IV)prog->substrs->data[i].max_offset , (IV)prog->substrs->data[i].end_shift, (*({ SV *const _bmuseful = ((SV *)({ void *_p = (sv); _p; })); ((((svtype)((_bmuseful )->sv_flags & 0xff)) >= SVt_PVIV) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_bmuseful) >= SVt_PVIV" )); ((( ((_bmuseful)->sv_flags & 0x00004000) && ((_bmuseful)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &(( (XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))->xmg_u .xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_bmuseful , 'B')) )) ? (void)0 : __assert2("re_exec.c", 944, __func__, "SvVALID(_bmuseful)" )); ((!((_bmuseful)->sv_flags & 0x00000100)) ? (void)0 : __assert2("re_exec.c", 944, __func__, "!SvIOK(_bmuseful)") ); &(((XPVIV*) (_bmuseful)->sv_any)->xiv_u.xivu_iv) ; })), utf8_target ? 1 : 0, Perl_sv_peek( sv)); } };} while ( 0) |
939 | " useful=%" IVdf " utf8=%d [%s]\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { int i; for (i=0; i<=2; i++ ) { SV *sv = (utf8_target ? prog->substrs->data[i].utf8_substr : prog->substrs->data[i].substr); if (!sv) continue; Perl_re_printf ( " substrs[%d]: min=%" "ld" " max=%" "ld" " end shift=%" "ld" " useful=%" "ld" " utf8=%d [%s]\n", i, (IV)prog->substrs-> data[i].min_offset, (IV)prog->substrs->data[i].max_offset , (IV)prog->substrs->data[i].end_shift, (*({ SV *const _bmuseful = ((SV *)({ void *_p = (sv); _p; })); ((((svtype)((_bmuseful )->sv_flags & 0xff)) >= SVt_PVIV) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_bmuseful) >= SVt_PVIV" )); ((( ((_bmuseful)->sv_flags & 0x00004000) && ((_bmuseful)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &(( (XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))->xmg_u .xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_bmuseful , 'B')) )) ? (void)0 : __assert2("re_exec.c", 944, __func__, "SvVALID(_bmuseful)" )); ((!((_bmuseful)->sv_flags & 0x00000100)) ? (void)0 : __assert2("re_exec.c", 944, __func__, "!SvIOK(_bmuseful)") ); &(((XPVIV*) (_bmuseful)->sv_any)->xiv_u.xivu_iv) ; })), utf8_target ? 1 : 0, Perl_sv_peek( sv)); } };} while ( 0) |
940 | i,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { int i; for (i=0; i<=2; i++ ) { SV *sv = (utf8_target ? prog->substrs->data[i].utf8_substr : prog->substrs->data[i].substr); if (!sv) continue; Perl_re_printf ( " substrs[%d]: min=%" "ld" " max=%" "ld" " end shift=%" "ld" " useful=%" "ld" " utf8=%d [%s]\n", i, (IV)prog->substrs-> data[i].min_offset, (IV)prog->substrs->data[i].max_offset , (IV)prog->substrs->data[i].end_shift, (*({ SV *const _bmuseful = ((SV *)({ void *_p = (sv); _p; })); ((((svtype)((_bmuseful )->sv_flags & 0xff)) >= SVt_PVIV) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_bmuseful) >= SVt_PVIV" )); ((( ((_bmuseful)->sv_flags & 0x00004000) && ((_bmuseful)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &(( (XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))->xmg_u .xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_bmuseful , 'B')) )) ? (void)0 : __assert2("re_exec.c", 944, __func__, "SvVALID(_bmuseful)" )); ((!((_bmuseful)->sv_flags & 0x00000100)) ? (void)0 : __assert2("re_exec.c", 944, __func__, "!SvIOK(_bmuseful)") ); &(((XPVIV*) (_bmuseful)->sv_any)->xiv_u.xivu_iv) ; })), utf8_target ? 1 : 0, Perl_sv_peek( sv)); } };} while ( 0) |
941 | (IV)prog->substrs->data[i].min_offset,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { int i; for (i=0; i<=2; i++ ) { SV *sv = (utf8_target ? prog->substrs->data[i].utf8_substr : prog->substrs->data[i].substr); if (!sv) continue; Perl_re_printf ( " substrs[%d]: min=%" "ld" " max=%" "ld" " end shift=%" "ld" " useful=%" "ld" " utf8=%d [%s]\n", i, (IV)prog->substrs-> data[i].min_offset, (IV)prog->substrs->data[i].max_offset , (IV)prog->substrs->data[i].end_shift, (*({ SV *const _bmuseful = ((SV *)({ void *_p = (sv); _p; })); ((((svtype)((_bmuseful )->sv_flags & 0xff)) >= SVt_PVIV) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_bmuseful) >= SVt_PVIV" )); ((( ((_bmuseful)->sv_flags & 0x00004000) && ((_bmuseful)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &(( (XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))->xmg_u .xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_bmuseful , 'B')) )) ? (void)0 : __assert2("re_exec.c", 944, __func__, "SvVALID(_bmuseful)" )); ((!((_bmuseful)->sv_flags & 0x00000100)) ? (void)0 : __assert2("re_exec.c", 944, __func__, "!SvIOK(_bmuseful)") ); &(((XPVIV*) (_bmuseful)->sv_any)->xiv_u.xivu_iv) ; })), utf8_target ? 1 : 0, Perl_sv_peek( sv)); } };} while ( 0) |
942 | (IV)prog->substrs->data[i].max_offset,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { int i; for (i=0; i<=2; i++ ) { SV *sv = (utf8_target ? prog->substrs->data[i].utf8_substr : prog->substrs->data[i].substr); if (!sv) continue; Perl_re_printf ( " substrs[%d]: min=%" "ld" " max=%" "ld" " end shift=%" "ld" " useful=%" "ld" " utf8=%d [%s]\n", i, (IV)prog->substrs-> data[i].min_offset, (IV)prog->substrs->data[i].max_offset , (IV)prog->substrs->data[i].end_shift, (*({ SV *const _bmuseful = ((SV *)({ void *_p = (sv); _p; })); ((((svtype)((_bmuseful )->sv_flags & 0xff)) >= SVt_PVIV) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_bmuseful) >= SVt_PVIV" )); ((( ((_bmuseful)->sv_flags & 0x00004000) && ((_bmuseful)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &(( (XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))->xmg_u .xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_bmuseful , 'B')) )) ? (void)0 : __assert2("re_exec.c", 944, __func__, "SvVALID(_bmuseful)" )); ((!((_bmuseful)->sv_flags & 0x00000100)) ? (void)0 : __assert2("re_exec.c", 944, __func__, "!SvIOK(_bmuseful)") ); &(((XPVIV*) (_bmuseful)->sv_any)->xiv_u.xivu_iv) ; })), utf8_target ? 1 : 0, Perl_sv_peek( sv)); } };} while ( 0) |
943 | (IV)prog->substrs->data[i].end_shift,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { int i; for (i=0; i<=2; i++ ) { SV *sv = (utf8_target ? prog->substrs->data[i].utf8_substr : prog->substrs->data[i].substr); if (!sv) continue; Perl_re_printf ( " substrs[%d]: min=%" "ld" " max=%" "ld" " end shift=%" "ld" " useful=%" "ld" " utf8=%d [%s]\n", i, (IV)prog->substrs-> data[i].min_offset, (IV)prog->substrs->data[i].max_offset , (IV)prog->substrs->data[i].end_shift, (*({ SV *const _bmuseful = ((SV *)({ void *_p = (sv); _p; })); ((((svtype)((_bmuseful )->sv_flags & 0xff)) >= SVt_PVIV) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_bmuseful) >= SVt_PVIV" )); ((( ((_bmuseful)->sv_flags & 0x00004000) && ((_bmuseful)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &(( (XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))->xmg_u .xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_bmuseful , 'B')) )) ? (void)0 : __assert2("re_exec.c", 944, __func__, "SvVALID(_bmuseful)" )); ((!((_bmuseful)->sv_flags & 0x00000100)) ? (void)0 : __assert2("re_exec.c", 944, __func__, "!SvIOK(_bmuseful)") ); &(((XPVIV*) (_bmuseful)->sv_any)->xiv_u.xivu_iv) ; })), utf8_target ? 1 : 0, Perl_sv_peek( sv)); } };} while ( 0) |
944 | BmUSEFUL(sv),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { int i; for (i=0; i<=2; i++ ) { SV *sv = (utf8_target ? prog->substrs->data[i].utf8_substr : prog->substrs->data[i].substr); if (!sv) continue; Perl_re_printf ( " substrs[%d]: min=%" "ld" " max=%" "ld" " end shift=%" "ld" " useful=%" "ld" " utf8=%d [%s]\n", i, (IV)prog->substrs-> data[i].min_offset, (IV)prog->substrs->data[i].max_offset , (IV)prog->substrs->data[i].end_shift, (*({ SV *const _bmuseful = ((SV *)({ void *_p = (sv); _p; })); ((((svtype)((_bmuseful )->sv_flags & 0xff)) >= SVt_PVIV) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_bmuseful) >= SVt_PVIV" )); ((( ((_bmuseful)->sv_flags & 0x00004000) && ((_bmuseful)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &(( (XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))->xmg_u .xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_bmuseful , 'B')) )) ? (void)0 : __assert2("re_exec.c", 944, __func__, "SvVALID(_bmuseful)" )); ((!((_bmuseful)->sv_flags & 0x00000100)) ? (void)0 : __assert2("re_exec.c", 944, __func__, "!SvIOK(_bmuseful)") ); &(((XPVIV*) (_bmuseful)->sv_any)->xiv_u.xivu_iv) ; })), utf8_target ? 1 : 0, Perl_sv_peek( sv)); } };} while ( 0) |
945 | utf8_target ? 1 : 0,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { int i; for (i=0; i<=2; i++ ) { SV *sv = (utf8_target ? prog->substrs->data[i].utf8_substr : prog->substrs->data[i].substr); if (!sv) continue; Perl_re_printf ( " substrs[%d]: min=%" "ld" " max=%" "ld" " end shift=%" "ld" " useful=%" "ld" " utf8=%d [%s]\n", i, (IV)prog->substrs-> data[i].min_offset, (IV)prog->substrs->data[i].max_offset , (IV)prog->substrs->data[i].end_shift, (*({ SV *const _bmuseful = ((SV *)({ void *_p = (sv); _p; })); ((((svtype)((_bmuseful )->sv_flags & 0xff)) >= SVt_PVIV) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_bmuseful) >= SVt_PVIV" )); ((( ((_bmuseful)->sv_flags & 0x00004000) && ((_bmuseful)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &(( (XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))->xmg_u .xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_bmuseful , 'B')) )) ? (void)0 : __assert2("re_exec.c", 944, __func__, "SvVALID(_bmuseful)" )); ((!((_bmuseful)->sv_flags & 0x00000100)) ? (void)0 : __assert2("re_exec.c", 944, __func__, "!SvIOK(_bmuseful)") ); &(((XPVIV*) (_bmuseful)->sv_any)->xiv_u.xivu_iv) ; })), utf8_target ? 1 : 0, Perl_sv_peek( sv)); } };} while ( 0) |
946 | SvPEEK(sv));do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { int i; for (i=0; i<=2; i++ ) { SV *sv = (utf8_target ? prog->substrs->data[i].utf8_substr : prog->substrs->data[i].substr); if (!sv) continue; Perl_re_printf ( " substrs[%d]: min=%" "ld" " max=%" "ld" " end shift=%" "ld" " useful=%" "ld" " utf8=%d [%s]\n", i, (IV)prog->substrs-> data[i].min_offset, (IV)prog->substrs->data[i].max_offset , (IV)prog->substrs->data[i].end_shift, (*({ SV *const _bmuseful = ((SV *)({ void *_p = (sv); _p; })); ((((svtype)((_bmuseful )->sv_flags & 0xff)) >= SVt_PVIV) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_bmuseful) >= SVt_PVIV" )); ((( ((_bmuseful)->sv_flags & 0x00004000) && ((_bmuseful)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &(( (XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))->xmg_u .xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_bmuseful , 'B')) )) ? (void)0 : __assert2("re_exec.c", 944, __func__, "SvVALID(_bmuseful)" )); ((!((_bmuseful)->sv_flags & 0x00000100)) ? (void)0 : __assert2("re_exec.c", 944, __func__, "!SvIOK(_bmuseful)") ); &(((XPVIV*) (_bmuseful)->sv_any)->xiv_u.xivu_iv) ; })), utf8_target ? 1 : 0, Perl_sv_peek( sv)); } };} while ( 0) |
947 | }do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { int i; for (i=0; i<=2; i++ ) { SV *sv = (utf8_target ? prog->substrs->data[i].utf8_substr : prog->substrs->data[i].substr); if (!sv) continue; Perl_re_printf ( " substrs[%d]: min=%" "ld" " max=%" "ld" " end shift=%" "ld" " useful=%" "ld" " utf8=%d [%s]\n", i, (IV)prog->substrs-> data[i].min_offset, (IV)prog->substrs->data[i].max_offset , (IV)prog->substrs->data[i].end_shift, (*({ SV *const _bmuseful = ((SV *)({ void *_p = (sv); _p; })); ((((svtype)((_bmuseful )->sv_flags & 0xff)) >= SVt_PVIV) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_bmuseful) >= SVt_PVIV" )); ((( ((_bmuseful)->sv_flags & 0x00004000) && ((_bmuseful)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &(( (XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))->xmg_u .xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_bmuseful , 'B')) )) ? (void)0 : __assert2("re_exec.c", 944, __func__, "SvVALID(_bmuseful)" )); ((!((_bmuseful)->sv_flags & 0x00000100)) ? (void)0 : __assert2("re_exec.c", 944, __func__, "!SvIOK(_bmuseful)") ); &(((XPVIV*) (_bmuseful)->sv_any)->xiv_u.xivu_iv) ; })), utf8_target ? 1 : 0, Perl_sv_peek( sv)); } };} while ( 0) |
948 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { int i; for (i=0; i<=2; i++ ) { SV *sv = (utf8_target ? prog->substrs->data[i].utf8_substr : prog->substrs->data[i].substr); if (!sv) continue; Perl_re_printf ( " substrs[%d]: min=%" "ld" " max=%" "ld" " end shift=%" "ld" " useful=%" "ld" " utf8=%d [%s]\n", i, (IV)prog->substrs-> data[i].min_offset, (IV)prog->substrs->data[i].max_offset , (IV)prog->substrs->data[i].end_shift, (*({ SV *const _bmuseful = ((SV *)({ void *_p = (sv); _p; })); ((((svtype)((_bmuseful )->sv_flags & 0xff)) >= SVt_PVIV) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_bmuseful) >= SVt_PVIV" )); ((( ((_bmuseful)->sv_flags & 0x00004000) && ((_bmuseful)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic )->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2 ("re_exec.c", 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 944, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &(( (XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))->xmg_u .xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_bmuseful , 'B')) )) ? (void)0 : __assert2("re_exec.c", 944, __func__, "SvVALID(_bmuseful)" )); ((!((_bmuseful)->sv_flags & 0x00000100)) ? (void)0 : __assert2("re_exec.c", 944, __func__, "!SvIOK(_bmuseful)") ); &(((XPVIV*) (_bmuseful)->sv_any)->xiv_u.xivu_iv) ; })), utf8_target ? 1 : 0, Perl_sv_peek( sv)); } };} while ( 0); |
949 | |
950 | if (prog->intflags & PREGf_ANCH( 0x00000800 | 0x00001000 | 0x00000400 )) { /* Match at \G, beg-of-str or after \n */ |
951 | |
952 | /* ml_anch: check after \n? |
953 | * |
954 | * A note about PREGf_IMPLICIT: on an un-anchored pattern beginning |
955 | * with /.*.../, these flags will have been added by the |
956 | * compiler: |
957 | * /.*abc/, /.*abc/m: PREGf_IMPLICIT | PREGf_ANCH_MBOL |
958 | * /.*abc/s: PREGf_IMPLICIT | PREGf_ANCH_SBOL |
959 | */ |
960 | ml_anch = (prog->intflags & PREGf_ANCH_MBOL0x00000400) |
961 | && !(prog->intflags & PREGf_IMPLICIT0x00000002); |
962 | |
963 | if (!ml_anch && !(prog->intflags & PREGf_IMPLICIT0x00000002)) { |
964 | /* we are only allowed to match at BOS or \G */ |
965 | |
966 | /* trivially reject if there's a BOS anchor and we're not at BOS. |
967 | * |
968 | * Note that we don't try to do a similar quick reject for |
969 | * \G, since generally the caller will have calculated strpos |
970 | * based on pos() and gofs, so the string is already correctly |
971 | * anchored by definition; and handling the exceptions would |
972 | * be too fiddly (e.g. REXEC_IGNOREPOS). |
973 | */ |
974 | if ( strpos != strbeg |
975 | && (prog->intflags & PREGf_ANCH_SBOL0x00000800)) |
976 | { |
977 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Not at start...\n");} while (0) |
978 | " Not at start...\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Not at start...\n");} while (0); |
979 | goto fail; |
980 | } |
981 | |
982 | /* in the presence of an anchor, the anchored (relative to the |
983 | * start of the regex) substr must also be anchored relative |
984 | * to strpos. So quickly reject if substr isn't found there. |
985 | * This works for \G too, because the caller will already have |
986 | * subtracted gofs from pos, and gofs is the offset from the |
987 | * \G to the start of the regex. For example, in /.abc\Gdef/, |
988 | * where substr="abcdef", pos()=3, gofs=4, offset_min=1: |
989 | * caller will have set strpos=pos()-4; we look for the substr |
990 | * at position pos()-4+1, which lines up with the "a" */ |
991 | |
992 | if (prog->check_offset_minsubstrs->data[2].min_offset == prog->check_offset_maxsubstrs->data[2].max_offset) { |
993 | /* Substring at constant offset from beg-of-str... */ |
994 | SSize_tssize_t slen = SvCUR(check)(*({ const SV *const _svcur = (const SV *)(check); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 994, __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_exec.c", 994, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 994, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })); |
995 | char *s = HOP3c(strpos, prog->check_offset_min, strend)((char*)(reginfo->is_utf8_target ? S_reghop3((U8*)(strpos) , prog->substrs->data[2].min_offset, (U8*)(strend)) : ( U8*)(strpos + prog->substrs->data[2].min_offset))); |
996 | |
997 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Looking for check substr at fixed offset %" "ld" "...\n" , (IV)prog->substrs->data[2].min_offset);} while (0) |
998 | " Looking for check substr at fixed offset %" IVdf "...\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Looking for check substr at fixed offset %" "ld" "...\n" , (IV)prog->substrs->data[2].min_offset);} while (0) |
999 | (IV)prog->check_offset_min))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Looking for check substr at fixed offset %" "ld" "...\n" , (IV)prog->substrs->data[2].min_offset);} while (0); |
1000 | |
1001 | if (SvTAIL(check)({ const SV *const _svtail = (const SV *)(check); ((((svtype) ((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1001, __func__, "SvTYPE(_svtail) != SVt_PVAV" )); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV ) ? (void)0 : __assert2("re_exec.c", 1001, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 1001, __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_exec.c", 1001, __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_exec.c" , 1001, __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_exec.c", 1001, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })) { |
1002 | /* In this case, the regex is anchored at the end too. |
1003 | * Unless it's a multiline match, the lengths must match |
1004 | * exactly, give or take a \n. NB: slen >= 1 since |
1005 | * the last char of check is \n */ |
1006 | if (!multiline |
1007 | && ( strend - s > slen |
1008 | || strend - s < slen - 1 |
1009 | || (strend - s == slen && strend[-1] != '\n'))) |
1010 | { |
1011 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " String too long...\n");} while (0) |
1012 | " String too long...\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " String too long...\n");} while (0); |
1013 | goto fail_finish; |
1014 | } |
1015 | /* Now should match s[0..slen-2] */ |
1016 | slen--; |
1017 | } |
1018 | if (slen && (strend - s < slen |
1019 | || *SvPVX_const(check)((const char*)(0 + (check)->sv_u.svu_pv)) != *s |
1020 | || (slen > 1 && (memNE(SvPVX_const(check), s, slen)(! (memcmp(((const void *) (((const char*)(0 + (check)->sv_u .svu_pv)))), ((const void *) (s)), slen) == 0)))))) |
1021 | { |
1022 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " String not equal...\n");} while (0) |
1023 | " String not equal...\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " String not equal...\n");} while (0); |
1024 | goto fail_finish; |
1025 | } |
1026 | |
1027 | check_at = s; |
1028 | goto success_at_start; |
1029 | } |
1030 | } |
1031 | } |
1032 | |
1033 | end_shift = prog->check_end_shiftsubstrs->data[2].end_shift; |
1034 | |
1035 | #ifdef DEBUGGING /* 7/99: reports of failure (with the older version) */ |
1036 | if (end_shift < 0) |
1037 | Perl_croak(aTHX_ "panic: end_shift: %" IVdf"ld" " pattern:\n%s\n ", |
1038 | (IV)end_shift, RX_PRECOMP(rx)((*({ SV *const _svpvx = ((SV *)({ void *_p = (rx); _p; })); ( (PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 1038, __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_exec.c", 1038, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 1038, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) + Perl_ReANY((const REGEXP *)(rx))->pre_prefix)); |
1039 | #endif |
1040 | |
1041 | restart: |
1042 | |
1043 | /* This is the (re)entry point of the main loop in this function. |
1044 | * The goal of this loop is to: |
1045 | * 1) find the "check" substring in the region rx_origin..strend |
1046 | * (adjusted by start_shift / end_shift). If not found, reject |
1047 | * immediately. |
1048 | * 2) If it exists, look for the "other" substr too if defined; for |
1049 | * example, if the check substr maps to the anchored substr, then |
1050 | * check the floating substr, and vice-versa. If not found, go |
1051 | * back to (1) with rx_origin suitably incremented. |
1052 | * 3) If we find an rx_origin position that doesn't contradict |
1053 | * either of the substrings, then check the possible additional |
1054 | * constraints on rx_origin of /^.../m or a known start class. |
1055 | * If these fail, then depending on which constraints fail, jump |
1056 | * back to here, or to various other re-entry points further along |
1057 | * that skip some of the first steps. |
1058 | * 4) If we pass all those tests, update the BmUSEFUL() count on the |
1059 | * substring. If the start position was determined to be at the |
1060 | * beginning of the string - so, not rejected, but not optimised, |
1061 | * since we have to run regmatch from position 0 - decrement the |
1062 | * BmUSEFUL() count. Otherwise increment it. |
1063 | */ |
1064 | |
1065 | |
1066 | /* first, look for the 'check' substring */ |
1067 | |
1068 | { |
1069 | U8* start_point; |
1070 | U8* end_point; |
1071 | |
1072 | 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( " At restart: rx_origin=%" "ld" " Check offset min: %" "ld" " Start shift: %" "ld" " End shift %" "ld" " Real end Shift: %" "ld" "\n", (IV)(rx_origin - strbeg ), (IV)prog->substrs->data[2].min_offset, (IV)start_shift , (IV)end_shift, (IV)prog->substrs->data[2].end_shift); };} while (0) |
1073 | 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( " At restart: rx_origin=%" "ld" " Check offset min: %" "ld" " Start shift: %" "ld" " End shift %" "ld" " Real end Shift: %" "ld" "\n", (IV)(rx_origin - strbeg ), (IV)prog->substrs->data[2].min_offset, (IV)start_shift , (IV)end_shift, (IV)prog->substrs->data[2].end_shift); };} while (0) |
1074 | " At restart: rx_origin=%" IVdf " Check offset min: %" IVdfdo {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( " At restart: rx_origin=%" "ld" " Check offset min: %" "ld" " Start shift: %" "ld" " End shift %" "ld" " Real end Shift: %" "ld" "\n", (IV)(rx_origin - strbeg ), (IV)prog->substrs->data[2].min_offset, (IV)start_shift , (IV)end_shift, (IV)prog->substrs->data[2].end_shift); };} while (0) |
1075 | " Start shift: %" IVdf " End shift %" IVdfdo {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( " At restart: rx_origin=%" "ld" " Check offset min: %" "ld" " Start shift: %" "ld" " End shift %" "ld" " Real end Shift: %" "ld" "\n", (IV)(rx_origin - strbeg ), (IV)prog->substrs->data[2].min_offset, (IV)start_shift , (IV)end_shift, (IV)prog->substrs->data[2].end_shift); };} while (0) |
1076 | " Real end Shift: %" IVdf "\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( " At restart: rx_origin=%" "ld" " Check offset min: %" "ld" " Start shift: %" "ld" " End shift %" "ld" " Real end Shift: %" "ld" "\n", (IV)(rx_origin - strbeg ), (IV)prog->substrs->data[2].min_offset, (IV)start_shift , (IV)end_shift, (IV)prog->substrs->data[2].end_shift); };} while (0) |
1077 | (IV)(rx_origin - strbeg),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( " At restart: rx_origin=%" "ld" " Check offset min: %" "ld" " Start shift: %" "ld" " End shift %" "ld" " Real end Shift: %" "ld" "\n", (IV)(rx_origin - strbeg ), (IV)prog->substrs->data[2].min_offset, (IV)start_shift , (IV)end_shift, (IV)prog->substrs->data[2].end_shift); };} while (0) |
1078 | (IV)prog->check_offset_min,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( " At restart: rx_origin=%" "ld" " Check offset min: %" "ld" " Start shift: %" "ld" " End shift %" "ld" " Real end Shift: %" "ld" "\n", (IV)(rx_origin - strbeg ), (IV)prog->substrs->data[2].min_offset, (IV)start_shift , (IV)end_shift, (IV)prog->substrs->data[2].end_shift); };} while (0) |
1079 | (IV)start_shift,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( " At restart: rx_origin=%" "ld" " Check offset min: %" "ld" " Start shift: %" "ld" " End shift %" "ld" " Real end Shift: %" "ld" "\n", (IV)(rx_origin - strbeg ), (IV)prog->substrs->data[2].min_offset, (IV)start_shift , (IV)end_shift, (IV)prog->substrs->data[2].end_shift); };} while (0) |
1080 | (IV)end_shift,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( " At restart: rx_origin=%" "ld" " Check offset min: %" "ld" " Start shift: %" "ld" " End shift %" "ld" " Real end Shift: %" "ld" "\n", (IV)(rx_origin - strbeg ), (IV)prog->substrs->data[2].min_offset, (IV)start_shift , (IV)end_shift, (IV)prog->substrs->data[2].end_shift); };} while (0) |
1081 | (IV)prog->check_end_shift);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( " At restart: rx_origin=%" "ld" " Check offset min: %" "ld" " Start shift: %" "ld" " End shift %" "ld" " Real end Shift: %" "ld" "\n", (IV)(rx_origin - strbeg ), (IV)prog->substrs->data[2].min_offset, (IV)start_shift , (IV)end_shift, (IV)prog->substrs->data[2].end_shift); };} while (0) |
1082 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) { Perl_re_printf( " At restart: rx_origin=%" "ld" " Check offset min: %" "ld" " Start shift: %" "ld" " End shift %" "ld" " Real end Shift: %" "ld" "\n", (IV)(rx_origin - strbeg ), (IV)prog->substrs->data[2].min_offset, (IV)start_shift , (IV)end_shift, (IV)prog->substrs->data[2].end_shift); };} while (0); |
1083 | |
1084 | end_point = HOPBACK3(strend, end_shift, rx_origin)(reginfo->is_utf8_target ? S_reghopmaybe3((U8*)strend, (ssize_t )0-end_shift, (U8*)(rx_origin)) : (strend - end_shift >= rx_origin ) ? (U8*)strend - end_shift : ((void*)0)); |
1085 | if (!end_point) |
1086 | goto fail_finish; |
1087 | start_point = HOPMAYBE3(rx_origin, start_shift, end_point)(reginfo->is_utf8_target ? S_reghopmaybe3((U8*)rx_origin, start_shift , (U8*)(end_point)) : ((U8*)rx_origin + start_shift <= end_point ) ? (U8*)rx_origin + start_shift : ((void*)0)); |
1088 | if (!start_point) |
1089 | goto fail_finish; |
1090 | |
1091 | |
1092 | /* If the regex is absolutely anchored to either the start of the |
1093 | * string (SBOL) or to pos() (ANCH_GPOS), then |
1094 | * check_offset_max represents an upper bound on the string where |
1095 | * the substr could start. For the ANCH_GPOS case, we assume that |
1096 | * the caller of intuit will have already set strpos to |
1097 | * pos()-gofs, so in this case strpos + offset_max will still be |
1098 | * an upper bound on the substr. |
1099 | */ |
1100 | if (!ml_anch |
1101 | && prog->intflags & PREGf_ANCH( 0x00000800 | 0x00001000 | 0x00000400 ) |
1102 | && prog->check_offset_maxsubstrs->data[2].max_offset != SSize_t_MAX(ssize_t)(~(size_t)0 >> 1)) |
1103 | { |
1104 | SSize_tssize_t check_len = SvCUR(check)(*({ const SV *const _svcur = (const SV *)(check); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 1104, __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_exec.c", 1104, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 1104, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - !!SvTAIL(check)({ const SV *const _svtail = (const SV *)(check); ((((svtype) ((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1104, __func__, "SvTYPE(_svtail) != SVt_PVAV" )); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV ) ? (void)0 : __assert2("re_exec.c", 1104, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 1104, __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_exec.c", 1104, __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_exec.c" , 1104, __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_exec.c", 1104, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }); |
1105 | const char * const anchor = |
1106 | (prog->intflags & PREGf_ANCH_GPOS0x00001000 ? strpos : strbeg); |
1107 | SSize_tssize_t targ_len = (char*)end_point - anchor; |
1108 | |
1109 | if (check_len > targ_len) { |
1110 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "Target string too short to match required substring...\n") ;} while (0) |
1111 | "Target string too short to match required substring...\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "Target string too short to match required substring...\n") ;} while (0); |
1112 | goto fail_finish; |
1113 | } |
1114 | |
1115 | /* do a bytes rather than chars comparison. It's conservative; |
1116 | * so it skips doing the HOP if the result can't possibly end |
1117 | * up earlier than the old value of end_point. |
1118 | */ |
1119 | assert(anchor + check_len <= (char *)end_point)((anchor + check_len <= (char *)end_point) ? (void)0 : __assert2 ("re_exec.c", 1119, __func__, "anchor + check_len <= (char *)end_point" )); |
1120 | if (prog->check_offset_maxsubstrs->data[2].max_offset + check_len < targ_len) { |
1121 | end_point = HOP3lim((U8*)anchor,(reginfo->is_utf8_target ? S_reghop3((U8*)((U8*)anchor), prog ->substrs->data[2].max_offset, (U8*)(end_point - check_len )) : (U8*)(((U8*)anchor + prog->substrs->data[2].max_offset ) > end_point - check_len ? end_point - check_len : ((U8*) anchor + prog->substrs->data[2].max_offset))) |
1122 | prog->check_offset_max,(reginfo->is_utf8_target ? S_reghop3((U8*)((U8*)anchor), prog ->substrs->data[2].max_offset, (U8*)(end_point - check_len )) : (U8*)(((U8*)anchor + prog->substrs->data[2].max_offset ) > end_point - check_len ? end_point - check_len : ((U8*) anchor + prog->substrs->data[2].max_offset))) |
1123 | end_point - check_len(reginfo->is_utf8_target ? S_reghop3((U8*)((U8*)anchor), prog ->substrs->data[2].max_offset, (U8*)(end_point - check_len )) : (U8*)(((U8*)anchor + prog->substrs->data[2].max_offset ) > end_point - check_len ? end_point - check_len : ((U8*) anchor + prog->substrs->data[2].max_offset))) |
1124 | )(reginfo->is_utf8_target ? S_reghop3((U8*)((U8*)anchor), prog ->substrs->data[2].max_offset, (U8*)(end_point - check_len )) : (U8*)(((U8*)anchor + prog->substrs->data[2].max_offset ) > end_point - check_len ? end_point - check_len : ((U8*) anchor + prog->substrs->data[2].max_offset))) |
1125 | + check_len; |
1126 | if (end_point < start_point) |
1127 | goto fail_finish; |
1128 | } |
1129 | } |
1130 | |
1131 | check_at = fbm_instr( start_point, end_point,Perl_fbm_instr( start_point,end_point,check,multiline ? 1 : 0 ) |
1132 | check, multiline ? FBMrf_MULTILINE : 0)Perl_fbm_instr( start_point,end_point,check,multiline ? 1 : 0 ); |
1133 | |
1134 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " doing 'check' fbm scan, [%" "ld" "..%" "ld" "] gave %" "ld" "\n", (IV)((char*)start_point - strbeg), (IV)((char*)end_point - strbeg), (IV)(check_at ? check_at - strbeg : -1) );} while (0) |
1135 | " doing 'check' fbm scan, [%" IVdf "..%" IVdf "] gave %" IVdf "\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " doing 'check' fbm scan, [%" "ld" "..%" "ld" "] gave %" "ld" "\n", (IV)((char*)start_point - strbeg), (IV)((char*)end_point - strbeg), (IV)(check_at ? check_at - strbeg : -1) );} while (0) |
1136 | (IV)((char*)start_point - strbeg),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " doing 'check' fbm scan, [%" "ld" "..%" "ld" "] gave %" "ld" "\n", (IV)((char*)start_point - strbeg), (IV)((char*)end_point - strbeg), (IV)(check_at ? check_at - strbeg : -1) );} while (0) |
1137 | (IV)((char*)end_point - strbeg),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " doing 'check' fbm scan, [%" "ld" "..%" "ld" "] gave %" "ld" "\n", (IV)((char*)start_point - strbeg), (IV)((char*)end_point - strbeg), (IV)(check_at ? check_at - strbeg : -1) );} while (0) |
1138 | (IV)(check_at ? check_at - strbeg : -1)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " doing 'check' fbm scan, [%" "ld" "..%" "ld" "] gave %" "ld" "\n", (IV)((char*)start_point - strbeg), (IV)((char*)end_point - strbeg), (IV)(check_at ? check_at - strbeg : -1) );} while (0) |
1139 | ))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " doing 'check' fbm scan, [%" "ld" "..%" "ld" "] gave %" "ld" "\n", (IV)((char*)start_point - strbeg), (IV)((char*)end_point - strbeg), (IV)(check_at ? check_at - strbeg : -1) );} while (0); |
1140 | |
1141 | /* Update the count-of-usability, remove useless subpatterns, |
1142 | unshift s. */ |
1143 | |
1144 | DEBUG_EXECUTE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { const char * const quoted = Perl_pv_pretty( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad.pad[0])); _p; })) ; ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 1145, __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_exec.c", 1145, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 1145, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (check)->sv_u.svu_pv))),((( *({ const SV *const _svcur = (const SV *)(check); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 1146, __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_exec.c", 1146, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 1146, __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 *)(check); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1146, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1146, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 1146, __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_exec.c", 1146, __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_exec.c" , 1146, __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_exec.c", 1146, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( " %s %s substr %s%s%s", (check_at ? "Found" : "Did not find"), (check == (utf8_target ? prog-> substrs->data[0].utf8_substr : prog->substrs->data[0 ].substr) ? "anchored" : "floating"), quoted, (({ const SV *const _svtail = (const SV *)(check); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1152, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype) ((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1152, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 1152, __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_exec.c", 1152, __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_exec.c" , 1152, __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_exec.c", 1152, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : ""), (check_at ? " at offset " : "...\n" ) ); };} while (0) |
1145 | RE_PV_QUOTED_DECL(quoted, utf8_target, PERL_DEBUG_PAD_ZERO(0),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { const char * const quoted = Perl_pv_pretty( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad.pad[0])); _p; })) ; ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 1145, __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_exec.c", 1145, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 1145, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (check)->sv_u.svu_pv))),((( *({ const SV *const _svcur = (const SV *)(check); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 1146, __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_exec.c", 1146, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 1146, __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 *)(check); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1146, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1146, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 1146, __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_exec.c", 1146, __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_exec.c" , 1146, __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_exec.c", 1146, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( " %s %s substr %s%s%s", (check_at ? "Found" : "Did not find"), (check == (utf8_target ? prog-> substrs->data[0].utf8_substr : prog->substrs->data[0 ].substr) ? "anchored" : "floating"), quoted, (({ const SV *const _svtail = (const SV *)(check); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1152, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype) ((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1152, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 1152, __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_exec.c", 1152, __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_exec.c" , 1152, __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_exec.c", 1152, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : ""), (check_at ? " at offset " : "...\n" ) ); };} while (0) |
1146 | SvPVX_const(check), RE_SV_DUMPLEN(check), 30);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { const char * const quoted = Perl_pv_pretty( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad.pad[0])); _p; })) ; ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 1145, __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_exec.c", 1145, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 1145, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (check)->sv_u.svu_pv))),((( *({ const SV *const _svcur = (const SV *)(check); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 1146, __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_exec.c", 1146, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 1146, __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 *)(check); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1146, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1146, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 1146, __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_exec.c", 1146, __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_exec.c" , 1146, __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_exec.c", 1146, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( " %s %s substr %s%s%s", (check_at ? "Found" : "Did not find"), (check == (utf8_target ? prog-> substrs->data[0].utf8_substr : prog->substrs->data[0 ].substr) ? "anchored" : "floating"), quoted, (({ const SV *const _svtail = (const SV *)(check); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1152, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype) ((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1152, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 1152, __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_exec.c", 1152, __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_exec.c" , 1152, __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_exec.c", 1152, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : ""), (check_at ? " at offset " : "...\n" ) ); };} while (0) |
1147 | Perl_re_printf( aTHX_ " %s %s substr %s%s%s",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { const char * const quoted = Perl_pv_pretty( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad.pad[0])); _p; })) ; ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 1145, __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_exec.c", 1145, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 1145, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (check)->sv_u.svu_pv))),((( *({ const SV *const _svcur = (const SV *)(check); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 1146, __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_exec.c", 1146, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 1146, __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 *)(check); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1146, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1146, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 1146, __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_exec.c", 1146, __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_exec.c" , 1146, __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_exec.c", 1146, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( " %s %s substr %s%s%s", (check_at ? "Found" : "Did not find"), (check == (utf8_target ? prog-> substrs->data[0].utf8_substr : prog->substrs->data[0 ].substr) ? "anchored" : "floating"), quoted, (({ const SV *const _svtail = (const SV *)(check); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1152, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype) ((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1152, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 1152, __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_exec.c", 1152, __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_exec.c" , 1152, __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_exec.c", 1152, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : ""), (check_at ? " at offset " : "...\n" ) ); };} while (0) |
1148 | (check_at ? "Found" : "Did not find"),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { const char * const quoted = Perl_pv_pretty( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad.pad[0])); _p; })) ; ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 1145, __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_exec.c", 1145, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 1145, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (check)->sv_u.svu_pv))),((( *({ const SV *const _svcur = (const SV *)(check); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 1146, __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_exec.c", 1146, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 1146, __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 *)(check); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1146, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1146, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 1146, __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_exec.c", 1146, __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_exec.c" , 1146, __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_exec.c", 1146, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( " %s %s substr %s%s%s", (check_at ? "Found" : "Did not find"), (check == (utf8_target ? prog-> substrs->data[0].utf8_substr : prog->substrs->data[0 ].substr) ? "anchored" : "floating"), quoted, (({ const SV *const _svtail = (const SV *)(check); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1152, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype) ((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1152, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 1152, __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_exec.c", 1152, __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_exec.c" , 1152, __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_exec.c", 1152, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : ""), (check_at ? " at offset " : "...\n" ) ); };} while (0) |
1149 | (check == (utf8_target ? prog->anchored_utf8 : prog->anchored_substr)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { const char * const quoted = Perl_pv_pretty( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad.pad[0])); _p; })) ; ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 1145, __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_exec.c", 1145, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 1145, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (check)->sv_u.svu_pv))),((( *({ const SV *const _svcur = (const SV *)(check); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 1146, __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_exec.c", 1146, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 1146, __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 *)(check); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1146, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1146, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 1146, __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_exec.c", 1146, __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_exec.c" , 1146, __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_exec.c", 1146, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( " %s %s substr %s%s%s", (check_at ? "Found" : "Did not find"), (check == (utf8_target ? prog-> substrs->data[0].utf8_substr : prog->substrs->data[0 ].substr) ? "anchored" : "floating"), quoted, (({ const SV *const _svtail = (const SV *)(check); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1152, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype) ((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1152, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 1152, __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_exec.c", 1152, __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_exec.c" , 1152, __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_exec.c", 1152, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : ""), (check_at ? " at offset " : "...\n" ) ); };} while (0) |
1150 | ? "anchored" : "floating"),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { const char * const quoted = Perl_pv_pretty( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad.pad[0])); _p; })) ; ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 1145, __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_exec.c", 1145, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 1145, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (check)->sv_u.svu_pv))),((( *({ const SV *const _svcur = (const SV *)(check); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 1146, __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_exec.c", 1146, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 1146, __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 *)(check); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1146, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1146, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 1146, __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_exec.c", 1146, __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_exec.c" , 1146, __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_exec.c", 1146, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( " %s %s substr %s%s%s", (check_at ? "Found" : "Did not find"), (check == (utf8_target ? prog-> substrs->data[0].utf8_substr : prog->substrs->data[0 ].substr) ? "anchored" : "floating"), quoted, (({ const SV *const _svtail = (const SV *)(check); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1152, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype) ((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1152, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 1152, __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_exec.c", 1152, __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_exec.c" , 1152, __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_exec.c", 1152, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : ""), (check_at ? " at offset " : "...\n" ) ); };} while (0) |
1151 | quoted,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { const char * const quoted = Perl_pv_pretty( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad.pad[0])); _p; })) ; ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 1145, __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_exec.c", 1145, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 1145, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (check)->sv_u.svu_pv))),((( *({ const SV *const _svcur = (const SV *)(check); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 1146, __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_exec.c", 1146, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 1146, __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 *)(check); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1146, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1146, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 1146, __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_exec.c", 1146, __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_exec.c" , 1146, __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_exec.c", 1146, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( " %s %s substr %s%s%s", (check_at ? "Found" : "Did not find"), (check == (utf8_target ? prog-> substrs->data[0].utf8_substr : prog->substrs->data[0 ].substr) ? "anchored" : "floating"), quoted, (({ const SV *const _svtail = (const SV *)(check); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1152, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype) ((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1152, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 1152, __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_exec.c", 1152, __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_exec.c" , 1152, __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_exec.c", 1152, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : ""), (check_at ? " at offset " : "...\n" ) ); };} while (0) |
1152 | RE_SV_TAIL(check),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { const char * const quoted = Perl_pv_pretty( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad.pad[0])); _p; })) ; ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 1145, __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_exec.c", 1145, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 1145, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (check)->sv_u.svu_pv))),((( *({ const SV *const _svcur = (const SV *)(check); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 1146, __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_exec.c", 1146, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 1146, __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 *)(check); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1146, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1146, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 1146, __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_exec.c", 1146, __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_exec.c" , 1146, __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_exec.c", 1146, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( " %s %s substr %s%s%s", (check_at ? "Found" : "Did not find"), (check == (utf8_target ? prog-> substrs->data[0].utf8_substr : prog->substrs->data[0 ].substr) ? "anchored" : "floating"), quoted, (({ const SV *const _svtail = (const SV *)(check); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1152, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype) ((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1152, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 1152, __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_exec.c", 1152, __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_exec.c" , 1152, __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_exec.c", 1152, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : ""), (check_at ? " at offset " : "...\n" ) ); };} while (0) |
1153 | (check_at ? " at offset " : "...\n") );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { const char * const quoted = Perl_pv_pretty( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad.pad[0])); _p; })) ; ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 1145, __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_exec.c", 1145, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 1145, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (check)->sv_u.svu_pv))),((( *({ const SV *const _svcur = (const SV *)(check); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 1146, __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_exec.c", 1146, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 1146, __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 *)(check); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1146, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1146, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 1146, __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_exec.c", 1146, __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_exec.c" , 1146, __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_exec.c", 1146, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( " %s %s substr %s%s%s", (check_at ? "Found" : "Did not find"), (check == (utf8_target ? prog-> substrs->data[0].utf8_substr : prog->substrs->data[0 ].substr) ? "anchored" : "floating"), quoted, (({ const SV *const _svtail = (const SV *)(check); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1152, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype) ((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1152, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 1152, __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_exec.c", 1152, __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_exec.c" , 1152, __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_exec.c", 1152, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : ""), (check_at ? " at offset " : "...\n" ) ); };} while (0) |
1154 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { const char * const quoted = Perl_pv_pretty( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad.pad[0])); _p; })) ; ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 1145, __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_exec.c", 1145, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 1145, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (check)->sv_u.svu_pv))),((( *({ const SV *const _svcur = (const SV *)(check); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 1146, __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_exec.c", 1146, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 1146, __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 *)(check); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1146, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1146, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 1146, __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_exec.c", 1146, __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_exec.c" , 1146, __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_exec.c", 1146, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( " %s %s substr %s%s%s", (check_at ? "Found" : "Did not find"), (check == (utf8_target ? prog-> substrs->data[0].utf8_substr : prog->substrs->data[0 ].substr) ? "anchored" : "floating"), quoted, (({ const SV *const _svtail = (const SV *)(check); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1152, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype) ((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1152, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 1152, __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_exec.c", 1152, __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_exec.c" , 1152, __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_exec.c", 1152, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : ""), (check_at ? " at offset " : "...\n" ) ); };} while (0); |
1155 | |
1156 | if (!check_at) |
1157 | goto fail_finish; |
1158 | /* set rx_origin to the minimum position where the regex could start |
1159 | * matching, given the constraint of the just-matched check substring. |
1160 | * But don't set it lower than previously. |
1161 | */ |
1162 | |
1163 | if (check_at - rx_origin > prog->check_offset_maxsubstrs->data[2].max_offset) |
1164 | rx_origin = HOP3c(check_at, -prog->check_offset_max, rx_origin)((char*)(reginfo->is_utf8_target ? S_reghop3((U8*)(check_at ), -prog->substrs->data[2].max_offset, (U8*)(rx_origin) ) : (U8*)(check_at + -prog->substrs->data[2].max_offset ))); |
1165 | /* Finish the diagnostic message */ |
1166 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%ld (rx_origin now %" "ld" ")...\n", (long)(check_at - strbeg ), (IV)(rx_origin - strbeg) );} while (0) |
1167 | "%ld (rx_origin now %" IVdf ")...\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%ld (rx_origin now %" "ld" ")...\n", (long)(check_at - strbeg ), (IV)(rx_origin - strbeg) );} while (0) |
1168 | (long)(check_at - strbeg),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%ld (rx_origin now %" "ld" ")...\n", (long)(check_at - strbeg ), (IV)(rx_origin - strbeg) );} while (0) |
1169 | (IV)(rx_origin - strbeg)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%ld (rx_origin now %" "ld" ")...\n", (long)(check_at - strbeg ), (IV)(rx_origin - strbeg) );} while (0) |
1170 | ))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%ld (rx_origin now %" "ld" ")...\n", (long)(check_at - strbeg ), (IV)(rx_origin - strbeg) );} while (0); |
1171 | } |
1172 | |
1173 | |
1174 | /* now look for the 'other' substring if defined */ |
1175 | |
1176 | if (prog->substrs->data[other_ix].utf8_substr |
1177 | || prog->substrs->data[other_ix].substr) |
1178 | { |
1179 | /* Take into account the "other" substring. */ |
1180 | char *last, *last1; |
1181 | char *s; |
1182 | SV* must; |
1183 | struct reg_substr_datum *other; |
1184 | |
1185 | do_other_substr: |
1186 | other = &prog->substrs->data[other_ix]; |
1187 | if (!utf8_target && !other->substr) { |
1188 | if (!to_byte_substr(prog)S_to_byte_substr( prog)) { |
1189 | NON_UTF8_TARGET_BUT_UTF8_REQUIRED(fail)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00)) ) Perl_re_printf( "%s", non_utf8_target_but_utf8_required);} while (0); goto fail; } while (0); |
1190 | } |
1191 | } |
1192 | |
1193 | /* if "other" is anchored: |
1194 | * we've previously found a floating substr starting at check_at. |
1195 | * This means that the regex origin must lie somewhere |
1196 | * between min (rx_origin): HOP3(check_at, -check_offset_max) |
1197 | * and max: HOP3(check_at, -check_offset_min) |
1198 | * (except that min will be >= strpos) |
1199 | * So the fixed substr must lie somewhere between |
1200 | * HOP3(min, anchored_offset) |
1201 | * HOP3(max, anchored_offset) + SvCUR(substr) |
1202 | */ |
1203 | |
1204 | /* if "other" is floating |
1205 | * Calculate last1, the absolute latest point where the |
1206 | * floating substr could start in the string, ignoring any |
1207 | * constraints from the earlier fixed match. It is calculated |
1208 | * as follows: |
1209 | * |
1210 | * strend - prog->minlen (in chars) is the absolute latest |
1211 | * position within the string where the origin of the regex |
1212 | * could appear. The latest start point for the floating |
1213 | * substr is float_min_offset(*) on from the start of the |
1214 | * regex. last1 simply combines thee two offsets. |
1215 | * |
1216 | * (*) You might think the latest start point should be |
1217 | * float_max_offset from the regex origin, and technically |
1218 | * you'd be correct. However, consider |
1219 | * /a\d{2,4}bcd\w/ |
1220 | * Here, float min, max are 3,5 and minlen is 7. |
1221 | * This can match either |
1222 | * /a\d\dbcd\w/ |
1223 | * /a\d\d\dbcd\w/ |
1224 | * /a\d\d\d\dbcd\w/ |
1225 | * In the first case, the regex matches minlen chars; in the |
1226 | * second, minlen+1, in the third, minlen+2. |
1227 | * In the first case, the floating offset is 3 (which equals |
1228 | * float_min), in the second, 4, and in the third, 5 (which |
1229 | * equals float_max). In all cases, the floating string bcd |
1230 | * can never start more than 4 chars from the end of the |
1231 | * string, which equals minlen - float_min. As the substring |
1232 | * starts to match more than float_min from the start of the |
1233 | * regex, it makes the regex match more than minlen chars, |
1234 | * and the two cancel each other out. So we can always use |
1235 | * float_min - minlen, rather than float_max - minlen for the |
1236 | * latest position in the string. |
1237 | * |
1238 | * Note that -minlen + float_min_offset is equivalent (AFAIKT) |
1239 | * to CHR_SVLEN(must) - !!SvTAIL(must) + prog->float_end_shift |
1240 | */ |
1241 | |
1242 | assert(prog->minlen >= other->min_offset)((prog->minlen >= other->min_offset) ? (void)0 : __assert2 ("re_exec.c", 1242, __func__, "prog->minlen >= other->min_offset" )); |
1243 | last1 = HOP3c(strend,((char*)(reginfo->is_utf8_target ? S_reghop3((U8*)(strend) , other->min_offset - prog->minlen, (U8*)(strbeg)) : (U8 *)(strend + other->min_offset - prog->minlen))) |
1244 | other->min_offset - prog->minlen, strbeg)((char*)(reginfo->is_utf8_target ? S_reghop3((U8*)(strend) , other->min_offset - prog->minlen, (U8*)(strbeg)) : (U8 *)(strend + other->min_offset - prog->minlen))); |
1245 | |
1246 | if (other_ix) {/* i.e. if (other-is-float) */ |
1247 | /* last is the latest point where the floating substr could |
1248 | * start, *given* any constraints from the earlier fixed |
1249 | * match. This constraint is that the floating string starts |
1250 | * <= float_max_offset chars from the regex origin (rx_origin). |
1251 | * If this value is less than last1, use it instead. |
1252 | */ |
1253 | assert(rx_origin <= last1)((rx_origin <= last1) ? (void)0 : __assert2("re_exec.c", 1253 , __func__, "rx_origin <= last1")); |
1254 | last = |
1255 | /* this condition handles the offset==infinity case, and |
1256 | * is a short-cut otherwise. Although it's comparing a |
1257 | * byte offset to a char length, it does so in a safe way, |
1258 | * since 1 char always occupies 1 or more bytes, |
1259 | * so if a string range is (last1 - rx_origin) bytes, |
1260 | * it will be less than or equal to (last1 - rx_origin) |
1261 | * chars; meaning it errs towards doing the accurate HOP3 |
1262 | * rather than just using last1 as a short-cut */ |
1263 | (last1 - rx_origin) < other->max_offset |
1264 | ? last1 |
1265 | : (char*)HOP3lim(rx_origin, other->max_offset, last1)(reginfo->is_utf8_target ? S_reghop3((U8*)(rx_origin), other ->max_offset, (U8*)(last1)) : (U8*)((rx_origin + other-> max_offset) > last1 ? last1 : (rx_origin + other->max_offset ))); |
1266 | } |
1267 | else { |
1268 | assert(strpos + start_shift <= check_at)((strpos + start_shift <= check_at) ? (void)0 : __assert2( "re_exec.c", 1268, __func__, "strpos + start_shift <= check_at" )); |
1269 | last = HOP4c(check_at, other->min_offset - start_shift,((char*)(reginfo->is_utf8_target ? S_reghop4((U8*)(check_at ), other->min_offset - start_shift, (U8*)(strbeg), (U8*)(strend )) : (U8*)(check_at + other->min_offset - start_shift))) |
1270 | strbeg, strend)((char*)(reginfo->is_utf8_target ? S_reghop4((U8*)(check_at ), other->min_offset - start_shift, (U8*)(strbeg), (U8*)(strend )) : (U8*)(check_at + other->min_offset - start_shift))); |
1271 | } |
1272 | |
1273 | s = HOP3c(rx_origin, other->min_offset, strend)((char*)(reginfo->is_utf8_target ? S_reghop3((U8*)(rx_origin ), other->min_offset, (U8*)(strend)) : (U8*)(rx_origin + other ->min_offset))); |
1274 | if (s < other_last) /* These positions already checked */ |
1275 | s = other_last; |
1276 | |
1277 | must = utf8_target ? other->utf8_substr : other->substr; |
1278 | assert(SvPOK(must))((((must)->sv_flags & 0x00000400)) ? (void)0 : __assert2 ("re_exec.c", 1278, __func__, "SvPOK(must)")); |
1279 | { |
1280 | char *from = s; |
1281 | char *to = last + SvCUR(must)(*({ const SV *const _svcur = (const SV *)(must); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 1281, __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_exec.c", 1281, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 1281, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - (SvTAIL(must)({ const SV *const _svtail = (const SV *)(must); ((((svtype)( (_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2 ("re_exec.c", 1281, __func__, "SvTYPE(_svtail) != SVt_PVAV")) ; ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV ) ? (void)0 : __assert2("re_exec.c", 1281, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 1281, __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_exec.c", 1281, __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_exec.c" , 1281, __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_exec.c", 1281, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0); |
1282 | |
1283 | if (to > strend) |
1284 | to = strend; |
1285 | if (from > to) { |
1286 | s = NULL((void*)0); |
1287 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " skipping 'other' fbm scan: %" "ld" " > %" "ld" "\n", ( IV)(from - strbeg), (IV)(to - strbeg) );} while (0) |
1288 | " skipping 'other' fbm scan: %" IVdf " > %" IVdf "\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " skipping 'other' fbm scan: %" "ld" " > %" "ld" "\n", ( IV)(from - strbeg), (IV)(to - strbeg) );} while (0) |
1289 | (IV)(from - strbeg),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " skipping 'other' fbm scan: %" "ld" " > %" "ld" "\n", ( IV)(from - strbeg), (IV)(to - strbeg) );} while (0) |
1290 | (IV)(to - strbeg)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " skipping 'other' fbm scan: %" "ld" " > %" "ld" "\n", ( IV)(from - strbeg), (IV)(to - strbeg) );} while (0) |
1291 | ))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " skipping 'other' fbm scan: %" "ld" " > %" "ld" "\n", ( IV)(from - strbeg), (IV)(to - strbeg) );} while (0); |
1292 | } |
1293 | else { |
1294 | s = fbm_instr(Perl_fbm_instr( (unsigned char*)from,(unsigned char*)to,must, multiline ? 1 : 0) |
1295 | (unsigned char*)from,Perl_fbm_instr( (unsigned char*)from,(unsigned char*)to,must, multiline ? 1 : 0) |
1296 | (unsigned char*)to,Perl_fbm_instr( (unsigned char*)from,(unsigned char*)to,must, multiline ? 1 : 0) |
1297 | must,Perl_fbm_instr( (unsigned char*)from,(unsigned char*)to,must, multiline ? 1 : 0) |
1298 | multiline ? FBMrf_MULTILINE : 0Perl_fbm_instr( (unsigned char*)from,(unsigned char*)to,must, multiline ? 1 : 0) |
1299 | )Perl_fbm_instr( (unsigned char*)from,(unsigned char*)to,must, multiline ? 1 : 0); |
1300 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " doing 'other' fbm scan, [%" "ld" "..%" "ld" "] gave %" "ld" "\n", (IV)(from - strbeg), (IV)(to - strbeg), (IV)(s ? s - strbeg : -1) );} while (0) |
1301 | " doing 'other' fbm scan, [%" IVdf "..%" IVdf "] gave %" IVdf "\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " doing 'other' fbm scan, [%" "ld" "..%" "ld" "] gave %" "ld" "\n", (IV)(from - strbeg), (IV)(to - strbeg), (IV)(s ? s - strbeg : -1) );} while (0) |
1302 | (IV)(from - strbeg),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " doing 'other' fbm scan, [%" "ld" "..%" "ld" "] gave %" "ld" "\n", (IV)(from - strbeg), (IV)(to - strbeg), (IV)(s ? s - strbeg : -1) );} while (0) |
1303 | (IV)(to - strbeg),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " doing 'other' fbm scan, [%" "ld" "..%" "ld" "] gave %" "ld" "\n", (IV)(from - strbeg), (IV)(to - strbeg), (IV)(s ? s - strbeg : -1) );} while (0) |
1304 | (IV)(s ? s - strbeg : -1)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " doing 'other' fbm scan, [%" "ld" "..%" "ld" "] gave %" "ld" "\n", (IV)(from - strbeg), (IV)(to - strbeg), (IV)(s ? s - strbeg : -1) );} while (0) |
1305 | ))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " doing 'other' fbm scan, [%" "ld" "..%" "ld" "] gave %" "ld" "\n", (IV)(from - strbeg), (IV)(to - strbeg), (IV)(s ? s - strbeg : -1) );} while (0); |
1306 | } |
1307 | } |
1308 | |
1309 | DEBUG_EXECUTE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { const char * const quoted = Perl_pv_pretty( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad.pad[0])); _p; })) ; ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 1310, __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_exec.c", 1310, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 1310, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (must)->sv_u.svu_pv))),(((* ({ const SV *const _svcur = (const SV *)(must); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 1311, __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_exec.c", 1311, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 1311, __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 *)(must); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1311, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1311, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 1311, __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_exec.c", 1311, __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_exec.c" , 1311, __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_exec.c", 1311, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( " %s %s substr %s%s", s ? "Found" : "Contradicts", other_ix ? "floating" : "anchored", quoted, ( ({ const SV *const _svtail = (const SV *)(must); ((((svtype)( (_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2 ("re_exec.c", 1315, __func__, "SvTYPE(_svtail) != SVt_PVAV")) ; ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV ) ? (void)0 : __assert2("re_exec.c", 1315, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 1315, __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_exec.c", 1315, __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_exec.c" , 1315, __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_exec.c", 1315, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : "")); };} while (0) |
1310 | RE_PV_QUOTED_DECL(quoted, utf8_target, PERL_DEBUG_PAD_ZERO(0),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { const char * const quoted = Perl_pv_pretty( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad.pad[0])); _p; })) ; ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 1310, __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_exec.c", 1310, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 1310, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (must)->sv_u.svu_pv))),(((* ({ const SV *const _svcur = (const SV *)(must); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 1311, __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_exec.c", 1311, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 1311, __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 *)(must); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1311, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1311, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 1311, __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_exec.c", 1311, __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_exec.c" , 1311, __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_exec.c", 1311, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( " %s %s substr %s%s", s ? "Found" : "Contradicts", other_ix ? "floating" : "anchored", quoted, ( ({ const SV *const _svtail = (const SV *)(must); ((((svtype)( (_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2 ("re_exec.c", 1315, __func__, "SvTYPE(_svtail) != SVt_PVAV")) ; ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV ) ? (void)0 : __assert2("re_exec.c", 1315, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 1315, __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_exec.c", 1315, __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_exec.c" , 1315, __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_exec.c", 1315, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : "")); };} while (0) |
1311 | SvPVX_const(must), RE_SV_DUMPLEN(must), 30);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { const char * const quoted = Perl_pv_pretty( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad.pad[0])); _p; })) ; ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 1310, __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_exec.c", 1310, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 1310, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (must)->sv_u.svu_pv))),(((* ({ const SV *const _svcur = (const SV *)(must); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 1311, __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_exec.c", 1311, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 1311, __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 *)(must); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1311, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1311, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 1311, __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_exec.c", 1311, __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_exec.c" , 1311, __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_exec.c", 1311, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( " %s %s substr %s%s", s ? "Found" : "Contradicts", other_ix ? "floating" : "anchored", quoted, ( ({ const SV *const _svtail = (const SV *)(must); ((((svtype)( (_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2 ("re_exec.c", 1315, __func__, "SvTYPE(_svtail) != SVt_PVAV")) ; ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV ) ? (void)0 : __assert2("re_exec.c", 1315, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 1315, __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_exec.c", 1315, __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_exec.c" , 1315, __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_exec.c", 1315, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : "")); };} while (0) |
1312 | Perl_re_printf( aTHX_ " %s %s substr %s%s",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { const char * const quoted = Perl_pv_pretty( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad.pad[0])); _p; })) ; ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 1310, __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_exec.c", 1310, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 1310, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (must)->sv_u.svu_pv))),(((* ({ const SV *const _svcur = (const SV *)(must); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 1311, __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_exec.c", 1311, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 1311, __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 *)(must); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1311, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1311, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 1311, __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_exec.c", 1311, __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_exec.c" , 1311, __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_exec.c", 1311, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( " %s %s substr %s%s", s ? "Found" : "Contradicts", other_ix ? "floating" : "anchored", quoted, ( ({ const SV *const _svtail = (const SV *)(must); ((((svtype)( (_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2 ("re_exec.c", 1315, __func__, "SvTYPE(_svtail) != SVt_PVAV")) ; ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV ) ? (void)0 : __assert2("re_exec.c", 1315, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 1315, __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_exec.c", 1315, __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_exec.c" , 1315, __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_exec.c", 1315, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : "")); };} while (0) |
1313 | s ? "Found" : "Contradicts",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { const char * const quoted = Perl_pv_pretty( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad.pad[0])); _p; })) ; ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 1310, __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_exec.c", 1310, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 1310, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (must)->sv_u.svu_pv))),(((* ({ const SV *const _svcur = (const SV *)(must); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 1311, __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_exec.c", 1311, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 1311, __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 *)(must); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1311, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1311, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 1311, __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_exec.c", 1311, __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_exec.c" , 1311, __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_exec.c", 1311, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( " %s %s substr %s%s", s ? "Found" : "Contradicts", other_ix ? "floating" : "anchored", quoted, ( ({ const SV *const _svtail = (const SV *)(must); ((((svtype)( (_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2 ("re_exec.c", 1315, __func__, "SvTYPE(_svtail) != SVt_PVAV")) ; ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV ) ? (void)0 : __assert2("re_exec.c", 1315, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 1315, __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_exec.c", 1315, __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_exec.c" , 1315, __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_exec.c", 1315, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : "")); };} while (0) |
1314 | other_ix ? "floating" : "anchored",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { const char * const quoted = Perl_pv_pretty( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad.pad[0])); _p; })) ; ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 1310, __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_exec.c", 1310, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 1310, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (must)->sv_u.svu_pv))),(((* ({ const SV *const _svcur = (const SV *)(must); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 1311, __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_exec.c", 1311, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 1311, __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 *)(must); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1311, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1311, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 1311, __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_exec.c", 1311, __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_exec.c" , 1311, __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_exec.c", 1311, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( " %s %s substr %s%s", s ? "Found" : "Contradicts", other_ix ? "floating" : "anchored", quoted, ( ({ const SV *const _svtail = (const SV *)(must); ((((svtype)( (_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2 ("re_exec.c", 1315, __func__, "SvTYPE(_svtail) != SVt_PVAV")) ; ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV ) ? (void)0 : __assert2("re_exec.c", 1315, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 1315, __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_exec.c", 1315, __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_exec.c" , 1315, __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_exec.c", 1315, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : "")); };} while (0) |
1315 | quoted, RE_SV_TAIL(must));do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { const char * const quoted = Perl_pv_pretty( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad.pad[0])); _p; })) ; ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 1310, __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_exec.c", 1310, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 1310, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (must)->sv_u.svu_pv))),(((* ({ const SV *const _svcur = (const SV *)(must); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 1311, __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_exec.c", 1311, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 1311, __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 *)(must); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1311, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1311, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 1311, __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_exec.c", 1311, __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_exec.c" , 1311, __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_exec.c", 1311, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( " %s %s substr %s%s", s ? "Found" : "Contradicts", other_ix ? "floating" : "anchored", quoted, ( ({ const SV *const _svtail = (const SV *)(must); ((((svtype)( (_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2 ("re_exec.c", 1315, __func__, "SvTYPE(_svtail) != SVt_PVAV")) ; ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV ) ? (void)0 : __assert2("re_exec.c", 1315, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 1315, __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_exec.c", 1315, __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_exec.c" , 1315, __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_exec.c", 1315, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : "")); };} while (0) |
1316 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { const char * const quoted = Perl_pv_pretty( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad.pad[0])); _p; })) ; ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 1310, __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_exec.c", 1310, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 1310, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (must)->sv_u.svu_pv))),(((* ({ const SV *const _svcur = (const SV *)(must); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 1311, __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_exec.c", 1311, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 1311, __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 *)(must); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 1311, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 1311, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 1311, __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_exec.c", 1311, __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_exec.c" , 1311, __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_exec.c", 1311, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( " %s %s substr %s%s", s ? "Found" : "Contradicts", other_ix ? "floating" : "anchored", quoted, ( ({ const SV *const _svtail = (const SV *)(must); ((((svtype)( (_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2 ("re_exec.c", 1315, __func__, "SvTYPE(_svtail) != SVt_PVAV")) ; ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV ) ? (void)0 : __assert2("re_exec.c", 1315, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 1315, __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_exec.c", 1315, __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_exec.c" , 1315, __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_exec.c", 1315, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : "")); };} while (0); |
1317 | |
1318 | |
1319 | if (!s) { |
1320 | /* last1 is latest possible substr location. If we didn't |
1321 | * find it before there, we never will */ |
1322 | if (last >= last1) { |
1323 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "; giving up...\n");} while (0) |
1324 | "; giving up...\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "; giving up...\n");} while (0); |
1325 | goto fail_finish; |
1326 | } |
1327 | |
1328 | /* try to find the check substr again at a later |
1329 | * position. Maybe next time we'll find the "other" substr |
1330 | * in range too */ |
1331 | other_last = HOP3c(last, 1, strend)((char*)(reginfo->is_utf8_target ? S_reghop3((U8*)(last), 1 , (U8*)(strend)) : (U8*)(last + 1))) /* highest failure */; |
1332 | rx_origin = |
1333 | other_ix /* i.e. if other-is-float */ |
1334 | ? HOP3c(rx_origin, 1, strend)((char*)(reginfo->is_utf8_target ? S_reghop3((U8*)(rx_origin ), 1, (U8*)(strend)) : (U8*)(rx_origin + 1))) |
1335 | : HOP4c(last, 1 - other->min_offset, strbeg, strend)((char*)(reginfo->is_utf8_target ? S_reghop4((U8*)(last), 1 - other->min_offset, (U8*)(strbeg), (U8*)(strend)) : (U8* )(last + 1 - other->min_offset))); |
1336 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "; about to retry %s at offset %ld (rx_origin now %" "ld" ")...\n" , (other_ix ? "floating" : "anchored"), (long)(((char*)(reginfo ->is_utf8_target ? S_reghop3((U8*)(check_at), 1, (U8*)(strend )) : (U8*)(check_at + 1))) - strbeg), (IV)(rx_origin - strbeg ) );} while (0) |
1337 | "; about to retry %s at offset %ld (rx_origin now %" IVdf ")...\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "; about to retry %s at offset %ld (rx_origin now %" "ld" ")...\n" , (other_ix ? "floating" : "anchored"), (long)(((char*)(reginfo ->is_utf8_target ? S_reghop3((U8*)(check_at), 1, (U8*)(strend )) : (U8*)(check_at + 1))) - strbeg), (IV)(rx_origin - strbeg ) );} while (0) |
1338 | (other_ix ? "floating" : "anchored"),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "; about to retry %s at offset %ld (rx_origin now %" "ld" ")...\n" , (other_ix ? "floating" : "anchored"), (long)(((char*)(reginfo ->is_utf8_target ? S_reghop3((U8*)(check_at), 1, (U8*)(strend )) : (U8*)(check_at + 1))) - strbeg), (IV)(rx_origin - strbeg ) );} while (0) |
1339 | (long)(HOP3c(check_at, 1, strend) - strbeg),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "; about to retry %s at offset %ld (rx_origin now %" "ld" ")...\n" , (other_ix ? "floating" : "anchored"), (long)(((char*)(reginfo ->is_utf8_target ? S_reghop3((U8*)(check_at), 1, (U8*)(strend )) : (U8*)(check_at + 1))) - strbeg), (IV)(rx_origin - strbeg ) );} while (0) |
1340 | (IV)(rx_origin - strbeg)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "; about to retry %s at offset %ld (rx_origin now %" "ld" ")...\n" , (other_ix ? "floating" : "anchored"), (long)(((char*)(reginfo ->is_utf8_target ? S_reghop3((U8*)(check_at), 1, (U8*)(strend )) : (U8*)(check_at + 1))) - strbeg), (IV)(rx_origin - strbeg ) );} while (0) |
1341 | ))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "; about to retry %s at offset %ld (rx_origin now %" "ld" ")...\n" , (other_ix ? "floating" : "anchored"), (long)(((char*)(reginfo ->is_utf8_target ? S_reghop3((U8*)(check_at), 1, (U8*)(strend )) : (U8*)(check_at + 1))) - strbeg), (IV)(rx_origin - strbeg ) );} while (0); |
1342 | goto restart; |
1343 | } |
1344 | else { |
1345 | if (other_ix) { /* if (other-is-float) */ |
1346 | /* other_last is set to s, not s+1, since its possible for |
1347 | * a floating substr to fail first time, then succeed |
1348 | * second time at the same floating position; e.g.: |
1349 | * "-AB--AABZ" =~ /\wAB\d*Z/ |
1350 | * The first time round, anchored and float match at |
1351 | * "-(AB)--AAB(Z)" then fail on the initial \w character |
1352 | * class. Second time round, they match at "-AB--A(AB)(Z)". |
1353 | */ |
1354 | other_last = s; |
1355 | } |
1356 | else { |
1357 | rx_origin = HOP3c(s, -other->min_offset, strbeg)((char*)(reginfo->is_utf8_target ? S_reghop3((U8*)(s), -other ->min_offset, (U8*)(strbeg)) : (U8*)(s + -other->min_offset ))); |
1358 | other_last = HOP3c(s, 1, strend)((char*)(reginfo->is_utf8_target ? S_reghop3((U8*)(s), 1, ( U8*)(strend)) : (U8*)(s + 1))); |
1359 | } |
1360 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " at offset %ld (rx_origin now %" "ld" ")...\n", (long)(s - strbeg), (IV)(rx_origin - strbeg) );} while (0) |
1361 | " at offset %ld (rx_origin now %" IVdf ")...\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " at offset %ld (rx_origin now %" "ld" ")...\n", (long)(s - strbeg), (IV)(rx_origin - strbeg) );} while (0) |
1362 | (long)(s - strbeg),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " at offset %ld (rx_origin now %" "ld" ")...\n", (long)(s - strbeg), (IV)(rx_origin - strbeg) );} while (0) |
1363 | (IV)(rx_origin - strbeg)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " at offset %ld (rx_origin now %" "ld" ")...\n", (long)(s - strbeg), (IV)(rx_origin - strbeg) );} while (0) |
1364 | ))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " at offset %ld (rx_origin now %" "ld" ")...\n", (long)(s - strbeg), (IV)(rx_origin - strbeg) );} while (0); |
1365 | |
1366 | } |
1367 | } |
1368 | else { |
1369 | 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( " Check-only match: offset min:%" "ld" " max:%" "ld" " check_at:%" "ld" " rx_origin:%" "ld" " rx_origin-check_at:%" "ld" " strend:%" "ld" "\n", (IV)prog->substrs->data[2] .min_offset, (IV)prog->substrs->data[2].max_offset, (IV )(check_at-strbeg), (IV)(rx_origin-strbeg), (IV)(rx_origin-check_at ), (IV)(strend-strbeg) );} while (0) |
1370 | 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( " Check-only match: offset min:%" "ld" " max:%" "ld" " check_at:%" "ld" " rx_origin:%" "ld" " rx_origin-check_at:%" "ld" " strend:%" "ld" "\n", (IV)prog->substrs->data[2] .min_offset, (IV)prog->substrs->data[2].max_offset, (IV )(check_at-strbeg), (IV)(rx_origin-strbeg), (IV)(rx_origin-check_at ), (IV)(strend-strbeg) );} while (0) |
1371 | " Check-only match: offset min:%" IVdf " max:%" IVdfdo {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( " Check-only match: offset min:%" "ld" " max:%" "ld" " check_at:%" "ld" " rx_origin:%" "ld" " rx_origin-check_at:%" "ld" " strend:%" "ld" "\n", (IV)prog->substrs->data[2] .min_offset, (IV)prog->substrs->data[2].max_offset, (IV )(check_at-strbeg), (IV)(rx_origin-strbeg), (IV)(rx_origin-check_at ), (IV)(strend-strbeg) );} while (0) |
1372 | " check_at:%" IVdf " rx_origin:%" IVdf " rx_origin-check_at:%" IVdfdo {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( " Check-only match: offset min:%" "ld" " max:%" "ld" " check_at:%" "ld" " rx_origin:%" "ld" " rx_origin-check_at:%" "ld" " strend:%" "ld" "\n", (IV)prog->substrs->data[2] .min_offset, (IV)prog->substrs->data[2].max_offset, (IV )(check_at-strbeg), (IV)(rx_origin-strbeg), (IV)(rx_origin-check_at ), (IV)(strend-strbeg) );} while (0) |
1373 | " strend:%" IVdf "\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( " Check-only match: offset min:%" "ld" " max:%" "ld" " check_at:%" "ld" " rx_origin:%" "ld" " rx_origin-check_at:%" "ld" " strend:%" "ld" "\n", (IV)prog->substrs->data[2] .min_offset, (IV)prog->substrs->data[2].max_offset, (IV )(check_at-strbeg), (IV)(rx_origin-strbeg), (IV)(rx_origin-check_at ), (IV)(strend-strbeg) );} while (0) |
1374 | (IV)prog->check_offset_min,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( " Check-only match: offset min:%" "ld" " max:%" "ld" " check_at:%" "ld" " rx_origin:%" "ld" " rx_origin-check_at:%" "ld" " strend:%" "ld" "\n", (IV)prog->substrs->data[2] .min_offset, (IV)prog->substrs->data[2].max_offset, (IV )(check_at-strbeg), (IV)(rx_origin-strbeg), (IV)(rx_origin-check_at ), (IV)(strend-strbeg) );} while (0) |
1375 | (IV)prog->check_offset_max,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( " Check-only match: offset min:%" "ld" " max:%" "ld" " check_at:%" "ld" " rx_origin:%" "ld" " rx_origin-check_at:%" "ld" " strend:%" "ld" "\n", (IV)prog->substrs->data[2] .min_offset, (IV)prog->substrs->data[2].max_offset, (IV )(check_at-strbeg), (IV)(rx_origin-strbeg), (IV)(rx_origin-check_at ), (IV)(strend-strbeg) );} while (0) |
1376 | (IV)(check_at-strbeg),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( " Check-only match: offset min:%" "ld" " max:%" "ld" " check_at:%" "ld" " rx_origin:%" "ld" " rx_origin-check_at:%" "ld" " strend:%" "ld" "\n", (IV)prog->substrs->data[2] .min_offset, (IV)prog->substrs->data[2].max_offset, (IV )(check_at-strbeg), (IV)(rx_origin-strbeg), (IV)(rx_origin-check_at ), (IV)(strend-strbeg) );} while (0) |
1377 | (IV)(rx_origin-strbeg),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( " Check-only match: offset min:%" "ld" " max:%" "ld" " check_at:%" "ld" " rx_origin:%" "ld" " rx_origin-check_at:%" "ld" " strend:%" "ld" "\n", (IV)prog->substrs->data[2] .min_offset, (IV)prog->substrs->data[2].max_offset, (IV )(check_at-strbeg), (IV)(rx_origin-strbeg), (IV)(rx_origin-check_at ), (IV)(strend-strbeg) );} while (0) |
1378 | (IV)(rx_origin-check_at),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( " Check-only match: offset min:%" "ld" " max:%" "ld" " check_at:%" "ld" " rx_origin:%" "ld" " rx_origin-check_at:%" "ld" " strend:%" "ld" "\n", (IV)prog->substrs->data[2] .min_offset, (IV)prog->substrs->data[2].max_offset, (IV )(check_at-strbeg), (IV)(rx_origin-strbeg), (IV)(rx_origin-check_at ), (IV)(strend-strbeg) );} while (0) |
1379 | (IV)(strend-strbeg)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( " Check-only match: offset min:%" "ld" " max:%" "ld" " check_at:%" "ld" " rx_origin:%" "ld" " rx_origin-check_at:%" "ld" " strend:%" "ld" "\n", (IV)prog->substrs->data[2] .min_offset, (IV)prog->substrs->data[2].max_offset, (IV )(check_at-strbeg), (IV)(rx_origin-strbeg), (IV)(rx_origin-check_at ), (IV)(strend-strbeg) );} while (0) |
1380 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( " Check-only match: offset min:%" "ld" " max:%" "ld" " check_at:%" "ld" " rx_origin:%" "ld" " rx_origin-check_at:%" "ld" " strend:%" "ld" "\n", (IV)prog->substrs->data[2] .min_offset, (IV)prog->substrs->data[2].max_offset, (IV )(check_at-strbeg), (IV)(rx_origin-strbeg), (IV)(rx_origin-check_at ), (IV)(strend-strbeg) );} while (0) |
1381 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || ((0x0100000|0x000002) == (re_debug_flags & (0x0100000|0x000002)))) Perl_re_printf( " Check-only match: offset min:%" "ld" " max:%" "ld" " check_at:%" "ld" " rx_origin:%" "ld" " rx_origin-check_at:%" "ld" " strend:%" "ld" "\n", (IV)prog->substrs->data[2] .min_offset, (IV)prog->substrs->data[2].max_offset, (IV )(check_at-strbeg), (IV)(rx_origin-strbeg), (IV)(rx_origin-check_at ), (IV)(strend-strbeg) );} while (0); |
1382 | } |
1383 | |
1384 | postprocess_substr_matches: |
1385 | |
1386 | /* handle the extra constraint of /^.../m if present */ |
1387 | |
1388 | if (ml_anch && rx_origin != strbeg && rx_origin[-1] != '\n') { |
1389 | char *s; |
1390 | |
1391 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " looking for /^/m anchor");} while (0) |
1392 | " looking for /^/m anchor"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " looking for /^/m anchor");} while (0); |
1393 | |
1394 | /* we have failed the constraint of a \n before rx_origin. |
1395 | * Find the next \n, if any, even if it's beyond the current |
1396 | * anchored and/or floating substrings. Whether we should be |
1397 | * scanning ahead for the next \n or the next substr is debatable. |
1398 | * On the one hand you'd expect rare substrings to appear less |
1399 | * often than \n's. On the other hand, searching for \n means |
1400 | * we're effectively flipping between check_substr and "\n" on each |
1401 | * iteration as the current "rarest" string candidate, which |
1402 | * means for example that we'll quickly reject the whole string if |
1403 | * hasn't got a \n, rather than trying every substr position |
1404 | * first |
1405 | */ |
1406 | |
1407 | s = HOP3c(strend, - prog->minlen, strpos)((char*)(reginfo->is_utf8_target ? S_reghop3((U8*)(strend) , - prog->minlen, (U8*)(strpos)) : (U8*)(strend + - prog-> minlen))); |
1408 | if (s <= rx_origin || |
1409 | ! ( rx_origin = (char *)memchr(rx_origin, '\n', s - rx_origin))) |
1410 | { |
1411 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Did not find /%s^%s/m...\n", PL_colors[0], PL_colors[1]) ;} while (0) |
1412 | " Did not find /%s^%s/m...\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Did not find /%s^%s/m...\n", PL_colors[0], PL_colors[1]) ;} while (0) |
1413 | PL_colors[0], PL_colors[1]))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Did not find /%s^%s/m...\n", PL_colors[0], PL_colors[1]) ;} while (0); |
1414 | goto fail_finish; |
1415 | } |
1416 | |
1417 | /* earliest possible origin is 1 char after the \n. |
1418 | * (since *rx_origin == '\n', it's safe to ++ here rather than |
1419 | * HOP(rx_origin, 1)) */ |
1420 | rx_origin++; |
1421 | |
1422 | if (prog->substrs->check_ix == 0 /* check is anchored */ |
1423 | || rx_origin >= HOP3c(check_at, - prog->check_offset_min, strpos)((char*)(reginfo->is_utf8_target ? S_reghop3((U8*)(check_at ), - prog->substrs->data[2].min_offset, (U8*)(strpos)) : (U8*)(check_at + - prog->substrs->data[2].min_offset)) )) |
1424 | { |
1425 | /* Position contradicts check-string; either because |
1426 | * check was anchored (and thus has no wiggle room), |
1427 | * or check was float and rx_origin is above the float range */ |
1428 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Found /%s^%s/m, about to restart lookup for check-string with rx_origin %ld...\n" , PL_colors[0], PL_colors[1], (long)(rx_origin - strbeg));} while (0) |
1429 | " Found /%s^%s/m, about to restart lookup for check-string with rx_origin %ld...\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Found /%s^%s/m, about to restart lookup for check-string with rx_origin %ld...\n" , PL_colors[0], PL_colors[1], (long)(rx_origin - strbeg));} while (0) |
1430 | PL_colors[0], PL_colors[1], (long)(rx_origin - strbeg)))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Found /%s^%s/m, about to restart lookup for check-string with rx_origin %ld...\n" , PL_colors[0], PL_colors[1], (long)(rx_origin - strbeg));} while (0); |
1431 | goto restart; |
1432 | } |
1433 | |
1434 | /* if we get here, the check substr must have been float, |
1435 | * is in range, and we may or may not have had an anchored |
1436 | * "other" substr which still contradicts */ |
1437 | assert(prog->substrs->check_ix)((prog->substrs->check_ix) ? (void)0 : __assert2("re_exec.c" , 1437, __func__, "prog->substrs->check_ix")); /* check is float */ |
1438 | |
1439 | if (utf8_target ? prog->anchored_utf8substrs->data[0].utf8_substr : prog->anchored_substrsubstrs->data[0].substr) { |
1440 | /* whoops, the anchored "other" substr exists, so we still |
1441 | * contradict. On the other hand, the float "check" substr |
1442 | * didn't contradict, so just retry the anchored "other" |
1443 | * substr */ |
1444 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Found /%s^%s/m, rescanning for anchored from offset %" "ld" " (rx_origin now %" "ld" ")...\n", PL_colors[0], PL_colors[1 ], (IV)(rx_origin - strbeg + prog->substrs->data[0].min_offset ), (IV)(rx_origin - strbeg) );} while (0) |
1445 | " Found /%s^%s/m, rescanning for anchored from offset %" IVdf " (rx_origin now %" IVdf ")...\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Found /%s^%s/m, rescanning for anchored from offset %" "ld" " (rx_origin now %" "ld" ")...\n", PL_colors[0], PL_colors[1 ], (IV)(rx_origin - strbeg + prog->substrs->data[0].min_offset ), (IV)(rx_origin - strbeg) );} while (0) |
1446 | PL_colors[0], PL_colors[1],do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Found /%s^%s/m, rescanning for anchored from offset %" "ld" " (rx_origin now %" "ld" ")...\n", PL_colors[0], PL_colors[1 ], (IV)(rx_origin - strbeg + prog->substrs->data[0].min_offset ), (IV)(rx_origin - strbeg) );} while (0) |
1447 | (IV)(rx_origin - strbeg + prog->anchored_offset),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Found /%s^%s/m, rescanning for anchored from offset %" "ld" " (rx_origin now %" "ld" ")...\n", PL_colors[0], PL_colors[1 ], (IV)(rx_origin - strbeg + prog->substrs->data[0].min_offset ), (IV)(rx_origin - strbeg) );} while (0) |
1448 | (IV)(rx_origin - strbeg)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Found /%s^%s/m, rescanning for anchored from offset %" "ld" " (rx_origin now %" "ld" ")...\n", PL_colors[0], PL_colors[1 ], (IV)(rx_origin - strbeg + prog->substrs->data[0].min_offset ), (IV)(rx_origin - strbeg) );} while (0) |
1449 | ))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Found /%s^%s/m, rescanning for anchored from offset %" "ld" " (rx_origin now %" "ld" ")...\n", PL_colors[0], PL_colors[1 ], (IV)(rx_origin - strbeg + prog->substrs->data[0].min_offset ), (IV)(rx_origin - strbeg) );} while (0); |
1450 | goto do_other_substr; |
1451 | } |
1452 | |
1453 | /* success: we don't contradict the found floating substring |
1454 | * (and there's no anchored substr). */ |
1455 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Found /%s^%s/m with rx_origin %ld...\n", PL_colors[0], PL_colors [1], (long)(rx_origin - strbeg));} while (0) |
1456 | " Found /%s^%s/m with rx_origin %ld...\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Found /%s^%s/m with rx_origin %ld...\n", PL_colors[0], PL_colors [1], (long)(rx_origin - strbeg));} while (0) |
1457 | PL_colors[0], PL_colors[1], (long)(rx_origin - strbeg)))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Found /%s^%s/m with rx_origin %ld...\n", PL_colors[0], PL_colors [1], (long)(rx_origin - strbeg));} while (0); |
1458 | } |
1459 | else { |
1460 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " (multiline anchor test skipped)\n");} while (0) |
1461 | " (multiline anchor test skipped)\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " (multiline anchor test skipped)\n");} while (0); |
1462 | } |
1463 | |
1464 | success_at_start: |
1465 | |
1466 | |
1467 | /* if we have a starting character class, then test that extra constraint. |
1468 | * (trie stclasses are too expensive to use here, we are better off to |
1469 | * leave it to regmatch itself) */ |
1470 | |
1471 | if (progi->regstclass && PL_regkind[OP(progi->regstclass)((progi->regstclass)->type)]!=TRIE88) { |
1472 | const U8* const str = (U8*)STRING(progi->regstclass)((((progi->regstclass)->type) == 41 || ((progi->regstclass )->type) == 51) ? (((((progi->regstclass)->type) == 41 || ((progi->regstclass)->type) == 51) ? (void)0 : __assert2 ("re_exec.c", 1472, __func__, "((progi->regstclass)->type) == 41 || ((progi->regstclass)->type) == 51" )), (((struct regnode_lstring *)progi->regstclass)->string )) : (((((progi->regstclass)->type) != 41 && (( progi->regstclass)->type) != 51) ? (void)0 : __assert2( "re_exec.c", 1472, __func__, "((progi->regstclass)->type) != 41 && ((progi->regstclass)->type) != 51" )), ((struct regnode_string *)progi->regstclass)->string )); |
1473 | |
1474 | /* XXX this value could be pre-computed */ |
1475 | const SSize_tssize_t cl_l = (PL_regkind[OP(progi->regstclass)((progi->regstclass)->type)] == EXACT40 |
1476 | ? (reginfo->is_utf8_pat |
1477 | ? (SSize_tssize_t)utf8_distance(str + STR_LEN(progi->regstclass), str)Perl_utf8_distance( str + ((((progi->regstclass)->type) == 41 || ((progi->regstclass)->type) == 51) ? (((((progi ->regstclass)->type) == 41 || ((progi->regstclass)-> type) == 51) ? (void)0 : __assert2("re_exec.c", 1477, __func__ , "((progi->regstclass)->type) == 41 || ((progi->regstclass)->type) == 51" )), (((struct regnode_lstring *)progi->regstclass)->str_len )) : (((((progi->regstclass)->type) != 41 && (( progi->regstclass)->type) != 51) ? (void)0 : __assert2( "re_exec.c", 1477, __func__, "((progi->regstclass)->type) != 41 && ((progi->regstclass)->type) != 51" )), ((struct regnode_string *)progi->regstclass)->str_len )),str) |
1478 | : (SSize_tssize_t)STR_LEN(progi->regstclass)((((progi->regstclass)->type) == 41 || ((progi->regstclass )->type) == 51) ? (((((progi->regstclass)->type) == 41 || ((progi->regstclass)->type) == 51) ? (void)0 : __assert2 ("re_exec.c", 1478, __func__, "((progi->regstclass)->type) == 41 || ((progi->regstclass)->type) == 51" )), (((struct regnode_lstring *)progi->regstclass)->str_len )) : (((((progi->regstclass)->type) != 41 && (( progi->regstclass)->type) != 51) ? (void)0 : __assert2( "re_exec.c", 1478, __func__, "((progi->regstclass)->type) != 41 && ((progi->regstclass)->type) != 51" )), ((struct regnode_string *)progi->regstclass)->str_len ))) |
1479 | : 1); |
1480 | char * endpos; |
1481 | char *s; |
1482 | /* latest pos that a matching float substr constrains rx start to */ |
1483 | char *rx_max_float = NULL((void*)0); |
1484 | |
1485 | /* if the current rx_origin is anchored, either by satisfying an |
1486 | * anchored substring constraint, or a /^.../m constraint, then we |
1487 | * can reject the current origin if the start class isn't found |
1488 | * at the current position. If we have a float-only match, then |
1489 | * rx_origin is constrained to a range; so look for the start class |
1490 | * in that range. if neither, then look for the start class in the |
1491 | * whole rest of the string */ |
1492 | |
1493 | /* XXX DAPM it's not clear what the minlen test is for, and why |
1494 | * it's not used in the floating case. Nothing in the test suite |
1495 | * causes minlen == 0 here. See <20140313134639.GS12844@iabyn.com>. |
1496 | * Here are some old comments, which may or may not be correct: |
1497 | * |
1498 | * minlen == 0 is possible if regstclass is \b or \B, |
1499 | * and the fixed substr is ''$. |
1500 | * Since minlen is already taken into account, rx_origin+1 is |
1501 | * before strend; accidentally, minlen >= 1 guaranties no false |
1502 | * positives at rx_origin + 1 even for \b or \B. But (minlen? 1 : |
1503 | * 0) below assumes that regstclass does not come from lookahead... |
1504 | * If regstclass takes bytelength more than 1: If charlength==1, OK. |
1505 | * This leaves EXACTF-ish only, which are dealt with in |
1506 | * find_byclass(). |
1507 | */ |
1508 | |
1509 | if (prog->anchored_substrsubstrs->data[0].substr || prog->anchored_utf8substrs->data[0].utf8_substr || ml_anch) |
1510 | endpos = HOP3clim(rx_origin, (prog->minlen ? cl_l : 0), strend)((char*)(reginfo->is_utf8_target ? S_reghop3((U8*)(rx_origin ), (prog->minlen ? cl_l : 0), (U8*)(strend)) : (U8*)((rx_origin + (prog->minlen ? cl_l : 0)) > strend ? strend : (rx_origin + (prog->minlen ? cl_l : 0))))); |
1511 | else if (prog->float_substrsubstrs->data[1].substr || prog->float_utf8substrs->data[1].utf8_substr) { |
1512 | rx_max_float = HOP3c(check_at, -start_shift, strbeg)((char*)(reginfo->is_utf8_target ? S_reghop3((U8*)(check_at ), -start_shift, (U8*)(strbeg)) : (U8*)(check_at + -start_shift ))); |
1513 | endpos = HOP3clim(rx_max_float, cl_l, strend)((char*)(reginfo->is_utf8_target ? S_reghop3((U8*)(rx_max_float ), cl_l, (U8*)(strend)) : (U8*)((rx_max_float + cl_l) > strend ? strend : (rx_max_float + cl_l)))); |
1514 | } |
1515 | else |
1516 | endpos= strend; |
1517 | |
1518 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " looking for class: start_shift: %" "ld" " check_at: %" "ld" " rx_origin: %" "ld" " endpos: %" "ld" "\n", (IV)start_shift , (IV)(check_at - strbeg), (IV)(rx_origin - strbeg), (IV)(endpos - strbeg));} while (0) |
1519 | " looking for class: start_shift: %" IVdf " check_at: %" IVdfdo {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " looking for class: start_shift: %" "ld" " check_at: %" "ld" " rx_origin: %" "ld" " endpos: %" "ld" "\n", (IV)start_shift , (IV)(check_at - strbeg), (IV)(rx_origin - strbeg), (IV)(endpos - strbeg));} while (0) |
1520 | " rx_origin: %" IVdf " endpos: %" IVdf "\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " looking for class: start_shift: %" "ld" " check_at: %" "ld" " rx_origin: %" "ld" " endpos: %" "ld" "\n", (IV)start_shift , (IV)(check_at - strbeg), (IV)(rx_origin - strbeg), (IV)(endpos - strbeg));} while (0) |
1521 | (IV)start_shift, (IV)(check_at - strbeg),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " looking for class: start_shift: %" "ld" " check_at: %" "ld" " rx_origin: %" "ld" " endpos: %" "ld" "\n", (IV)start_shift , (IV)(check_at - strbeg), (IV)(rx_origin - strbeg), (IV)(endpos - strbeg));} while (0) |
1522 | (IV)(rx_origin - strbeg), (IV)(endpos - strbeg)))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " looking for class: start_shift: %" "ld" " check_at: %" "ld" " rx_origin: %" "ld" " endpos: %" "ld" "\n", (IV)start_shift , (IV)(check_at - strbeg), (IV)(rx_origin - strbeg), (IV)(endpos - strbeg));} while (0); |
1523 | |
1524 | s = find_byclass(prog, progi->regstclass, rx_origin, endpos,S_find_byclass( prog,progi->regstclass,rx_origin,endpos,reginfo ) |
1525 | reginfo)S_find_byclass( prog,progi->regstclass,rx_origin,endpos,reginfo ); |
1526 | if (!s) { |
1527 | if (endpos == strend) { |
1528 | DEBUG_EXECUTE_r( Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Could not match STCLASS...\n");} while (0) |
1529 | " Could not match STCLASS...\n") )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Could not match STCLASS...\n");} while (0); |
1530 | goto fail; |
1531 | } |
1532 | DEBUG_EXECUTE_r( Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " This position contradicts STCLASS...\n");} while (0) |
1533 | " This position contradicts STCLASS...\n") )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " This position contradicts STCLASS...\n");} while (0); |
1534 | if ((prog->intflags & PREGf_ANCH( 0x00000800 | 0x00001000 | 0x00000400 )) && !ml_anch |
1535 | && !(prog->intflags & PREGf_IMPLICIT0x00000002)) |
1536 | goto fail; |
1537 | |
1538 | /* Contradict one of substrings */ |
1539 | if (prog->anchored_substrsubstrs->data[0].substr || prog->anchored_utf8substrs->data[0].utf8_substr) { |
1540 | if (prog->substrs->check_ix == 1) { /* check is float */ |
1541 | /* Have both, check_string is floating */ |
1542 | assert(rx_origin + start_shift <= check_at)((rx_origin + start_shift <= check_at) ? (void)0 : __assert2 ("re_exec.c", 1542, __func__, "rx_origin + start_shift <= check_at" )); |
1543 | if (rx_origin + start_shift != check_at) { |
1544 | /* not at latest position float substr could match: |
1545 | * Recheck anchored substring, but not floating. |
1546 | * The condition above is in bytes rather than |
1547 | * chars for efficiency. It's conservative, in |
1548 | * that it errs on the side of doing 'goto |
1549 | * do_other_substr'. In this case, at worst, |
1550 | * an extra anchored search may get done, but in |
1551 | * practice the extra fbm_instr() is likely to |
1552 | * get skipped anyway. */ |
1553 | DEBUG_EXECUTE_r( Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " about to retry anchored at offset %ld (rx_origin now %" "ld" ")...\n", (long)(other_last - strbeg), (IV)(rx_origin - strbeg ) );} while (0) |
1554 | " about to retry anchored at offset %ld (rx_origin now %" IVdf ")...\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " about to retry anchored at offset %ld (rx_origin now %" "ld" ")...\n", (long)(other_last - strbeg), (IV)(rx_origin - strbeg ) );} while (0) |
1555 | (long)(other_last - strbeg),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " about to retry anchored at offset %ld (rx_origin now %" "ld" ")...\n", (long)(other_last - strbeg), (IV)(rx_origin - strbeg ) );} while (0) |
1556 | (IV)(rx_origin - strbeg)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " about to retry anchored at offset %ld (rx_origin now %" "ld" ")...\n", (long)(other_last - strbeg), (IV)(rx_origin - strbeg ) );} while (0) |
1557 | ))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " about to retry anchored at offset %ld (rx_origin now %" "ld" ")...\n", (long)(other_last - strbeg), (IV)(rx_origin - strbeg ) );} while (0); |
1558 | goto do_other_substr; |
1559 | } |
1560 | } |
1561 | } |
1562 | else { |
1563 | /* float-only */ |
1564 | |
1565 | if (ml_anch) { |
1566 | /* In the presence of ml_anch, we might be able to |
1567 | * find another \n without breaking the current float |
1568 | * constraint. */ |
1569 | |
1570 | /* strictly speaking this should be HOP3c(..., 1, ...), |
1571 | * but since we goto a block of code that's going to |
1572 | * search for the next \n if any, its safe here */ |
1573 | rx_origin++; |
1574 | DEBUG_EXECUTE_r( Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " about to look for /%s^%s/m starting at rx_origin %ld...\n" , PL_colors[0], PL_colors[1], (long)(rx_origin - strbeg));} while (0) |
1575 | " about to look for /%s^%s/m starting at rx_origin %ld...\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " about to look for /%s^%s/m starting at rx_origin %ld...\n" , PL_colors[0], PL_colors[1], (long)(rx_origin - strbeg));} while (0) |
1576 | PL_colors[0], PL_colors[1],do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " about to look for /%s^%s/m starting at rx_origin %ld...\n" , PL_colors[0], PL_colors[1], (long)(rx_origin - strbeg));} while (0) |
1577 | (long)(rx_origin - strbeg)) )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " about to look for /%s^%s/m starting at rx_origin %ld...\n" , PL_colors[0], PL_colors[1], (long)(rx_origin - strbeg));} while (0); |
1578 | goto postprocess_substr_matches; |
1579 | } |
1580 | |
1581 | /* strictly speaking this can never be true; but might |
1582 | * be if we ever allow intuit without substrings */ |
1583 | if (!(utf8_target ? prog->float_utf8substrs->data[1].utf8_substr : prog->float_substrsubstrs->data[1].substr)) |
1584 | goto fail; |
1585 | |
1586 | rx_origin = rx_max_float; |
1587 | } |
1588 | |
1589 | /* at this point, any matching substrings have been |
1590 | * contradicted. Start again... */ |
1591 | |
1592 | rx_origin = HOP3c(rx_origin, 1, strend)((char*)(reginfo->is_utf8_target ? S_reghop3((U8*)(rx_origin ), 1, (U8*)(strend)) : (U8*)(rx_origin + 1))); |
1593 | |
1594 | /* uses bytes rather than char calculations for efficiency. |
1595 | * It's conservative: it errs on the side of doing 'goto restart', |
1596 | * where there is code that does a proper char-based test */ |
1597 | if (rx_origin + start_shift + end_shift > strend) { |
1598 | DEBUG_EXECUTE_r( Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Could not match STCLASS...\n");} while (0) |
1599 | " Could not match STCLASS...\n") )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Could not match STCLASS...\n");} while (0); |
1600 | goto fail; |
1601 | } |
1602 | DEBUG_EXECUTE_r( Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " about to look for %s substr starting at offset %ld (rx_origin now %" "ld" ")...\n", (prog->substrs->check_ix ? "floating" : "anchored"), (long)(rx_origin + start_shift - strbeg), (IV)( rx_origin - strbeg) );} while (0) |
1603 | " about to look for %s substr starting at offset %ld (rx_origin now %" IVdf ")...\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " about to look for %s substr starting at offset %ld (rx_origin now %" "ld" ")...\n", (prog->substrs->check_ix ? "floating" : "anchored"), (long)(rx_origin + start_shift - strbeg), (IV)( rx_origin - strbeg) );} while (0) |
1604 | (prog->substrs->check_ix ? "floating" : "anchored"),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " about to look for %s substr starting at offset %ld (rx_origin now %" "ld" ")...\n", (prog->substrs->check_ix ? "floating" : "anchored"), (long)(rx_origin + start_shift - strbeg), (IV)( rx_origin - strbeg) );} while (0) |
1605 | (long)(rx_origin + start_shift - strbeg),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " about to look for %s substr starting at offset %ld (rx_origin now %" "ld" ")...\n", (prog->substrs->check_ix ? "floating" : "anchored"), (long)(rx_origin + start_shift - strbeg), (IV)( rx_origin - strbeg) );} while (0) |
1606 | (IV)(rx_origin - strbeg)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " about to look for %s substr starting at offset %ld (rx_origin now %" "ld" ")...\n", (prog->substrs->check_ix ? "floating" : "anchored"), (long)(rx_origin + start_shift - strbeg), (IV)( rx_origin - strbeg) );} while (0) |
1607 | ))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " about to look for %s substr starting at offset %ld (rx_origin now %" "ld" ")...\n", (prog->substrs->check_ix ? "floating" : "anchored"), (long)(rx_origin + start_shift - strbeg), (IV)( rx_origin - strbeg) );} while (0); |
1608 | goto restart; |
1609 | } |
1610 | |
1611 | /* Success !!! */ |
1612 | |
1613 | if (rx_origin != s) { |
1614 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " By STCLASS: moving %ld --> %ld\n", (long)(rx_origin - strbeg), (long)(s - strbeg));} while (0) |
1615 | " By STCLASS: moving %ld --> %ld\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " By STCLASS: moving %ld --> %ld\n", (long)(rx_origin - strbeg), (long)(s - strbeg));} while (0) |
1616 | (long)(rx_origin - strbeg), (long)(s - strbeg))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " By STCLASS: moving %ld --> %ld\n", (long)(rx_origin - strbeg), (long)(s - strbeg));} while (0) |
1617 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " By STCLASS: moving %ld --> %ld\n", (long)(rx_origin - strbeg), (long)(s - strbeg));} while (0); |
1618 | } |
1619 | else { |
1620 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Does not contradict STCLASS...\n");;} while (0) |
1621 | " Does not contradict STCLASS...\n");do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Does not contradict STCLASS...\n");;} while (0) |
1622 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " Does not contradict STCLASS...\n");;} while (0); |
1623 | } |
1624 | } |
1625 | |
1626 | /* Decide whether using the substrings helped */ |
1627 | |
1628 | if (rx_origin != strpos) { |
1629 | /* Fixed substring is found far enough so that the match |
1630 | cannot start at strpos. */ |
1631 | |
1632 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_ " try at offset...\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " try at offset...\n");} while (0); |
1633 | ++BmUSEFUL(utf8_target ? prog->check_utf8 : prog->check_substr)(*({ SV *const _bmuseful = ((SV *)({ void *_p = (utf8_target ? prog->substrs->data[2].utf8_substr : prog->substrs-> data[2].substr); _p; })); ((((svtype)((_bmuseful)->sv_flags & 0xff)) >= SVt_PVIV) ? (void)0 : __assert2("re_exec.c" , 1633, __func__, "SvTYPE(_bmuseful) >= SVt_PVIV")); ((( ( (_bmuseful)->sv_flags & 0x00004000) && ((_bmuseful )->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 1633, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &( ((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))-> xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 1633, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &( ((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))-> xmg_u.xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_bmuseful , 'B')) )) ? (void)0 : __assert2("re_exec.c", 1633, __func__, "SvVALID(_bmuseful)")); ((!((_bmuseful)->sv_flags & 0x00000100 )) ? (void)0 : __assert2("re_exec.c", 1633, __func__, "!SvIOK(_bmuseful)" )); &(((XPVIV*) (_bmuseful)->sv_any)->xiv_u.xivu_iv ); })); /* hooray/5 */ |
1634 | } |
1635 | else { |
1636 | /* The found rx_origin position does not prohibit matching at |
1637 | * strpos, so calling intuit didn't gain us anything. Decrement |
1638 | * the BmUSEFUL() count on the check substring, and if we reach |
1639 | * zero, free it. */ |
1640 | if (!(prog->intflags & PREGf_NAUGHTY0x00000004) |
1641 | && (utf8_target ? ( |
1642 | prog->check_utf8substrs->data[2].utf8_substr /* Could be deleted already */ |
1643 | && --BmUSEFUL(prog->check_utf8)(*({ SV *const _bmuseful = ((SV *)({ void *_p = (prog->substrs ->data[2].utf8_substr); _p; })); ((((svtype)((_bmuseful)-> sv_flags & 0xff)) >= SVt_PVIV) ? (void)0 : __assert2("re_exec.c" , 1643, __func__, "SvTYPE(_bmuseful) >= SVt_PVIV")); ((( ( (_bmuseful)->sv_flags & 0x00004000) && ((_bmuseful )->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 1643, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &( ((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))-> xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 1643, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &( ((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))-> xmg_u.xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_bmuseful , 'B')) )) ? (void)0 : __assert2("re_exec.c", 1643, __func__, "SvVALID(_bmuseful)")); ((!((_bmuseful)->sv_flags & 0x00000100 )) ? (void)0 : __assert2("re_exec.c", 1643, __func__, "!SvIOK(_bmuseful)" )); &(((XPVIV*) (_bmuseful)->sv_any)->xiv_u.xivu_iv ); })) < 0 |
1644 | && (prog->check_utf8substrs->data[2].utf8_substr == prog->float_utf8substrs->data[1].utf8_substr) |
1645 | ) : ( |
1646 | prog->check_substrsubstrs->data[2].substr /* Could be deleted already */ |
1647 | && --BmUSEFUL(prog->check_substr)(*({ SV *const _bmuseful = ((SV *)({ void *_p = (prog->substrs ->data[2].substr); _p; })); ((((svtype)((_bmuseful)->sv_flags & 0xff)) >= SVt_PVIV) ? (void)0 : __assert2("re_exec.c" , 1647, __func__, "SvTYPE(_bmuseful) >= SVt_PVIV")); ((( ( (_bmuseful)->sv_flags & 0x00004000) && ((_bmuseful )->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 1647, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &( ((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))-> xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 1647, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &( ((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))-> xmg_u.xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_bmuseful , 'B')) )) ? (void)0 : __assert2("re_exec.c", 1647, __func__, "SvVALID(_bmuseful)")); ((!((_bmuseful)->sv_flags & 0x00000100 )) ? (void)0 : __assert2("re_exec.c", 1647, __func__, "!SvIOK(_bmuseful)" )); &(((XPVIV*) (_bmuseful)->sv_any)->xiv_u.xivu_iv ); })) < 0 |
1648 | && (prog->check_substrsubstrs->data[2].substr == prog->float_substrsubstrs->data[1].substr) |
1649 | ))) |
1650 | { |
1651 | /* If flags & SOMETHING - do not do it many times on the same match */ |
1652 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_ " ... Disabling check substring...\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( " ... Disabling check substring...\n");} while (0); |
1653 | /* XXX Does the destruction order has to change with utf8_target? */ |
1654 | SvREFCNT_dec(utf8_target ? prog->check_utf8 : prog->check_substr)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (utf8_target ? prog-> substrs->data[2].utf8_substr : prog->substrs->data[2 ].substr); _p; }))); |
1655 | SvREFCNT_dec(utf8_target ? prog->check_substr : prog->check_utf8)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (utf8_target ? prog-> substrs->data[2].substr : prog->substrs->data[2].utf8_substr ); _p; }))); |
1656 | prog->check_substrsubstrs->data[2].substr = prog->check_utf8substrs->data[2].utf8_substr = NULL((void*)0); /* disable */ |
1657 | prog->float_substrsubstrs->data[1].substr = prog->float_utf8substrs->data[1].utf8_substr = NULL((void*)0); /* clear */ |
1658 | check = NULL((void*)0); /* abort */ |
1659 | /* XXXX This is a remnant of the old implementation. It |
1660 | looks wasteful, since now INTUIT can use many |
1661 | other heuristics. */ |
1662 | prog->extflags &= ~RXf_USE_INTUIT((1U<<(((0 +12) + 2)+7))|(1U<<(((0 +12) + 2)+8))); |
1663 | } |
1664 | } |
1665 | |
1666 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "Intuit: %sSuccessfully guessed:%s match at offset %ld\n", PL_colors [4], PL_colors[5], (long)(rx_origin - strbeg));} while (0) |
1667 | "Intuit: %sSuccessfully guessed:%s match at offset %ld\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "Intuit: %sSuccessfully guessed:%s match at offset %ld\n", PL_colors [4], PL_colors[5], (long)(rx_origin - strbeg));} while (0) |
1668 | PL_colors[4], PL_colors[5], (long)(rx_origin - strbeg)) )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "Intuit: %sSuccessfully guessed:%s match at offset %ld\n", PL_colors [4], PL_colors[5], (long)(rx_origin - strbeg));} while (0); |
1669 | |
1670 | return rx_origin; |
1671 | |
1672 | fail_finish: /* Substring not found */ |
1673 | if (prog->check_substrsubstrs->data[2].substr || prog->check_utf8substrs->data[2].utf8_substr) /* could be removed already */ |
1674 | BmUSEFUL(utf8_target ? prog->check_utf8 : prog->check_substr)(*({ SV *const _bmuseful = ((SV *)({ void *_p = (utf8_target ? prog->substrs->data[2].utf8_substr : prog->substrs-> data[2].substr); _p; })); ((((svtype)((_bmuseful)->sv_flags & 0xff)) >= SVt_PVIV) ? (void)0 : __assert2("re_exec.c" , 1674, __func__, "SvTYPE(_bmuseful) >= SVt_PVIV")); ((( ( (_bmuseful)->sv_flags & 0x00004000) && ((_bmuseful )->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)-> sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 1674, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &( ((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))-> xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(_bmuseful); ((((svtype)((_svmagic)->sv_flags & 0xff)) >= SVt_PVMG) ? (void)0 : __assert2("re_exec.c" , 1674, __func__, "SvTYPE(_svmagic) >= SVt_PVMG")); &( ((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p; }))-> xmg_u.xmg_magic); }))->mg_type == 'B' || Perl_mg_find(_bmuseful , 'B')) )) ? (void)0 : __assert2("re_exec.c", 1674, __func__, "SvVALID(_bmuseful)")); ((!((_bmuseful)->sv_flags & 0x00000100 )) ? (void)0 : __assert2("re_exec.c", 1674, __func__, "!SvIOK(_bmuseful)" )); &(((XPVIV*) (_bmuseful)->sv_any)->xiv_u.xivu_iv ); })) += 5; /* hooray */ |
1675 | fail: |
1676 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_ "%sMatch rejected by optimizer%s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sMatch rejected by optimizer%s\n", PL_colors[4], PL_colors [5]);} while (0) |
1677 | PL_colors[4], PL_colors[5]))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sMatch rejected by optimizer%s\n", PL_colors[4], PL_colors [5]);} while (0); |
1678 | return NULL((void*)0); |
1679 | } |
1680 | |
1681 | |
1682 | #define DECL_TRIE_TYPE(scan)const enum { trie_plain, trie_utf8, trie_utf8_fold, trie_latin_utf8_fold , trie_utf8_exactfa_fold, trie_latin_utf8_exactfa_fold, trie_utf8l , trie_flu8, trie_flu8_latin } trie_type = ((scan->flags == 40) ? (utf8_target ? trie_utf8 : trie_plain) : (scan->flags == 42) ? (utf8_target ? trie_utf8l : trie_plain) : (scan-> flags == 46) ? (utf8_target ? trie_utf8_exactfa_fold : trie_latin_utf8_exactfa_fold ) : (scan->flags == 48 ? (utf8_target ? trie_flu8 : trie_flu8_latin ) : (utf8_target ? trie_utf8_fold : trie_latin_utf8_fold))) \ |
1683 | const enum { trie_plain, trie_utf8, trie_utf8_fold, trie_latin_utf8_fold, \ |
1684 | trie_utf8_exactfa_fold, trie_latin_utf8_exactfa_fold, \ |
1685 | trie_utf8l, trie_flu8, trie_flu8_latin } \ |
1686 | trie_type = ((scan->flags == EXACT40) \ |
1687 | ? (utf8_target ? trie_utf8 : trie_plain) \ |
1688 | : (scan->flags == EXACTL42) \ |
1689 | ? (utf8_target ? trie_utf8l : trie_plain) \ |
1690 | : (scan->flags == EXACTFAA46) \ |
1691 | ? (utf8_target \ |
1692 | ? trie_utf8_exactfa_fold \ |
1693 | : trie_latin_utf8_exactfa_fold) \ |
1694 | : (scan->flags == EXACTFLU848 \ |
1695 | ? (utf8_target \ |
1696 | ? trie_flu8 \ |
1697 | : trie_flu8_latin) \ |
1698 | : (utf8_target \ |
1699 | ? trie_utf8_fold \ |
1700 | : trie_latin_utf8_fold))) |
1701 | |
1702 | /* 'uscan' is set to foldbuf, and incremented, so below the end of uscan is |
1703 | * 'foldbuf+sizeof(foldbuf)' */ |
1704 | #define REXEC_TRIE_READ_CHAR(trie_type, trie, widecharmap, uc, uc_end, uscan, len, uvc, charid, foldlen, foldbuf, uniflags)do { STRLEN skiplen; U8 flags = 0x2; switch (trie_type) { case trie_flu8: do { if (__builtin_expect(((PL_warn_locale) ? (_Bool )1 : (_Bool)0),(0))) { Perl__warn_problematic_locale(); } } while (0); if ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 1704, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 1704, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((U8) ((*uc) | 0))) >= ((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((U8 *) (uc )),(const U8 *) (U8 *) (uc_end),((void*)0)); Perl_warner( (63 ), "Wide character (U+%" "lX" ") in %s", (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field ( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type ])); } } while (0); } goto do_trie_utf8_fold; case trie_utf8_exactfa_fold : flags |= 0x4; case trie_utf8_fold: do_trie_utf8_fold: if ( foldlen >0 ) { uvc = Perl_utf8n_to_uvchr_msgs((const U8*) uscan, foldlen , &len, uniflags, 0, 0); foldlen -= len; uscan += len; len =0; } else { uvc = Perl__to_utf8_fold_flags( (const U8*) uc,uc_end ,foldbuf,&foldlen,flags); len = ((((uc_end) >= (uc)) ? (void)0 : __assert2("re_exec.c", 1704, __func__, "(uc_end) >= (uc)" )), ((uc_end) - (uc)) <= 0 ? 0 : (((((uc_end) - (uc)))< (PL_utf8skip[*(const U8*)(uc)]))?(((uc_end) - (uc))):(PL_utf8skip [*(const U8*)(uc)]))); skiplen = ( ((((U64)(((UV) ((uvc) | 0) ))) < (((U8) (0xFF << 6)) & 0xB0))) ? 1 : ((UV) ( uvc) < (32 * (1U << ( 6))) ? 2 : (UV) (uvc) < (16 * (1U << (2 * 6))) ? 3 : (UV) (uvc) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (uvc) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (uvc) < ( 2 * (1U << (5 * 6))) ? 6 : (UV ) (uvc) < ((UV) 1U << (6 * 6)) ? 7 : 13)); foldlen -= skiplen; uscan = foldbuf + skiplen; } break; case trie_flu8_latin : do { if (__builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool )0),(0))) { Perl__warn_problematic_locale(); } } while (0); goto do_trie_latin_utf8_fold; case trie_latin_utf8_exactfa_fold: flags |= 0x4; case trie_latin_utf8_fold: do_trie_latin_utf8_fold: if ( foldlen>0 ) { uvc = Perl_utf8n_to_uvchr_msgs((const U8* ) uscan, foldlen, &len, uniflags, 0, 0); foldlen -= len; uscan += len; len=0; } else { len = 1; uvc = Perl__to_fold_latin1( (U8) *uc, foldbuf, &foldlen, flags); skiplen = ( ((((U64 )(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6)) & 0xB0 ))) ? 1 : ((UV) (uvc) < (32 * (1U << ( 6))) ? 2 : (UV ) (uvc) < (16 * (1U << (2 * 6))) ? 3 : (UV) (uvc) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (uvc) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (uvc) < ( 2 * (1U << ( 5 * 6))) ? 6 : (UV) (uvc) < ((UV) 1U << (6 * 6)) ? 7 : 13)); foldlen -= skiplen; uscan = foldbuf + skiplen; } break ; case trie_utf8l: do { if (__builtin_expect(((PL_warn_locale ) ? (_Bool)1 : (_Bool)0),(0))) { Perl__warn_problematic_locale (); } } while (0); if (utf8_target && (((( (sizeof(*uc ) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 1704, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 1704, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((U8) ((*uc) | 0))) >= ((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((U8 *) (uc )),(const U8 *) (U8 *) (uc_end),((void*)0)); Perl_warner( (63 ), "Wide character (U+%" "lX" ") in %s", (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field ( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type ])); } } while (0); } case trie_utf8: uvc = Perl_utf8n_to_uvchr_msgs ((const U8*) uc, uc_end - uc, &len, uniflags, 0, 0); break ; case trie_plain: uvc = (UV)*uc; len = 1; } if (uvc < 256 ) { charid = trie->charmap[ uvc ]; } else { charid = 0; if (widecharmap) { SV** const svpp = ((SV**) Perl_hv_common_key_len ( (widecharmap),((char*)&uvc),(sizeof(UV)),(0) ? (0x20 | 0x10 ) : 0x20,((void*)0),0)); if (svpp) charid = (U16)((((*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_exec.c", 1704, __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_exec.c", 1704, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( *svpp,2)); } } } while (0) \do |
1705 | STMT_STARTdo { \ |
1706 | STRLEN skiplen; \ |
1707 | U8 flags = FOLD_FLAGS_FULL0x2; \ |
1708 | switch (trie_type) { \ |
1709 | case trie_flu8: \ |
1710 | _CHECK_AND_WARN_PROBLEMATIC_LOCALEdo { if (__builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool )0),(0))) { Perl__warn_problematic_locale(); } } while (0); \ |
1711 | if (UTF8_IS_ABOVE_LATIN1(*uc)(((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF)) ) ? (void)0 : __assert2("re_exec.c", 1711, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 1711, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((U8) ((*uc) | 0))) >= ((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { \ |
1712 | _CHECK_AND_OUTPUT_WIDE_LOCALE_UTF8_MSG(uc, uc_end)do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) (uc)),(const U8 *) (U8 *) (uc_end),((void*)0)); Perl_warner ( (63 ), "Wide character (U+%" "lX" ") in %s", (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field ( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type ])); } } while (0); \ |
1713 | } \ |
1714 | goto do_trie_utf8_fold; \ |
1715 | case trie_utf8_exactfa_fold: \ |
1716 | flags |= FOLD_FLAGS_NOMIX_ASCII0x4; \ |
1717 | /* FALLTHROUGH */ \ |
1718 | case trie_utf8_fold: \ |
1719 | do_trie_utf8_fold: \ |
1720 | if ( foldlen>0 ) { \ |
1721 | uvc = utf8n_to_uvchr( (const U8*) uscan, foldlen, &len, uniflags )Perl_utf8n_to_uvchr_msgs((const U8*) uscan, foldlen, &len , uniflags, 0, 0); \ |
1722 | foldlen -= len; \ |
1723 | uscan += len; \ |
1724 | len=0; \ |
1725 | } else { \ |
1726 | uvc = _toFOLD_utf8_flags( (const U8*) uc, uc_end, foldbuf, &foldlen, \Perl__to_utf8_fold_flags( (const U8*) uc,uc_end,foldbuf,& foldlen,flags) |
1727 | flags)Perl__to_utf8_fold_flags( (const U8*) uc,uc_end,foldbuf,& foldlen,flags); \ |
1728 | len = UTF8_SAFE_SKIP(uc, uc_end)((((uc_end) >= (uc)) ? (void)0 : __assert2("re_exec.c", 1728 , __func__, "(uc_end) >= (uc)")), ((uc_end) - (uc)) <= 0 ? 0 : (((((uc_end) - (uc)))<(PL_utf8skip[*(const U8*)(uc) ]))?(((uc_end) - (uc))):(PL_utf8skip[*(const U8*)(uc)]))); \ |
1729 | skiplen = UVCHR_SKIP( uvc )( ((((U64)(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6) ) & 0xB0))) ? 1 : ((UV) (uvc) < (32 * (1U << ( 6 ))) ? 2 : (UV) (uvc) < (16 * (1U << (2 * 6))) ? 3 : ( UV) (uvc) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (uvc) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (uvc) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (uvc) < ((UV) 1U << ( 6 * 6)) ? 7 : 13)); \ |
1730 | foldlen -= skiplen; \ |
1731 | uscan = foldbuf + skiplen; \ |
1732 | } \ |
1733 | break; \ |
1734 | case trie_flu8_latin: \ |
1735 | _CHECK_AND_WARN_PROBLEMATIC_LOCALEdo { if (__builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool )0),(0))) { Perl__warn_problematic_locale(); } } while (0); \ |
1736 | goto do_trie_latin_utf8_fold; \ |
1737 | case trie_latin_utf8_exactfa_fold: \ |
1738 | flags |= FOLD_FLAGS_NOMIX_ASCII0x4; \ |
1739 | /* FALLTHROUGH */ \ |
1740 | case trie_latin_utf8_fold: \ |
1741 | do_trie_latin_utf8_fold: \ |
1742 | if ( foldlen>0 ) { \ |
1743 | uvc = utf8n_to_uvchr( (const U8*) uscan, foldlen, &len, uniflags )Perl_utf8n_to_uvchr_msgs((const U8*) uscan, foldlen, &len , uniflags, 0, 0); \ |
1744 | foldlen -= len; \ |
1745 | uscan += len; \ |
1746 | len=0; \ |
1747 | } else { \ |
1748 | len = 1; \ |
1749 | uvc = _to_fold_latin1Perl__to_fold_latin1( (U8) *uc, foldbuf, &foldlen, flags); \ |
1750 | skiplen = UVCHR_SKIP( uvc )( ((((U64)(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6) ) & 0xB0))) ? 1 : ((UV) (uvc) < (32 * (1U << ( 6 ))) ? 2 : (UV) (uvc) < (16 * (1U << (2 * 6))) ? 3 : ( UV) (uvc) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (uvc) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (uvc) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (uvc) < ((UV) 1U << ( 6 * 6)) ? 7 : 13)); \ |
1751 | foldlen -= skiplen; \ |
1752 | uscan = foldbuf + skiplen; \ |
1753 | } \ |
1754 | break; \ |
1755 | case trie_utf8l: \ |
1756 | _CHECK_AND_WARN_PROBLEMATIC_LOCALEdo { if (__builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool )0),(0))) { Perl__warn_problematic_locale(); } } while (0); \ |
1757 | if (utf8_target && UTF8_IS_ABOVE_LATIN1(*uc)(((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF)) ) ? (void)0 : __assert2("re_exec.c", 1757, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 1757, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((U8) ((*uc) | 0))) >= ((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { \ |
1758 | _CHECK_AND_OUTPUT_WIDE_LOCALE_UTF8_MSG(uc, uc_end)do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) (uc)),(const U8 *) (U8 *) (uc_end),((void*)0)); Perl_warner ( (63 ), "Wide character (U+%" "lX" ") in %s", (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field ( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type ])); } } while (0); \ |
1759 | } \ |
1760 | /* FALLTHROUGH */ \ |
1761 | case trie_utf8: \ |
1762 | uvc = utf8n_to_uvchr( (const U8*) uc, uc_end - uc, &len, uniflags )Perl_utf8n_to_uvchr_msgs((const U8*) uc, uc_end - uc, &len , uniflags, 0, 0); \ |
1763 | break; \ |
1764 | case trie_plain: \ |
1765 | uvc = (UV)*uc; \ |
1766 | len = 1; \ |
1767 | } \ |
1768 | if (uvc < 256) { \ |
1769 | charid = trie->charmap[ uvc ]; \ |
1770 | } \ |
1771 | else { \ |
1772 | charid = 0; \ |
1773 | if (widecharmap) { \ |
1774 | SV** const svpp = hv_fetch(widecharmap, \((SV**) Perl_hv_common_key_len( (widecharmap),((char*)&uvc ),(sizeof(UV)),(0) ? (0x20 | 0x10) : 0x20,((void*)0),0)) |
1775 | (char*)&uvc, sizeof(UV), 0)((SV**) Perl_hv_common_key_len( (widecharmap),((char*)&uvc ),(sizeof(UV)),(0) ? (0x20 | 0x10) : 0x20,((void*)0),0)); \ |
1776 | if (svpp) \ |
1777 | 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_exec.c", 1777, __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_exec.c", 1777, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( *svpp,2)); \ |
1778 | } \ |
1779 | } \ |
1780 | } STMT_ENDwhile (0) |
1781 | |
1782 | #define DUMP_EXEC_POS(li,s,doutf8,depth)S_dump_exec_pos( li,s,(reginfo->strend),(reginfo->strbeg ),startpos,doutf8,depth) \ |
1783 | dump_exec_pos(li,s,(reginfo->strend),(reginfo->strbeg), \S_dump_exec_pos( li,s,(reginfo->strend),(reginfo->strbeg ),startpos,doutf8,depth) |
1784 | startpos, doutf8, depth)S_dump_exec_pos( li,s,(reginfo->strend),(reginfo->strbeg ),startpos,doutf8,depth) |
1785 | |
1786 | #define REXEC_FBC_SCAN(UTF8, CODE)do { while (s < strend) { CODE s += ((UTF8) ? ((((reginfo-> strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 1786, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1); } } while (0) \ |
1787 | STMT_STARTdo { \ |
1788 | while (s < strend) { \ |
1789 | CODE \ |
1790 | s += ((UTF8) \ |
1791 | ? UTF8_SAFE_SKIP(s, reginfo->strend)((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 1791, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) \ |
1792 | : 1); \ |
1793 | } \ |
1794 | } STMT_ENDwhile (0) |
1795 | |
1796 | #define REXEC_FBC_CLASS_SCAN(UTF8, COND)do { while (s < strend) { if (COND) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || ( s <= reginfo->strend && S_regtry( reginfo,& s)))) { goto got_it; } s += ((UTF8) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 1796, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((UTF8) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0) \ |
1797 | STMT_STARTdo { \ |
1798 | while (s < strend) { \ |
1799 | REXEC_FBC_CLASS_SCAN_GUTS(UTF8, COND)if (COND) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((UTF8) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 1799, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((UTF8) ? PL_utf8skip[*(const U8*)(s)] : 1 ); } \ |
1800 | } \ |
1801 | } STMT_ENDwhile (0) |
1802 | |
1803 | #define REXEC_FBC_CLASS_SCAN_GUTS(UTF8, COND)if (COND) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((UTF8) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 1803, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((UTF8) ? PL_utf8skip[*(const U8*)(s)] : 1 ); } \ |
1804 | if (COND) { \ |
1805 | FBC_CHECK_AND_TRYif ( ( doevery || s != previous_occurrence_end) && ( reginfo ->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s)))) { goto got_it; } \ |
1806 | s += ((UTF8) ? UTF8_SAFE_SKIP(s, reginfo->strend)((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 1806, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1);\ |
1807 | previous_occurrence_end = s; \ |
1808 | } \ |
1809 | else { \ |
1810 | s += ((UTF8) ? UTF8SKIP(s)PL_utf8skip[*(const U8*)(s)] : 1); \ |
1811 | } |
1812 | |
1813 | #define REXEC_FBC_CSCAN(CONDUTF8,COND)if (utf8_target) { do { while (s < strend) { if (CONDUTF8) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((1) ? (( ((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 1813, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); } else { do { while (s < strend) { if (COND ) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((0) ? (( ((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 1813, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((0) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); } \ |
1814 | if (utf8_target) { \ |
1815 | REXEC_FBC_CLASS_SCAN(1, CONDUTF8)do { while (s < strend) { if (CONDUTF8) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo, &s)))) { goto got_it; } s += ((1) ? ((((reginfo->strend ) >= (s)) ? (void)0 : __assert2("re_exec.c", 1815, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); \ |
1816 | } \ |
1817 | else { \ |
1818 | REXEC_FBC_CLASS_SCAN(0, COND)do { while (s < strend) { if (COND) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || ( s <= reginfo->strend && S_regtry( reginfo,& s)))) { goto got_it; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 1818, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((0) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); \ |
1819 | } |
1820 | |
1821 | /* We keep track of where the next character should start after an occurrence |
1822 | * of the one we're looking for. Knowing that, we can see right away if the |
1823 | * next occurrence is adjacent to the previous. When 'doevery' is FALSE, we |
1824 | * don't accept the 2nd and succeeding adjacent occurrences */ |
1825 | #define FBC_CHECK_AND_TRYif ( ( doevery || s != previous_occurrence_end) && ( reginfo ->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s)))) { goto got_it; } \ |
1826 | if ( ( doevery \ |
1827 | || s != previous_occurrence_end) \ |
1828 | && ( reginfo->intuit \ |
1829 | || (s <= reginfo->strend && regtry(reginfo, &s)S_regtry( reginfo,&s)))) \ |
1830 | { \ |
1831 | goto got_it; \ |
1832 | } |
1833 | |
1834 | |
1835 | /* This differs from the above macros in that it calls a function which returns |
1836 | * the next occurrence of the thing being looked for in 's'; and 'strend' if |
1837 | * there is no such occurrence. */ |
1838 | #define REXEC_FBC_FIND_NEXT_SCAN(UTF8, f)while (s < strend) { s = (f); if (s >= strend) { break; } if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += (UTF8) ? PL_utf8skip [*(const U8*)(s)] : 1; previous_occurrence_end = s; } \ |
1839 | while (s < strend) { \ |
1840 | s = (f); \ |
1841 | if (s >= strend) { \ |
1842 | break; \ |
1843 | } \ |
1844 | \ |
1845 | FBC_CHECK_AND_TRYif ( ( doevery || s != previous_occurrence_end) && ( reginfo ->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s)))) { goto got_it; } \ |
1846 | s += (UTF8) ? UTF8SKIP(s)PL_utf8skip[*(const U8*)(s)] : 1; \ |
1847 | previous_occurrence_end = s; \ |
1848 | } |
1849 | |
1850 | /* This differs from the above macros in that it is passed a single byte that |
1851 | * is known to begin the next occurrence of the thing being looked for in 's'. |
1852 | * It does a memchr to find the next occurrence of 'byte', before trying 'COND' |
1853 | * at that position. */ |
1854 | #define REXEC_FBC_FIND_NEXT_UTF8_BYTE_SCAN(byte, COND)while (s < strend) { s = (char *) memchr(s, byte, strend - s); if (s == ((void*)0)) { s = (char *) strend; break; } if ( COND) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((((reginfo ->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 1854 , __func__, "(reginfo->strend) >= (s)")), ((reginfo-> strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s))) <(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend) - ( s))):(PL_utf8skip[*(const U8*)(s)]))); previous_occurrence_end = s; } else { s += PL_utf8skip[*(const U8*)(s)]; } } \ |
1855 | while (s < strend) { \ |
1856 | s = (char *) memchr(s, byte, strend -s); \ |
1857 | if (s == NULL((void*)0)) { \ |
1858 | s = (char *) strend; \ |
1859 | break; \ |
1860 | } \ |
1861 | \ |
1862 | if (COND) { \ |
1863 | FBC_CHECK_AND_TRYif ( ( doevery || s != previous_occurrence_end) && ( reginfo ->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s)))) { goto got_it; } \ |
1864 | s += UTF8_SAFE_SKIP(s, reginfo->strend)((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 1864, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))); \ |
1865 | previous_occurrence_end = s; \ |
1866 | } \ |
1867 | else { \ |
1868 | s += UTF8SKIP(s)PL_utf8skip[*(const U8*)(s)]; \ |
1869 | } \ |
1870 | } |
1871 | |
1872 | /* The three macros below are slightly different versions of the same logic. |
1873 | * |
1874 | * The first is for /a and /aa when the target string is UTF-8. This can only |
1875 | * match ascii, but it must advance based on UTF-8. The other two handle the |
1876 | * non-UTF-8 and the more generic UTF-8 cases. In all three, we are looking |
1877 | * for the boundary (or non-boundary) between a word and non-word character. |
1878 | * The utf8 and non-utf8 cases have the same logic, but the details must be |
1879 | * different. Find the "wordness" of the character just prior to this one, and |
1880 | * compare it with the wordness of this one. If they differ, we have a |
1881 | * boundary. At the beginning of the string, pretend that the previous |
1882 | * character was a new-line. |
1883 | * |
1884 | * All these macros uncleanly have side-effects with each other and outside |
1885 | * variables. So far it's been too much trouble to clean-up |
1886 | * |
1887 | * TEST_NON_UTF8 is the macro or function to call to test if its byte input is |
1888 | * a word character or not. |
1889 | * IF_SUCCESS is code to do if it finds that we are at a boundary between |
1890 | * word/non-word |
1891 | * IF_FAIL is code to do if we aren't at a boundary between word/non-word |
1892 | * |
1893 | * Exactly one of the two IF_FOO parameters is a no-op, depending on whether we |
1894 | * are looking for a boundary or for a non-boundary. If we are looking for a |
1895 | * boundary, we want IF_FAIL to be the no-op, and for IF_SUCCESS to go out and |
1896 | * see if this tentative match actually works, and if so, to quit the loop |
1897 | * here. And vice-versa if we are looking for a non-boundary. |
1898 | * |
1899 | * 'tmp' below in the next three macros in the REXEC_FBC_SCAN and |
1900 | * REXEC_FBC_SCAN loops is a loop invariant, a bool giving the return of |
1901 | * TEST_NON_UTF8(s-1). To see this, note that that's what it is defined to be |
1902 | * at entry to the loop, and to get to the IF_FAIL branch, tmp must equal |
1903 | * TEST_NON_UTF8(s), and in the opposite branch, IF_SUCCESS, tmp is that |
1904 | * complement. But in that branch we complement tmp, meaning that at the |
1905 | * bottom of the loop tmp is always going to be equal to TEST_NON_UTF8(s), |
1906 | * which means at the top of the loop in the next iteration, it is |
1907 | * TEST_NON_UTF8(s-1) */ |
1908 | #define FBC_UTF8_A(TEST_NON_UTF8, IF_SUCCESS, IF_FAIL)tmp = (s != reginfo->strbeg) ? ((int)*(const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8(tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) *s)) { tmp = !tmp; IF_SUCCESS ; } else { IF_FAIL; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 1908, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); \ |
1909 | tmp = (s != reginfo->strbeg) ? UCHARAT(s - 1)((int)*(const U8*)(s - 1)) : '\n'; \ |
1910 | tmp = TEST_NON_UTF8(tmp); \ |
1911 | REXEC_FBC_SCAN(1, /* 1=>is-utf8; advances s while s < strend */ \do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) * s)) { tmp = !tmp; IF_SUCCESS; } else { IF_FAIL; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 1919, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0 ) |
1912 | if (tmp == ! TEST_NON_UTF8((U8) *s)) { \do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) * s)) { tmp = !tmp; IF_SUCCESS; } else { IF_FAIL; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 1919, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0 ) |
1913 | tmp = !tmp; \do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) * s)) { tmp = !tmp; IF_SUCCESS; } else { IF_FAIL; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 1919, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0 ) |
1914 | IF_SUCCESS; /* Is a boundary if values for s-1 and s differ */ \do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) * s)) { tmp = !tmp; IF_SUCCESS; } else { IF_FAIL; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 1919, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0 ) |
1915 | } \do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) * s)) { tmp = !tmp; IF_SUCCESS; } else { IF_FAIL; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 1919, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0 ) |
1916 | else { \do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) * s)) { tmp = !tmp; IF_SUCCESS; } else { IF_FAIL; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 1919, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0 ) |
1917 | IF_FAIL; \do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) * s)) { tmp = !tmp; IF_SUCCESS; } else { IF_FAIL; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 1919, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0 ) |
1918 | } \do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) * s)) { tmp = !tmp; IF_SUCCESS; } else { IF_FAIL; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 1919, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0 ) |
1919 | )do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) * s)) { tmp = !tmp; IF_SUCCESS; } else { IF_FAIL; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 1919, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0 ); \ |
1920 | |
1921 | /* Like FBC_UTF8_A, but TEST_UV is a macro which takes a UV as its input, and |
1922 | * TEST_UTF8 is a macro that for the same input code points returns identically |
1923 | * to TEST_UV, but takes a pointer to a UTF-8 encoded string instead */ |
1924 | #define FBC_UTF8(TEST_UV, TEST_UTF8, IF_SUCCESS, IF_FAIL)if (s == reginfo->strbeg) { tmp = '\n'; } else { U8 * const r = S_reghop3((U8*)s, -1, (U8*)reginfo->strbeg); tmp = Perl_utf8n_to_uvchr_msgs (r, (U8*) reginfo->strend - r, 0, 0, 0, 0); } tmp = TEST_UV (tmp); do { while (s < strend) { if (tmp == ! (TEST_UTF8(( U8 *) s, (U8 *) reginfo->strend))) { tmp = !tmp; IF_SUCCESS ; } else { IF_FAIL; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 1924, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); \ |
1925 | if (s == reginfo->strbeg) { \ |
1926 | tmp = '\n'; \ |
1927 | } \ |
1928 | else { /* Back-up to the start of the previous character */ \ |
1929 | U8 * const r = reghop3S_reghop3((U8*)s, -1, (U8*)reginfo->strbeg); \ |
1930 | tmp = utf8n_to_uvchr(r, (U8*) reginfo->strend - r, \Perl_utf8n_to_uvchr_msgs(r, (U8*) reginfo->strend - r, 0, 0 , 0, 0) |
1931 | 0, UTF8_ALLOW_DEFAULT)Perl_utf8n_to_uvchr_msgs(r, (U8*) reginfo->strend - r, 0, 0 , 0, 0); \ |
1932 | } \ |
1933 | tmp = TEST_UV(tmp); \ |
1934 | REXEC_FBC_SCAN(1, /* 1=>is-utf8; advances s while s < strend */ \do { while (s < strend) { if (tmp == ! (TEST_UTF8((U8 *) s , (U8 *) reginfo->strend))) { tmp = !tmp; IF_SUCCESS; } else { IF_FAIL; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 1942, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0) |
1935 | if (tmp == ! (TEST_UTF8((U8 *) s, (U8 *) reginfo->strend))) { \do { while (s < strend) { if (tmp == ! (TEST_UTF8((U8 *) s , (U8 *) reginfo->strend))) { tmp = !tmp; IF_SUCCESS; } else { IF_FAIL; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 1942, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0) |
1936 | tmp = !tmp; \do { while (s < strend) { if (tmp == ! (TEST_UTF8((U8 *) s , (U8 *) reginfo->strend))) { tmp = !tmp; IF_SUCCESS; } else { IF_FAIL; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 1942, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0) |
1937 | IF_SUCCESS; \do { while (s < strend) { if (tmp == ! (TEST_UTF8((U8 *) s , (U8 *) reginfo->strend))) { tmp = !tmp; IF_SUCCESS; } else { IF_FAIL; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 1942, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0) |
1938 | } \do { while (s < strend) { if (tmp == ! (TEST_UTF8((U8 *) s , (U8 *) reginfo->strend))) { tmp = !tmp; IF_SUCCESS; } else { IF_FAIL; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 1942, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0) |
1939 | else { \do { while (s < strend) { if (tmp == ! (TEST_UTF8((U8 *) s , (U8 *) reginfo->strend))) { tmp = !tmp; IF_SUCCESS; } else { IF_FAIL; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 1942, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0) |
1940 | IF_FAIL; \do { while (s < strend) { if (tmp == ! (TEST_UTF8((U8 *) s , (U8 *) reginfo->strend))) { tmp = !tmp; IF_SUCCESS; } else { IF_FAIL; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 1942, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0) |
1941 | } \do { while (s < strend) { if (tmp == ! (TEST_UTF8((U8 *) s , (U8 *) reginfo->strend))) { tmp = !tmp; IF_SUCCESS; } else { IF_FAIL; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 1942, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0) |
1942 | )do { while (s < strend) { if (tmp == ! (TEST_UTF8((U8 *) s , (U8 *) reginfo->strend))) { tmp = !tmp; IF_SUCCESS; } else { IF_FAIL; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 1942, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); |
1943 | |
1944 | /* Like the above two macros. UTF8_CODE is the complete code for handling |
1945 | * UTF-8. Common to the BOUND and NBOUND cases, set-up by the FBC_BOUND, etc |
1946 | * macros below */ |
1947 | #define FBC_BOUND_COMMON(UTF8_CODE, TEST_NON_UTF8, IF_SUCCESS, IF_FAIL)if (utf8_target) { UTF8_CODE } else { tmp = (s != reginfo-> strbeg) ? ((int)*(const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8 (tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8 ((U8) *s)) { IF_SUCCESS; tmp = !tmp; } else { IF_FAIL; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 1947, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } if (tmp == ! TEST_NON_UTF8('\n')) { IF_SUCCESS ; } else { IF_FAIL; } \ |
1948 | if (utf8_target) { \ |
1949 | UTF8_CODE \ |
1950 | } \ |
1951 | else { /* Not utf8 */ \ |
1952 | tmp = (s != reginfo->strbeg) ? UCHARAT(s - 1)((int)*(const U8*)(s - 1)) : '\n'; \ |
1953 | tmp = TEST_NON_UTF8(tmp); \ |
1954 | REXEC_FBC_SCAN(0, /* 0=>not-utf8; advances s while s < strend */ \do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) * s)) { IF_SUCCESS; tmp = !tmp; } else { IF_FAIL; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 1962, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0 ) |
1955 | if (tmp == ! TEST_NON_UTF8((U8) *s)) { \do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) * s)) { IF_SUCCESS; tmp = !tmp; } else { IF_FAIL; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 1962, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0 ) |
1956 | IF_SUCCESS; \do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) * s)) { IF_SUCCESS; tmp = !tmp; } else { IF_FAIL; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 1962, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0 ) |
1957 | tmp = !tmp; \do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) * s)) { IF_SUCCESS; tmp = !tmp; } else { IF_FAIL; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 1962, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0 ) |
1958 | } \do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) * s)) { IF_SUCCESS; tmp = !tmp; } else { IF_FAIL; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 1962, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0 ) |
1959 | else { \do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) * s)) { IF_SUCCESS; tmp = !tmp; } else { IF_FAIL; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 1962, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0 ) |
1960 | IF_FAIL; \do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) * s)) { IF_SUCCESS; tmp = !tmp; } else { IF_FAIL; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 1962, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0 ) |
1961 | } \do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) * s)) { IF_SUCCESS; tmp = !tmp; } else { IF_FAIL; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 1962, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0 ) |
1962 | )do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) * s)) { IF_SUCCESS; tmp = !tmp; } else { IF_FAIL; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 1962, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0 ); \ |
1963 | } \ |
1964 | /* Here, things have been set up by the previous code so that tmp is the \ |
1965 | * return of TEST_NON_UTF(s-1) or TEST_UTF8(s-1) (depending on the \ |
1966 | * utf8ness of the target). We also have to check if this matches against \ |
1967 | * the EOS, which we treat as a \n (which is the same value in both UTF-8 \ |
1968 | * or non-UTF8, so can use the non-utf8 test condition even for a UTF-8 \ |
1969 | * string */ \ |
1970 | if (tmp == ! TEST_NON_UTF8('\n')) { \ |
1971 | IF_SUCCESS; \ |
1972 | } \ |
1973 | else { \ |
1974 | IF_FAIL; \ |
1975 | } |
1976 | |
1977 | /* This is the macro to use when we want to see if something that looks like it |
1978 | * could match, actually does, and if so exits the loop. It needs to be used |
1979 | * only for bounds checking macros, as it allows for matching beyond the end of |
1980 | * string (which should be zero length without having to look at the string |
1981 | * contents) */ |
1982 | #define REXEC_FBC_TRYITif (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it \ |
1983 | if (reginfo->intuit || (s <= reginfo->strend && regtry(reginfo, &s)S_regtry( reginfo,&s))) \ |
1984 | goto got_it |
1985 | |
1986 | /* The only difference between the BOUND and NBOUND cases is that |
1987 | * REXEC_FBC_TRYIT is called when matched in BOUND, and when non-matched in |
1988 | * NBOUND. This is accomplished by passing it as either the if or else clause, |
1989 | * with the other one being empty (PLACEHOLDER is defined as empty). |
1990 | * |
1991 | * The TEST_FOO parameters are for operating on different forms of input, but |
1992 | * all should be ones that return identically for the same underlying code |
1993 | * points */ |
1994 | #define FBC_BOUND(TEST_NON_UTF8, TEST_UV, TEST_UTF8)if (utf8_target) { if (s == reginfo->strbeg) { tmp = '\n'; } else { U8 * const r = S_reghop3((U8*)s, -1, (U8*)reginfo-> strbeg); tmp = Perl_utf8n_to_uvchr_msgs(r, (U8*) reginfo-> strend - r, 0, 0, 0, 0); } tmp = TEST_UV(tmp); do { while (s < strend) { if (tmp == ! (TEST_UTF8((U8 *) s, (U8 *) reginfo-> strend))) { tmp = !tmp; if (reginfo->intuit || (s <= reginfo ->strend && S_regtry( reginfo,&s))) goto got_it ; } else { ; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 1994, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } else { tmp = (s != reginfo->strbeg) ? ((int )*(const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8(tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) *s)) { if ( reginfo->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s))) goto got_it; tmp = !tmp; } else { ; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 1994, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } if (tmp == ! TEST_NON_UTF8('\n')) { if (reginfo ->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s))) goto got_it; } else { ; } \ |
1995 | FBC_BOUND_COMMON( \if (utf8_target) { if (s == reginfo->strbeg) { tmp = '\n'; } else { U8 * const r = S_reghop3((U8*)s, -1, (U8*)reginfo-> strbeg); tmp = Perl_utf8n_to_uvchr_msgs(r, (U8*) reginfo-> strend - r, 0, 0, 0, 0); } tmp = TEST_UV(tmp); do { while (s < strend) { if (tmp == ! (TEST_UTF8((U8 *) s, (U8 *) reginfo-> strend))) { tmp = !tmp; if (reginfo->intuit || (s <= reginfo ->strend && S_regtry( reginfo,&s))) goto got_it ; } else { ; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 1996, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } else { tmp = (s != reginfo->strbeg) ? ((int )*(const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8(tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) *s)) { if ( reginfo->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s))) goto got_it; tmp = !tmp; } else { ; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 1997, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } if (tmp == ! TEST_NON_UTF8('\n')) { if (reginfo ->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s))) goto got_it; } else { ; } |
1996 | FBC_UTF8(TEST_UV, TEST_UTF8, REXEC_FBC_TRYIT, PLACEHOLDER), \if (utf8_target) { if (s == reginfo->strbeg) { tmp = '\n'; } else { U8 * const r = S_reghop3((U8*)s, -1, (U8*)reginfo-> strbeg); tmp = Perl_utf8n_to_uvchr_msgs(r, (U8*) reginfo-> strend - r, 0, 0, 0, 0); } tmp = TEST_UV(tmp); do { while (s < strend) { if (tmp == ! (TEST_UTF8((U8 *) s, (U8 *) reginfo-> strend))) { tmp = !tmp; if (reginfo->intuit || (s <= reginfo ->strend && S_regtry( reginfo,&s))) goto got_it ; } else { ; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 1996, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } else { tmp = (s != reginfo->strbeg) ? ((int )*(const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8(tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) *s)) { if ( reginfo->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s))) goto got_it; tmp = !tmp; } else { ; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 1997, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } if (tmp == ! TEST_NON_UTF8('\n')) { if (reginfo ->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s))) goto got_it; } else { ; } |
1997 | TEST_NON_UTF8, REXEC_FBC_TRYIT, PLACEHOLDER)if (utf8_target) { if (s == reginfo->strbeg) { tmp = '\n'; } else { U8 * const r = S_reghop3((U8*)s, -1, (U8*)reginfo-> strbeg); tmp = Perl_utf8n_to_uvchr_msgs(r, (U8*) reginfo-> strend - r, 0, 0, 0, 0); } tmp = TEST_UV(tmp); do { while (s < strend) { if (tmp == ! (TEST_UTF8((U8 *) s, (U8 *) reginfo-> strend))) { tmp = !tmp; if (reginfo->intuit || (s <= reginfo ->strend && S_regtry( reginfo,&s))) goto got_it ; } else { ; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 1996, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } else { tmp = (s != reginfo->strbeg) ? ((int )*(const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8(tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) *s)) { if ( reginfo->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s))) goto got_it; tmp = !tmp; } else { ; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 1997, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } if (tmp == ! TEST_NON_UTF8('\n')) { if (reginfo ->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s))) goto got_it; } else { ; } |
1998 | |
1999 | #define FBC_BOUND_A(TEST_NON_UTF8)if (utf8_target) { tmp = (s != reginfo->strbeg) ? ((int)*( const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8(tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) *s)) { tmp = !tmp; if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; } else { ; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 1999, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } else { tmp = (s != reginfo->strbeg) ? ((int )*(const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8(tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) *s)) { if ( reginfo->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s))) goto got_it; tmp = !tmp; } else { ; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 1999, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } if (tmp == ! TEST_NON_UTF8('\n')) { if (reginfo ->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s))) goto got_it; } else { ; } \ |
2000 | FBC_BOUND_COMMON( \if (utf8_target) { tmp = (s != reginfo->strbeg) ? ((int)*( const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8(tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) *s)) { tmp = !tmp; if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; } else { ; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2001, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } else { tmp = (s != reginfo->strbeg) ? ((int )*(const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8(tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) *s)) { if ( reginfo->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s))) goto got_it; tmp = !tmp; } else { ; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2002, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } if (tmp == ! TEST_NON_UTF8('\n')) { if (reginfo ->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s))) goto got_it; } else { ; } |
2001 | FBC_UTF8_A(TEST_NON_UTF8, REXEC_FBC_TRYIT, PLACEHOLDER), \if (utf8_target) { tmp = (s != reginfo->strbeg) ? ((int)*( const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8(tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) *s)) { tmp = !tmp; if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; } else { ; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2001, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } else { tmp = (s != reginfo->strbeg) ? ((int )*(const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8(tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) *s)) { if ( reginfo->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s))) goto got_it; tmp = !tmp; } else { ; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2002, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } if (tmp == ! TEST_NON_UTF8('\n')) { if (reginfo ->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s))) goto got_it; } else { ; } |
2002 | TEST_NON_UTF8, REXEC_FBC_TRYIT, PLACEHOLDER)if (utf8_target) { tmp = (s != reginfo->strbeg) ? ((int)*( const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8(tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) *s)) { tmp = !tmp; if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; } else { ; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2001, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } else { tmp = (s != reginfo->strbeg) ? ((int )*(const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8(tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) *s)) { if ( reginfo->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s))) goto got_it; tmp = !tmp; } else { ; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2002, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } if (tmp == ! TEST_NON_UTF8('\n')) { if (reginfo ->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s))) goto got_it; } else { ; } |
2003 | |
2004 | #define FBC_NBOUND(TEST_NON_UTF8, TEST_UV, TEST_UTF8)if (utf8_target) { if (s == reginfo->strbeg) { tmp = '\n'; } else { U8 * const r = S_reghop3((U8*)s, -1, (U8*)reginfo-> strbeg); tmp = Perl_utf8n_to_uvchr_msgs(r, (U8*) reginfo-> strend - r, 0, 0, 0, 0); } tmp = TEST_UV(tmp); do { while (s < strend) { if (tmp == ! (TEST_UTF8((U8 *) s, (U8 *) reginfo-> strend))) { tmp = !tmp; ; } else { if (reginfo->intuit || ( s <= reginfo->strend && S_regtry( reginfo,& s))) goto got_it; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2004, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } else { tmp = (s != reginfo->strbeg) ? ((int )*(const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8(tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) *s)) { ; tmp = !tmp; } else { if (reginfo->intuit || (s <= reginfo-> strend && S_regtry( reginfo,&s))) goto got_it; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2004, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } if (tmp == ! TEST_NON_UTF8('\n')) { ; } else { if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; } \ |
2005 | FBC_BOUND_COMMON( \if (utf8_target) { if (s == reginfo->strbeg) { tmp = '\n'; } else { U8 * const r = S_reghop3((U8*)s, -1, (U8*)reginfo-> strbeg); tmp = Perl_utf8n_to_uvchr_msgs(r, (U8*) reginfo-> strend - r, 0, 0, 0, 0); } tmp = TEST_UV(tmp); do { while (s < strend) { if (tmp == ! (TEST_UTF8((U8 *) s, (U8 *) reginfo-> strend))) { tmp = !tmp; ; } else { if (reginfo->intuit || ( s <= reginfo->strend && S_regtry( reginfo,& s))) goto got_it; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2006, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } else { tmp = (s != reginfo->strbeg) ? ((int )*(const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8(tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) *s)) { ; tmp = !tmp; } else { if (reginfo->intuit || (s <= reginfo-> strend && S_regtry( reginfo,&s))) goto got_it; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2007, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } if (tmp == ! TEST_NON_UTF8('\n')) { ; } else { if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; } |
2006 | FBC_UTF8(TEST_UV, TEST_UTF8, PLACEHOLDER, REXEC_FBC_TRYIT), \if (utf8_target) { if (s == reginfo->strbeg) { tmp = '\n'; } else { U8 * const r = S_reghop3((U8*)s, -1, (U8*)reginfo-> strbeg); tmp = Perl_utf8n_to_uvchr_msgs(r, (U8*) reginfo-> strend - r, 0, 0, 0, 0); } tmp = TEST_UV(tmp); do { while (s < strend) { if (tmp == ! (TEST_UTF8((U8 *) s, (U8 *) reginfo-> strend))) { tmp = !tmp; ; } else { if (reginfo->intuit || ( s <= reginfo->strend && S_regtry( reginfo,& s))) goto got_it; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2006, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } else { tmp = (s != reginfo->strbeg) ? ((int )*(const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8(tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) *s)) { ; tmp = !tmp; } else { if (reginfo->intuit || (s <= reginfo-> strend && S_regtry( reginfo,&s))) goto got_it; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2007, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } if (tmp == ! TEST_NON_UTF8('\n')) { ; } else { if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; } |
2007 | TEST_NON_UTF8, PLACEHOLDER, REXEC_FBC_TRYIT)if (utf8_target) { if (s == reginfo->strbeg) { tmp = '\n'; } else { U8 * const r = S_reghop3((U8*)s, -1, (U8*)reginfo-> strbeg); tmp = Perl_utf8n_to_uvchr_msgs(r, (U8*) reginfo-> strend - r, 0, 0, 0, 0); } tmp = TEST_UV(tmp); do { while (s < strend) { if (tmp == ! (TEST_UTF8((U8 *) s, (U8 *) reginfo-> strend))) { tmp = !tmp; ; } else { if (reginfo->intuit || ( s <= reginfo->strend && S_regtry( reginfo,& s))) goto got_it; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2006, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } else { tmp = (s != reginfo->strbeg) ? ((int )*(const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8(tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) *s)) { ; tmp = !tmp; } else { if (reginfo->intuit || (s <= reginfo-> strend && S_regtry( reginfo,&s))) goto got_it; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2007, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } if (tmp == ! TEST_NON_UTF8('\n')) { ; } else { if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; } |
2008 | |
2009 | #define FBC_NBOUND_A(TEST_NON_UTF8)if (utf8_target) { tmp = (s != reginfo->strbeg) ? ((int)*( const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8(tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) *s)) { tmp = !tmp; ; } else { if (reginfo->intuit || (s <= reginfo ->strend && S_regtry( reginfo,&s))) goto got_it ; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2009, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } else { tmp = (s != reginfo->strbeg) ? ((int )*(const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8(tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) *s)) { ; tmp = !tmp; } else { if (reginfo->intuit || (s <= reginfo-> strend && S_regtry( reginfo,&s))) goto got_it; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2009, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } if (tmp == ! TEST_NON_UTF8('\n')) { ; } else { if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; } \ |
2010 | FBC_BOUND_COMMON( \if (utf8_target) { tmp = (s != reginfo->strbeg) ? ((int)*( const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8(tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) *s)) { tmp = !tmp; ; } else { if (reginfo->intuit || (s <= reginfo ->strend && S_regtry( reginfo,&s))) goto got_it ; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2011, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } else { tmp = (s != reginfo->strbeg) ? ((int )*(const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8(tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) *s)) { ; tmp = !tmp; } else { if (reginfo->intuit || (s <= reginfo-> strend && S_regtry( reginfo,&s))) goto got_it; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2012, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } if (tmp == ! TEST_NON_UTF8('\n')) { ; } else { if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; } |
2011 | FBC_UTF8_A(TEST_NON_UTF8, PLACEHOLDER, REXEC_FBC_TRYIT), \if (utf8_target) { tmp = (s != reginfo->strbeg) ? ((int)*( const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8(tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) *s)) { tmp = !tmp; ; } else { if (reginfo->intuit || (s <= reginfo ->strend && S_regtry( reginfo,&s))) goto got_it ; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2011, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } else { tmp = (s != reginfo->strbeg) ? ((int )*(const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8(tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) *s)) { ; tmp = !tmp; } else { if (reginfo->intuit || (s <= reginfo-> strend && S_regtry( reginfo,&s))) goto got_it; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2012, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } if (tmp == ! TEST_NON_UTF8('\n')) { ; } else { if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; } |
2012 | TEST_NON_UTF8, PLACEHOLDER, REXEC_FBC_TRYIT)if (utf8_target) { tmp = (s != reginfo->strbeg) ? ((int)*( const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8(tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) *s)) { tmp = !tmp; ; } else { if (reginfo->intuit || (s <= reginfo ->strend && S_regtry( reginfo,&s))) goto got_it ; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2011, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } else { tmp = (s != reginfo->strbeg) ? ((int )*(const U8*)(s - 1)) : '\n'; tmp = TEST_NON_UTF8(tmp); do { while (s < strend) { if (tmp == ! TEST_NON_UTF8((U8) *s)) { ; tmp = !tmp; } else { if (reginfo->intuit || (s <= reginfo-> strend && S_regtry( reginfo,&s))) goto got_it; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2012, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } if (tmp == ! TEST_NON_UTF8('\n')) { ; } else { if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; } |
2013 | |
2014 | #ifdef DEBUGGING |
2015 | static IV |
2016 | S_get_break_val_cp_checked(SV* const invlist, const UV cp_in) { |
2017 | IV cp_out = _invlist_searchPerl__invlist_search(invlist, cp_in); |
2018 | assert(cp_out >= 0)((cp_out >= 0) ? (void)0 : __assert2("re_exec.c", 2018, __func__ , "cp_out >= 0")); |
2019 | return cp_out; |
2020 | } |
2021 | # define _generic_GET_BREAK_VAL_CP_CHECKED(invlist, invmap, cp)invmap[S_get_break_val_cp_checked(invlist, cp)] \ |
2022 | invmap[S_get_break_val_cp_checked(invlist, cp)] |
2023 | #else |
2024 | # define _generic_GET_BREAK_VAL_CP_CHECKED(invlist, invmap, cp)invmap[S_get_break_val_cp_checked(invlist, cp)] \ |
2025 | invmap[_invlist_searchPerl__invlist_search(invlist, cp)] |
2026 | #endif |
2027 | |
2028 | /* Takes a pointer to an inversion list, a pointer to its corresponding |
2029 | * inversion map, and a code point, and returns the code point's value |
2030 | * according to the two arrays. It assumes that all code points have a value. |
2031 | * This is used as the base macro for macros for particular properties */ |
2032 | #define _generic_GET_BREAK_VAL_CP(invlist, invmap, cp)invmap[S_get_break_val_cp_checked(invlist, cp)] \ |
2033 | _generic_GET_BREAK_VAL_CP_CHECKED(invlist, invmap, cp)invmap[S_get_break_val_cp_checked(invlist, cp)] |
2034 | |
2035 | /* Same as above, but takes begin, end ptrs to a UTF-8 encoded string instead |
2036 | * of a code point, returning the value for the first code point in the string. |
2037 | * And it takes the particular macro name that finds the desired value given a |
2038 | * code point. Merely convert the UTF-8 to code point and call the cp macro */ |
2039 | #define _generic_GET_BREAK_VAL_UTF8(cp_macro, pos, strend)(((pos < strend) ? (void)0 : __assert2("re_exec.c", 2039, __func__ , "pos < strend")), (cp_macro(Perl_utf8_to_uvchr_buf_helper ( (const U8 *) ((pos)),(const U8 *) (strend),((void*)0))))) \ |
2040 | (__ASSERT_(pos < strend)((pos < strend) ? (void)0 : __assert2("re_exec.c", 2040, __func__ , "pos < strend")), \ |
2041 | /* Note assumes is valid UTF-8 */ \ |
2042 | (cp_macro(utf8_to_uvchr_buf((pos), (strend), NULL)Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((pos)),(const U8 *) (strend),((void*)0))))) |
2043 | |
2044 | /* Returns the GCB value for the input code point */ |
2045 | #define getGCB_VAL_CP(cp)_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist, ( cp))] \ |
2046 | _generic_GET_BREAK_VAL_CP( \_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist, ( cp))] |
2047 | PL_GCB_invlist, \_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist, ( cp))] |
2048 | _Perl_GCB_invmap, \_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist, ( cp))] |
2049 | (cp))_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist, ( cp))] |
2050 | |
2051 | /* Returns the GCB value for the first code point in the UTF-8 encoded string |
2052 | * bounded by pos and strend */ |
2053 | #define getGCB_VAL_UTF8(pos, strend)(((pos < strend) ? (void)0 : __assert2("re_exec.c", 2053, __func__ , "pos < strend")), (_Perl_GCB_invmap[S_get_break_val_cp_checked (PL_GCB_invlist, (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((pos)),(const U8 *) (strend),((void*)0))))])) \ |
2054 | _generic_GET_BREAK_VAL_UTF8(getGCB_VAL_CP, pos, strend)(((pos < strend) ? (void)0 : __assert2("re_exec.c", 2054, __func__ , "pos < strend")), (_Perl_GCB_invmap[S_get_break_val_cp_checked (PL_GCB_invlist, (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((pos)),(const U8 *) (strend),((void*)0))))])) |
2055 | |
2056 | /* Returns the LB value for the input code point */ |
2057 | #define getLB_VAL_CP(cp)_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist, (cp ))] \ |
2058 | _generic_GET_BREAK_VAL_CP( \_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist, (cp ))] |
2059 | PL_LB_invlist, \_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist, (cp ))] |
2060 | _Perl_LB_invmap, \_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist, (cp ))] |
2061 | (cp))_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist, (cp ))] |
2062 | |
2063 | /* Returns the LB value for the first code point in the UTF-8 encoded string |
2064 | * bounded by pos and strend */ |
2065 | #define getLB_VAL_UTF8(pos, strend)(((pos < strend) ? (void)0 : __assert2("re_exec.c", 2065, __func__ , "pos < strend")), (_Perl_LB_invmap[S_get_break_val_cp_checked (PL_LB_invlist, (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ( (pos)),(const U8 *) (strend),((void*)0))))])) \ |
2066 | _generic_GET_BREAK_VAL_UTF8(getLB_VAL_CP, pos, strend)(((pos < strend) ? (void)0 : __assert2("re_exec.c", 2066, __func__ , "pos < strend")), (_Perl_LB_invmap[S_get_break_val_cp_checked (PL_LB_invlist, (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ( (pos)),(const U8 *) (strend),((void*)0))))])) |
2067 | |
2068 | |
2069 | /* Returns the SB value for the input code point */ |
2070 | #define getSB_VAL_CP(cp)_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist, (cp ))] \ |
2071 | _generic_GET_BREAK_VAL_CP( \_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist, (cp ))] |
2072 | PL_SB_invlist, \_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist, (cp ))] |
2073 | _Perl_SB_invmap, \_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist, (cp ))] |
2074 | (cp))_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist, (cp ))] |
2075 | |
2076 | /* Returns the SB value for the first code point in the UTF-8 encoded string |
2077 | * bounded by pos and strend */ |
2078 | #define getSB_VAL_UTF8(pos, strend)(((pos < strend) ? (void)0 : __assert2("re_exec.c", 2078, __func__ , "pos < strend")), (_Perl_SB_invmap[S_get_break_val_cp_checked (PL_SB_invlist, (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ( (pos)),(const U8 *) (strend),((void*)0))))])) \ |
2079 | _generic_GET_BREAK_VAL_UTF8(getSB_VAL_CP, pos, strend)(((pos < strend) ? (void)0 : __assert2("re_exec.c", 2079, __func__ , "pos < strend")), (_Perl_SB_invmap[S_get_break_val_cp_checked (PL_SB_invlist, (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ( (pos)),(const U8 *) (strend),((void*)0))))])) |
2080 | |
2081 | /* Returns the WB value for the input code point */ |
2082 | #define getWB_VAL_CP(cp)_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist, (cp ))] \ |
2083 | _generic_GET_BREAK_VAL_CP( \_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist, (cp ))] |
2084 | PL_WB_invlist, \_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist, (cp ))] |
2085 | _Perl_WB_invmap, \_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist, (cp ))] |
2086 | (cp))_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist, (cp ))] |
2087 | |
2088 | /* Returns the WB value for the first code point in the UTF-8 encoded string |
2089 | * bounded by pos and strend */ |
2090 | #define getWB_VAL_UTF8(pos, strend)(((pos < strend) ? (void)0 : __assert2("re_exec.c", 2090, __func__ , "pos < strend")), (_Perl_WB_invmap[S_get_break_val_cp_checked (PL_WB_invlist, (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ( (pos)),(const U8 *) (strend),((void*)0))))])) \ |
2091 | _generic_GET_BREAK_VAL_UTF8(getWB_VAL_CP, pos, strend)(((pos < strend) ? (void)0 : __assert2("re_exec.c", 2091, __func__ , "pos < strend")), (_Perl_WB_invmap[S_get_break_val_cp_checked (PL_WB_invlist, (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ( (pos)),(const U8 *) (strend),((void*)0))))])) |
2092 | |
2093 | /* We know what class REx starts with. Try to find this position... */ |
2094 | /* if reginfo->intuit, its a dryrun */ |
2095 | /* annoyingly all the vars in this routine have different names from their counterparts |
2096 | in regmatch. /grrr */ |
2097 | STATICstatic char * |
2098 | S_find_byclass(pTHX_ regexp * prog, const regnode *c, char *s, |
2099 | const char *strend, regmatch_info *reginfo) |
2100 | { |
2101 | dVARstruct Perl___notused_struct; |
2102 | |
2103 | /* TRUE if x+ need not match at just the 1st pos of run of x's */ |
2104 | const I32 doevery = (prog->intflags & PREGf_SKIP0x00000001) == 0; |
2105 | |
2106 | char *pat_string; /* The pattern's exactish string */ |
2107 | char *pat_end; /* ptr to end char of pat_string */ |
2108 | re_fold_t folder; /* Function for computing non-utf8 folds */ |
2109 | const U8 *fold_array; /* array for folding ords < 256 */ |
2110 | STRLEN ln; |
2111 | STRLEN lnc; |
2112 | U8 c1; |
2113 | U8 c2; |
2114 | char *e = NULL((void*)0); |
2115 | |
2116 | /* In some cases we accept only the first occurence of 'x' in a sequence of |
2117 | * them. This variable points to just beyond the end of the previous |
2118 | * occurrence of 'x', hence we can tell if we are in a sequence. (Having |
2119 | * it point to beyond the 'x' allows us to work for UTF-8 without having to |
2120 | * hop back.) */ |
2121 | char * previous_occurrence_end = 0; |
2122 | |
2123 | I32 tmp; /* Scratch variable */ |
2124 | const bool_Bool utf8_target = reginfo->is_utf8_target; |
2125 | UV utf8_fold_flags = 0; |
2126 | const bool_Bool is_utf8_pat = reginfo->is_utf8_pat; |
2127 | bool_Bool to_complement = FALSE(0); /* Invert the result? Taking the xor of this |
2128 | with a result inverts that result, as 0^1 = |
2129 | 1 and 1^1 = 0 */ |
2130 | _char_class_number classnum; |
2131 | |
2132 | RXi_GET_DECL(prog,progi)regexp_internal *progi = ((regexp_internal *)((prog)->pprivate )); |
2133 | |
2134 | PERL_ARGS_ASSERT_FIND_BYCLASS((prog) ? (void)0 : __assert2("re_exec.c", 2134, __func__, "prog" )); ((c) ? (void)0 : __assert2("re_exec.c", 2134, __func__, "c" )); ((s) ? (void)0 : __assert2("re_exec.c", 2134, __func__, "s" )); ((strend) ? (void)0 : __assert2("re_exec.c", 2134, __func__ , "strend")); |
2135 | |
2136 | /* We know what class it must start with. */ |
2137 | switch (OP(c)((c)->type)) { |
2138 | case ANYOFPOSIXL21: |
2139 | case ANYOFL20: |
2140 | _CHECK_AND_WARN_PROBLEMATIC_LOCALEdo { if (__builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool )0),(0))) { Perl__warn_problematic_locale(); } } while (0); |
2141 | |
2142 | if (ANYOFL_UTF8_LOCALE_REQD(FLAGS(c))((((c)->flags) & ( 0x04 |0x08)) == 0x08) && ! IN_UTF8_CTYPE_LOCALEPL_in_utf8_CTYPE_locale) { |
2143 | Perl_ck_warner(aTHX_ packWARN(WARN_LOCALE)(63 ), utf8_locale_required); |
2144 | } |
2145 | |
2146 | /* FALLTHROUGH */ |
2147 | case ANYOFD19: |
2148 | case ANYOF18: |
2149 | if (utf8_target) { |
2150 | REXEC_FBC_CLASS_SCAN(1, /* 1=>is-utf8 */do { while (s < strend) { if (S_reginclass( prog,c,(U8*)s, (U8*) strend,utf8_target)) { if ( ( doevery || s != previous_occurrence_end ) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2151, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0) |
2151 | reginclass(prog, c, (U8*)s, (U8*) strend, utf8_target))do { while (s < strend) { if (S_reginclass( prog,c,(U8*)s, (U8*) strend,utf8_target)) { if ( ( doevery || s != previous_occurrence_end ) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2151, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); |
2152 | } |
2153 | else if (ANYOF_FLAGS(c)((c)->flags) & ~ ANYOF_MATCHES_ALL_ABOVE_BITMAP0x20) { |
2154 | /* We know that s is in the bitmap range since the target isn't |
2155 | * UTF-8, so what happens for out-of-range values is not relevant, |
2156 | * so exclude that from the flags */ |
2157 | REXEC_FBC_CLASS_SCAN(0, reginclass(prog,c, (U8*)s, (U8*)s+1, 0))do { while (s < strend) { if (S_reginclass( prog,c,(U8*)s, (U8*)s+1,0)) { if ( ( doevery || s != previous_occurrence_end ) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2157, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((0) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); |
2158 | } |
2159 | else { |
2160 | REXEC_FBC_CLASS_SCAN(0, ANYOF_BITMAP_TEST(c, *((U8*)s)))do { while (s < strend) { if ((((( (U8*) ((regnode_charclass *)(c))->bitmap) [ ( ( (UV) (*((U8*)s))) >> 3) ] ) & (1U << ((*((U8*)s)) & 7))) ? (_Bool)1 : (_Bool)0)) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((0) ? (( ((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2160, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((0) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); |
2161 | } |
2162 | break; |
2163 | |
2164 | case ANYOFM28: /* ARG() is the base byte; FLAGS() the mask byte */ |
2165 | /* UTF-8ness doesn't matter because only matches UTF-8 invariants, so |
2166 | * use 0 */ |
2167 | REXEC_FBC_FIND_NEXT_SCAN(0,while (s < strend) { s = ((char *) S_find_next_masked((U8 * ) s, (U8 *) strend, (U8) ((((struct regnode_1 *)c)->arg1)) , ((c)->flags))); if (s >= strend) { break; } if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo, &s)))) { goto got_it; } s += (0) ? PL_utf8skip[*(const U8 *)(s)] : 1; previous_occurrence_end = s; } |
2168 | (char *) find_next_masked((U8 *) s, (U8 *) strend,while (s < strend) { s = ((char *) S_find_next_masked((U8 * ) s, (U8 *) strend, (U8) ((((struct regnode_1 *)c)->arg1)) , ((c)->flags))); if (s >= strend) { break; } if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo, &s)))) { goto got_it; } s += (0) ? PL_utf8skip[*(const U8 *)(s)] : 1; previous_occurrence_end = s; } |
2169 | (U8) ARG(c), FLAGS(c)))while (s < strend) { s = ((char *) S_find_next_masked((U8 * ) s, (U8 *) strend, (U8) ((((struct regnode_1 *)c)->arg1)) , ((c)->flags))); if (s >= strend) { break; } if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo, &s)))) { goto got_it; } s += (0) ? PL_utf8skip[*(const U8 *)(s)] : 1; previous_occurrence_end = s; }; |
2170 | break; |
2171 | |
2172 | case NANYOFM29: /* UTF-8ness does matter because can match UTF-8 variants. |
2173 | */ |
2174 | REXEC_FBC_FIND_NEXT_SCAN(utf8_target,while (s < strend) { s = ((char *) S_find_span_end_mask((U8 *) s, (U8 *) strend, (U8) ((((struct regnode_1 *)c)->arg1 )), ((c)->flags))); if (s >= strend) { break; } if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo, &s)))) { goto got_it; } s += (utf8_target) ? PL_utf8skip[ *(const U8*)(s)] : 1; previous_occurrence_end = s; } |
2175 | (char *) find_span_end_mask((U8 *) s, (U8 *) strend,while (s < strend) { s = ((char *) S_find_span_end_mask((U8 *) s, (U8 *) strend, (U8) ((((struct regnode_1 *)c)->arg1 )), ((c)->flags))); if (s >= strend) { break; } if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo, &s)))) { goto got_it; } s += (utf8_target) ? PL_utf8skip[ *(const U8*)(s)] : 1; previous_occurrence_end = s; } |
2176 | (U8) ARG(c), FLAGS(c)))while (s < strend) { s = ((char *) S_find_span_end_mask((U8 *) s, (U8 *) strend, (U8) ((((struct regnode_1 *)c)->arg1 )), ((c)->flags))); if (s >= strend) { break; } if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo, &s)))) { goto got_it; } s += (utf8_target) ? PL_utf8skip[ *(const U8*)(s)] : 1; previous_occurrence_end = s; }; |
2177 | break; |
2178 | |
2179 | case ANYOFH22: |
2180 | if (utf8_target) { /* Can't possibly match a non-UTF-8 target */ |
2181 | REXEC_FBC_CLASS_SCAN(TRUE,do { while (s < strend) { if (( (U8) (((( (sizeof(*s) == 1 ) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2182, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))) >= ((c)->flags) && S_reginclass ( prog,c,(U8*)s,(U8*) strend,utf8_target))) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo, &s)))) { goto got_it; } s += (((1)) ? ((((reginfo->strend ) >= (s)) ? (void)0 : __assert2("re_exec.c", 2183, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += (((1)) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0) |
2182 | ( (U8) NATIVE_UTF8_TO_I8(*s) >= ANYOF_FLAGS(c)do { while (s < strend) { if (( (U8) (((( (sizeof(*s) == 1 ) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2182, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))) >= ((c)->flags) && S_reginclass ( prog,c,(U8*)s,(U8*) strend,utf8_target))) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo, &s)))) { goto got_it; } s += (((1)) ? ((((reginfo->strend ) >= (s)) ? (void)0 : __assert2("re_exec.c", 2183, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += (((1)) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0) |
2183 | && reginclass(prog, c, (U8*)s, (U8*) strend, utf8_target)))do { while (s < strend) { if (( (U8) (((( (sizeof(*s) == 1 ) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2182, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))) >= ((c)->flags) && S_reginclass ( prog,c,(U8*)s,(U8*) strend,utf8_target))) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo, &s)))) { goto got_it; } s += (((1)) ? ((((reginfo->strend ) >= (s)) ? (void)0 : __assert2("re_exec.c", 2183, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += (((1)) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); |
2184 | } |
2185 | break; |
2186 | |
2187 | case ANYOFHb23: |
2188 | if (utf8_target) { /* Can't possibly match a non-UTF-8 target */ |
2189 | |
2190 | /* We know what the first byte of any matched string should be */ |
2191 | U8 first_byte = FLAGS(c)((c)->flags); |
2192 | |
2193 | REXEC_FBC_FIND_NEXT_UTF8_BYTE_SCAN(first_byte,while (s < strend) { s = (char *) memchr(s, first_byte, strend -s); if (s == ((void*)0)) { s = (char *) strend; break; } if (S_reginclass( prog,c,(U8*)s,(U8*) strend,utf8_target)) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo ->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s)))) { goto got_it; } s += ((((reginfo->strend ) >= (s)) ? (void)0 : __assert2("re_exec.c", 2194, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))); previous_occurrence_end = s; } else { s += PL_utf8skip[*(const U8*)(s)]; } } |
2194 | reginclass(prog, c, (U8*)s, (U8*) strend, utf8_target))while (s < strend) { s = (char *) memchr(s, first_byte, strend -s); if (s == ((void*)0)) { s = (char *) strend; break; } if (S_reginclass( prog,c,(U8*)s,(U8*) strend,utf8_target)) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo ->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s)))) { goto got_it; } s += ((((reginfo->strend ) >= (s)) ? (void)0 : __assert2("re_exec.c", 2194, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))); previous_occurrence_end = s; } else { s += PL_utf8skip[*(const U8*)(s)]; } }; |
2195 | } |
2196 | break; |
2197 | |
2198 | case ANYOFHr24: |
2199 | if (utf8_target) { /* Can't possibly match a non-UTF-8 target */ |
2200 | REXEC_FBC_CLASS_SCAN(TRUE,do { while (s < strend) { if (( ((((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0 )) >> ((((c)->flags)) & 3)))) >= ((((((c)-> flags)) >> 2) + 0xC0))) ? (void)0 : __assert2("re_exec.c" , 2203, __func__, "(((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)->flags)) & 3)))) >= ((((((c)->flags)) >> 2) + 0xC0))" )), ( (sizeof((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2201, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0)))) == sizeof(U8)) ? ((((NV) (((((((c)-> flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2( "re_exec.c", 2203, __func__, "(NV) (((((((c)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)-> flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0 )))) >= 0) ? (void)0 : __assert2("re_exec.c", 2203, __func__ , "(NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)->flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U8) ((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2201 , __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))))))) - ((((((((c)->flags)) >> 2 ) + 0xC0))) | 0))) <= (((U64) ((((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0 )) >> ((((c)->flags)) & 3)))) - ((((((c)->flags )) >> 2) + 0xC0)))) | 0))))) : (sizeof((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2201, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0)))) == sizeof(U32)) ? ((((NV) (((((((c)-> flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2( "re_exec.c", 2203, __func__, "(NV) (((((((c)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)-> flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0 )))) >= 0) ? (void)0 : __assert2("re_exec.c", 2203, __func__ , "(NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)->flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U32) ((((( (sizeof(*s) == 1) || !(((U64)((*s ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2201 , __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))))))) - ((((((((c)->flags)) >> 2 ) + 0xC0))) | 0))) <= (((U64) ((((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0 )) >> ((((c)->flags)) & 3)))) - ((((((c)->flags )) >> 2) + 0xC0)))) | 0))))) : (((sizeof((((( (sizeof(* s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2201, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2203, __func__, "sizeof((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2201, __func__, \"( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))\")), ((U8) ((*s) | 0)))) == sizeof(U64)" )), ((((NV) (((((((c)->flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2("re_exec.c", 2203, __func__, "(NV) (((((((c)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)-> flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0 )))) >= 0) ? (void)0 : __assert2("re_exec.c", 2203, __func__ , "(NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)->flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U64) ((((( (sizeof(*s) == 1) || !(((U64)((*s ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2201 , __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))))))) - ((((((((c)->flags)) >> 2 ) + 0xC0))) | 0))) <= (((U64) ((((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0 )) >> ((((c)->flags)) & 3)))) - ((((((c)->flags )) >> 2) + 0xC0)))) | 0)))))))) && S_reginclass ( prog,c,(U8*)s,(U8*) strend,utf8_target))) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo, &s)))) { goto got_it; } s += (((1)) ? ((((reginfo->strend ) >= (s)) ? (void)0 : __assert2("re_exec.c", 2204, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += (((1)) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0) |
2201 | ( inRANGE(NATIVE_UTF8_TO_I8(*s),do { while (s < strend) { if (( ((((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0 )) >> ((((c)->flags)) & 3)))) >= ((((((c)-> flags)) >> 2) + 0xC0))) ? (void)0 : __assert2("re_exec.c" , 2203, __func__, "(((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)->flags)) & 3)))) >= ((((((c)->flags)) >> 2) + 0xC0))" )), ( (sizeof((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2201, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0)))) == sizeof(U8)) ? ((((NV) (((((((c)-> flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2( "re_exec.c", 2203, __func__, "(NV) (((((((c)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)-> flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0 )))) >= 0) ? (void)0 : __assert2("re_exec.c", 2203, __func__ , "(NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)->flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U8) ((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2201 , __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))))))) - ((((((((c)->flags)) >> 2 ) + 0xC0))) | 0))) <= (((U64) ((((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0 )) >> ((((c)->flags)) & 3)))) - ((((((c)->flags )) >> 2) + 0xC0)))) | 0))))) : (sizeof((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2201, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0)))) == sizeof(U32)) ? ((((NV) (((((((c)-> flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2( "re_exec.c", 2203, __func__, "(NV) (((((((c)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)-> flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0 )))) >= 0) ? (void)0 : __assert2("re_exec.c", 2203, __func__ , "(NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)->flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U32) ((((( (sizeof(*s) == 1) || !(((U64)((*s ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2201 , __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))))))) - ((((((((c)->flags)) >> 2 ) + 0xC0))) | 0))) <= (((U64) ((((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0 )) >> ((((c)->flags)) & 3)))) - ((((((c)->flags )) >> 2) + 0xC0)))) | 0))))) : (((sizeof((((( (sizeof(* s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2201, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2203, __func__, "sizeof((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2201, __func__, \"( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))\")), ((U8) ((*s) | 0)))) == sizeof(U64)" )), ((((NV) (((((((c)->flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2("re_exec.c", 2203, __func__, "(NV) (((((((c)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)-> flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0 )))) >= 0) ? (void)0 : __assert2("re_exec.c", 2203, __func__ , "(NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)->flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U64) ((((( (sizeof(*s) == 1) || !(((U64)((*s ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2201 , __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))))))) - ((((((((c)->flags)) >> 2 ) + 0xC0))) | 0))) <= (((U64) ((((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0 )) >> ((((c)->flags)) & 3)))) - ((((((c)->flags )) >> 2) + 0xC0)))) | 0)))))))) && S_reginclass ( prog,c,(U8*)s,(U8*) strend,utf8_target))) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo, &s)))) { goto got_it; } s += (((1)) ? ((((reginfo->strend ) >= (s)) ? (void)0 : __assert2("re_exec.c", 2204, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += (((1)) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0) |
2202 | LOWEST_ANYOF_HRx_BYTE(ANYOF_FLAGS(c)),do { while (s < strend) { if (( ((((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0 )) >> ((((c)->flags)) & 3)))) >= ((((((c)-> flags)) >> 2) + 0xC0))) ? (void)0 : __assert2("re_exec.c" , 2203, __func__, "(((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)->flags)) & 3)))) >= ((((((c)->flags)) >> 2) + 0xC0))" )), ( (sizeof((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2201, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0)))) == sizeof(U8)) ? ((((NV) (((((((c)-> flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2( "re_exec.c", 2203, __func__, "(NV) (((((((c)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)-> flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0 )))) >= 0) ? (void)0 : __assert2("re_exec.c", 2203, __func__ , "(NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)->flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U8) ((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2201 , __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))))))) - ((((((((c)->flags)) >> 2 ) + 0xC0))) | 0))) <= (((U64) ((((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0 )) >> ((((c)->flags)) & 3)))) - ((((((c)->flags )) >> 2) + 0xC0)))) | 0))))) : (sizeof((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2201, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0)))) == sizeof(U32)) ? ((((NV) (((((((c)-> flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2( "re_exec.c", 2203, __func__, "(NV) (((((((c)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)-> flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0 )))) >= 0) ? (void)0 : __assert2("re_exec.c", 2203, __func__ , "(NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)->flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U32) ((((( (sizeof(*s) == 1) || !(((U64)((*s ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2201 , __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))))))) - ((((((((c)->flags)) >> 2 ) + 0xC0))) | 0))) <= (((U64) ((((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0 )) >> ((((c)->flags)) & 3)))) - ((((((c)->flags )) >> 2) + 0xC0)))) | 0))))) : (((sizeof((((( (sizeof(* s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2201, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2203, __func__, "sizeof((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2201, __func__, \"( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))\")), ((U8) ((*s) | 0)))) == sizeof(U64)" )), ((((NV) (((((((c)->flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2("re_exec.c", 2203, __func__, "(NV) (((((((c)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)-> flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0 )))) >= 0) ? (void)0 : __assert2("re_exec.c", 2203, __func__ , "(NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)->flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U64) ((((( (sizeof(*s) == 1) || !(((U64)((*s ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2201 , __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))))))) - ((((((((c)->flags)) >> 2 ) + 0xC0))) | 0))) <= (((U64) ((((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0 )) >> ((((c)->flags)) & 3)))) - ((((((c)->flags )) >> 2) + 0xC0)))) | 0)))))))) && S_reginclass ( prog,c,(U8*)s,(U8*) strend,utf8_target))) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo, &s)))) { goto got_it; } s += (((1)) ? ((((reginfo->strend ) >= (s)) ? (void)0 : __assert2("re_exec.c", 2204, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += (((1)) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0) |
2203 | HIGHEST_ANYOF_HRx_BYTE(ANYOF_FLAGS(c)))do { while (s < strend) { if (( ((((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0 )) >> ((((c)->flags)) & 3)))) >= ((((((c)-> flags)) >> 2) + 0xC0))) ? (void)0 : __assert2("re_exec.c" , 2203, __func__, "(((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)->flags)) & 3)))) >= ((((((c)->flags)) >> 2) + 0xC0))" )), ( (sizeof((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2201, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0)))) == sizeof(U8)) ? ((((NV) (((((((c)-> flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2( "re_exec.c", 2203, __func__, "(NV) (((((((c)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)-> flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0 )))) >= 0) ? (void)0 : __assert2("re_exec.c", 2203, __func__ , "(NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)->flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U8) ((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2201 , __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))))))) - ((((((((c)->flags)) >> 2 ) + 0xC0))) | 0))) <= (((U64) ((((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0 )) >> ((((c)->flags)) & 3)))) - ((((((c)->flags )) >> 2) + 0xC0)))) | 0))))) : (sizeof((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2201, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0)))) == sizeof(U32)) ? ((((NV) (((((((c)-> flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2( "re_exec.c", 2203, __func__, "(NV) (((((((c)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)-> flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0 )))) >= 0) ? (void)0 : __assert2("re_exec.c", 2203, __func__ , "(NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)->flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U32) ((((( (sizeof(*s) == 1) || !(((U64)((*s ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2201 , __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))))))) - ((((((((c)->flags)) >> 2 ) + 0xC0))) | 0))) <= (((U64) ((((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0 )) >> ((((c)->flags)) & 3)))) - ((((((c)->flags )) >> 2) + 0xC0)))) | 0))))) : (((sizeof((((( (sizeof(* s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2201, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2203, __func__, "sizeof((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2201, __func__, \"( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))\")), ((U8) ((*s) | 0)))) == sizeof(U64)" )), ((((NV) (((((((c)->flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2("re_exec.c", 2203, __func__, "(NV) (((((((c)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)-> flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0 )))) >= 0) ? (void)0 : __assert2("re_exec.c", 2203, __func__ , "(NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)->flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U64) ((((( (sizeof(*s) == 1) || !(((U64)((*s ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2201 , __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))))))) - ((((((((c)->flags)) >> 2 ) + 0xC0))) | 0))) <= (((U64) ((((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0 )) >> ((((c)->flags)) & 3)))) - ((((((c)->flags )) >> 2) + 0xC0)))) | 0)))))))) && S_reginclass ( prog,c,(U8*)s,(U8*) strend,utf8_target))) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo, &s)))) { goto got_it; } s += (((1)) ? ((((reginfo->strend ) >= (s)) ? (void)0 : __assert2("re_exec.c", 2204, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += (((1)) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0) |
2204 | && reginclass(prog, c, (U8*)s, (U8*) strend, utf8_target)))do { while (s < strend) { if (( ((((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0 )) >> ((((c)->flags)) & 3)))) >= ((((((c)-> flags)) >> 2) + 0xC0))) ? (void)0 : __assert2("re_exec.c" , 2203, __func__, "(((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)->flags)) & 3)))) >= ((((((c)->flags)) >> 2) + 0xC0))" )), ( (sizeof((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2201, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0)))) == sizeof(U8)) ? ((((NV) (((((((c)-> flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2( "re_exec.c", 2203, __func__, "(NV) (((((((c)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)-> flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0 )))) >= 0) ? (void)0 : __assert2("re_exec.c", 2203, __func__ , "(NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)->flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U8) ((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2201 , __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))))))) - ((((((((c)->flags)) >> 2 ) + 0xC0))) | 0))) <= (((U64) ((((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0 )) >> ((((c)->flags)) & 3)))) - ((((((c)->flags )) >> 2) + 0xC0)))) | 0))))) : (sizeof((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2201, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0)))) == sizeof(U32)) ? ((((NV) (((((((c)-> flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2( "re_exec.c", 2203, __func__, "(NV) (((((((c)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)-> flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0 )))) >= 0) ? (void)0 : __assert2("re_exec.c", 2203, __func__ , "(NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)->flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U32) ((((( (sizeof(*s) == 1) || !(((U64)((*s ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2201 , __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))))))) - ((((((((c)->flags)) >> 2 ) + 0xC0))) | 0))) <= (((U64) ((((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0 )) >> ((((c)->flags)) & 3)))) - ((((((c)->flags )) >> 2) + 0xC0)))) | 0))))) : (((sizeof((((( (sizeof(* s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2201, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2203, __func__, "sizeof((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2201, __func__, \"( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))\")), ((U8) ((*s) | 0)))) == sizeof(U64)" )), ((((NV) (((((((c)->flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2("re_exec.c", 2203, __func__, "(NV) (((((((c)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)-> flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0 )))) >= 0) ? (void)0 : __assert2("re_exec.c", 2203, __func__ , "(NV) (((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0)) >> ((((c)->flags)) & 3)))) - ((((((c)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U64) ((((( (sizeof(*s) == 1) || !(((U64)((*s ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2201 , __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))))))) - ((((((((c)->flags)) >> 2 ) + 0xC0))) | 0))) <= (((U64) ((((((((((c)->flags)) >> 2) + 0xC0) + ((0xEF - (((((c)->flags)) >> 2) + 0xC0 )) >> ((((c)->flags)) & 3)))) - ((((((c)->flags )) >> 2) + 0xC0)))) | 0)))))))) && S_reginclass ( prog,c,(U8*)s,(U8*) strend,utf8_target))) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo, &s)))) { goto got_it; } s += (((1)) ? ((((reginfo->strend ) >= (s)) ? (void)0 : __assert2("re_exec.c", 2204, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += (((1)) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); |
2205 | } |
2206 | break; |
2207 | |
2208 | case ANYOFHs25: |
2209 | if (utf8_target) { /* Can't possibly match a non-UTF-8 target */ |
2210 | REXEC_FBC_CLASS_SCAN(TRUE,do { while (s < strend) { if (( strend -s >= ((c)->flags ) && (memcmp(((const void *) (s)), ((const void *) (( (struct regnode_anyofhs *) c)->string)), ((c)->flags)) == 0) && S_reginclass( prog,c,(U8*)s,(U8*) strend,utf8_target ))) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += (((1)) ? ( (((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2213, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += (((1)) ? PL_utf8skip[*(const U8*)(s)] : 1 ); } } } while (0) |
2211 | ( strend -s >= FLAGS(c)do { while (s < strend) { if (( strend -s >= ((c)->flags ) && (memcmp(((const void *) (s)), ((const void *) (( (struct regnode_anyofhs *) c)->string)), ((c)->flags)) == 0) && S_reginclass( prog,c,(U8*)s,(U8*) strend,utf8_target ))) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += (((1)) ? ( (((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2213, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += (((1)) ? PL_utf8skip[*(const U8*)(s)] : 1 ); } } } while (0) |
2212 | && memEQ(s, ((struct regnode_anyofhs *) c)->string, FLAGS(c))do { while (s < strend) { if (( strend -s >= ((c)->flags ) && (memcmp(((const void *) (s)), ((const void *) (( (struct regnode_anyofhs *) c)->string)), ((c)->flags)) == 0) && S_reginclass( prog,c,(U8*)s,(U8*) strend,utf8_target ))) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += (((1)) ? ( (((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2213, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += (((1)) ? PL_utf8skip[*(const U8*)(s)] : 1 ); } } } while (0) |
2213 | && reginclass(prog, c, (U8*)s, (U8*) strend, utf8_target)))do { while (s < strend) { if (( strend -s >= ((c)->flags ) && (memcmp(((const void *) (s)), ((const void *) (( (struct regnode_anyofhs *) c)->string)), ((c)->flags)) == 0) && S_reginclass( prog,c,(U8*)s,(U8*) strend,utf8_target ))) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += (((1)) ? ( (((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2213, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += (((1)) ? PL_utf8skip[*(const U8*)(s)] : 1 ); } } } while (0); |
2214 | } |
2215 | break; |
2216 | |
2217 | case ANYOFR26: |
2218 | if (utf8_target) { |
2219 | REXEC_FBC_CLASS_SCAN(TRUE,do { while (s < strend) { if (( (((( (sizeof(*s) == 1) || ! (((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2220, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))) >= ((c)->flags) && ((((NV ) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20 ) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 2224, __func__ , "(NV) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)c)->arg1)) >> 20 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2224, __func__ , "(NV) ((((((struct regnode_1 *)c)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) s),(const U8 *) (U8 *) strend,((void*)0)))) - (((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) | 0) )) <= (((U64) (((((((struct regnode_1 *)c)->arg1)) >> 20)) | 0))))))) { if ( ( doevery || s != previous_occurrence_end ) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += (((1)) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2224, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += (((1)) ? PL_utf8skip[*(const U8*)(s)] : 1 ); } } } while (0) |
2220 | ( NATIVE_UTF8_TO_I8(*s) >= ANYOF_FLAGS(c)do { while (s < strend) { if (( (((( (sizeof(*s) == 1) || ! (((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2220, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))) >= ((c)->flags) && ((((NV ) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20 ) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 2224, __func__ , "(NV) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)c)->arg1)) >> 20 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2224, __func__ , "(NV) ((((((struct regnode_1 *)c)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) s),(const U8 *) (U8 *) strend,((void*)0)))) - (((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) | 0) )) <= (((U64) (((((((struct regnode_1 *)c)->arg1)) >> 20)) | 0))))))) { if ( ( doevery || s != previous_occurrence_end ) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += (((1)) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2224, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += (((1)) ? PL_utf8skip[*(const U8*)(s)] : 1 ); } } } while (0) |
2221 | && withinCOUNT(utf8_to_uvchr_buf((U8 *) s,do { while (s < strend) { if (( (((( (sizeof(*s) == 1) || ! (((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2220, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))) >= ((c)->flags) && ((((NV ) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20 ) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 2224, __func__ , "(NV) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)c)->arg1)) >> 20 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2224, __func__ , "(NV) ((((((struct regnode_1 *)c)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) s),(const U8 *) (U8 *) strend,((void*)0)))) - (((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) | 0) )) <= (((U64) (((((((struct regnode_1 *)c)->arg1)) >> 20)) | 0))))))) { if ( ( doevery || s != previous_occurrence_end ) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += (((1)) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2224, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += (((1)) ? PL_utf8skip[*(const U8*)(s)] : 1 ); } } } while (0) |
2222 | (U8 *) strend,do { while (s < strend) { if (( (((( (sizeof(*s) == 1) || ! (((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2220, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))) >= ((c)->flags) && ((((NV ) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20 ) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 2224, __func__ , "(NV) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)c)->arg1)) >> 20 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2224, __func__ , "(NV) ((((((struct regnode_1 *)c)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) s),(const U8 *) (U8 *) strend,((void*)0)))) - (((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) | 0) )) <= (((U64) (((((((struct regnode_1 *)c)->arg1)) >> 20)) | 0))))))) { if ( ( doevery || s != previous_occurrence_end ) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += (((1)) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2224, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += (((1)) ? PL_utf8skip[*(const U8*)(s)] : 1 ); } } } while (0) |
2223 | NULL),do { while (s < strend) { if (( (((( (sizeof(*s) == 1) || ! (((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2220, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))) >= ((c)->flags) && ((((NV ) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20 ) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 2224, __func__ , "(NV) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)c)->arg1)) >> 20 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2224, __func__ , "(NV) ((((((struct regnode_1 *)c)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) s),(const U8 *) (U8 *) strend,((void*)0)))) - (((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) | 0) )) <= (((U64) (((((((struct regnode_1 *)c)->arg1)) >> 20)) | 0))))))) { if ( ( doevery || s != previous_occurrence_end ) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += (((1)) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2224, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += (((1)) ? PL_utf8skip[*(const U8*)(s)] : 1 ); } } } while (0) |
2224 | ANYOFRbase(c), ANYOFRdelta(c))))do { while (s < strend) { if (( (((( (sizeof(*s) == 1) || ! (((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2220, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))) >= ((c)->flags) && ((((NV ) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20 ) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 2224, __func__ , "(NV) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)c)->arg1)) >> 20 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2224, __func__ , "(NV) ((((((struct regnode_1 *)c)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) s),(const U8 *) (U8 *) strend,((void*)0)))) - (((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) | 0) )) <= (((U64) (((((((struct regnode_1 *)c)->arg1)) >> 20)) | 0))))))) { if ( ( doevery || s != previous_occurrence_end ) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += (((1)) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2224, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += (((1)) ? PL_utf8skip[*(const U8*)(s)] : 1 ); } } } while (0); |
2225 | } |
2226 | else { |
2227 | REXEC_FBC_CLASS_SCAN(0, withinCOUNT((U8) *s,do { while (s < strend) { if (((((NV) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void )0 : __assert2("re_exec.c", 2228, __func__, "(NV) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)c)->arg1)) >> 20 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2228, __func__ , "(NV) ((((((struct regnode_1 *)c)->arg1)) >> 20)) >= 0" )), (((U64) ((((U8) *s)) - (((((((struct regnode_1 *)c)->arg1 )) & ((1 << 20) - 1))) | 0))) <= (((U64) ((((((( struct regnode_1 *)c)->arg1)) >> 20)) | 0)))))) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo ->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s)))) { goto got_it; } s += ((0) ? ((((reginfo ->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2228 , __func__, "(reginfo->strend) >= (s)")), ((reginfo-> strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s))) <(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend) - ( s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((0) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0) |
2228 | ANYOFRbase(c), ANYOFRdelta(c)))do { while (s < strend) { if (((((NV) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void )0 : __assert2("re_exec.c", 2228, __func__, "(NV) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)c)->arg1)) >> 20 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2228, __func__ , "(NV) ((((((struct regnode_1 *)c)->arg1)) >> 20)) >= 0" )), (((U64) ((((U8) *s)) - (((((((struct regnode_1 *)c)->arg1 )) & ((1 << 20) - 1))) | 0))) <= (((U64) ((((((( struct regnode_1 *)c)->arg1)) >> 20)) | 0)))))) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo ->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s)))) { goto got_it; } s += ((0) ? ((((reginfo ->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2228 , __func__, "(reginfo->strend) >= (s)")), ((reginfo-> strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s))) <(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend) - ( s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((0) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); |
2229 | } |
2230 | break; |
2231 | |
2232 | case ANYOFRb27: |
2233 | if (utf8_target) { |
2234 | |
2235 | /* We know what the first byte of any matched string should be */ |
2236 | U8 first_byte = FLAGS(c)((c)->flags); |
2237 | |
2238 | REXEC_FBC_FIND_NEXT_UTF8_BYTE_SCAN(first_byte,while (s < strend) { s = (char *) memchr(s, first_byte, strend -s); if (s == ((void*)0)) { s = (char *) strend; break; } if (((((NV) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 2242, __func__, "(NV) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)c)->arg1)) >> 20 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2242, __func__ , "(NV) ((((((struct regnode_1 *)c)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) s),(const U8 *) (U8 *) strend,((void*)0)))) - (((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) | 0) )) <= (((U64) (((((((struct regnode_1 *)c)->arg1)) >> 20)) | 0)))))) { if ( ( doevery || s != previous_occurrence_end ) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2242, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))); previous_occurrence_end = s; } else { s += PL_utf8skip[*(const U8*)(s)]; } } |
2239 | withinCOUNT(utf8_to_uvchr_buf((U8 *) s,while (s < strend) { s = (char *) memchr(s, first_byte, strend -s); if (s == ((void*)0)) { s = (char *) strend; break; } if (((((NV) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 2242, __func__, "(NV) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)c)->arg1)) >> 20 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2242, __func__ , "(NV) ((((((struct regnode_1 *)c)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) s),(const U8 *) (U8 *) strend,((void*)0)))) - (((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) | 0) )) <= (((U64) (((((((struct regnode_1 *)c)->arg1)) >> 20)) | 0)))))) { if ( ( doevery || s != previous_occurrence_end ) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2242, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))); previous_occurrence_end = s; } else { s += PL_utf8skip[*(const U8*)(s)]; } } |
2240 | (U8 *) strend,while (s < strend) { s = (char *) memchr(s, first_byte, strend -s); if (s == ((void*)0)) { s = (char *) strend; break; } if (((((NV) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 2242, __func__, "(NV) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)c)->arg1)) >> 20 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2242, __func__ , "(NV) ((((((struct regnode_1 *)c)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) s),(const U8 *) (U8 *) strend,((void*)0)))) - (((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) | 0) )) <= (((U64) (((((((struct regnode_1 *)c)->arg1)) >> 20)) | 0)))))) { if ( ( doevery || s != previous_occurrence_end ) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2242, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))); previous_occurrence_end = s; } else { s += PL_utf8skip[*(const U8*)(s)]; } } |
2241 | NULL),while (s < strend) { s = (char *) memchr(s, first_byte, strend -s); if (s == ((void*)0)) { s = (char *) strend; break; } if (((((NV) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 2242, __func__, "(NV) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)c)->arg1)) >> 20 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2242, __func__ , "(NV) ((((((struct regnode_1 *)c)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) s),(const U8 *) (U8 *) strend,((void*)0)))) - (((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) | 0) )) <= (((U64) (((((((struct regnode_1 *)c)->arg1)) >> 20)) | 0)))))) { if ( ( doevery || s != previous_occurrence_end ) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2242, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))); previous_occurrence_end = s; } else { s += PL_utf8skip[*(const U8*)(s)]; } } |
2242 | ANYOFRbase(c), ANYOFRdelta(c)))while (s < strend) { s = (char *) memchr(s, first_byte, strend -s); if (s == ((void*)0)) { s = (char *) strend; break; } if (((((NV) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 2242, __func__, "(NV) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)c)->arg1)) >> 20 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2242, __func__ , "(NV) ((((((struct regnode_1 *)c)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) s),(const U8 *) (U8 *) strend,((void*)0)))) - (((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) | 0) )) <= (((U64) (((((((struct regnode_1 *)c)->arg1)) >> 20)) | 0)))))) { if ( ( doevery || s != previous_occurrence_end ) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2242, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))); previous_occurrence_end = s; } else { s += PL_utf8skip[*(const U8*)(s)]; } }; |
2243 | } |
2244 | else { |
2245 | REXEC_FBC_CLASS_SCAN(0, withinCOUNT((U8) *s,do { while (s < strend) { if (((((NV) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void )0 : __assert2("re_exec.c", 2246, __func__, "(NV) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)c)->arg1)) >> 20 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2246, __func__ , "(NV) ((((((struct regnode_1 *)c)->arg1)) >> 20)) >= 0" )), (((U64) ((((U8) *s)) - (((((((struct regnode_1 *)c)->arg1 )) & ((1 << 20) - 1))) | 0))) <= (((U64) ((((((( struct regnode_1 *)c)->arg1)) >> 20)) | 0)))))) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo ->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s)))) { goto got_it; } s += ((0) ? ((((reginfo ->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2246 , __func__, "(reginfo->strend) >= (s)")), ((reginfo-> strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s))) <(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend) - ( s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((0) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0) |
2246 | ANYOFRbase(c), ANYOFRdelta(c)))do { while (s < strend) { if (((((NV) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void )0 : __assert2("re_exec.c", 2246, __func__, "(NV) ((((((struct regnode_1 *)c)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)c)->arg1)) >> 20 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2246, __func__ , "(NV) ((((((struct regnode_1 *)c)->arg1)) >> 20)) >= 0" )), (((U64) ((((U8) *s)) - (((((((struct regnode_1 *)c)->arg1 )) & ((1 << 20) - 1))) | 0))) <= (((U64) ((((((( struct regnode_1 *)c)->arg1)) >> 20)) | 0)))))) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo ->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s)))) { goto got_it; } s += ((0) ? ((((reginfo ->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2246 , __func__, "(reginfo->strend) >= (s)")), ((reginfo-> strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s))) <(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend) - ( s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((0) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); |
2247 | } |
2248 | break; |
2249 | |
2250 | case EXACTFAA_NO_TRIE49: /* This node only generated for non-utf8 patterns */ |
2251 | assert(! is_utf8_pat)((! is_utf8_pat) ? (void)0 : __assert2("re_exec.c", 2251, __func__ , "! is_utf8_pat")); |
2252 | /* FALLTHROUGH */ |
2253 | case EXACTFAA46: |
2254 | if (is_utf8_pat) { |
2255 | utf8_fold_flags = FOLDEQ_UTF8_NOMIX_ASCII(1 << 0) |
2256 | |FOLDEQ_S2_ALREADY_FOLDED(1 << 3)|FOLDEQ_S2_FOLDS_SANE(1 << 5); |
2257 | goto do_exactf_utf8; |
2258 | } |
2259 | else if (utf8_target) { |
2260 | |
2261 | /* Here, and elsewhere in this file, the reason we can't consider a |
2262 | * non-UTF-8 pattern already folded in the presence of a UTF-8 |
2263 | * target is because any MICRO SIGN in the pattern won't be folded. |
2264 | * Since the fold of the MICRO SIGN requires UTF-8 to represent, we |
2265 | * can consider a non-UTF-8 pattern folded when matching a |
2266 | * non-UTF-8 target */ |
2267 | utf8_fold_flags = FOLDEQ_UTF8_NOMIX_ASCII(1 << 0); |
2268 | goto do_exactf_utf8; |
2269 | } |
2270 | |
2271 | /* Latin1 folds are not affected by /a, except it excludes the sharp s, |
2272 | * which these functions don't handle anyway */ |
2273 | fold_array = PL_fold_latin1; |
2274 | folder = foldEQ_latin1_s2_foldedS_foldEQ_latin1_s2_folded; |
2275 | goto do_exactf_non_utf8; |
2276 | |
2277 | case EXACTF43: /* This node only generated for non-utf8 patterns */ |
2278 | assert(! is_utf8_pat)((! is_utf8_pat) ? (void)0 : __assert2("re_exec.c", 2278, __func__ , "! is_utf8_pat")); |
2279 | if (utf8_target) { |
2280 | goto do_exactf_utf8; |
2281 | } |
2282 | fold_array = PL_fold; |
2283 | folder = foldEQPerl_foldEQ; |
2284 | goto do_exactf_non_utf8; |
2285 | |
2286 | case EXACTFL44: |
2287 | _CHECK_AND_WARN_PROBLEMATIC_LOCALEdo { if (__builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool )0),(0))) { Perl__warn_problematic_locale(); } } while (0); |
2288 | if (is_utf8_pat || utf8_target || IN_UTF8_CTYPE_LOCALEPL_in_utf8_CTYPE_locale) { |
2289 | utf8_fold_flags = FOLDEQ_LOCALE(1 << 1); |
2290 | goto do_exactf_utf8; |
2291 | } |
2292 | fold_array = PL_fold_locale; |
2293 | folder = foldEQ_localePerl_foldEQ_locale; |
2294 | goto do_exactf_non_utf8; |
2295 | |
2296 | case EXACTFUP47: /* Problematic even though pattern isn't UTF-8. Use |
2297 | full functionality normally not done except for |
2298 | UTF-8 */ |
2299 | assert(! is_utf8_pat)((! is_utf8_pat) ? (void)0 : __assert2("re_exec.c", 2299, __func__ , "! is_utf8_pat")); |
2300 | goto do_exactf_utf8; |
2301 | |
2302 | case EXACTFLU848: |
2303 | if (! utf8_target) { /* All code points in this node require |
2304 | UTF-8 to express. */ |
2305 | break; |
2306 | } |
2307 | utf8_fold_flags = FOLDEQ_LOCALE(1 << 1) | FOLDEQ_S2_ALREADY_FOLDED(1 << 3) |
2308 | | FOLDEQ_S2_FOLDS_SANE(1 << 5); |
2309 | goto do_exactf_utf8; |
2310 | |
2311 | case EXACTFU_REQ852: |
2312 | if (! utf8_target) { |
2313 | break; |
2314 | } |
2315 | assert(is_utf8_pat)((is_utf8_pat) ? (void)0 : __assert2("re_exec.c", 2315, __func__ , "is_utf8_pat")); |
2316 | utf8_fold_flags = FOLDEQ_S2_ALREADY_FOLDED(1 << 3); |
2317 | goto do_exactf_utf8; |
2318 | |
2319 | case EXACTFU45: |
2320 | if (is_utf8_pat || utf8_target) { |
2321 | utf8_fold_flags = FOLDEQ_S2_ALREADY_FOLDED(1 << 3); |
2322 | goto do_exactf_utf8; |
2323 | } |
2324 | |
2325 | /* Any 'ss' in the pattern should have been replaced by regcomp, |
2326 | * so we don't have to worry here about this single special case |
2327 | * in the Latin1 range */ |
2328 | fold_array = PL_fold_latin1; |
2329 | folder = foldEQ_latin1_s2_foldedS_foldEQ_latin1_s2_folded; |
2330 | |
2331 | /* FALLTHROUGH */ |
2332 | |
2333 | do_exactf_non_utf8: /* Neither pattern nor string are UTF8, and there |
2334 | are no glitches with fold-length differences |
2335 | between the target string and pattern */ |
2336 | |
2337 | /* The idea in the non-utf8 EXACTF* cases is to first find the |
2338 | * first character of the EXACTF* node and then, if necessary, |
2339 | * case-insensitively compare the full text of the node. c1 is the |
2340 | * first character. c2 is its fold. This logic will not work for |
2341 | * Unicode semantics and the german sharp ss, which hence should |
2342 | * not be compiled into a node that gets here. */ |
2343 | pat_string = STRINGs(c)(((((c)->type) != 41 && ((c)->type) != 51) ? (void )0 : __assert2("re_exec.c", 2343, __func__, "((c)->type) != 41 && ((c)->type) != 51" )), ((struct regnode_string *)c)->string); |
2344 | ln = STR_LENs(c)(((((c)->type) != 41 && ((c)->type) != 51) ? (void )0 : __assert2("re_exec.c", 2344, __func__, "((c)->type) != 41 && ((c)->type) != 51" )), ((struct regnode_string *)c)->str_len); /* length to match in octets/bytes */ |
2345 | |
2346 | /* We know that we have to match at least 'ln' bytes (which is the |
2347 | * same as characters, since not utf8). If we have to match 3 |
2348 | * characters, and there are only 2 availabe, we know without |
2349 | * trying that it will fail; so don't start a match past the |
2350 | * required minimum number from the far end */ |
2351 | e = HOP3c(strend, -((SSize_t)ln), s)((char*)(reginfo->is_utf8_target ? S_reghop3((U8*)(strend) , -((ssize_t)ln), (U8*)(s)) : (U8*)(strend + -((ssize_t)ln))) ); |
2352 | if (e < s) |
2353 | break; |
2354 | |
2355 | c1 = *pat_string; |
2356 | c2 = fold_array[c1]; |
2357 | if (c1 == c2) { /* If char and fold are the same */ |
2358 | while (s <= e) { |
2359 | s = (char *) memchr(s, c1, e + 1 - s); |
2360 | if (s == NULL((void*)0)) { |
2361 | break; |
2362 | } |
2363 | |
2364 | /* Check that the rest of the node matches */ |
2365 | if ( (ln == 1 || folder(s + 1, pat_string + 1, ln - 1)) |
2366 | && (reginfo->intuit || regtry(reginfo, &s)S_regtry( reginfo,&s)) ) |
2367 | { |
2368 | goto got_it; |
2369 | } |
2370 | s++; |
2371 | } |
2372 | } |
2373 | else { |
2374 | U8 bits_differing = c1 ^ c2; |
2375 | |
2376 | /* If the folds differ in one bit position only, we can mask to |
2377 | * match either of them, and can use this faster find method. Both |
2378 | * ASCII and EBCDIC tend to have their case folds differ in only |
2379 | * one position, so this is very likely */ |
2380 | if (LIKELY(PL_bitcount[bits_differing] == 1)__builtin_expect(((PL_bitcount[bits_differing] == 1) ? (_Bool )1 : (_Bool)0),(1))) { |
2381 | bits_differing = ~ bits_differing; |
2382 | while (s <= e) { |
2383 | s = (char *) find_next_maskedS_find_next_masked((U8 *) s, (U8 *) e + 1, |
2384 | (c1 & bits_differing), bits_differing); |
2385 | if (s > e) { |
2386 | break; |
2387 | } |
2388 | |
2389 | if ( (ln == 1 || folder(s + 1, pat_string + 1, ln - 1)) |
2390 | && (reginfo->intuit || regtry(reginfo, &s)S_regtry( reginfo,&s)) ) |
2391 | { |
2392 | goto got_it; |
2393 | } |
2394 | s++; |
2395 | } |
2396 | } |
2397 | else { /* Otherwise, stuck with looking byte-at-a-time. This |
2398 | should actually happen only in EXACTFL nodes */ |
2399 | while (s <= e) { |
2400 | if ( (*(U8*)s == c1 || *(U8*)s == c2) |
2401 | && (ln == 1 || folder(s + 1, pat_string + 1, ln - 1)) |
2402 | && (reginfo->intuit || regtry(reginfo, &s)S_regtry( reginfo,&s)) ) |
2403 | { |
2404 | goto got_it; |
2405 | } |
2406 | s++; |
2407 | } |
2408 | } |
2409 | } |
2410 | break; |
2411 | |
2412 | do_exactf_utf8: |
2413 | { |
2414 | unsigned expansion; |
2415 | |
2416 | /* If one of the operands is in utf8, we can't use the simpler folding |
2417 | * above, due to the fact that many different characters can have the |
2418 | * same fold, or portion of a fold, or different- length fold */ |
2419 | pat_string = STRINGs(c)(((((c)->type) != 41 && ((c)->type) != 51) ? (void )0 : __assert2("re_exec.c", 2419, __func__, "((c)->type) != 41 && ((c)->type) != 51" )), ((struct regnode_string *)c)->string); |
2420 | ln = STR_LENs(c)(((((c)->type) != 41 && ((c)->type) != 51) ? (void )0 : __assert2("re_exec.c", 2420, __func__, "((c)->type) != 41 && ((c)->type) != 51" )), ((struct regnode_string *)c)->str_len); /* length to match in octets/bytes */ |
2421 | pat_end = pat_string + ln; |
2422 | lnc = is_utf8_pat /* length to match in characters */ |
2423 | ? utf8_length((U8 *) pat_string, (U8 *) pat_end)Perl_utf8_length( (U8 *) pat_string,(U8 *) pat_end) |
2424 | : ln; |
2425 | |
2426 | /* We have 'lnc' characters to match in the pattern, but because of |
2427 | * multi-character folding, each character in the target can match |
2428 | * up to 3 characters (Unicode guarantees it will never exceed |
2429 | * this) if it is utf8-encoded; and up to 2 if not (based on the |
2430 | * fact that the Latin 1 folds are already determined, and the |
2431 | * only multi-char fold in that range is the sharp-s folding to |
2432 | * 'ss'. Thus, a pattern character can match as little as 1/3 of a |
2433 | * string character. Adjust lnc accordingly, rounding up, so that |
2434 | * if we need to match at least 4+1/3 chars, that really is 5. */ |
2435 | expansion = (utf8_target) ? UTF8_MAX_FOLD_CHAR_EXPAND3 : 2; |
2436 | lnc = (lnc + expansion - 1) / expansion; |
2437 | |
2438 | /* As in the non-UTF8 case, if we have to match 3 characters, and |
2439 | * only 2 are left, it's guaranteed to fail, so don't start a |
2440 | * match that would require us to go beyond the end of the string |
2441 | */ |
2442 | e = HOP3c(strend, -((SSize_t)lnc), s)((char*)(reginfo->is_utf8_target ? S_reghop3((U8*)(strend) , -((ssize_t)lnc), (U8*)(s)) : (U8*)(strend + -((ssize_t)lnc) ))); |
2443 | |
2444 | /* XXX Note that we could recalculate e to stop the loop earlier, |
2445 | * as the worst case expansion above will rarely be met, and as we |
2446 | * go along we would usually find that e moves further to the left. |
2447 | * This would happen only after we reached the point in the loop |
2448 | * where if there were no expansion we should fail. Unclear if |
2449 | * worth the expense */ |
2450 | |
2451 | while (s <= e) { |
2452 | char *my_strend= (char *)strend; |
2453 | if (foldEQ_utf8_flags(s, &my_strend, 0, utf8_target,Perl_foldEQ_utf8_flags( s,&my_strend,0,utf8_target,pat_string ,((void*)0),ln,is_utf8_pat,utf8_fold_flags) |
2454 | pat_string, NULL, ln, is_utf8_pat, utf8_fold_flags)Perl_foldEQ_utf8_flags( s,&my_strend,0,utf8_target,pat_string ,((void*)0),ln,is_utf8_pat,utf8_fold_flags) |
2455 | && (reginfo->intuit || regtry(reginfo, &s)S_regtry( reginfo,&s)) ) |
2456 | { |
2457 | goto got_it; |
2458 | } |
2459 | s += (utf8_target) ? UTF8_SAFE_SKIP(s, reginfo->strend)((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2459, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1; |
2460 | } |
2461 | break; |
2462 | } |
2463 | |
2464 | case BOUNDL9: |
2465 | _CHECK_AND_WARN_PROBLEMATIC_LOCALEdo { if (__builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool )0),(0))) { Perl__warn_problematic_locale(); } } while (0); |
2466 | if (FLAGS(c)((c)->flags) != TRADITIONAL_BOUND) { |
2467 | if (! IN_UTF8_CTYPE_LOCALEPL_in_utf8_CTYPE_locale) { |
2468 | Perl_ck_warner(aTHX_ packWARN(WARN_LOCALE)(63 ), |
2469 | B_ON_NON_UTF8_LOCALE_IS_WRONG"Use of \\b{} or \\B{} for non-UTF-8 locale is wrong. Assuming a UTF-8 locale"); |
2470 | } |
2471 | goto do_boundu; |
2472 | } |
2473 | |
2474 | FBC_BOUND(isWORDCHAR_LC, isWORDCHAR_LC_uvchr, isWORDCHAR_LC_utf8_safe)if (utf8_target) { if (s == reginfo->strbeg) { tmp = '\n'; } else { U8 * const r = S_reghop3((U8*)s, -1, (U8*)reginfo-> strbeg); tmp = Perl_utf8n_to_uvchr_msgs(r, (U8*) reginfo-> strend - r, 0, 0, 0, 0); } tmp = (tmp < 256 ? (! ( (sizeof (tmp) == 1) || !(((U64)((tmp) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) (tmp)] & (1U << (0))) ? (_Bool )1 : (_Bool)0) : (((isalnum( (U8) (tmp)) || (char)(tmp) == '_' )) ? (_Bool)1 : (_Bool)0)) : Perl__is_uni_FOO( 0,tmp)); do { while (s < strend) { if (tmp == ! (((((((U8 *) reginfo->strend ) > ((U8 *) s))) ? (void)0 : __assert2("re_exec.c", 2474, __func__ , "(((U8 *) reginfo->strend) > ((U8 *) s))")), (((((U64 )(((UV) (((*((U8 *) s)) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? (! ( (sizeof(*((U8 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) (*((U8 *) s))] & (1U << (0)) ) ? (_Bool)1 : (_Bool)0) : (((isalnum( (U8) (*((U8 *) s))) || (char)(*((U8 *) s)) == '_')) ? (_Bool)1 : (_Bool)0)) : ((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2474 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2474, __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_exec.c" , 2474, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2474, __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_exec.c" , 2474, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2474, __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_exec.c" , 2474, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) reginfo->strend ) - ((U8 *) s) > 1 && (((( (sizeof(*(((U8 *) s)+1) ) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? ( void)0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : (_Bool)0),(1))) ? (! ( (sizeof(( (((((( (sizeof(*((U8 *) s )) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2474 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2474, __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_exec.c" , 2474, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2474, __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_exec.c" , 2474, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2474, __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_exec.c" , 2474, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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_exec.c", 2474, __func__ , "(((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c\", 2474, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2474, __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_exec.c\", 2474, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2474, __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_exec.c\", 2474, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2474, __func__, \\\"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2474, __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_exec.c\", 2474, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "(((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))\")), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(( (U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1) )) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64) (((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof(*(( U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF)) ) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2474 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2474, __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_exec.c" , 2474, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2474, __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_exec.c" , 2474, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2474, __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_exec.c" , 2474, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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_exec.c", 2474, __func__ , "(((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c\", 2474, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2474, __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_exec.c\", 2474, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2474, __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_exec.c\", 2474, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2474, __func__, \\\"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2474, __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_exec.c\", 2474, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "(((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))\")), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(( (U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1) )) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64) (((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) (( (((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2474 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2474, __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_exec.c" , 2474, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2474, __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_exec.c" , 2474, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2474, __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_exec.c" , 2474, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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_exec.c", 2474, __func__ , "(((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c\", 2474, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2474, __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_exec.c\", 2474, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2474, __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_exec.c\", 2474, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2474, __func__, \\\"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2474, __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_exec.c\", 2474, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "(((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))\")), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(( (U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1) )) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64) (((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (0))) ? (_Bool)1 : ( _Bool)0) : (((isalnum( (U8) (( (((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2474 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2474, __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_exec.c" , 2474, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2474, __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_exec.c" , 2474, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2474, __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_exec.c" , 2474, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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_exec.c", 2474, __func__ , "(((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c\", 2474, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2474, __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_exec.c\", 2474, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2474, __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_exec.c\", 2474, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2474, __func__, \\\"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2474, __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_exec.c\", 2474, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "(((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))\")), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(( (U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1) )) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64) (((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))) || (char)(( (((((( (sizeof(*((U8 *) s) ) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2474 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2474, __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_exec.c" , 2474, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2474, __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_exec.c" , 2474, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2474, __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_exec.c" , 2474, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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_exec.c", 2474, __func__ , "(((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c\", 2474, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2474, __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_exec.c\", 2474, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2474, __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_exec.c\", 2474, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2474, __func__, \\\"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2474, __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_exec.c\", 2474, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "(((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))\")), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(( (U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1) )) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2474, __func__, "( (sizeof((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2474, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64) (((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == '_')) ? (_Bool)1 : (_Bool)0)) : (Perl__force_out_malformed_utf8_message ( (U8 *) ((U8 *) s),(U8 *) ((U8 *) reginfo->strend),0,1), 0 )) : Perl__is_utf8_FOO( 0,(U8 *) s,(U8 *) reginfo->strend) )))) { tmp = !tmp; if (reginfo->intuit || (s <= reginfo ->strend && S_regtry( reginfo,&s))) goto got_it ; } else { ; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2474, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } else { tmp = (s != reginfo->strbeg) ? ((int )*(const U8*)(s - 1)) : '\n'; tmp = (! ( (sizeof(tmp) == 1) || !(((U64)((tmp) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) (tmp)] & (1U << (0))) ? (_Bool )1 : (_Bool)0) : (((isalnum( (U8) (tmp)) || (char)(tmp) == '_' )) ? (_Bool)1 : (_Bool)0)); do { while (s < strend) { if ( tmp == ! (! ( (sizeof((U8) *s) == 1) || !(((U64)(((U8) *s) | 0 )) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass [(U8) ((U8) *s)] & (1U << (0))) ? (_Bool)1 : (_Bool )0) : (((isalnum( (U8) ((U8) *s)) || (char)((U8) *s) == '_')) ? (_Bool)1 : (_Bool)0))) { if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; tmp = !tmp; } else { ; } s += ((0) ? ((((reginfo-> strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2474, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1); } } while (0); } if (tmp == ! (! ( (sizeof('\n') == 1) || !(((U64)(('\n') | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) ('\n')] & (1U << (0))) ? (_Bool)1 : (_Bool)0) : (((isalnum( (U8) ('\n')) || (char)('\n') == '_')) ? (_Bool)1 : (_Bool)0))) { if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; } else { ; }; |
2475 | break; |
2476 | |
2477 | case NBOUNDL13: |
2478 | _CHECK_AND_WARN_PROBLEMATIC_LOCALEdo { if (__builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool )0),(0))) { Perl__warn_problematic_locale(); } } while (0); |
2479 | if (FLAGS(c)((c)->flags) != TRADITIONAL_BOUND) { |
2480 | if (! IN_UTF8_CTYPE_LOCALEPL_in_utf8_CTYPE_locale) { |
2481 | Perl_ck_warner(aTHX_ packWARN(WARN_LOCALE)(63 ), |
2482 | B_ON_NON_UTF8_LOCALE_IS_WRONG"Use of \\b{} or \\B{} for non-UTF-8 locale is wrong. Assuming a UTF-8 locale"); |
2483 | } |
2484 | goto do_nboundu; |
2485 | } |
2486 | |
2487 | FBC_NBOUND(isWORDCHAR_LC, isWORDCHAR_LC_uvchr, isWORDCHAR_LC_utf8_safe)if (utf8_target) { if (s == reginfo->strbeg) { tmp = '\n'; } else { U8 * const r = S_reghop3((U8*)s, -1, (U8*)reginfo-> strbeg); tmp = Perl_utf8n_to_uvchr_msgs(r, (U8*) reginfo-> strend - r, 0, 0, 0, 0); } tmp = (tmp < 256 ? (! ( (sizeof (tmp) == 1) || !(((U64)((tmp) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) (tmp)] & (1U << (0))) ? (_Bool )1 : (_Bool)0) : (((isalnum( (U8) (tmp)) || (char)(tmp) == '_' )) ? (_Bool)1 : (_Bool)0)) : Perl__is_uni_FOO( 0,tmp)); do { while (s < strend) { if (tmp == ! (((((((U8 *) reginfo->strend ) > ((U8 *) s))) ? (void)0 : __assert2("re_exec.c", 2487, __func__ , "(((U8 *) reginfo->strend) > ((U8 *) s))")), (((((U64 )(((UV) (((*((U8 *) s)) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? (! ( (sizeof(*((U8 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) (*((U8 *) s))] & (1U << (0)) ) ? (_Bool)1 : (_Bool)0) : (((isalnum( (U8) (*((U8 *) s))) || (char)(*((U8 *) s)) == '_')) ? (_Bool)1 : (_Bool)0)) : ((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2487 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2487, __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_exec.c" , 2487, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2487, __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_exec.c" , 2487, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2487, __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_exec.c" , 2487, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) reginfo->strend ) - ((U8 *) s) > 1 && (((( (sizeof(*(((U8 *) s)+1) ) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? ( void)0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : (_Bool)0),(1))) ? (! ( (sizeof(( (((((( (sizeof(*((U8 *) s )) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2487 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2487, __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_exec.c" , 2487, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2487, __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_exec.c" , 2487, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2487, __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_exec.c" , 2487, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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_exec.c", 2487, __func__ , "(((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c\", 2487, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2487, __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_exec.c\", 2487, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2487, __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_exec.c\", 2487, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2487, __func__, \\\"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2487, __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_exec.c\", 2487, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "(((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))\")), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(( (U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1) )) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64) (((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof(*(( U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF)) ) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2487 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2487, __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_exec.c" , 2487, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2487, __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_exec.c" , 2487, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2487, __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_exec.c" , 2487, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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_exec.c", 2487, __func__ , "(((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c\", 2487, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2487, __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_exec.c\", 2487, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2487, __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_exec.c\", 2487, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2487, __func__, \\\"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2487, __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_exec.c\", 2487, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "(((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))\")), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(( (U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1) )) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64) (((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) (( (((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2487 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2487, __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_exec.c" , 2487, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2487, __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_exec.c" , 2487, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2487, __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_exec.c" , 2487, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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_exec.c", 2487, __func__ , "(((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c\", 2487, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2487, __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_exec.c\", 2487, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2487, __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_exec.c\", 2487, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2487, __func__, \\\"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2487, __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_exec.c\", 2487, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "(((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))\")), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(( (U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1) )) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64) (((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (0))) ? (_Bool)1 : ( _Bool)0) : (((isalnum( (U8) (( (((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2487 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2487, __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_exec.c" , 2487, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2487, __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_exec.c" , 2487, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2487, __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_exec.c" , 2487, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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_exec.c", 2487, __func__ , "(((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c\", 2487, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2487, __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_exec.c\", 2487, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2487, __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_exec.c\", 2487, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2487, __func__, \\\"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2487, __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_exec.c\", 2487, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "(((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))\")), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(( (U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1) )) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64) (((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))) || (char)(( (((((( (sizeof(*((U8 *) s) ) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2487 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2487, __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_exec.c" , 2487, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2487, __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_exec.c" , 2487, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2487, __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_exec.c" , 2487, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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_exec.c", 2487, __func__ , "(((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c\", 2487, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2487, __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_exec.c\", 2487, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2487, __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_exec.c\", 2487, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2487, __func__, \\\"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2487, __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_exec.c\", 2487, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "(((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))\")), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(( (U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1) )) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2487, __func__, "( (sizeof((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2487, __func__, \"( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64) (((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2487, __func__, "( (sizeof((*(((U8 *) s)+1))) == 1) || !(((U64)(((*(((U8 *) s)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == '_')) ? (_Bool)1 : (_Bool)0)) : (Perl__force_out_malformed_utf8_message ( (U8 *) ((U8 *) s),(U8 *) ((U8 *) reginfo->strend),0,1), 0 )) : Perl__is_utf8_FOO( 0,(U8 *) s,(U8 *) reginfo->strend) )))) { tmp = !tmp; ; } else { if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; } s += ((1) ? ((((reginfo->strend) >= (s)) ? ( void)0 : __assert2("re_exec.c", 2487, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } else { tmp = (s != reginfo->strbeg) ? ((int )*(const U8*)(s - 1)) : '\n'; tmp = (! ( (sizeof(tmp) == 1) || !(((U64)((tmp) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) (tmp)] & (1U << (0))) ? (_Bool )1 : (_Bool)0) : (((isalnum( (U8) (tmp)) || (char)(tmp) == '_' )) ? (_Bool)1 : (_Bool)0)); do { while (s < strend) { if ( tmp == ! (! ( (sizeof((U8) *s) == 1) || !(((U64)(((U8) *s) | 0 )) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass [(U8) ((U8) *s)] & (1U << (0))) ? (_Bool)1 : (_Bool )0) : (((isalnum( (U8) ((U8) *s)) || (char)((U8) *s) == '_')) ? (_Bool)1 : (_Bool)0))) { ; tmp = !tmp; } else { if (reginfo ->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s))) goto got_it; } s += ((0) ? ((((reginfo-> strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2487, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1); } } while (0); } if (tmp == ! (! ( (sizeof('\n') == 1) || !(((U64)(('\n') | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) ('\n')] & (1U << (0))) ? (_Bool)1 : (_Bool)0) : (((isalnum( (U8) ('\n')) || (char)('\n') == '_')) ? (_Bool)1 : (_Bool)0))) { ; } else { if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; }; |
2488 | break; |
2489 | |
2490 | case BOUND8: /* regcomp.c makes sure that this only has the traditional \b |
2491 | meaning */ |
2492 | assert(FLAGS(c) == TRADITIONAL_BOUND)((((c)->flags) == TRADITIONAL_BOUND) ? (void)0 : __assert2 ("re_exec.c", 2492, __func__, "FLAGS(c) == TRADITIONAL_BOUND" )); |
2493 | |
2494 | FBC_BOUND(isWORDCHAR, isWORDCHAR_uni, isWORDCHAR_utf8_safe)if (utf8_target) { if (s == reginfo->strbeg) { tmp = '\n'; } else { U8 * const r = S_reghop3((U8*)s, -1, (U8*)reginfo-> strbeg); tmp = Perl_utf8n_to_uvchr_msgs(r, (U8*) reginfo-> strend - r, 0, 0, 0, 0); } tmp = ((tmp) < 256 ? ((( (sizeof (tmp) == 1) || !(((U64)((tmp) | 0)) & ~0xFF)) && ( PL_charclass[(U8) (tmp)] & (1U << (0)))) ? (_Bool)1 : (_Bool)0) : Perl__is_uni_FOO( 0,tmp)); do { while (s < strend ) { if (tmp == ! (((! (((U8 *) reginfo->strend) > ((U8 * ) s))) ? (Perl__force_out_malformed_utf8_message( (U8 *) ((U8 *) s),(U8 *) ((U8 *) reginfo->strend),0,1), 0) : (((((U64 )(((UV) (((*((U8 *) s)) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? ((( (sizeof(*((U8 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF)) && (PL_charclass[ (U8) (*((U8 *) s))] & (1U << (0)))) ? (_Bool)1 : (_Bool )0) : ((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2494 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2494 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2494, __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_exec.c" , 2494, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2494, __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_exec.c" , 2494, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2494, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2494, __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_exec.c" , 2494, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) reginfo->strend ) - ((U8 *) s) > 1 && (((( (sizeof(*(((U8 *) s)+1) ) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? ( void)0 : __assert2("re_exec.c", 2494, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2494, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : (_Bool)0),(1))) ? ((( (sizeof(( (((((( (sizeof(*((U8 *) s) ) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2494 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2494, __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_exec.c" , 2494, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2494, __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_exec.c" , 2494, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2494, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2494, __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_exec.c" , 2494, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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_exec.c", 2494, __func__ , "(((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c\", 2494, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2494, __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_exec.c\", 2494, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2494, __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_exec.c\", 2494, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2494, __func__, \\\"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2494, __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_exec.c\", 2494, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2494, __func__, "( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*((( U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2494, __func__, "( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 2494, __func__, "(((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*(((U8 *) s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !( ((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2494, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2494 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2494, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1 ) )) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF)) ) ? (void)0 : __assert2("re_exec.c", 2494, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2494 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2494, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2494, __func__, "( (sizeof((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64 )(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2494, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2494 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2494, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof(*(( U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF)) ) ? (void)0 : __assert2("re_exec.c", 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2494 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2494, __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_exec.c" , 2494, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2494, __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_exec.c" , 2494, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2494, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2494, __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_exec.c" , 2494, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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_exec.c", 2494, __func__ , "(((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c\", 2494, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2494, __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_exec.c\", 2494, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2494, __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_exec.c\", 2494, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2494, __func__, \\\"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2494, __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_exec.c\", 2494, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2494, __func__, "( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*((( U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2494, __func__, "( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 2494, __func__, "(((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*(((U8 *) s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !( ((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2494, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2494 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2494, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1 ) )) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF)) ) ? (void)0 : __assert2("re_exec.c", 2494, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2494 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2494, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2494, __func__, "( (sizeof((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64 )(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2494, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2494 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2494, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) && (PL_charclass [(U8) (( (((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2494 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2494, __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_exec.c" , 2494, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2494, __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_exec.c" , 2494, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2494, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2494, __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_exec.c" , 2494, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2494, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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_exec.c", 2494, __func__ , "(((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c\", 2494, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2494, __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_exec.c\", 2494, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2494, __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_exec.c\", 2494, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2494, __func__, \\\"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2494, __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_exec.c\", 2494, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2494, __func__, "( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*((( U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2494, __func__, "( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 2494, __func__, "(((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*(((U8 *) s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !( ((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2494, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2494 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2494, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1 ) )) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF)) ) ? (void)0 : __assert2("re_exec.c", 2494, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2494 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2494, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2494, __func__, "( (sizeof((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2494, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64 )(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2494, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2494 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2494, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (0)))) ? (_Bool)1 : (_Bool)0) : (Perl__force_out_malformed_utf8_message( (U8 *) ( (U8 *) s),(U8 *) ((U8 *) reginfo->strend),0,1), 0)) : Perl__is_utf8_FOO ( 0,(U8 *) s,(U8 *) reginfo->strend))))) { tmp = !tmp; if ( reginfo->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s))) goto got_it; } else { ; } s += ((1) ? ((( (reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2494, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0 ); } else { tmp = (s != reginfo->strbeg) ? ((int)*(const U8 *)(s - 1)) : '\n'; tmp = (( (sizeof(tmp) == 1) || !(((U64)((tmp ) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (tmp)] & ((1U << (0)) | (1U << (14)))) == ((1U << ( 0)) | (1U << (14))))); do { while (s < strend) { if ( tmp == ! (( (sizeof((U8) *s) == 1) || !(((U64)(((U8) *s) | 0) ) & ~0xFF)) && ((PL_charclass[(U8) ((U8) *s)] & ((1U << (0)) | (1U << (14)))) == ((1U << ( 0)) | (1U << (14)))))) { if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; tmp = !tmp; } else { ; } s += ((0) ? ((((reginfo-> strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2494, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1); } } while (0); } if (tmp == ! (( ( sizeof('\n') == 1) || !(((U64)(('\n') | 0)) & ~0xFF)) && ((PL_charclass[(U8) ('\n')] & ((1U << (0)) | (1U << (14)))) == ((1U << (0)) | (1U << (14)))))) { if ( reginfo->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s))) goto got_it; } else { ; }; |
2495 | break; |
2496 | |
2497 | case BOUNDA11: /* regcomp.c makes sure that this only has the traditional \b |
2498 | meaning */ |
2499 | assert(FLAGS(c) == TRADITIONAL_BOUND)((((c)->flags) == TRADITIONAL_BOUND) ? (void)0 : __assert2 ("re_exec.c", 2499, __func__, "FLAGS(c) == TRADITIONAL_BOUND" )); |
2500 | |
2501 | FBC_BOUND_A(isWORDCHAR_A)if (utf8_target) { tmp = (s != reginfo->strbeg) ? ((int)*( const U8*)(s - 1)) : '\n'; tmp = (( (sizeof(tmp) == 1) || !(( (U64)((tmp) | 0)) & ~0xFF)) && ((PL_charclass[(U8 ) (tmp)] & ((1U << (0)) | (1U << (14)))) == ( (1U << (0)) | (1U << (14))))); do { while (s < strend) { if (tmp == ! (( (sizeof((U8) *s) == 1) || !(((U64) (((U8) *s) | 0)) & ~0xFF)) && ((PL_charclass[(U8) ((U8) *s)] & ((1U << (0)) | (1U << (14)))) == ((1U << (0)) | (1U << (14)))))) { tmp = !tmp; if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; } else { ; } s += ( (1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2501, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } else { tmp = (s != reginfo->strbeg) ? ((int )*(const U8*)(s - 1)) : '\n'; tmp = (( (sizeof(tmp) == 1) || ! (((U64)((tmp) | 0)) & ~0xFF)) && ((PL_charclass[( U8) (tmp)] & ((1U << (0)) | (1U << (14)))) == ((1U << (0)) | (1U << (14))))); do { while (s < strend) { if (tmp == ! (( (sizeof((U8) *s) == 1) || !(((U64) (((U8) *s) | 0)) & ~0xFF)) && ((PL_charclass[(U8) ((U8) *s)] & ((1U << (0)) | (1U << (14)))) == ((1U << (0)) | (1U << (14)))))) { if (reginfo-> intuit || (s <= reginfo->strend && S_regtry( reginfo ,&s))) goto got_it; tmp = !tmp; } else { ; } s += ((0) ? ( (((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2501, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0 ); } if (tmp == ! (( (sizeof('\n') == 1) || !(((U64)(('\n') | 0)) & ~0xFF)) && ((PL_charclass[(U8) ('\n')] & ((1U << (0)) | (1U << (14)))) == ((1U << ( 0)) | (1U << (14)))))) { if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; } else { ; }; |
2502 | break; |
2503 | |
2504 | case NBOUND12: /* regcomp.c makes sure that this only has the traditional \b |
2505 | meaning */ |
2506 | assert(FLAGS(c) == TRADITIONAL_BOUND)((((c)->flags) == TRADITIONAL_BOUND) ? (void)0 : __assert2 ("re_exec.c", 2506, __func__, "FLAGS(c) == TRADITIONAL_BOUND" )); |
2507 | |
2508 | FBC_NBOUND(isWORDCHAR, isWORDCHAR_uni, isWORDCHAR_utf8_safe)if (utf8_target) { if (s == reginfo->strbeg) { tmp = '\n'; } else { U8 * const r = S_reghop3((U8*)s, -1, (U8*)reginfo-> strbeg); tmp = Perl_utf8n_to_uvchr_msgs(r, (U8*) reginfo-> strend - r, 0, 0, 0, 0); } tmp = ((tmp) < 256 ? ((( (sizeof (tmp) == 1) || !(((U64)((tmp) | 0)) & ~0xFF)) && ( PL_charclass[(U8) (tmp)] & (1U << (0)))) ? (_Bool)1 : (_Bool)0) : Perl__is_uni_FOO( 0,tmp)); do { while (s < strend ) { if (tmp == ! (((! (((U8 *) reginfo->strend) > ((U8 * ) s))) ? (Perl__force_out_malformed_utf8_message( (U8 *) ((U8 *) s),(U8 *) ((U8 *) reginfo->strend),0,1), 0) : (((((U64 )(((UV) (((*((U8 *) s)) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? ((( (sizeof(*((U8 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF)) && (PL_charclass[ (U8) (*((U8 *) s))] & (1U << (0)))) ? (_Bool)1 : (_Bool )0) : ((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2508 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2508 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2508, __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_exec.c" , 2508, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2508, __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_exec.c" , 2508, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2508, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2508, __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_exec.c" , 2508, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) reginfo->strend ) - ((U8 *) s) > 1 && (((( (sizeof(*(((U8 *) s)+1) ) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? ( void)0 : __assert2("re_exec.c", 2508, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2508, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : (_Bool)0),(1))) ? ((( (sizeof(( (((((( (sizeof(*((U8 *) s) ) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2508 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2508, __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_exec.c" , 2508, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2508, __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_exec.c" , 2508, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2508, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2508, __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_exec.c" , 2508, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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_exec.c", 2508, __func__ , "(((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c\", 2508, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2508, __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_exec.c\", 2508, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2508, __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_exec.c\", 2508, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2508, __func__, \\\"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2508, __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_exec.c\", 2508, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2508, __func__, "( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*((( U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2508, __func__, "( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 2508, __func__, "(((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*(((U8 *) s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !( ((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2508, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2508 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2508, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1 ) )) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF)) ) ? (void)0 : __assert2("re_exec.c", 2508, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2508 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2508, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2508, __func__, "( (sizeof((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64 )(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2508, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2508 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2508, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof(*(( U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF)) ) ? (void)0 : __assert2("re_exec.c", 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2508 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2508, __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_exec.c" , 2508, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2508, __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_exec.c" , 2508, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2508, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2508, __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_exec.c" , 2508, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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_exec.c", 2508, __func__ , "(((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c\", 2508, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2508, __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_exec.c\", 2508, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2508, __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_exec.c\", 2508, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2508, __func__, \\\"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2508, __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_exec.c\", 2508, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2508, __func__, "( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*((( U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2508, __func__, "( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 2508, __func__, "(((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*(((U8 *) s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !( ((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2508, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2508 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2508, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1 ) )) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF)) ) ? (void)0 : __assert2("re_exec.c", 2508, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2508 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2508, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2508, __func__, "( (sizeof((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64 )(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2508, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2508 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2508, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) && (PL_charclass [(U8) (( (((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2508 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2508, __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_exec.c" , 2508, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2508, __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_exec.c" , 2508, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2508, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2508, __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_exec.c" , 2508, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2508, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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_exec.c", 2508, __func__ , "(((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c\", 2508, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2508, __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_exec.c\", 2508, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2508, __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_exec.c\", 2508, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2508, __func__, \\\"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2508, __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_exec.c\", 2508, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2508, __func__, "( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*((( U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2508, __func__, "( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 2508, __func__, "(((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*(((U8 *) s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !( ((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2508, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2508 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2508, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1 ) )) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF)) ) ? (void)0 : __assert2("re_exec.c", 2508, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2508 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2508, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2508, __func__, "( (sizeof((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2508, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64 )(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2508, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2508 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2508, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (0)))) ? (_Bool)1 : (_Bool)0) : (Perl__force_out_malformed_utf8_message( (U8 *) ( (U8 *) s),(U8 *) ((U8 *) reginfo->strend),0,1), 0)) : Perl__is_utf8_FOO ( 0,(U8 *) s,(U8 *) reginfo->strend))))) { tmp = !tmp; ; } else { if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; } s += ( (1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2508, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } else { tmp = (s != reginfo->strbeg) ? ((int )*(const U8*)(s - 1)) : '\n'; tmp = (( (sizeof(tmp) == 1) || ! (((U64)((tmp) | 0)) & ~0xFF)) && ((PL_charclass[( U8) (tmp)] & ((1U << (0)) | (1U << (14)))) == ((1U << (0)) | (1U << (14))))); do { while (s < strend) { if (tmp == ! (( (sizeof((U8) *s) == 1) || !(((U64) (((U8) *s) | 0)) & ~0xFF)) && ((PL_charclass[(U8) ((U8) *s)] & ((1U << (0)) | (1U << (14)))) == ((1U << (0)) | (1U << (14)))))) { ; tmp = !tmp; } else { if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; } s += ( (0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2508, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } if (tmp == ! (( (sizeof('\n') == 1) || !(((U64 )(('\n') | 0)) & ~0xFF)) && ((PL_charclass[(U8) ( '\n')] & ((1U << (0)) | (1U << (14)))) == ((1U << (0)) | (1U << (14)))))) { ; } else { if (reginfo ->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s))) goto got_it; }; |
2509 | break; |
2510 | |
2511 | case NBOUNDA15: /* regcomp.c makes sure that this only has the traditional \b |
2512 | meaning */ |
2513 | assert(FLAGS(c) == TRADITIONAL_BOUND)((((c)->flags) == TRADITIONAL_BOUND) ? (void)0 : __assert2 ("re_exec.c", 2513, __func__, "FLAGS(c) == TRADITIONAL_BOUND" )); |
2514 | |
2515 | FBC_NBOUND_A(isWORDCHAR_A)if (utf8_target) { tmp = (s != reginfo->strbeg) ? ((int)*( const U8*)(s - 1)) : '\n'; tmp = (( (sizeof(tmp) == 1) || !(( (U64)((tmp) | 0)) & ~0xFF)) && ((PL_charclass[(U8 ) (tmp)] & ((1U << (0)) | (1U << (14)))) == ( (1U << (0)) | (1U << (14))))); do { while (s < strend) { if (tmp == ! (( (sizeof((U8) *s) == 1) || !(((U64) (((U8) *s) | 0)) & ~0xFF)) && ((PL_charclass[(U8) ((U8) *s)] & ((1U << (0)) | (1U << (14)))) == ((1U << (0)) | (1U << (14)))))) { tmp = !tmp; ; } else { if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; } s += ( (1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2515, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } else { tmp = (s != reginfo->strbeg) ? ((int )*(const U8*)(s - 1)) : '\n'; tmp = (( (sizeof(tmp) == 1) || ! (((U64)((tmp) | 0)) & ~0xFF)) && ((PL_charclass[( U8) (tmp)] & ((1U << (0)) | (1U << (14)))) == ((1U << (0)) | (1U << (14))))); do { while (s < strend) { if (tmp == ! (( (sizeof((U8) *s) == 1) || !(((U64) (((U8) *s) | 0)) & ~0xFF)) && ((PL_charclass[(U8) ((U8) *s)] & ((1U << (0)) | (1U << (14)))) == ((1U << (0)) | (1U << (14)))))) { ; tmp = !tmp; } else { if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; } s += ( (0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2515, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } if (tmp == ! (( (sizeof('\n') == 1) || !(((U64 )(('\n') | 0)) & ~0xFF)) && ((PL_charclass[(U8) ( '\n')] & ((1U << (0)) | (1U << (14)))) == ((1U << (0)) | (1U << (14)))))) { ; } else { if (reginfo ->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s))) goto got_it; }; |
2516 | break; |
2517 | |
2518 | case NBOUNDU14: |
2519 | if ((bound_type) FLAGS(c)((c)->flags) == TRADITIONAL_BOUND) { |
2520 | FBC_NBOUND(isWORDCHAR_L1, isWORDCHAR_uni, isWORDCHAR_utf8_safe)if (utf8_target) { if (s == reginfo->strbeg) { tmp = '\n'; } else { U8 * const r = S_reghop3((U8*)s, -1, (U8*)reginfo-> strbeg); tmp = Perl_utf8n_to_uvchr_msgs(r, (U8*) reginfo-> strend - r, 0, 0, 0, 0); } tmp = ((tmp) < 256 ? ((( (sizeof (tmp) == 1) || !(((U64)((tmp) | 0)) & ~0xFF)) && ( PL_charclass[(U8) (tmp)] & (1U << (0)))) ? (_Bool)1 : (_Bool)0) : Perl__is_uni_FOO( 0,tmp)); do { while (s < strend ) { if (tmp == ! (((! (((U8 *) reginfo->strend) > ((U8 * ) s))) ? (Perl__force_out_malformed_utf8_message( (U8 *) ((U8 *) s),(U8 *) ((U8 *) reginfo->strend),0,1), 0) : (((((U64 )(((UV) (((*((U8 *) s)) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? ((( (sizeof(*((U8 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF)) && (PL_charclass[ (U8) (*((U8 *) s))] & (1U << (0)))) ? (_Bool)1 : (_Bool )0) : ((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2520 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2520 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2520, __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_exec.c" , 2520, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2520, __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_exec.c" , 2520, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2520, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2520, __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_exec.c" , 2520, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) reginfo->strend ) - ((U8 *) s) > 1 && (((( (sizeof(*(((U8 *) s)+1) ) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? ( void)0 : __assert2("re_exec.c", 2520, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2520, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : (_Bool)0),(1))) ? ((( (sizeof(( (((((( (sizeof(*((U8 *) s) ) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2520 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2520, __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_exec.c" , 2520, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2520, __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_exec.c" , 2520, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2520, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2520, __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_exec.c" , 2520, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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_exec.c", 2520, __func__ , "(((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c\", 2520, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2520, __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_exec.c\", 2520, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2520, __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_exec.c\", 2520, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2520, __func__, \\\"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2520, __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_exec.c\", 2520, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2520, __func__, "( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*((( U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2520, __func__, "( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 2520, __func__, "(((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*(((U8 *) s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !( ((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2520, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2520 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2520, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1 ) )) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF)) ) ? (void)0 : __assert2("re_exec.c", 2520, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2520 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2520, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2520, __func__, "( (sizeof((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64 )(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2520, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2520 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2520, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof(*(( U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF)) ) ? (void)0 : __assert2("re_exec.c", 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2520 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2520, __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_exec.c" , 2520, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2520, __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_exec.c" , 2520, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2520, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2520, __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_exec.c" , 2520, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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_exec.c", 2520, __func__ , "(((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c\", 2520, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2520, __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_exec.c\", 2520, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2520, __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_exec.c\", 2520, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2520, __func__, \\\"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2520, __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_exec.c\", 2520, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2520, __func__, "( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*((( U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2520, __func__, "( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 2520, __func__, "(((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*(((U8 *) s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !( ((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2520, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2520 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2520, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1 ) )) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF)) ) ? (void)0 : __assert2("re_exec.c", 2520, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2520 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2520, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2520, __func__, "( (sizeof((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64 )(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2520, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2520 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2520, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) && (PL_charclass [(U8) (( (((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2520 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2520, __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_exec.c" , 2520, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2520, __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_exec.c" , 2520, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2520, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2520, __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_exec.c" , 2520, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2520, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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_exec.c", 2520, __func__ , "(((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c\", 2520, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2520, __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_exec.c\", 2520, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2520, __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_exec.c\", 2520, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2520, __func__, \\\"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2520, __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_exec.c\", 2520, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2520, __func__, "( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*((( U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2520, __func__, "( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 2520, __func__, "(((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*(((U8 *) s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !( ((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2520, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2520 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2520, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1 ) )) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF)) ) ? (void)0 : __assert2("re_exec.c", 2520, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2520 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2520, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2520, __func__, "( (sizeof((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2520, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64 )(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2520, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2520 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2520, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (0)))) ? (_Bool)1 : (_Bool)0) : (Perl__force_out_malformed_utf8_message( (U8 *) ( (U8 *) s),(U8 *) ((U8 *) reginfo->strend),0,1), 0)) : Perl__is_utf8_FOO ( 0,(U8 *) s,(U8 *) reginfo->strend))))) { tmp = !tmp; ; } else { if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; } s += ( (1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2520, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } else { tmp = (s != reginfo->strbeg) ? ((int )*(const U8*)(s - 1)) : '\n'; tmp = ((( (sizeof(tmp) == 1) || !(((U64)((tmp) | 0)) & ~0xFF)) && (PL_charclass[ (U8) (tmp)] & (1U << (0)))) ? (_Bool)1 : (_Bool)0); do { while (s < strend) { if (tmp == ! ((( (sizeof((U8) * s) == 1) || !(((U64)(((U8) *s) | 0)) & ~0xFF)) && (PL_charclass[(U8) ((U8) *s)] & (1U << (0)))) ? (_Bool )1 : (_Bool)0)) { ; tmp = !tmp; } else { if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo, &s))) goto got_it; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2520, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } if (tmp == ! ((( (sizeof('\n') == 1) || !(((U64 )(('\n') | 0)) & ~0xFF)) && (PL_charclass[(U8) ('\n' )] & (1U << (0)))) ? (_Bool)1 : (_Bool)0)) { ; } else { if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; }; |
2521 | break; |
2522 | } |
2523 | |
2524 | do_nboundu: |
2525 | |
2526 | to_complement = 1; |
2527 | /* FALLTHROUGH */ |
2528 | |
2529 | case BOUNDU10: |
2530 | do_boundu: |
2531 | switch((bound_type) FLAGS(c)((c)->flags)) { |
2532 | case TRADITIONAL_BOUND: |
2533 | FBC_BOUND(isWORDCHAR_L1, isWORDCHAR_uni, isWORDCHAR_utf8_safe)if (utf8_target) { if (s == reginfo->strbeg) { tmp = '\n'; } else { U8 * const r = S_reghop3((U8*)s, -1, (U8*)reginfo-> strbeg); tmp = Perl_utf8n_to_uvchr_msgs(r, (U8*) reginfo-> strend - r, 0, 0, 0, 0); } tmp = ((tmp) < 256 ? ((( (sizeof (tmp) == 1) || !(((U64)((tmp) | 0)) & ~0xFF)) && ( PL_charclass[(U8) (tmp)] & (1U << (0)))) ? (_Bool)1 : (_Bool)0) : Perl__is_uni_FOO( 0,tmp)); do { while (s < strend ) { if (tmp == ! (((! (((U8 *) reginfo->strend) > ((U8 * ) s))) ? (Perl__force_out_malformed_utf8_message( (U8 *) ((U8 *) s),(U8 *) ((U8 *) reginfo->strend),0,1), 0) : (((((U64 )(((UV) (((*((U8 *) s)) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? ((( (sizeof(*((U8 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF)) && (PL_charclass[ (U8) (*((U8 *) s))] & (1U << (0)))) ? (_Bool)1 : (_Bool )0) : ((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2533 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2533 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2533, __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_exec.c" , 2533, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2533, __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_exec.c" , 2533, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2533, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2533, __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_exec.c" , 2533, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) reginfo->strend ) - ((U8 *) s) > 1 && (((( (sizeof(*(((U8 *) s)+1) ) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? ( void)0 : __assert2("re_exec.c", 2533, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2533, __func__, "( (sizeof(*(((U8 *) s)+1)) == 1) || !(((U64)((*(((U8 *) s)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : (_Bool)0),(1))) ? ((( (sizeof(( (((((( (sizeof(*((U8 *) s) ) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2533 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2533, __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_exec.c" , 2533, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2533, __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_exec.c" , 2533, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2533, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2533, __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_exec.c" , 2533, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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_exec.c", 2533, __func__ , "(((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c\", 2533, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2533, __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_exec.c\", 2533, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2533, __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_exec.c\", 2533, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2533, __func__, \\\"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2533, __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_exec.c\", 2533, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2533, __func__, "( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*((( U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2533, __func__, "( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 2533, __func__, "(((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*(((U8 *) s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !( ((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2533, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2533 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2533, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1 ) )) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF)) ) ? (void)0 : __assert2("re_exec.c", 2533, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2533 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2533, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2533, __func__, "( (sizeof((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64 )(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2533, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2533 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2533, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof(*(( U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF)) ) ? (void)0 : __assert2("re_exec.c", 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2533 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2533, __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_exec.c" , 2533, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2533, __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_exec.c" , 2533, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2533, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2533, __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_exec.c" , 2533, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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_exec.c", 2533, __func__ , "(((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c\", 2533, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2533, __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_exec.c\", 2533, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2533, __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_exec.c\", 2533, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2533, __func__, \\\"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2533, __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_exec.c\", 2533, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2533, __func__, "( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*((( U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2533, __func__, "( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 2533, __func__, "(((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*(((U8 *) s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !( ((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2533, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2533 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2533, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1 ) )) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF)) ) ? (void)0 : __assert2("re_exec.c", 2533, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2533 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2533, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2533, __func__, "( (sizeof((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64 )(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2533, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2533 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2533, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) && (PL_charclass [(U8) (( (((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c", 2533 , __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 *) s)) == 1) || !(((U64)((*( (U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2533, __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_exec.c" , 2533, __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 *) s)) == 1) || !((( U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64) ((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 2533, __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_exec.c" , 2533, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64 )((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2533, __func__, "sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2533, __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_exec.c" , 2533, __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 *) s)) == 1) || !(( (U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2533, __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 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_exec.c", 2533, __func__ , "(((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 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_exec.c\", 2533, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2533, __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_exec.c\", 2533, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2533, __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_exec.c\", 2533, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"sizeof((((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2533, __func__, \\\"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8 *) s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2533, __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_exec.c\", 2533, __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 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 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 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2533, __func__, "( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*((( U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2533, __func__, "( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*(((U8 *) s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 2533, __func__, "(((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*(((U8 *) s)+1 )) == 1) || !(((U64)((*(((U8 *) s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*(((U8 *) s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !( ((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2533, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2533 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2533, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1 ) )) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF)) ) ? (void)0 : __assert2("re_exec.c", 2533, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2533 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2533, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2533, __func__, "( (sizeof((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))\")), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2533, __func__, \"( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64 )(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2533, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2533 , __func__, "( (sizeof(*((U8 *) s)) == 1) || !(((U64)((*((U8 *) s)) | 0)) & ~0xFF))" )), ((U8) ((*((U8 *) s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(( (U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2533, __func__, "( (sizeof((*(((U8 *) s)+1 ))) == 1) || !(((U64)(((*(((U8 *) s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8 *) s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (0)))) ? (_Bool)1 : (_Bool)0) : (Perl__force_out_malformed_utf8_message( (U8 *) ( (U8 *) s),(U8 *) ((U8 *) reginfo->strend),0,1), 0)) : Perl__is_utf8_FOO ( 0,(U8 *) s,(U8 *) reginfo->strend))))) { tmp = !tmp; if ( reginfo->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s))) goto got_it; } else { ; } s += ((1) ? ((( (reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2533, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0 ); } else { tmp = (s != reginfo->strbeg) ? ((int)*(const U8 *)(s - 1)) : '\n'; tmp = ((( (sizeof(tmp) == 1) || !(((U64)(( tmp) | 0)) & ~0xFF)) && (PL_charclass[(U8) (tmp)] & (1U << (0)))) ? (_Bool)1 : (_Bool)0); do { while (s < strend) { if (tmp == ! ((( (sizeof((U8) *s) == 1) || !(((U64)(((U8) *s) | 0)) & ~0xFF)) && (PL_charclass [(U8) ((U8) *s)] & (1U << (0)))) ? (_Bool)1 : (_Bool )0)) { if (reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s))) goto got_it; tmp = !tmp; } else { ; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2533, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); } if (tmp == ! ((( (sizeof('\n') == 1) || !(((U64 )(('\n') | 0)) & ~0xFF)) && (PL_charclass[(U8) ('\n' )] & (1U << (0)))) ? (_Bool)1 : (_Bool)0)) { if (reginfo ->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s))) goto got_it; } else { ; }; |
2534 | break; |
2535 | case GCB_BOUND: |
2536 | if (s == reginfo->strbeg) { |
2537 | if (reginfo->intuit || regtry(reginfo, &s)S_regtry( reginfo,&s)) |
2538 | { |
2539 | goto got_it; |
2540 | } |
2541 | |
2542 | /* Didn't match. Try at the next position (if there is one) */ |
2543 | s += (utf8_target) ? UTF8_SAFE_SKIP(s, reginfo->strend)((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2543, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1; |
2544 | if (UNLIKELY(s >= reginfo->strend)__builtin_expect(((s >= reginfo->strend) ? (_Bool)1 : ( _Bool)0),(0))) { |
2545 | break; |
2546 | } |
2547 | } |
2548 | |
2549 | if (utf8_target) { |
2550 | GCB_enum before = getGCB_VAL_UTF8((((S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8* ) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 2553 , __func__, "S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)s, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8*) reginfo ->strend),((void*)0))))])) |
2551 | reghop3((U8*)s, -1,(((S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8* ) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 2553 , __func__, "S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)s, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8*) reginfo ->strend),((void*)0))))])) |
2552 | (U8*)(reginfo->strbeg)),(((S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8* ) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 2553 , __func__, "S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)s, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8*) reginfo ->strend),((void*)0))))])) |
2553 | (U8*) reginfo->strend)(((S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8* ) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 2553 , __func__, "S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)s, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8*) reginfo ->strend),((void*)0))))])); |
2554 | while (s < strend) { |
2555 | GCB_enum after = getGCB_VAL_UTF8((U8*) s,((((U8*) s < (U8*) reginfo->strend) ? (void)0 : __assert2 ("re_exec.c", 2556, __func__, "(U8*) s < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) s)),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])) |
2556 | (U8*) reginfo->strend)((((U8*) s < (U8*) reginfo->strend) ? (void)0 : __assert2 ("re_exec.c", 2556, __func__, "(U8*) s < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) s)),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])); |
2557 | if ( (to_complement ^ isGCB(before,S_isGCB( before,after,(U8*) reginfo->strbeg,(U8*) s,utf8_target ) |
2558 | after,S_isGCB( before,after,(U8*) reginfo->strbeg,(U8*) s,utf8_target ) |
2559 | (U8*) reginfo->strbeg,S_isGCB( before,after,(U8*) reginfo->strbeg,(U8*) s,utf8_target ) |
2560 | (U8*) s,S_isGCB( before,after,(U8*) reginfo->strbeg,(U8*) s,utf8_target ) |
2561 | utf8_target)S_isGCB( before,after,(U8*) reginfo->strbeg,(U8*) s,utf8_target )) |
2562 | && (reginfo->intuit || regtry(reginfo, &s)S_regtry( reginfo,&s))) |
2563 | { |
2564 | goto got_it; |
2565 | } |
2566 | before = after; |
2567 | s += UTF8_SAFE_SKIP(s, reginfo->strend)((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2567, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))); |
2568 | } |
2569 | } |
2570 | else { /* Not utf8. Everything is a GCB except between CR and |
2571 | LF */ |
2572 | while (s < strend) { |
2573 | if ((to_complement ^ ( UCHARAT(s - 1)((int)*(const U8*)(s - 1)) != '\r' |
2574 | || UCHARAT(s)((int)*(const U8*)(s)) != '\n')) |
2575 | && (reginfo->intuit || regtry(reginfo, &s)S_regtry( reginfo,&s))) |
2576 | { |
2577 | goto got_it; |
2578 | } |
2579 | s++; |
2580 | } |
2581 | } |
2582 | |
2583 | /* And, since this is a bound, it can match after the final |
2584 | * character in the string */ |
2585 | if ( reginfo->intuit |
2586 | || (s <= reginfo->strend && regtry(reginfo, &s)S_regtry( reginfo,&s))) |
2587 | { |
2588 | goto got_it; |
2589 | } |
2590 | break; |
2591 | |
2592 | case LB_BOUND: |
2593 | if (s == reginfo->strbeg) { |
2594 | if (reginfo->intuit || regtry(reginfo, &s)S_regtry( reginfo,&s)) { |
2595 | goto got_it; |
2596 | } |
2597 | s += (utf8_target) ? UTF8_SAFE_SKIP(s, reginfo->strend)((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2597, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1; |
2598 | if (UNLIKELY(s >= reginfo->strend)__builtin_expect(((s >= reginfo->strend) ? (_Bool)1 : ( _Bool)0),(0))) { |
2599 | break; |
2600 | } |
2601 | } |
2602 | |
2603 | if (utf8_target) { |
2604 | LB_enum before = getLB_VAL_UTF8(reghop3((U8*)s,(((S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8* ) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 2607 , __func__, "S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)s, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8*) reginfo ->strend),((void*)0))))])) |
2605 | -1,(((S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8* ) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 2607 , __func__, "S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)s, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8*) reginfo ->strend),((void*)0))))])) |
2606 | (U8*)(reginfo->strbeg)),(((S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8* ) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 2607 , __func__, "S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)s, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8*) reginfo ->strend),((void*)0))))])) |
2607 | (U8*) reginfo->strend)(((S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8* ) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 2607 , __func__, "S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)s, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8*) reginfo ->strend),((void*)0))))])); |
2608 | while (s < strend) { |
2609 | LB_enum after = getLB_VAL_UTF8((U8*) s, (U8*) reginfo->strend)((((U8*) s < (U8*) reginfo->strend) ? (void)0 : __assert2 ("re_exec.c", 2609, __func__, "(U8*) s < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) s)),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])); |
2610 | if (to_complement ^ isLB(before,S_isLB( before,after,(U8*) reginfo->strbeg,(U8*) s,(U8*) reginfo ->strend,utf8_target) |
2611 | after,S_isLB( before,after,(U8*) reginfo->strbeg,(U8*) s,(U8*) reginfo ->strend,utf8_target) |
2612 | (U8*) reginfo->strbeg,S_isLB( before,after,(U8*) reginfo->strbeg,(U8*) s,(U8*) reginfo ->strend,utf8_target) |
2613 | (U8*) s,S_isLB( before,after,(U8*) reginfo->strbeg,(U8*) s,(U8*) reginfo ->strend,utf8_target) |
2614 | (U8*) reginfo->strend,S_isLB( before,after,(U8*) reginfo->strbeg,(U8*) s,(U8*) reginfo ->strend,utf8_target) |
2615 | utf8_target)S_isLB( before,after,(U8*) reginfo->strbeg,(U8*) s,(U8*) reginfo ->strend,utf8_target) |
2616 | && (reginfo->intuit || regtry(reginfo, &s)S_regtry( reginfo,&s))) |
2617 | { |
2618 | goto got_it; |
2619 | } |
2620 | before = after; |
2621 | s += UTF8_SAFE_SKIP(s, reginfo->strend)((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2621, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))); |
2622 | } |
2623 | } |
2624 | else { /* Not utf8. */ |
2625 | LB_enum before = getLB_VAL_CP((U8) *(s -1))_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist, ((U8 ) *(s -1)))]; |
2626 | while (s < strend) { |
2627 | LB_enum after = getLB_VAL_CP((U8) *s)_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist, ((U8 ) *s))]; |
2628 | if (to_complement ^ isLB(before,S_isLB( before,after,(U8*) reginfo->strbeg,(U8*) s,(U8*) reginfo ->strend,utf8_target) |
2629 | after,S_isLB( before,after,(U8*) reginfo->strbeg,(U8*) s,(U8*) reginfo ->strend,utf8_target) |
2630 | (U8*) reginfo->strbeg,S_isLB( before,after,(U8*) reginfo->strbeg,(U8*) s,(U8*) reginfo ->strend,utf8_target) |
2631 | (U8*) s,S_isLB( before,after,(U8*) reginfo->strbeg,(U8*) s,(U8*) reginfo ->strend,utf8_target) |
2632 | (U8*) reginfo->strend,S_isLB( before,after,(U8*) reginfo->strbeg,(U8*) s,(U8*) reginfo ->strend,utf8_target) |
2633 | utf8_target)S_isLB( before,after,(U8*) reginfo->strbeg,(U8*) s,(U8*) reginfo ->strend,utf8_target) |
2634 | && (reginfo->intuit || regtry(reginfo, &s)S_regtry( reginfo,&s))) |
2635 | { |
2636 | goto got_it; |
2637 | } |
2638 | before = after; |
2639 | s++; |
2640 | } |
2641 | } |
2642 | |
2643 | if ( reginfo->intuit |
2644 | || (s <= reginfo->strend && regtry(reginfo, &s)S_regtry( reginfo,&s))) |
2645 | { |
2646 | goto got_it; |
2647 | } |
2648 | |
2649 | break; |
2650 | |
2651 | case SB_BOUND: |
2652 | if (s == reginfo->strbeg) { |
2653 | if (reginfo->intuit || regtry(reginfo, &s)S_regtry( reginfo,&s)) { |
2654 | goto got_it; |
2655 | } |
2656 | s += (utf8_target) ? UTF8_SAFE_SKIP(s, reginfo->strend)((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2656, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1; |
2657 | if (UNLIKELY(s >= reginfo->strend)__builtin_expect(((s >= reginfo->strend) ? (_Bool)1 : ( _Bool)0),(0))) { |
2658 | break; |
2659 | } |
2660 | } |
2661 | |
2662 | if (utf8_target) { |
2663 | SB_enum before = getSB_VAL_UTF8(reghop3((U8*)s,(((S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8* ) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 2666 , __func__, "S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)s, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8*) reginfo ->strend),((void*)0))))])) |
2664 | -1,(((S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8* ) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 2666 , __func__, "S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)s, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8*) reginfo ->strend),((void*)0))))])) |
2665 | (U8*)(reginfo->strbeg)),(((S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8* ) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 2666 , __func__, "S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)s, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8*) reginfo ->strend),((void*)0))))])) |
2666 | (U8*) reginfo->strend)(((S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8* ) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 2666 , __func__, "S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)s, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8*) reginfo ->strend),((void*)0))))])); |
2667 | while (s < strend) { |
2668 | SB_enum after = getSB_VAL_UTF8((U8*) s,((((U8*) s < (U8*) reginfo->strend) ? (void)0 : __assert2 ("re_exec.c", 2669, __func__, "(U8*) s < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) s)),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])) |
2669 | (U8*) reginfo->strend)((((U8*) s < (U8*) reginfo->strend) ? (void)0 : __assert2 ("re_exec.c", 2669, __func__, "(U8*) s < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) s)),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])); |
2670 | if ((to_complement ^ isSB(before,S_isSB( before,after,(U8*) reginfo->strbeg,(U8*) s,(U8*) reginfo ->strend,utf8_target) |
2671 | after,S_isSB( before,after,(U8*) reginfo->strbeg,(U8*) s,(U8*) reginfo ->strend,utf8_target) |
2672 | (U8*) reginfo->strbeg,S_isSB( before,after,(U8*) reginfo->strbeg,(U8*) s,(U8*) reginfo ->strend,utf8_target) |
2673 | (U8*) s,S_isSB( before,after,(U8*) reginfo->strbeg,(U8*) s,(U8*) reginfo ->strend,utf8_target) |
2674 | (U8*) reginfo->strend,S_isSB( before,after,(U8*) reginfo->strbeg,(U8*) s,(U8*) reginfo ->strend,utf8_target) |
2675 | utf8_target)S_isSB( before,after,(U8*) reginfo->strbeg,(U8*) s,(U8*) reginfo ->strend,utf8_target)) |
2676 | && (reginfo->intuit || regtry(reginfo, &s)S_regtry( reginfo,&s))) |
2677 | { |
2678 | goto got_it; |
2679 | } |
2680 | before = after; |
2681 | s += UTF8_SAFE_SKIP(s, reginfo->strend)((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2681, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))); |
2682 | } |
2683 | } |
2684 | else { /* Not utf8. */ |
2685 | SB_enum before = getSB_VAL_CP((U8) *(s -1))_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist, ((U8 ) *(s -1)))]; |
2686 | while (s < strend) { |
2687 | SB_enum after = getSB_VAL_CP((U8) *s)_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist, ((U8 ) *s))]; |
2688 | if ((to_complement ^ isSB(before,S_isSB( before,after,(U8*) reginfo->strbeg,(U8*) s,(U8*) reginfo ->strend,utf8_target) |
2689 | after,S_isSB( before,after,(U8*) reginfo->strbeg,(U8*) s,(U8*) reginfo ->strend,utf8_target) |
2690 | (U8*) reginfo->strbeg,S_isSB( before,after,(U8*) reginfo->strbeg,(U8*) s,(U8*) reginfo ->strend,utf8_target) |
2691 | (U8*) s,S_isSB( before,after,(U8*) reginfo->strbeg,(U8*) s,(U8*) reginfo ->strend,utf8_target) |
2692 | (U8*) reginfo->strend,S_isSB( before,after,(U8*) reginfo->strbeg,(U8*) s,(U8*) reginfo ->strend,utf8_target) |
2693 | utf8_target)S_isSB( before,after,(U8*) reginfo->strbeg,(U8*) s,(U8*) reginfo ->strend,utf8_target)) |
2694 | && (reginfo->intuit || regtry(reginfo, &s)S_regtry( reginfo,&s))) |
2695 | { |
2696 | goto got_it; |
2697 | } |
2698 | before = after; |
2699 | s++; |
2700 | } |
2701 | } |
2702 | |
2703 | /* Here are at the final position in the target string. The SB |
2704 | * value is always true here, so matches, depending on other |
2705 | * constraints */ |
2706 | if ( reginfo->intuit |
2707 | || (s <= reginfo->strend && regtry(reginfo, &s)S_regtry( reginfo,&s))) |
2708 | { |
2709 | goto got_it; |
2710 | } |
2711 | |
2712 | break; |
2713 | |
2714 | case WB_BOUND: |
2715 | if (s == reginfo->strbeg) { |
2716 | if (reginfo->intuit || regtry(reginfo, &s)S_regtry( reginfo,&s)) { |
2717 | goto got_it; |
2718 | } |
2719 | s += (utf8_target) ? UTF8_SAFE_SKIP(s, reginfo->strend)((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2719, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1; |
2720 | if (UNLIKELY(s >= reginfo->strend)__builtin_expect(((s >= reginfo->strend) ? (_Bool)1 : ( _Bool)0),(0))) { |
2721 | break; |
2722 | } |
2723 | } |
2724 | |
2725 | if (utf8_target) { |
2726 | /* We are at a boundary between char_sub_0 and char_sub_1. |
2727 | * We also keep track of the value for char_sub_-1 as we |
2728 | * loop through the line. Context may be needed to make a |
2729 | * determination, and if so, this can save having to |
2730 | * recalculate it */ |
2731 | WB_enum previous = WB_UNKNOWN; |
2732 | WB_enum before = getWB_VAL_UTF8((((S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8* ) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 2736 , __func__, "S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)s, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8*) reginfo ->strend),((void*)0))))])) |
2733 | reghop3((U8*)s,(((S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8* ) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 2736 , __func__, "S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)s, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8*) reginfo ->strend),((void*)0))))])) |
2734 | -1,(((S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8* ) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 2736 , __func__, "S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)s, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8*) reginfo ->strend),((void*)0))))])) |
2735 | (U8*)(reginfo->strbeg)),(((S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8* ) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 2736 , __func__, "S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)s, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8*) reginfo ->strend),((void*)0))))])) |
2736 | (U8*) reginfo->strend)(((S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8* ) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 2736 , __func__, "S_reghop3((U8*)s, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)s, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8*) reginfo ->strend),((void*)0))))])); |
2737 | while (s < strend) { |
2738 | WB_enum after = getWB_VAL_UTF8((U8*) s,((((U8*) s < (U8*) reginfo->strend) ? (void)0 : __assert2 ("re_exec.c", 2739, __func__, "(U8*) s < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) s)),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])) |
2739 | (U8*) reginfo->strend)((((U8*) s < (U8*) reginfo->strend) ? (void)0 : __assert2 ("re_exec.c", 2739, __func__, "(U8*) s < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) s)),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])); |
2740 | if ((to_complement ^ isWB(previous,S_isWB( previous,before,after,(U8*) reginfo->strbeg,(U8*) s ,(U8*) reginfo->strend,utf8_target) |
2741 | before,S_isWB( previous,before,after,(U8*) reginfo->strbeg,(U8*) s ,(U8*) reginfo->strend,utf8_target) |
2742 | after,S_isWB( previous,before,after,(U8*) reginfo->strbeg,(U8*) s ,(U8*) reginfo->strend,utf8_target) |
2743 | (U8*) reginfo->strbeg,S_isWB( previous,before,after,(U8*) reginfo->strbeg,(U8*) s ,(U8*) reginfo->strend,utf8_target) |
2744 | (U8*) s,S_isWB( previous,before,after,(U8*) reginfo->strbeg,(U8*) s ,(U8*) reginfo->strend,utf8_target) |
2745 | (U8*) reginfo->strend,S_isWB( previous,before,after,(U8*) reginfo->strbeg,(U8*) s ,(U8*) reginfo->strend,utf8_target) |
2746 | utf8_target)S_isWB( previous,before,after,(U8*) reginfo->strbeg,(U8*) s ,(U8*) reginfo->strend,utf8_target)) |
2747 | && (reginfo->intuit || regtry(reginfo, &s)S_regtry( reginfo,&s))) |
2748 | { |
2749 | goto got_it; |
2750 | } |
2751 | previous = before; |
2752 | before = after; |
2753 | s += UTF8_SAFE_SKIP(s, reginfo->strend)((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2753, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))); |
2754 | } |
2755 | } |
2756 | else { /* Not utf8. */ |
2757 | WB_enum previous = WB_UNKNOWN; |
2758 | WB_enum before = getWB_VAL_CP((U8) *(s -1))_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist, ((U8 ) *(s -1)))]; |
2759 | while (s < strend) { |
2760 | WB_enum after = getWB_VAL_CP((U8) *s)_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist, ((U8 ) *s))]; |
2761 | if ((to_complement ^ isWB(previous,S_isWB( previous,before,after,(U8*) reginfo->strbeg,(U8*) s ,(U8*) reginfo->strend,utf8_target) |
2762 | before,S_isWB( previous,before,after,(U8*) reginfo->strbeg,(U8*) s ,(U8*) reginfo->strend,utf8_target) |
2763 | after,S_isWB( previous,before,after,(U8*) reginfo->strbeg,(U8*) s ,(U8*) reginfo->strend,utf8_target) |
2764 | (U8*) reginfo->strbeg,S_isWB( previous,before,after,(U8*) reginfo->strbeg,(U8*) s ,(U8*) reginfo->strend,utf8_target) |
2765 | (U8*) s,S_isWB( previous,before,after,(U8*) reginfo->strbeg,(U8*) s ,(U8*) reginfo->strend,utf8_target) |
2766 | (U8*) reginfo->strend,S_isWB( previous,before,after,(U8*) reginfo->strbeg,(U8*) s ,(U8*) reginfo->strend,utf8_target) |
2767 | utf8_target)S_isWB( previous,before,after,(U8*) reginfo->strbeg,(U8*) s ,(U8*) reginfo->strend,utf8_target)) |
2768 | && (reginfo->intuit || regtry(reginfo, &s)S_regtry( reginfo,&s))) |
2769 | { |
2770 | goto got_it; |
2771 | } |
2772 | previous = before; |
2773 | before = after; |
2774 | s++; |
2775 | } |
2776 | } |
2777 | |
2778 | if ( reginfo->intuit |
2779 | || (s <= reginfo->strend && regtry(reginfo, &s)S_regtry( reginfo,&s))) |
2780 | { |
2781 | goto got_it; |
2782 | } |
2783 | } |
2784 | break; |
2785 | |
2786 | case LNBREAK106: |
2787 | REXEC_FBC_CSCAN(is_LNBREAK_utf8_safe(s, strend),if (utf8_target) { do { while (s < strend) { if (( ((strend )-(s) > 2) ? ( ( ((((0x0C) >= (0x0A)) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(0x0C) >= (0x0A)")), ( (sizeof (((const U8*)s)[0]) == sizeof(U8)) ? ((((NV) ((0x0A)) >= 0 ) ? (void)0 : __assert2("re_exec.c", 2787, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(NV) (((0x0C) - (0x0A))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[0])))) - (((0x0A)) | 0)) ) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (sizeof(((const U8*)s)[0]) == sizeof(U32)) ? ((((NV) ((0x0A)) >= 0) ? (void )0 : __assert2("re_exec.c", 2787, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(NV) (((0x0C) - (0x0A))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[0])))) - (((0x0A)) | 0) )) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (((sizeof((( const U8*)s)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "sizeof(((const U8*)s)[0]) == sizeof(U64)") ), ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "(NV) ((0x0A)) >= 0")), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 2787, __func__ , "(NV) (((0x0C) - (0x0A))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[0])))) - (((0x0A)) | 0))) <= (((U64) ((((0x0C ) - (0x0A))) | 0)))))))) ) ? 1 : ( 0x0D == ((const U8*)s)[0] ) ? ( ( 0x0A == ((const U8*)s)[1] ) ? 2 : 1 ) : ( 0xC2 == ((const U8*)s)[0] ) ? ( ( 0x85 == ((const U8*)s)[1] ) ? 2 : 0 ) : ( ( ( 0xE2 == ((const U8*)s)[0] ) && ( 0x80 == ((const U8 *)s)[1] ) ) && ( ((((0xA9) >= (0xA8)) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(0xA9) >= (0xA8)")), ( (sizeof (((const U8*)s)[2]) == sizeof(U8)) ? ((((NV) ((0xA8)) >= 0 ) ? (void)0 : __assert2("re_exec.c", 2787, __func__, "(NV) ((0xA8)) >= 0" )), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[2])))) - (((0xA8)) | 0)) ) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (sizeof(((const U8*)s)[2]) == sizeof(U32)) ? ((((NV) ((0xA8)) >= 0) ? (void )0 : __assert2("re_exec.c", 2787, __func__, "(NV) ((0xA8)) >= 0" )), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[2])))) - (((0xA8)) | 0) )) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (((sizeof((( const U8*)s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)") ), ((((NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c", 2787, __func__ , "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0xA8)) | 0))) <= (((U64) ((((0xA9 ) - (0xA8))) | 0)))))))) ) ) ? 3 : 0 ): ((strend)-(s) > 1) ? ( ( ((((0x0C) >= (0x0A)) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "(0x0C) >= (0x0A)")), ( (sizeof(((const U8 *)s)[0]) == sizeof(U8)) ? ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c", 2787, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(NV) (((0x0C) - (0x0A))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[0])))) - (((0x0A)) | 0)) ) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (sizeof(((const U8*)s)[0]) == sizeof(U32)) ? ((((NV) ((0x0A)) >= 0) ? (void )0 : __assert2("re_exec.c", 2787, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(NV) (((0x0C) - (0x0A))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[0])))) - (((0x0A)) | 0) )) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (((sizeof((( const U8*)s)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "sizeof(((const U8*)s)[0]) == sizeof(U64)") ), ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "(NV) ((0x0A)) >= 0")), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 2787, __func__ , "(NV) (((0x0C) - (0x0A))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[0])))) - (((0x0A)) | 0))) <= (((U64) ((((0x0C ) - (0x0A))) | 0)))))))) ) ? 1 : ( 0x0D == ((const U8*)s)[0] ) ? ( ( 0x0A == ((const U8*)s)[1] ) ? 2 : 1 ) : ( ( 0xC2 == (( const U8*)s)[0] ) && ( 0x85 == ((const U8*)s)[1] ) ) ? 2 : 0 ): ((strend)-(s) > 0) ? ( ((((0x0D) >= (0x0A)) ? (void)0 : __assert2("re_exec.c", 2787, __func__, "(0x0D) >= (0x0A)" )), ( (sizeof(((const U8*)s)[0]) == sizeof(U8)) ? ((((NV) ((0x0A )) >= 0) ? (void)0 : __assert2("re_exec.c", 2787, __func__ , "(NV) ((0x0A)) >= 0")), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 2787, __func__, "(NV) (((0x0D) - (0x0A))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[0])))) - (((0x0A)) | 0)) ) <= (((U64) ((((0x0D) - (0x0A))) | 0))))) : (sizeof(((const U8*)s)[0]) == sizeof(U32)) ? ((((NV) ((0x0A)) >= 0) ? (void )0 : __assert2("re_exec.c", 2787, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(NV) (((0x0D) - (0x0A))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[0])))) - (((0x0A)) | 0) )) <= (((U64) ((((0x0D) - (0x0A))) | 0))))) : (((sizeof((( const U8*)s)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "sizeof(((const U8*)s)[0]) == sizeof(U64)") ), ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "(NV) ((0x0A)) >= 0")), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 2787, __func__ , "(NV) (((0x0D) - (0x0A))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[0])))) - (((0x0A)) | 0))) <= (((U64) ((((0x0D ) - (0x0A))) | 0)))))))) ) : 0 )) { if ( ( doevery || s != previous_occurrence_end ) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2789, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); } else { do { while (s < strend) { if (( ((strend)-(s) > 1) ? ( ( ((((0x0C) >= (0x0A)) ? (void) 0 : __assert2("re_exec.c", 2788, __func__, "(0x0C) >= (0x0A)" )), ( (sizeof(((const U8*)s)[0]) == sizeof(U8)) ? ((((NV) ((0x0A )) >= 0) ? (void)0 : __assert2("re_exec.c", 2788, __func__ , "(NV) ((0x0A)) >= 0")), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 2788, __func__, "(NV) (((0x0C) - (0x0A))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[0])))) - (((0x0A)) | 0)) ) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (sizeof(((const U8*)s)[0]) == sizeof(U32)) ? ((((NV) ((0x0A)) >= 0) ? (void )0 : __assert2("re_exec.c", 2788, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2788, __func__, "(NV) (((0x0C) - (0x0A))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[0])))) - (((0x0A)) | 0) )) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (((sizeof((( const U8*)s)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2788, __func__, "sizeof(((const U8*)s)[0]) == sizeof(U64)") ), ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2788, __func__, "(NV) ((0x0A)) >= 0")), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 2788, __func__ , "(NV) (((0x0C) - (0x0A))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[0])))) - (((0x0A)) | 0))) <= (((U64) ((((0x0C ) - (0x0A))) | 0)))))))) || 0x85 == ((const U8*)s)[0] ) ? 1 : ( 0x0D == ((const U8*)s)[0] ) ? ( ( 0x0A == ((const U8*)s)[1 ] ) ? 2 : 1 ) : 0 ) : ((strend)-(s) > 0) ? ( ((((0x0D) >= (0x0A)) ? (void)0 : __assert2("re_exec.c", 2788, __func__, "(0x0D) >= (0x0A)" )), ( (sizeof(((const U8*)s)[0]) == sizeof(U8)) ? ((((NV) ((0x0A )) >= 0) ? (void)0 : __assert2("re_exec.c", 2788, __func__ , "(NV) ((0x0A)) >= 0")), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 2788, __func__, "(NV) (((0x0D) - (0x0A))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[0])))) - (((0x0A)) | 0)) ) <= (((U64) ((((0x0D) - (0x0A))) | 0))))) : (sizeof(((const U8*)s)[0]) == sizeof(U32)) ? ((((NV) ((0x0A)) >= 0) ? (void )0 : __assert2("re_exec.c", 2788, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2788, __func__, "(NV) (((0x0D) - (0x0A))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[0])))) - (((0x0A)) | 0) )) <= (((U64) ((((0x0D) - (0x0A))) | 0))))) : (((sizeof((( const U8*)s)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2788, __func__, "sizeof(((const U8*)s)[0]) == sizeof(U64)") ), ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2788, __func__, "(NV) ((0x0A)) >= 0")), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 2788, __func__ , "(NV) (((0x0D) - (0x0A))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[0])))) - (((0x0A)) | 0))) <= (((U64) ((((0x0D ) - (0x0A))) | 0)))))))) || 0x85 == ((const U8*)s)[0] ): 0 )) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((0) ? (( ((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2789, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((0) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); } |
2788 | is_LNBREAK_latin1_safe(s, strend)if (utf8_target) { do { while (s < strend) { if (( ((strend )-(s) > 2) ? ( ( ((((0x0C) >= (0x0A)) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(0x0C) >= (0x0A)")), ( (sizeof (((const U8*)s)[0]) == sizeof(U8)) ? ((((NV) ((0x0A)) >= 0 ) ? (void)0 : __assert2("re_exec.c", 2787, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(NV) (((0x0C) - (0x0A))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[0])))) - (((0x0A)) | 0)) ) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (sizeof(((const U8*)s)[0]) == sizeof(U32)) ? ((((NV) ((0x0A)) >= 0) ? (void )0 : __assert2("re_exec.c", 2787, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(NV) (((0x0C) - (0x0A))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[0])))) - (((0x0A)) | 0) )) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (((sizeof((( const U8*)s)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "sizeof(((const U8*)s)[0]) == sizeof(U64)") ), ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "(NV) ((0x0A)) >= 0")), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 2787, __func__ , "(NV) (((0x0C) - (0x0A))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[0])))) - (((0x0A)) | 0))) <= (((U64) ((((0x0C ) - (0x0A))) | 0)))))))) ) ? 1 : ( 0x0D == ((const U8*)s)[0] ) ? ( ( 0x0A == ((const U8*)s)[1] ) ? 2 : 1 ) : ( 0xC2 == ((const U8*)s)[0] ) ? ( ( 0x85 == ((const U8*)s)[1] ) ? 2 : 0 ) : ( ( ( 0xE2 == ((const U8*)s)[0] ) && ( 0x80 == ((const U8 *)s)[1] ) ) && ( ((((0xA9) >= (0xA8)) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(0xA9) >= (0xA8)")), ( (sizeof (((const U8*)s)[2]) == sizeof(U8)) ? ((((NV) ((0xA8)) >= 0 ) ? (void)0 : __assert2("re_exec.c", 2787, __func__, "(NV) ((0xA8)) >= 0" )), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[2])))) - (((0xA8)) | 0)) ) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (sizeof(((const U8*)s)[2]) == sizeof(U32)) ? ((((NV) ((0xA8)) >= 0) ? (void )0 : __assert2("re_exec.c", 2787, __func__, "(NV) ((0xA8)) >= 0" )), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[2])))) - (((0xA8)) | 0) )) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (((sizeof((( const U8*)s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)") ), ((((NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c", 2787, __func__ , "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0xA8)) | 0))) <= (((U64) ((((0xA9 ) - (0xA8))) | 0)))))))) ) ) ? 3 : 0 ): ((strend)-(s) > 1) ? ( ( ((((0x0C) >= (0x0A)) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "(0x0C) >= (0x0A)")), ( (sizeof(((const U8 *)s)[0]) == sizeof(U8)) ? ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c", 2787, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(NV) (((0x0C) - (0x0A))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[0])))) - (((0x0A)) | 0)) ) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (sizeof(((const U8*)s)[0]) == sizeof(U32)) ? ((((NV) ((0x0A)) >= 0) ? (void )0 : __assert2("re_exec.c", 2787, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(NV) (((0x0C) - (0x0A))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[0])))) - (((0x0A)) | 0) )) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (((sizeof((( const U8*)s)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "sizeof(((const U8*)s)[0]) == sizeof(U64)") ), ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "(NV) ((0x0A)) >= 0")), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 2787, __func__ , "(NV) (((0x0C) - (0x0A))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[0])))) - (((0x0A)) | 0))) <= (((U64) ((((0x0C ) - (0x0A))) | 0)))))))) ) ? 1 : ( 0x0D == ((const U8*)s)[0] ) ? ( ( 0x0A == ((const U8*)s)[1] ) ? 2 : 1 ) : ( ( 0xC2 == (( const U8*)s)[0] ) && ( 0x85 == ((const U8*)s)[1] ) ) ? 2 : 0 ): ((strend)-(s) > 0) ? ( ((((0x0D) >= (0x0A)) ? (void)0 : __assert2("re_exec.c", 2787, __func__, "(0x0D) >= (0x0A)" )), ( (sizeof(((const U8*)s)[0]) == sizeof(U8)) ? ((((NV) ((0x0A )) >= 0) ? (void)0 : __assert2("re_exec.c", 2787, __func__ , "(NV) ((0x0A)) >= 0")), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 2787, __func__, "(NV) (((0x0D) - (0x0A))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[0])))) - (((0x0A)) | 0)) ) <= (((U64) ((((0x0D) - (0x0A))) | 0))))) : (sizeof(((const U8*)s)[0]) == sizeof(U32)) ? ((((NV) ((0x0A)) >= 0) ? (void )0 : __assert2("re_exec.c", 2787, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(NV) (((0x0D) - (0x0A))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[0])))) - (((0x0A)) | 0) )) <= (((U64) ((((0x0D) - (0x0A))) | 0))))) : (((sizeof((( const U8*)s)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "sizeof(((const U8*)s)[0]) == sizeof(U64)") ), ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "(NV) ((0x0A)) >= 0")), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 2787, __func__ , "(NV) (((0x0D) - (0x0A))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[0])))) - (((0x0A)) | 0))) <= (((U64) ((((0x0D ) - (0x0A))) | 0)))))))) ) : 0 )) { if ( ( doevery || s != previous_occurrence_end ) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2789, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); } else { do { while (s < strend) { if (( ((strend)-(s) > 1) ? ( ( ((((0x0C) >= (0x0A)) ? (void) 0 : __assert2("re_exec.c", 2788, __func__, "(0x0C) >= (0x0A)" )), ( (sizeof(((const U8*)s)[0]) == sizeof(U8)) ? ((((NV) ((0x0A )) >= 0) ? (void)0 : __assert2("re_exec.c", 2788, __func__ , "(NV) ((0x0A)) >= 0")), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 2788, __func__, "(NV) (((0x0C) - (0x0A))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[0])))) - (((0x0A)) | 0)) ) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (sizeof(((const U8*)s)[0]) == sizeof(U32)) ? ((((NV) ((0x0A)) >= 0) ? (void )0 : __assert2("re_exec.c", 2788, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2788, __func__, "(NV) (((0x0C) - (0x0A))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[0])))) - (((0x0A)) | 0) )) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (((sizeof((( const U8*)s)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2788, __func__, "sizeof(((const U8*)s)[0]) == sizeof(U64)") ), ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2788, __func__, "(NV) ((0x0A)) >= 0")), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 2788, __func__ , "(NV) (((0x0C) - (0x0A))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[0])))) - (((0x0A)) | 0))) <= (((U64) ((((0x0C ) - (0x0A))) | 0)))))))) || 0x85 == ((const U8*)s)[0] ) ? 1 : ( 0x0D == ((const U8*)s)[0] ) ? ( ( 0x0A == ((const U8*)s)[1 ] ) ? 2 : 1 ) : 0 ) : ((strend)-(s) > 0) ? ( ((((0x0D) >= (0x0A)) ? (void)0 : __assert2("re_exec.c", 2788, __func__, "(0x0D) >= (0x0A)" )), ( (sizeof(((const U8*)s)[0]) == sizeof(U8)) ? ((((NV) ((0x0A )) >= 0) ? (void)0 : __assert2("re_exec.c", 2788, __func__ , "(NV) ((0x0A)) >= 0")), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 2788, __func__, "(NV) (((0x0D) - (0x0A))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[0])))) - (((0x0A)) | 0)) ) <= (((U64) ((((0x0D) - (0x0A))) | 0))))) : (sizeof(((const U8*)s)[0]) == sizeof(U32)) ? ((((NV) ((0x0A)) >= 0) ? (void )0 : __assert2("re_exec.c", 2788, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2788, __func__, "(NV) (((0x0D) - (0x0A))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[0])))) - (((0x0A)) | 0) )) <= (((U64) ((((0x0D) - (0x0A))) | 0))))) : (((sizeof((( const U8*)s)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2788, __func__, "sizeof(((const U8*)s)[0]) == sizeof(U64)") ), ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2788, __func__, "(NV) ((0x0A)) >= 0")), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 2788, __func__ , "(NV) (((0x0D) - (0x0A))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[0])))) - (((0x0A)) | 0))) <= (((U64) ((((0x0D ) - (0x0A))) | 0)))))))) || 0x85 == ((const U8*)s)[0] ): 0 )) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((0) ? (( ((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2789, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((0) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); } |
2789 | )if (utf8_target) { do { while (s < strend) { if (( ((strend )-(s) > 2) ? ( ( ((((0x0C) >= (0x0A)) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(0x0C) >= (0x0A)")), ( (sizeof (((const U8*)s)[0]) == sizeof(U8)) ? ((((NV) ((0x0A)) >= 0 ) ? (void)0 : __assert2("re_exec.c", 2787, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(NV) (((0x0C) - (0x0A))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[0])))) - (((0x0A)) | 0)) ) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (sizeof(((const U8*)s)[0]) == sizeof(U32)) ? ((((NV) ((0x0A)) >= 0) ? (void )0 : __assert2("re_exec.c", 2787, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(NV) (((0x0C) - (0x0A))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[0])))) - (((0x0A)) | 0) )) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (((sizeof((( const U8*)s)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "sizeof(((const U8*)s)[0]) == sizeof(U64)") ), ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "(NV) ((0x0A)) >= 0")), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 2787, __func__ , "(NV) (((0x0C) - (0x0A))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[0])))) - (((0x0A)) | 0))) <= (((U64) ((((0x0C ) - (0x0A))) | 0)))))))) ) ? 1 : ( 0x0D == ((const U8*)s)[0] ) ? ( ( 0x0A == ((const U8*)s)[1] ) ? 2 : 1 ) : ( 0xC2 == ((const U8*)s)[0] ) ? ( ( 0x85 == ((const U8*)s)[1] ) ? 2 : 0 ) : ( ( ( 0xE2 == ((const U8*)s)[0] ) && ( 0x80 == ((const U8 *)s)[1] ) ) && ( ((((0xA9) >= (0xA8)) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(0xA9) >= (0xA8)")), ( (sizeof (((const U8*)s)[2]) == sizeof(U8)) ? ((((NV) ((0xA8)) >= 0 ) ? (void)0 : __assert2("re_exec.c", 2787, __func__, "(NV) ((0xA8)) >= 0" )), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[2])))) - (((0xA8)) | 0)) ) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (sizeof(((const U8*)s)[2]) == sizeof(U32)) ? ((((NV) ((0xA8)) >= 0) ? (void )0 : __assert2("re_exec.c", 2787, __func__, "(NV) ((0xA8)) >= 0" )), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[2])))) - (((0xA8)) | 0) )) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (((sizeof((( const U8*)s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)") ), ((((NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c", 2787, __func__ , "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0xA8)) | 0))) <= (((U64) ((((0xA9 ) - (0xA8))) | 0)))))))) ) ) ? 3 : 0 ): ((strend)-(s) > 1) ? ( ( ((((0x0C) >= (0x0A)) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "(0x0C) >= (0x0A)")), ( (sizeof(((const U8 *)s)[0]) == sizeof(U8)) ? ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c", 2787, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(NV) (((0x0C) - (0x0A))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[0])))) - (((0x0A)) | 0)) ) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (sizeof(((const U8*)s)[0]) == sizeof(U32)) ? ((((NV) ((0x0A)) >= 0) ? (void )0 : __assert2("re_exec.c", 2787, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(NV) (((0x0C) - (0x0A))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[0])))) - (((0x0A)) | 0) )) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (((sizeof((( const U8*)s)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "sizeof(((const U8*)s)[0]) == sizeof(U64)") ), ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "(NV) ((0x0A)) >= 0")), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 2787, __func__ , "(NV) (((0x0C) - (0x0A))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[0])))) - (((0x0A)) | 0))) <= (((U64) ((((0x0C ) - (0x0A))) | 0)))))))) ) ? 1 : ( 0x0D == ((const U8*)s)[0] ) ? ( ( 0x0A == ((const U8*)s)[1] ) ? 2 : 1 ) : ( ( 0xC2 == (( const U8*)s)[0] ) && ( 0x85 == ((const U8*)s)[1] ) ) ? 2 : 0 ): ((strend)-(s) > 0) ? ( ((((0x0D) >= (0x0A)) ? (void)0 : __assert2("re_exec.c", 2787, __func__, "(0x0D) >= (0x0A)" )), ( (sizeof(((const U8*)s)[0]) == sizeof(U8)) ? ((((NV) ((0x0A )) >= 0) ? (void)0 : __assert2("re_exec.c", 2787, __func__ , "(NV) ((0x0A)) >= 0")), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 2787, __func__, "(NV) (((0x0D) - (0x0A))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[0])))) - (((0x0A)) | 0)) ) <= (((U64) ((((0x0D) - (0x0A))) | 0))))) : (sizeof(((const U8*)s)[0]) == sizeof(U32)) ? ((((NV) ((0x0A)) >= 0) ? (void )0 : __assert2("re_exec.c", 2787, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2787, __func__, "(NV) (((0x0D) - (0x0A))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[0])))) - (((0x0A)) | 0) )) <= (((U64) ((((0x0D) - (0x0A))) | 0))))) : (((sizeof((( const U8*)s)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "sizeof(((const U8*)s)[0]) == sizeof(U64)") ), ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2787, __func__, "(NV) ((0x0A)) >= 0")), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 2787, __func__ , "(NV) (((0x0D) - (0x0A))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[0])))) - (((0x0A)) | 0))) <= (((U64) ((((0x0D ) - (0x0A))) | 0)))))))) ) : 0 )) { if ( ( doevery || s != previous_occurrence_end ) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2789, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); } else { do { while (s < strend) { if (( ((strend)-(s) > 1) ? ( ( ((((0x0C) >= (0x0A)) ? (void) 0 : __assert2("re_exec.c", 2788, __func__, "(0x0C) >= (0x0A)" )), ( (sizeof(((const U8*)s)[0]) == sizeof(U8)) ? ((((NV) ((0x0A )) >= 0) ? (void)0 : __assert2("re_exec.c", 2788, __func__ , "(NV) ((0x0A)) >= 0")), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 2788, __func__, "(NV) (((0x0C) - (0x0A))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[0])))) - (((0x0A)) | 0)) ) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (sizeof(((const U8*)s)[0]) == sizeof(U32)) ? ((((NV) ((0x0A)) >= 0) ? (void )0 : __assert2("re_exec.c", 2788, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2788, __func__, "(NV) (((0x0C) - (0x0A))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[0])))) - (((0x0A)) | 0) )) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (((sizeof((( const U8*)s)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2788, __func__, "sizeof(((const U8*)s)[0]) == sizeof(U64)") ), ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2788, __func__, "(NV) ((0x0A)) >= 0")), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 2788, __func__ , "(NV) (((0x0C) - (0x0A))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[0])))) - (((0x0A)) | 0))) <= (((U64) ((((0x0C ) - (0x0A))) | 0)))))))) || 0x85 == ((const U8*)s)[0] ) ? 1 : ( 0x0D == ((const U8*)s)[0] ) ? ( ( 0x0A == ((const U8*)s)[1 ] ) ? 2 : 1 ) : 0 ) : ((strend)-(s) > 0) ? ( ((((0x0D) >= (0x0A)) ? (void)0 : __assert2("re_exec.c", 2788, __func__, "(0x0D) >= (0x0A)" )), ( (sizeof(((const U8*)s)[0]) == sizeof(U8)) ? ((((NV) ((0x0A )) >= 0) ? (void)0 : __assert2("re_exec.c", 2788, __func__ , "(NV) ((0x0A)) >= 0")), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 2788, __func__, "(NV) (((0x0D) - (0x0A))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[0])))) - (((0x0A)) | 0)) ) <= (((U64) ((((0x0D) - (0x0A))) | 0))))) : (sizeof(((const U8*)s)[0]) == sizeof(U32)) ? ((((NV) ((0x0A)) >= 0) ? (void )0 : __assert2("re_exec.c", 2788, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2788, __func__, "(NV) (((0x0D) - (0x0A))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[0])))) - (((0x0A)) | 0) )) <= (((U64) ((((0x0D) - (0x0A))) | 0))))) : (((sizeof((( const U8*)s)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2788, __func__, "sizeof(((const U8*)s)[0]) == sizeof(U64)") ), ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2788, __func__, "(NV) ((0x0A)) >= 0")), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 2788, __func__ , "(NV) (((0x0D) - (0x0A))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[0])))) - (((0x0A)) | 0))) <= (((U64) ((((0x0D ) - (0x0A))) | 0)))))))) || 0x85 == ((const U8*)s)[0] ): 0 )) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((0) ? (( ((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2789, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((0) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); }; |
2790 | break; |
2791 | |
2792 | /* The argument to all the POSIX node types is the class number to pass to |
2793 | * _generic_isCC() to build a mask for searching in PL_charclass[] */ |
2794 | |
2795 | case NPOSIXL35: |
2796 | to_complement = 1; |
2797 | /* FALLTHROUGH */ |
2798 | |
2799 | case POSIXL31: |
2800 | _CHECK_AND_WARN_PROBLEMATIC_LOCALEdo { if (__builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool )0),(0))) { Perl__warn_problematic_locale(); } } while (0); |
2801 | REXEC_FBC_CSCAN(to_complement ^ cBOOL(isFOO_utf8_lc(FLAGS(c), (U8 *) s, (U8 *) strend)),if (utf8_target) { do { while (s < strend) { if (to_complement ^ ((S_isFOO_utf8_lc( ((c)->flags),(U8 *) s,(U8 *) strend) ) ? (_Bool)1 : (_Bool)0)) { if ( ( doevery || s != previous_occurrence_end ) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2802, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); } else { do { while (s < strend) { if (to_complement ^ ((Perl_isFOO_lc( ((c)->flags),*s)) ? (_Bool)1 : (_Bool) 0)) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((0) ? (( ((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2802, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((0) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); } |
2802 | to_complement ^ cBOOL(isFOO_lc(FLAGS(c), *s)))if (utf8_target) { do { while (s < strend) { if (to_complement ^ ((S_isFOO_utf8_lc( ((c)->flags),(U8 *) s,(U8 *) strend) ) ? (_Bool)1 : (_Bool)0)) { if ( ( doevery || s != previous_occurrence_end ) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2802, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); } else { do { while (s < strend) { if (to_complement ^ ((Perl_isFOO_lc( ((c)->flags),*s)) ? (_Bool)1 : (_Bool) 0)) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((0) ? (( ((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2802, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((0) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); }; |
2803 | break; |
2804 | |
2805 | case NPOSIXD34: |
2806 | to_complement = 1; |
2807 | /* FALLTHROUGH */ |
2808 | |
2809 | case POSIXD30: |
2810 | if (utf8_target) { |
2811 | goto posix_utf8; |
2812 | } |
2813 | goto posixa; |
2814 | |
2815 | case NPOSIXA37: |
2816 | if (utf8_target) { |
2817 | /* The complement of something that matches only ASCII matches all |
2818 | * non-ASCII, plus everything in ASCII that isn't in the class. */ |
2819 | REXEC_FBC_CLASS_SCAN(1, ! isASCII_utf8_safe(s, strend)do { while (s < strend) { if (! (((((strend) > (s))) ? ( void)0 : __assert2("re_exec.c", 2819, __func__, "((strend) > (s))" )), ((U64)((*(s)) | 0) < 128)) || ! (( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF)) && ((PL_charclass[ (U8) (*s)] & ((1U << (((c)->flags))) | (1U << (14)))) == ((1U << (((c)->flags))) | (1U << ( 14)))))) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((1) ? (( ((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2820, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0) |
2820 | || ! _generic_isCC_A(*s, FLAGS(c)))do { while (s < strend) { if (! (((((strend) > (s))) ? ( void)0 : __assert2("re_exec.c", 2819, __func__, "((strend) > (s))" )), ((U64)((*(s)) | 0) < 128)) || ! (( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF)) && ((PL_charclass[ (U8) (*s)] & ((1U << (((c)->flags))) | (1U << (14)))) == ((1U << (((c)->flags))) | (1U << ( 14)))))) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((1) ? (( ((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2820, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); |
2821 | break; |
2822 | } |
2823 | |
2824 | to_complement = 1; |
2825 | goto posixa; |
2826 | |
2827 | case POSIXA33: |
2828 | /* Don't need to worry about utf8, as it can match only a single |
2829 | * byte invariant character. But we do anyway for performance reasons, |
2830 | * as otherwise we would have to examine all the continuation |
2831 | * characters */ |
2832 | if (utf8_target) { |
2833 | REXEC_FBC_CLASS_SCAN(1, _generic_isCC_A(*s, FLAGS(c)))do { while (s < strend) { if ((( (sizeof(*s) == 1) || !((( U64)((*s) | 0)) & ~0xFF)) && ((PL_charclass[(U8) ( *s)] & ((1U << (((c)->flags))) | (1U << (14 )))) == ((1U << (((c)->flags))) | (1U << (14)) )))) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((1) ? (( ((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2833, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); |
2834 | break; |
2835 | } |
2836 | |
2837 | posixa: |
2838 | REXEC_FBC_CLASS_SCAN(0, /* 0=>not-utf8 */do { while (s < strend) { if (to_complement ^ (((( (sizeof (*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF)) && (( PL_charclass[(U8) (*s)] & ((1U << (((c)->flags)) ) | (1U << (14)))) == ((1U << (((c)->flags))) | (1U << (14)))))) ? (_Bool)1 : (_Bool)0)) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo, &s)))) { goto got_it; } s += ((0) ? ((((reginfo->strend ) >= (s)) ? (void)0 : __assert2("re_exec.c", 2839, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((0) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0) |
2839 | to_complement ^ cBOOL(_generic_isCC_A(*s, FLAGS(c))))do { while (s < strend) { if (to_complement ^ (((( (sizeof (*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF)) && (( PL_charclass[(U8) (*s)] & ((1U << (((c)->flags)) ) | (1U << (14)))) == ((1U << (((c)->flags))) | (1U << (14)))))) ? (_Bool)1 : (_Bool)0)) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo, &s)))) { goto got_it; } s += ((0) ? ((((reginfo->strend ) >= (s)) ? (void)0 : __assert2("re_exec.c", 2839, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((0) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); |
2840 | break; |
2841 | |
2842 | case NPOSIXU36: |
2843 | to_complement = 1; |
2844 | /* FALLTHROUGH */ |
2845 | |
2846 | case POSIXU32: |
2847 | if (! utf8_target) { |
2848 | REXEC_FBC_CLASS_SCAN(0, /* 0=>not-utf8 */do { while (s < strend) { if (to_complement ^ ((((( (sizeof (*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF)) && (PL_charclass [(U8) (*s)] & (1U << (((c)->flags))))) ? (_Bool) 1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0)) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || ( s <= reginfo->strend && S_regtry( reginfo,& s)))) { goto got_it; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2850, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((0) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0) |
2849 | to_complement ^ cBOOL(_generic_isCC(*s,do { while (s < strend) { if (to_complement ^ ((((( (sizeof (*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF)) && (PL_charclass [(U8) (*s)] & (1U << (((c)->flags))))) ? (_Bool) 1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0)) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || ( s <= reginfo->strend && S_regtry( reginfo,& s)))) { goto got_it; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2850, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((0) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0) |
2850 | FLAGS(c))))do { while (s < strend) { if (to_complement ^ ((((( (sizeof (*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF)) && (PL_charclass [(U8) (*s)] & (1U << (((c)->flags))))) ? (_Bool) 1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0)) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || ( s <= reginfo->strend && S_regtry( reginfo,& s)))) { goto got_it; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2850, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((0) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); |
2851 | } |
2852 | else { |
2853 | |
2854 | posix_utf8: |
2855 | classnum = (_char_class_number) FLAGS(c)((c)->flags); |
2856 | switch (classnum) { |
2857 | default: |
2858 | REXEC_FBC_CLASS_SCAN(1, /* 1=>is-utf8 */do { while (s < strend) { if (to_complement ^ ((S__invlist_contains_cp ( PL_XPosix_ptrs[classnum], Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((U8 *) s),(const U8 *) (U8 *) strend,((void*)0)))) ? ( _Bool)1 : (_Bool)0)) { if ( ( doevery || s != previous_occurrence_end ) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2863, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0) |
2859 | to_complement ^ cBOOL(_invlist_contains_cp(do { while (s < strend) { if (to_complement ^ ((S__invlist_contains_cp ( PL_XPosix_ptrs[classnum], Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((U8 *) s),(const U8 *) (U8 *) strend,((void*)0)))) ? ( _Bool)1 : (_Bool)0)) { if ( ( doevery || s != previous_occurrence_end ) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2863, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0) |
2860 | PL_XPosix_ptrs[classnum],do { while (s < strend) { if (to_complement ^ ((S__invlist_contains_cp ( PL_XPosix_ptrs[classnum], Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((U8 *) s),(const U8 *) (U8 *) strend,((void*)0)))) ? ( _Bool)1 : (_Bool)0)) { if ( ( doevery || s != previous_occurrence_end ) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2863, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0) |
2861 | utf8_to_uvchr_buf((U8 *) s,do { while (s < strend) { if (to_complement ^ ((S__invlist_contains_cp ( PL_XPosix_ptrs[classnum], Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((U8 *) s),(const U8 *) (U8 *) strend,((void*)0)))) ? ( _Bool)1 : (_Bool)0)) { if ( ( doevery || s != previous_occurrence_end ) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2863, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0) |
2862 | (U8 *) strend,do { while (s < strend) { if (to_complement ^ ((S__invlist_contains_cp ( PL_XPosix_ptrs[classnum], Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((U8 *) s),(const U8 *) (U8 *) strend,((void*)0)))) ? ( _Bool)1 : (_Bool)0)) { if ( ( doevery || s != previous_occurrence_end ) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2863, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0) |
2863 | NULL))))do { while (s < strend) { if (to_complement ^ ((S__invlist_contains_cp ( PL_XPosix_ptrs[classnum], Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((U8 *) s),(const U8 *) (U8 *) strend,((void*)0)))) ? ( _Bool)1 : (_Bool)0)) { if ( ( doevery || s != previous_occurrence_end ) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((1) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2 ("re_exec.c", 2863, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); |
2864 | break; |
2865 | case _CC_ENUM_SPACE: |
2866 | REXEC_FBC_CLASS_SCAN(1, /* 1=>is-utf8 */do { while (s < strend) { if (to_complement ^ ((((! ((strend ) > (s))) ? (Perl__force_out_malformed_utf8_message( (U8 * ) (s),(U8 *) (strend),0,1), 0) : (((((U64)(((UV) (((*(s)) | 0 ) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? ((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*(s))] & (1U << (10)))) ? (_Bool )1 : (_Bool)0) : ((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2867 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __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_exec.c" , 2867, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __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_exec.c" , 2867, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __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_exec.c" , 2867, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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((((strend) - (s) > 1 && (((( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : (_Bool )0),(1))) ? ((( (sizeof(( (((((( (sizeof(*(s)) == 1) || !(((U64 )((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2867 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __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_exec.c" , 2867, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __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_exec.c" , 2867, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __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_exec.c" , 2867, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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_exec.c", 2867, __func__ , "(((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c\", 2867, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2867, __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_exec.c\", 2867, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2867, __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_exec.c\", 2867, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2867, __func__, \\\"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\\\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2867, __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_exec.c\", 2867, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "(((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)( ((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*(( s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2867 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __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_exec.c" , 2867, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __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_exec.c" , 2867, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __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_exec.c" , 2867, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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_exec.c", 2867, __func__ , "(((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c\", 2867, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2867, __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_exec.c\", 2867, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2867, __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_exec.c\", 2867, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2867, __func__, \\\"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\\\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2867, __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_exec.c\", 2867, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "(((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)( ((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*(( s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) && (PL_charclass [(U8) (( (((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2867 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __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_exec.c" , 2867, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __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_exec.c" , 2867, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __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_exec.c" , 2867, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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_exec.c", 2867, __func__ , "(((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c\", 2867, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2867, __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_exec.c\", 2867, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2867, __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_exec.c\", 2867, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2867, __func__, \\\"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\\\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2867, __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_exec.c\", 2867, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "(((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)( ((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*(( s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (10)))) ? (_Bool)1 : ( _Bool)0) : (Perl__force_out_malformed_utf8_message( (U8 *) (s ),(U8 *) (strend),0,1), 0)) : (__builtin_expect((((strend) - ( s) < PL_utf8skip[*(const U8*)(s)]) ? (_Bool)1 : (_Bool)0), (0)) ? (Perl__force_out_malformed_utf8_message( (U8 *) (s),(U8 *) (strend),0,1), 0) : ( ( 0xE1 == ((const U8*)s)[0] ) ? ( ( ( 0x9A == ((const U8*)s)[1] ) && ( 0x80 == ((const U8 *)s)[2] ) ) ? 3 : 0 ): ( 0xE2 == ((const U8*)s)[0] ) ? ( ( 0x80 == ((const U8*)s)[1] ) ? ( ( ((((0x8A) >= (0x80)) ? (void )0 : __assert2("re_exec.c", 2867, __func__, "(0x8A) >= (0x80)" )), ( (sizeof(((const U8*)s)[2]) == sizeof(U8)) ? ((((NV) ((0x80 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "(NV) ((0x80)) >= 0")), (((NV) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "(NV) (((0x8A) - (0x80))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[2])))) - (((0x80)) | 0)) ) <= (((U64) ((((0x8A) - (0x80))) | 0))))) : (sizeof(((const U8*)s)[2]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? (void )0 : __assert2("re_exec.c", 2867, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "(NV) (((0x8A) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[2])))) - (((0x80)) | 0) )) <= (((U64) ((((0x8A) - (0x80))) | 0))))) : (((sizeof((( const U8*)s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)") ), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "(NV) (((0x8A) - (0x80))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0x80)) | 0))) <= (((U64) ((((0x8A ) - (0x80))) | 0)))))))) || ((((0xA9) >= (0xA8)) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "(0xA9) >= (0xA8)" )), ( (sizeof(((const U8*)s)[2]) == sizeof(U8)) ? ((((NV) ((0xA8 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[2])))) - (((0xA8)) | 0)) ) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (sizeof(((const U8*)s)[2]) == sizeof(U32)) ? ((((NV) ((0xA8)) >= 0) ? (void )0 : __assert2("re_exec.c", 2867, __func__, "(NV) ((0xA8)) >= 0" )), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[2])))) - (((0xA8)) | 0) )) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (((sizeof((( const U8*)s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)") ), ((((NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0xA8)) | 0))) <= (((U64) ((((0xA9 ) - (0xA8))) | 0)))))))) || 0xAF == ((const U8*)s)[2] ) ? 3 : 0 ) : ( ( 0x81 == ((const U8*)s)[1] ) && ( 0x9F == ( (const U8*)s)[2] ) ) ? 3 : 0 ): ( ( ( 0xE3 == ((const U8*)s)[ 0] ) && ( 0x80 == ((const U8*)s)[1] ) ) && ( 0x80 == ((const U8*)s)[2] ) ) ? 3 : 0 ))))) ? (_Bool)1 : (_Bool)0 )) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((1) ? (( ((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0) |
2867 | to_complement ^ cBOOL(isSPACE_utf8_safe(s, strend)))do { while (s < strend) { if (to_complement ^ ((((! ((strend ) > (s))) ? (Perl__force_out_malformed_utf8_message( (U8 * ) (s),(U8 *) (strend),0,1), 0) : (((((U64)(((UV) (((*(s)) | 0 ) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? ((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*(s))] & (1U << (10)))) ? (_Bool )1 : (_Bool)0) : ((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2867 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __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_exec.c" , 2867, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __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_exec.c" , 2867, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __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_exec.c" , 2867, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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((((strend) - (s) > 1 && (((( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : (_Bool )0),(1))) ? ((( (sizeof(( (((((( (sizeof(*(s)) == 1) || !(((U64 )((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2867 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __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_exec.c" , 2867, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __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_exec.c" , 2867, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __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_exec.c" , 2867, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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_exec.c", 2867, __func__ , "(((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c\", 2867, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2867, __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_exec.c\", 2867, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2867, __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_exec.c\", 2867, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2867, __func__, \\\"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\\\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2867, __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_exec.c\", 2867, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "(((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)( ((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*(( s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2867 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __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_exec.c" , 2867, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __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_exec.c" , 2867, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __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_exec.c" , 2867, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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_exec.c", 2867, __func__ , "(((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c\", 2867, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2867, __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_exec.c\", 2867, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2867, __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_exec.c\", 2867, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2867, __func__, \\\"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\\\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2867, __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_exec.c\", 2867, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "(((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)( ((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*(( s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) && (PL_charclass [(U8) (( (((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2867 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __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_exec.c" , 2867, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __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_exec.c" , 2867, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __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_exec.c" , 2867, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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_exec.c", 2867, __func__ , "(((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c\", 2867, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2867, __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_exec.c\", 2867, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2867, __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_exec.c\", 2867, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2867, __func__, \\\"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\\\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2867, __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_exec.c\", 2867, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "(((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)( ((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2867, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*(( s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (10)))) ? (_Bool)1 : ( _Bool)0) : (Perl__force_out_malformed_utf8_message( (U8 *) (s ),(U8 *) (strend),0,1), 0)) : (__builtin_expect((((strend) - ( s) < PL_utf8skip[*(const U8*)(s)]) ? (_Bool)1 : (_Bool)0), (0)) ? (Perl__force_out_malformed_utf8_message( (U8 *) (s),(U8 *) (strend),0,1), 0) : ( ( 0xE1 == ((const U8*)s)[0] ) ? ( ( ( 0x9A == ((const U8*)s)[1] ) && ( 0x80 == ((const U8 *)s)[2] ) ) ? 3 : 0 ): ( 0xE2 == ((const U8*)s)[0] ) ? ( ( 0x80 == ((const U8*)s)[1] ) ? ( ( ((((0x8A) >= (0x80)) ? (void )0 : __assert2("re_exec.c", 2867, __func__, "(0x8A) >= (0x80)" )), ( (sizeof(((const U8*)s)[2]) == sizeof(U8)) ? ((((NV) ((0x80 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "(NV) ((0x80)) >= 0")), (((NV) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "(NV) (((0x8A) - (0x80))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[2])))) - (((0x80)) | 0)) ) <= (((U64) ((((0x8A) - (0x80))) | 0))))) : (sizeof(((const U8*)s)[2]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? (void )0 : __assert2("re_exec.c", 2867, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "(NV) (((0x8A) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[2])))) - (((0x80)) | 0) )) <= (((U64) ((((0x8A) - (0x80))) | 0))))) : (((sizeof((( const U8*)s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)") ), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "(NV) (((0x8A) - (0x80))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0x80)) | 0))) <= (((U64) ((((0x8A ) - (0x80))) | 0)))))))) || ((((0xA9) >= (0xA8)) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "(0xA9) >= (0xA8)" )), ( (sizeof(((const U8*)s)[2]) == sizeof(U8)) ? ((((NV) ((0xA8 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[2])))) - (((0xA8)) | 0)) ) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (sizeof(((const U8*)s)[2]) == sizeof(U32)) ? ((((NV) ((0xA8)) >= 0) ? (void )0 : __assert2("re_exec.c", 2867, __func__, "(NV) ((0xA8)) >= 0" )), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2867, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[2])))) - (((0xA8)) | 0) )) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (((sizeof((( const U8*)s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)") ), ((((NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c", 2867, __func__ , "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0xA8)) | 0))) <= (((U64) ((((0xA9 ) - (0xA8))) | 0)))))))) || 0xAF == ((const U8*)s)[2] ) ? 3 : 0 ) : ( ( 0x81 == ((const U8*)s)[1] ) && ( 0x9F == ( (const U8*)s)[2] ) ) ? 3 : 0 ): ( ( ( 0xE3 == ((const U8*)s)[ 0] ) && ( 0x80 == ((const U8*)s)[1] ) ) && ( 0x80 == ((const U8*)s)[2] ) ) ? 3 : 0 ))))) ? (_Bool)1 : (_Bool)0 )) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((1) ? (( ((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2867, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); |
2868 | break; |
2869 | |
2870 | case _CC_ENUM_BLANK: |
2871 | REXEC_FBC_CLASS_SCAN(1,do { while (s < strend) { if (to_complement ^ ((((! ((strend ) > (s))) ? (Perl__force_out_malformed_utf8_message( (U8 * ) (s),(U8 *) (strend),0,1), 0) : (((((U64)(((UV) (((*(s)) | 0 ) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? ((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*(s))] & (1U << (11)))) ? (_Bool )1 : (_Bool)0) : ((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2872 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __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_exec.c" , 2872, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __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_exec.c" , 2872, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __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_exec.c" , 2872, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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((((strend) - (s) > 1 && (((( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : (_Bool )0),(1))) ? ((( (sizeof(( (((((( (sizeof(*(s)) == 1) || !(((U64 )((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2872 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __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_exec.c" , 2872, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __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_exec.c" , 2872, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __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_exec.c" , 2872, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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_exec.c", 2872, __func__ , "(((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c\", 2872, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2872, __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_exec.c\", 2872, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2872, __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_exec.c\", 2872, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2872, __func__, \\\"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\\\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2872, __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_exec.c\", 2872, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "(((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)( ((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*(( s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2872 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __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_exec.c" , 2872, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __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_exec.c" , 2872, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __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_exec.c" , 2872, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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_exec.c", 2872, __func__ , "(((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c\", 2872, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2872, __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_exec.c\", 2872, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2872, __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_exec.c\", 2872, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2872, __func__, \\\"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\\\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2872, __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_exec.c\", 2872, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "(((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)( ((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*(( s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) && (PL_charclass [(U8) (( (((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2872 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __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_exec.c" , 2872, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __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_exec.c" , 2872, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __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_exec.c" , 2872, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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_exec.c", 2872, __func__ , "(((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c\", 2872, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2872, __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_exec.c\", 2872, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2872, __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_exec.c\", 2872, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2872, __func__, \\\"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\\\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2872, __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_exec.c\", 2872, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "(((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)( ((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*(( s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (11)))) ? (_Bool)1 : ( _Bool)0) : (Perl__force_out_malformed_utf8_message( (U8 *) (s ),(U8 *) (strend),0,1), 0)) : (__builtin_expect((((strend) - ( s) < PL_utf8skip[*(const U8*)(s)]) ? (_Bool)1 : (_Bool)0), (0)) ? (Perl__force_out_malformed_utf8_message( (U8 *) (s),(U8 *) (strend),0,1), 0) : ( ( 0xE1 == ((const U8*)s)[0] ) ? ( ( ( 0x9A == ((const U8*)s)[1] ) && ( 0x80 == ((const U8 *)s)[2] ) ) ? 3 : 0 ): ( 0xE2 == ((const U8*)s)[0] ) ? ( ( 0x80 == ((const U8*)s)[1] ) ? ( ( ((((0x8A) >= (0x80)) ? (void )0 : __assert2("re_exec.c", 2872, __func__, "(0x8A) >= (0x80)" )), ( (sizeof(((const U8*)s)[2]) == sizeof(U8)) ? ((((NV) ((0x80 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "(NV) ((0x80)) >= 0")), (((NV) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "(NV) (((0x8A) - (0x80))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[2])))) - (((0x80)) | 0)) ) <= (((U64) ((((0x8A) - (0x80))) | 0))))) : (sizeof(((const U8*)s)[2]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? (void )0 : __assert2("re_exec.c", 2872, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "(NV) (((0x8A) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[2])))) - (((0x80)) | 0) )) <= (((U64) ((((0x8A) - (0x80))) | 0))))) : (((sizeof((( const U8*)s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)") ), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "(NV) (((0x8A) - (0x80))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0x80)) | 0))) <= (((U64) ((((0x8A ) - (0x80))) | 0)))))))) || 0xAF == ((const U8*)s)[2] ) ? 3 : 0 ) : ( ( 0x81 == ((const U8*)s)[1] ) && ( 0x9F == ( (const U8*)s)[2] ) ) ? 3 : 0 ): ( ( ( 0xE3 == ((const U8*)s)[ 0] ) && ( 0x80 == ((const U8*)s)[1] ) ) && ( 0x80 == ((const U8*)s)[2] ) ) ? 3 : 0 ))))) ? (_Bool)1 : (_Bool)0 )) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((1) ? (( ((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0) |
2872 | to_complement ^ cBOOL(isBLANK_utf8_safe(s, strend)))do { while (s < strend) { if (to_complement ^ ((((! ((strend ) > (s))) ? (Perl__force_out_malformed_utf8_message( (U8 * ) (s),(U8 *) (strend),0,1), 0) : (((((U64)(((UV) (((*(s)) | 0 ) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? ((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*(s))] & (1U << (11)))) ? (_Bool )1 : (_Bool)0) : ((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2872 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __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_exec.c" , 2872, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __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_exec.c" , 2872, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __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_exec.c" , 2872, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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((((strend) - (s) > 1 && (((( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : (_Bool )0),(1))) ? ((( (sizeof(( (((((( (sizeof(*(s)) == 1) || !(((U64 )((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2872 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __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_exec.c" , 2872, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __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_exec.c" , 2872, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __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_exec.c" , 2872, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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_exec.c", 2872, __func__ , "(((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c\", 2872, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2872, __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_exec.c\", 2872, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2872, __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_exec.c\", 2872, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2872, __func__, \\\"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\\\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2872, __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_exec.c\", 2872, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "(((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)( ((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*(( s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2872 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __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_exec.c" , 2872, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __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_exec.c" , 2872, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __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_exec.c" , 2872, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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_exec.c", 2872, __func__ , "(((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c\", 2872, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2872, __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_exec.c\", 2872, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2872, __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_exec.c\", 2872, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2872, __func__, \\\"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\\\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2872, __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_exec.c\", 2872, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "(((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)( ((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*(( s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) && (PL_charclass [(U8) (( (((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2872 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __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_exec.c" , 2872, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __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_exec.c" , 2872, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __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_exec.c" , 2872, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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_exec.c", 2872, __func__ , "(((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c\", 2872, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2872, __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_exec.c\", 2872, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2872, __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_exec.c\", 2872, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2872, __func__, \\\"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\\\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2872, __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_exec.c\", 2872, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "(((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)( ((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2872, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*(( s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (11)))) ? (_Bool)1 : ( _Bool)0) : (Perl__force_out_malformed_utf8_message( (U8 *) (s ),(U8 *) (strend),0,1), 0)) : (__builtin_expect((((strend) - ( s) < PL_utf8skip[*(const U8*)(s)]) ? (_Bool)1 : (_Bool)0), (0)) ? (Perl__force_out_malformed_utf8_message( (U8 *) (s),(U8 *) (strend),0,1), 0) : ( ( 0xE1 == ((const U8*)s)[0] ) ? ( ( ( 0x9A == ((const U8*)s)[1] ) && ( 0x80 == ((const U8 *)s)[2] ) ) ? 3 : 0 ): ( 0xE2 == ((const U8*)s)[0] ) ? ( ( 0x80 == ((const U8*)s)[1] ) ? ( ( ((((0x8A) >= (0x80)) ? (void )0 : __assert2("re_exec.c", 2872, __func__, "(0x8A) >= (0x80)" )), ( (sizeof(((const U8*)s)[2]) == sizeof(U8)) ? ((((NV) ((0x80 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "(NV) ((0x80)) >= 0")), (((NV) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __func__, "(NV) (((0x8A) - (0x80))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[2])))) - (((0x80)) | 0)) ) <= (((U64) ((((0x8A) - (0x80))) | 0))))) : (sizeof(((const U8*)s)[2]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? (void )0 : __assert2("re_exec.c", 2872, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2872, __func__, "(NV) (((0x8A) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[2])))) - (((0x80)) | 0) )) <= (((U64) ((((0x8A) - (0x80))) | 0))))) : (((sizeof((( const U8*)s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)") ), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c", 2872, __func__ , "(NV) (((0x8A) - (0x80))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0x80)) | 0))) <= (((U64) ((((0x8A ) - (0x80))) | 0)))))))) || 0xAF == ((const U8*)s)[2] ) ? 3 : 0 ) : ( ( 0x81 == ((const U8*)s)[1] ) && ( 0x9F == ( (const U8*)s)[2] ) ) ? 3 : 0 ): ( ( ( 0xE3 == ((const U8*)s)[ 0] ) && ( 0x80 == ((const U8*)s)[1] ) ) && ( 0x80 == ((const U8*)s)[2] ) ) ? 3 : 0 ))))) ? (_Bool)1 : (_Bool)0 )) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((1) ? (( ((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2872, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); |
2873 | break; |
2874 | |
2875 | case _CC_ENUM_XDIGIT: |
2876 | REXEC_FBC_CLASS_SCAN(1,do { while (s < strend) { if (to_complement ^ (((((((strend ) > (s))) ? (void)0 : __assert2("re_exec.c", 2877, __func__ , "((strend) > (s))")), (((((U64)(((UV) (((*(s)) | 0) | 0) ))) < (((U8) (0xFF << 6)) & 0xB0)))) ? ((( (sizeof (*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*(s))] & (1U << (12)))) ? (_Bool )1 : (_Bool)0) : ((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2877 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2877 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2877, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2877, __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_exec.c" , 2877, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2877 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2877 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2877, __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_exec.c" , 2877, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2877, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2877 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2877, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2877, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2877, __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_exec.c" , 2877, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2877, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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)))))))))) ? 0 : (__builtin_expect((((strend) - (s) < PL_utf8skip [*(const U8*)(s)]) ? (_Bool)1 : (_Bool)0),(0)) ? (Perl__force_out_malformed_utf8_message ( (U8 *) (s),(U8 *) (strend),0,1), 0) : ( ( 0xEF == ((const U8 *)s)[0] ) ? ( ( 0xBC == ((const U8*)s)[1] ) ? ( ( ((((0x99) >= (0x90)) ? (void)0 : __assert2("re_exec.c", 2877, __func__, "(0x99) >= (0x90)" )), ( (sizeof(((const U8*)s)[2]) == sizeof(U8)) ? ((((NV) ((0x90 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2877, __func__ , "(NV) ((0x90)) >= 0")), (((NV) (((0x99) - (0x90))) >= 0) ? (void)0 : __assert2("re_exec.c", 2877, __func__, "(NV) (((0x99) - (0x90))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[2])))) - (((0x90)) | 0)) ) <= (((U64) ((((0x99) - (0x90))) | 0))))) : (sizeof(((const U8*)s)[2]) == sizeof(U32)) ? ((((NV) ((0x90)) >= 0) ? (void )0 : __assert2("re_exec.c", 2877, __func__, "(NV) ((0x90)) >= 0" )), (((NV) (((0x99) - (0x90))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2877, __func__, "(NV) (((0x99) - (0x90))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[2])))) - (((0x90)) | 0) )) <= (((U64) ((((0x99) - (0x90))) | 0))))) : (((sizeof((( const U8*)s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2877, __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)") ), ((((NV) ((0x90)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2877, __func__, "(NV) ((0x90)) >= 0")), (((NV) (((0x99) - (0x90))) >= 0) ? (void)0 : __assert2("re_exec.c", 2877, __func__ , "(NV) (((0x99) - (0x90))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0x90)) | 0))) <= (((U64) ((((0x99 ) - (0x90))) | 0)))))))) || ((((0xA6) >= (0xA1)) ? (void)0 : __assert2("re_exec.c", 2877, __func__, "(0xA6) >= (0xA1)" )), ( (sizeof(((const U8*)s)[2]) == sizeof(U8)) ? ((((NV) ((0xA1 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2877, __func__ , "(NV) ((0xA1)) >= 0")), (((NV) (((0xA6) - (0xA1))) >= 0) ? (void)0 : __assert2("re_exec.c", 2877, __func__, "(NV) (((0xA6) - (0xA1))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[2])))) - (((0xA1)) | 0)) ) <= (((U64) ((((0xA6) - (0xA1))) | 0))))) : (sizeof(((const U8*)s)[2]) == sizeof(U32)) ? ((((NV) ((0xA1)) >= 0) ? (void )0 : __assert2("re_exec.c", 2877, __func__, "(NV) ((0xA1)) >= 0" )), (((NV) (((0xA6) - (0xA1))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2877, __func__, "(NV) (((0xA6) - (0xA1))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[2])))) - (((0xA1)) | 0) )) <= (((U64) ((((0xA6) - (0xA1))) | 0))))) : (((sizeof((( const U8*)s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2877, __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)") ), ((((NV) ((0xA1)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2877, __func__, "(NV) ((0xA1)) >= 0")), (((NV) (((0xA6) - (0xA1))) >= 0) ? (void)0 : __assert2("re_exec.c", 2877, __func__ , "(NV) (((0xA6) - (0xA1))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0xA1)) | 0))) <= (((U64) ((((0xA6 ) - (0xA1))) | 0)))))))) ) ? 3 : 0 ) : ( ( 0xBD == ((const U8 *)s)[1] ) && ( ((((0x86) >= (0x81)) ? (void)0 : __assert2 ("re_exec.c", 2877, __func__, "(0x86) >= (0x81)")), ( (sizeof (((const U8*)s)[2]) == sizeof(U8)) ? ((((NV) ((0x81)) >= 0 ) ? (void)0 : __assert2("re_exec.c", 2877, __func__, "(NV) ((0x81)) >= 0" )), (((NV) (((0x86) - (0x81))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2877, __func__, "(NV) (((0x86) - (0x81))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[2])))) - (((0x81)) | 0)) ) <= (((U64) ((((0x86) - (0x81))) | 0))))) : (sizeof(((const U8*)s)[2]) == sizeof(U32)) ? ((((NV) ((0x81)) >= 0) ? (void )0 : __assert2("re_exec.c", 2877, __func__, "(NV) ((0x81)) >= 0" )), (((NV) (((0x86) - (0x81))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2877, __func__, "(NV) (((0x86) - (0x81))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[2])))) - (((0x81)) | 0) )) <= (((U64) ((((0x86) - (0x81))) | 0))))) : (((sizeof((( const U8*)s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2877, __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)") ), ((((NV) ((0x81)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2877, __func__, "(NV) ((0x81)) >= 0")), (((NV) (((0x86) - (0x81))) >= 0) ? (void)0 : __assert2("re_exec.c", 2877, __func__ , "(NV) (((0x86) - (0x81))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0x81)) | 0))) <= (((U64) ((((0x86 ) - (0x81))) | 0)))))))) ) ) ? 3 : 0 ): 0 )))) ? (_Bool)1 : ( _Bool)0)) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((1) ? (( ((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2877, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0) |
2877 | to_complement ^ cBOOL(isXDIGIT_utf8_safe(s, strend)))do { while (s < strend) { if (to_complement ^ (((((((strend ) > (s))) ? (void)0 : __assert2("re_exec.c", 2877, __func__ , "((strend) > (s))")), (((((U64)(((UV) (((*(s)) | 0) | 0) ))) < (((U8) (0xFF << 6)) & 0xB0)))) ? ((( (sizeof (*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*(s))] & (1U << (12)))) ? (_Bool )1 : (_Bool)0) : ((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2877 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2877 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2877, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2877, __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_exec.c" , 2877, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2877 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2877 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2877, __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_exec.c" , 2877, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2877, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2877 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2877, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2877, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2877, __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_exec.c" , 2877, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2877, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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)))))))))) ? 0 : (__builtin_expect((((strend) - (s) < PL_utf8skip [*(const U8*)(s)]) ? (_Bool)1 : (_Bool)0),(0)) ? (Perl__force_out_malformed_utf8_message ( (U8 *) (s),(U8 *) (strend),0,1), 0) : ( ( 0xEF == ((const U8 *)s)[0] ) ? ( ( 0xBC == ((const U8*)s)[1] ) ? ( ( ((((0x99) >= (0x90)) ? (void)0 : __assert2("re_exec.c", 2877, __func__, "(0x99) >= (0x90)" )), ( (sizeof(((const U8*)s)[2]) == sizeof(U8)) ? ((((NV) ((0x90 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2877, __func__ , "(NV) ((0x90)) >= 0")), (((NV) (((0x99) - (0x90))) >= 0) ? (void)0 : __assert2("re_exec.c", 2877, __func__, "(NV) (((0x99) - (0x90))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[2])))) - (((0x90)) | 0)) ) <= (((U64) ((((0x99) - (0x90))) | 0))))) : (sizeof(((const U8*)s)[2]) == sizeof(U32)) ? ((((NV) ((0x90)) >= 0) ? (void )0 : __assert2("re_exec.c", 2877, __func__, "(NV) ((0x90)) >= 0" )), (((NV) (((0x99) - (0x90))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2877, __func__, "(NV) (((0x99) - (0x90))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[2])))) - (((0x90)) | 0) )) <= (((U64) ((((0x99) - (0x90))) | 0))))) : (((sizeof((( const U8*)s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2877, __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)") ), ((((NV) ((0x90)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2877, __func__, "(NV) ((0x90)) >= 0")), (((NV) (((0x99) - (0x90))) >= 0) ? (void)0 : __assert2("re_exec.c", 2877, __func__ , "(NV) (((0x99) - (0x90))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0x90)) | 0))) <= (((U64) ((((0x99 ) - (0x90))) | 0)))))))) || ((((0xA6) >= (0xA1)) ? (void)0 : __assert2("re_exec.c", 2877, __func__, "(0xA6) >= (0xA1)" )), ( (sizeof(((const U8*)s)[2]) == sizeof(U8)) ? ((((NV) ((0xA1 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2877, __func__ , "(NV) ((0xA1)) >= 0")), (((NV) (((0xA6) - (0xA1))) >= 0) ? (void)0 : __assert2("re_exec.c", 2877, __func__, "(NV) (((0xA6) - (0xA1))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[2])))) - (((0xA1)) | 0)) ) <= (((U64) ((((0xA6) - (0xA1))) | 0))))) : (sizeof(((const U8*)s)[2]) == sizeof(U32)) ? ((((NV) ((0xA1)) >= 0) ? (void )0 : __assert2("re_exec.c", 2877, __func__, "(NV) ((0xA1)) >= 0" )), (((NV) (((0xA6) - (0xA1))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2877, __func__, "(NV) (((0xA6) - (0xA1))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[2])))) - (((0xA1)) | 0) )) <= (((U64) ((((0xA6) - (0xA1))) | 0))))) : (((sizeof((( const U8*)s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2877, __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)") ), ((((NV) ((0xA1)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2877, __func__, "(NV) ((0xA1)) >= 0")), (((NV) (((0xA6) - (0xA1))) >= 0) ? (void)0 : __assert2("re_exec.c", 2877, __func__ , "(NV) (((0xA6) - (0xA1))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0xA1)) | 0))) <= (((U64) ((((0xA6 ) - (0xA1))) | 0)))))))) ) ? 3 : 0 ) : ( ( 0xBD == ((const U8 *)s)[1] ) && ( ((((0x86) >= (0x81)) ? (void)0 : __assert2 ("re_exec.c", 2877, __func__, "(0x86) >= (0x81)")), ( (sizeof (((const U8*)s)[2]) == sizeof(U8)) ? ((((NV) ((0x81)) >= 0 ) ? (void)0 : __assert2("re_exec.c", 2877, __func__, "(NV) ((0x81)) >= 0" )), (((NV) (((0x86) - (0x81))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2877, __func__, "(NV) (((0x86) - (0x81))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[2])))) - (((0x81)) | 0)) ) <= (((U64) ((((0x86) - (0x81))) | 0))))) : (sizeof(((const U8*)s)[2]) == sizeof(U32)) ? ((((NV) ((0x81)) >= 0) ? (void )0 : __assert2("re_exec.c", 2877, __func__, "(NV) ((0x81)) >= 0" )), (((NV) (((0x86) - (0x81))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2877, __func__, "(NV) (((0x86) - (0x81))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[2])))) - (((0x81)) | 0) )) <= (((U64) ((((0x86) - (0x81))) | 0))))) : (((sizeof((( const U8*)s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2877, __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)") ), ((((NV) ((0x81)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2877, __func__, "(NV) ((0x81)) >= 0")), (((NV) (((0x86) - (0x81))) >= 0) ? (void)0 : __assert2("re_exec.c", 2877, __func__ , "(NV) (((0x86) - (0x81))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0x81)) | 0))) <= (((U64) ((((0x86 ) - (0x81))) | 0)))))))) ) ) ? 3 : 0 ): 0 )))) ? (_Bool)1 : ( _Bool)0)) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((1) ? (( ((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2877, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); |
2878 | break; |
2879 | |
2880 | case _CC_ENUM_VERTSPACE: |
2881 | REXEC_FBC_CLASS_SCAN(1,do { while (s < strend) { if (to_complement ^ ((((! ((strend ) > (s))) ? (Perl__force_out_malformed_utf8_message( (U8 * ) (s),(U8 *) (strend),0,1), 0) : (((((U64)(((UV) (((*(s)) | 0 ) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? ((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*(s))] & (1U << (15)))) ? (_Bool )1 : (_Bool)0) : ((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2882 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __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_exec.c" , 2882, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __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_exec.c" , 2882, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __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_exec.c" , 2882, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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((((strend) - (s) > 1 && (((( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : (_Bool )0),(1))) ? ((( (sizeof(( (((((( (sizeof(*(s)) == 1) || !(((U64 )((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2882 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __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_exec.c" , 2882, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __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_exec.c" , 2882, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __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_exec.c" , 2882, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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_exec.c", 2882, __func__ , "(((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c\", 2882, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2882, __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_exec.c\", 2882, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2882, __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_exec.c\", 2882, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2882, __func__, \\\"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\\\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2882, __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_exec.c\", 2882, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "(((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)( ((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*(( s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2882 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __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_exec.c" , 2882, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __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_exec.c" , 2882, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __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_exec.c" , 2882, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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_exec.c", 2882, __func__ , "(((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c\", 2882, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2882, __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_exec.c\", 2882, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2882, __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_exec.c\", 2882, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2882, __func__, \\\"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\\\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2882, __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_exec.c\", 2882, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "(((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)( ((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*(( s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) && (PL_charclass [(U8) (( (((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2882 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __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_exec.c" , 2882, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __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_exec.c" , 2882, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __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_exec.c" , 2882, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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_exec.c", 2882, __func__ , "(((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c\", 2882, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2882, __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_exec.c\", 2882, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2882, __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_exec.c\", 2882, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2882, __func__, \\\"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\\\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2882, __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_exec.c\", 2882, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "(((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)( ((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*(( s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (15)))) ? (_Bool)1 : ( _Bool)0) : (Perl__force_out_malformed_utf8_message( (U8 *) (s ),(U8 *) (strend),0,1), 0)) : (__builtin_expect((((strend) - ( s) < PL_utf8skip[*(const U8*)(s)]) ? (_Bool)1 : (_Bool)0), (0)) ? (Perl__force_out_malformed_utf8_message( (U8 *) (s),(U8 *) (strend),0,1), 0) : ( ( ( ( 0xE2 == ((const U8*)s)[0] ) && ( 0x80 == ((const U8*)s)[1] ) ) && ( ((((0xA9) >= (0xA8)) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "(0xA9) >= (0xA8)" )), ( (sizeof(((const U8*)s)[2]) == sizeof(U8)) ? ((((NV) ((0xA8 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[2])))) - (((0xA8)) | 0)) ) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (sizeof(((const U8*)s)[2]) == sizeof(U32)) ? ((((NV) ((0xA8)) >= 0) ? (void )0 : __assert2("re_exec.c", 2882, __func__, "(NV) ((0xA8)) >= 0" )), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[2])))) - (((0xA8)) | 0) )) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (((sizeof((( const U8*)s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)") ), ((((NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0xA8)) | 0))) <= (((U64) ((((0xA9 ) - (0xA8))) | 0)))))))) ) ) ? 3 : 0 ))))) ? (_Bool)1 : (_Bool )0)) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((1) ? (( ((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0) |
2882 | to_complement ^ cBOOL(isVERTWS_utf8_safe(s, strend)))do { while (s < strend) { if (to_complement ^ ((((! ((strend ) > (s))) ? (Perl__force_out_malformed_utf8_message( (U8 * ) (s),(U8 *) (strend),0,1), 0) : (((((U64)(((UV) (((*(s)) | 0 ) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? ((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*(s))] & (1U << (15)))) ? (_Bool )1 : (_Bool)0) : ((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2882 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __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_exec.c" , 2882, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __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_exec.c" , 2882, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __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_exec.c" , 2882, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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((((strend) - (s) > 1 && (((( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : (_Bool )0),(1))) ? ((( (sizeof(( (((((( (sizeof(*(s)) == 1) || !(((U64 )((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2882 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __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_exec.c" , 2882, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __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_exec.c" , 2882, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __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_exec.c" , 2882, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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_exec.c", 2882, __func__ , "(((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c\", 2882, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2882, __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_exec.c\", 2882, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2882, __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_exec.c\", 2882, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2882, __func__, \\\"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\\\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2882, __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_exec.c\", 2882, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "(((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)( ((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*(( s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2882 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __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_exec.c" , 2882, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __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_exec.c" , 2882, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __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_exec.c" , 2882, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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_exec.c", 2882, __func__ , "(((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c\", 2882, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2882, __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_exec.c\", 2882, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2882, __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_exec.c\", 2882, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2882, __func__, \\\"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\\\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2882, __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_exec.c\", 2882, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "(((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)( ((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*(( s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) && (PL_charclass [(U8) (( (((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2882 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __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_exec.c" , 2882, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __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_exec.c" , 2882, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __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_exec.c" , 2882, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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_exec.c", 2882, __func__ , "(((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c\", 2882, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2882, __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_exec.c\", 2882, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2882, __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_exec.c\", 2882, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2882, __func__, \\\"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\\\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2882, __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_exec.c\", 2882, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "(((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)( ((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2882, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*(( s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (15)))) ? (_Bool)1 : ( _Bool)0) : (Perl__force_out_malformed_utf8_message( (U8 *) (s ),(U8 *) (strend),0,1), 0)) : (__builtin_expect((((strend) - ( s) < PL_utf8skip[*(const U8*)(s)]) ? (_Bool)1 : (_Bool)0), (0)) ? (Perl__force_out_malformed_utf8_message( (U8 *) (s),(U8 *) (strend),0,1), 0) : ( ( ( ( 0xE2 == ((const U8*)s)[0] ) && ( 0x80 == ((const U8*)s)[1] ) ) && ( ((((0xA9) >= (0xA8)) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "(0xA9) >= (0xA8)" )), ( (sizeof(((const U8*)s)[2]) == sizeof(U8)) ? ((((NV) ((0xA8 )) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U8) (((const U8*)s)[2])))) - (((0xA8)) | 0)) ) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (sizeof(((const U8*)s)[2]) == sizeof(U32)) ? ((((NV) ((0xA8)) >= 0) ? (void )0 : __assert2("re_exec.c", 2882, __func__, "(NV) ((0xA8)) >= 0" )), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 2882, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U32) (((const U8*)s)[2])))) - (((0xA8)) | 0) )) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (((sizeof((( const U8*)s)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "sizeof(((const U8*)s)[2]) == sizeof(U64)") ), ((((NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c", 2882, __func__ , "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) (((((U64) ((( const U8*)s)[2])))) - (((0xA8)) | 0))) <= (((U64) ((((0xA9 ) - (0xA8))) | 0)))))))) ) ) ? 3 : 0 ))))) ? (_Bool)1 : (_Bool )0)) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo->intuit || (s <= reginfo->strend && S_regtry( reginfo,&s)))) { goto got_it; } s += ((1) ? (( ((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c" , 2882, __func__, "(reginfo->strend) >= (s)")), ((reginfo ->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - ( s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend ) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); |
2883 | break; |
2884 | |
2885 | case _CC_ENUM_CNTRL: |
2886 | REXEC_FBC_CLASS_SCAN(1,do { while (s < strend) { if (to_complement ^ ((((! ((strend ) > (s))) ? (Perl__force_out_malformed_utf8_message( (U8 * ) (s),(U8 *) (strend),0,1), 0) : (((((U64)(((UV) (((*(s)) | 0 ) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? ((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*(s))] & (1U << (13)))) ? (_Bool )1 : (_Bool)0) : ((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2887 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2887, __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_exec.c" , 2887, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2887, __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_exec.c" , 2887, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2887, __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_exec.c" , 2887, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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((((strend) - (s) > 1 && (((( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__ , "( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : (_Bool )0),(1))) ? ((( (sizeof(( (((((( (sizeof(*(s)) == 1) || !(((U64 )((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2887 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2887, __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_exec.c" , 2887, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2887, __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_exec.c" , 2887, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2887, __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_exec.c" , 2887, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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_exec.c", 2887, __func__ , "(((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c\", 2887, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2887, __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_exec.c\", 2887, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2887, __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_exec.c\", 2887, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2887, __func__, \\\"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\\\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2887, __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_exec.c\", 2887, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "(((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)( ((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2887, __func__, "( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*(( s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2887 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2887, __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_exec.c" , 2887, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2887, __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_exec.c" , 2887, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2887, __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_exec.c" , 2887, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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_exec.c", 2887, __func__ , "(((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c\", 2887, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2887, __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_exec.c\", 2887, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2887, __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_exec.c\", 2887, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2887, __func__, \\\"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\\\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2887, __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_exec.c\", 2887, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "(((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)( ((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2887, __func__, "( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*(( s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) && (PL_charclass [(U8) (( (((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2887 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2887, __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_exec.c" , 2887, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2887, __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_exec.c" , 2887, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2887, __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_exec.c" , 2887, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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_exec.c", 2887, __func__ , "(((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c\", 2887, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2887, __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_exec.c\", 2887, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2887, __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_exec.c\", 2887, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2887, __func__, \\\"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\\\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2887, __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_exec.c\", 2887, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "(((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)( ((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2887, __func__, "( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*(( s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (13)))) ? (_Bool)1 : ( _Bool)0) : (Perl__force_out_malformed_utf8_message( (U8 *) (s ),(U8 *) (strend),0,1), 0)) : 0))) ? (_Bool)1 : (_Bool)0)) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo ->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s)))) { goto got_it; } s += ((1) ? ((((reginfo ->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "(reginfo->strend) >= (s)")), ((reginfo-> strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s))) <(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend) - ( s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0) |
2887 | to_complement ^ cBOOL(isCNTRL_utf8_safe(s, strend)))do { while (s < strend) { if (to_complement ^ ((((! ((strend ) > (s))) ? (Perl__force_out_malformed_utf8_message( (U8 * ) (s),(U8 *) (strend),0,1), 0) : (((((U64)(((UV) (((*(s)) | 0 ) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? ((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*(s))] & (1U << (13)))) ? (_Bool )1 : (_Bool)0) : ((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2887 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2887, __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_exec.c" , 2887, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2887, __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_exec.c" , 2887, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2887, __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_exec.c" , 2887, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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((((strend) - (s) > 1 && (((( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__ , "( (sizeof(*((s)+1)) == 1) || !(((U64)((*((s)+1)) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : (_Bool )0),(1))) ? ((( (sizeof(( (((((( (sizeof(*(s)) == 1) || !(((U64 )((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2887 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2887, __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_exec.c" , 2887, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2887, __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_exec.c" , 2887, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2887, __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_exec.c" , 2887, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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_exec.c", 2887, __func__ , "(((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c\", 2887, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2887, __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_exec.c\", 2887, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2887, __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_exec.c\", 2887, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2887, __func__, \\\"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\\\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2887, __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_exec.c\", 2887, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "(((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)( ((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2887, __func__, "( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*(( s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2887 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2887, __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_exec.c" , 2887, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2887, __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_exec.c" , 2887, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2887, __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_exec.c" , 2887, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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_exec.c", 2887, __func__ , "(((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c\", 2887, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2887, __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_exec.c\", 2887, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2887, __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_exec.c\", 2887, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2887, __func__, \\\"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\\\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2887, __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_exec.c\", 2887, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "(((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)( ((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2887, __func__, "( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*(( s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) && (PL_charclass [(U8) (( (((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c", 2887 , __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(*(s)) == 1) || !(((U64)((*(s)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__ , "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2887, __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_exec.c" , 2887, __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(*(s)) == 1) || !(((U64)((* (s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 2887, __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_exec.c" , 2887, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 2887, __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_exec.c" , 2887, __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(*(s)) == 1) || !(((U64)(( *(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 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_exec.c", 2887, __func__ , "(((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 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_exec.c\", 2887, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2887, __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_exec.c\", 2887, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2887, __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_exec.c\", 2887, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"sizeof((((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 2887, __func__, \\\"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\\\")), ((U8) ((*(s)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 2887, __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_exec.c\", 2887, __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(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 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(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__ , "( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "(((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*((s)+1 )) == 1) || !(((U64)((*((s)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((s)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)( ((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2887, __func__, "( (sizeof((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))\")), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 2887, __func__, \"( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*(( s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 2887, __func__, "( (sizeof(*(s)) == 1) || !(((U64)((*(s)) | 0)) & ~0xFF))" )), ((U8) ((*(s)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 2887, __func__, "( (sizeof((*((s)+1 ))) == 1) || !(((U64)(((*((s)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((s)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (13)))) ? (_Bool)1 : ( _Bool)0) : (Perl__force_out_malformed_utf8_message( (U8 *) (s ),(U8 *) (strend),0,1), 0)) : 0))) ? (_Bool)1 : (_Bool)0)) { if ( ( doevery || s != previous_occurrence_end) && ( reginfo ->intuit || (s <= reginfo->strend && S_regtry ( reginfo,&s)))) { goto got_it; } s += ((1) ? ((((reginfo ->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 2887 , __func__, "(reginfo->strend) >= (s)")), ((reginfo-> strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s))) <(PL_utf8skip[*(const U8*)(s)]))?(((reginfo->strend) - ( s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); previous_occurrence_end = s; } else { s += ((1) ? PL_utf8skip[*(const U8*)(s)] : 1); } } } while (0); |
2888 | break; |
2889 | } |
2890 | } |
2891 | break; |
2892 | |
2893 | case AHOCORASICKC91: |
2894 | case AHOCORASICK90: |
2895 | { |
2896 | DECL_TRIE_TYPE(c)const enum { trie_plain, trie_utf8, trie_utf8_fold, trie_latin_utf8_fold , trie_utf8_exactfa_fold, trie_latin_utf8_exactfa_fold, trie_utf8l , trie_flu8, trie_flu8_latin } trie_type = ((c->flags == 40 ) ? (utf8_target ? trie_utf8 : trie_plain) : (c->flags == 42 ) ? (utf8_target ? trie_utf8l : trie_plain) : (c->flags == 46) ? (utf8_target ? trie_utf8_exactfa_fold : trie_latin_utf8_exactfa_fold ) : (c->flags == 48 ? (utf8_target ? trie_flu8 : trie_flu8_latin ) : (utf8_target ? trie_utf8_fold : trie_latin_utf8_fold))); |
2897 | /* what trie are we using right now */ |
2898 | reg_ac_data *aho = (reg_ac_data*)progi->data->data[ ARG( c )((((struct regnode_1 *)c)->arg1)) ]; |
2899 | reg_trie_data *trie = (reg_trie_data*)progi->data->data[ aho->trie ]; |
2900 | HV *widecharmap = MUTABLE_HV(progi->data->data[ aho->trie + 1 ])((HV *)({ void *_p = (progi->data->data[ aho->trie + 1 ]); _p; })); |
2901 | |
2902 | const char *last_start = strend - trie->minlen; |
2903 | #ifdef DEBUGGING |
2904 | const char *real_start = s; |
2905 | #endif |
2906 | STRLEN maxlen = trie->maxlen; |
2907 | SV *sv_points; |
2908 | U8 **points; /* map of where we were in the input string |
2909 | when reading a given char. For ASCII this |
2910 | is unnecessary overhead as the relationship |
2911 | is always 1:1, but for Unicode, especially |
2912 | case folded Unicode this is not true. */ |
2913 | 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 ]; |
2914 | U8 *bitmap=NULL((void*)0); |
2915 | |
2916 | |
2917 | 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_exec.c", 2917, __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_exec.c", 2917, __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); |
2918 | |
2919 | /* We can't just allocate points here. We need to wrap it in |
2920 | * an SV so it gets freed properly if there is a croak while |
2921 | * running the match */ |
2922 | 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_exec.c" , 2922); } while (0); |
2923 | SAVETMPSPerl_savetmps(); |
2924 | sv_points=newSV(maxlen * sizeof(U8 *))Perl_newSV( maxlen * sizeof(U8 *)); |
2925 | SvCUR_set(sv_points,do { ((PL_valid_types_PVX[((svtype)((sv_points)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 2926, __func__, "PL_valid_types_PVX[SvTYPE(sv_points) & SVt_MASK]" )); ((!((((sv_points)->sv_flags & (0x00004000|0x00008000 )) == 0x00008000) && (((svtype)((sv_points)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((sv_points)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2("re_exec.c" , 2926, __func__, "!isGV_with_GP(sv_points)")); ((!(((svtype) ((sv_points)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (sv_points)->sv_any)->xio_flags & 64)) ) ? (void)0 : __assert2("re_exec.c", 2926, __func__, "!(SvTYPE(sv_points) == SVt_PVIO && !(IoFLAGS(sv_points) & IOf_FAKE_DIRP))" )); (((XPV*) (sv_points)->sv_any)->xpv_cur = (maxlen * sizeof (U8 *))); } while (0) |
2926 | maxlen * sizeof(U8 *))do { ((PL_valid_types_PVX[((svtype)((sv_points)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 2926, __func__, "PL_valid_types_PVX[SvTYPE(sv_points) & SVt_MASK]" )); ((!((((sv_points)->sv_flags & (0x00004000|0x00008000 )) == 0x00008000) && (((svtype)((sv_points)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((sv_points)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2("re_exec.c" , 2926, __func__, "!isGV_with_GP(sv_points)")); ((!(((svtype) ((sv_points)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (sv_points)->sv_any)->xio_flags & 64)) ) ? (void)0 : __assert2("re_exec.c", 2926, __func__, "!(SvTYPE(sv_points) == SVt_PVIO && !(IoFLAGS(sv_points) & IOf_FAKE_DIRP))" )); (((XPV*) (sv_points)->sv_any)->xpv_cur = (maxlen * sizeof (U8 *))); } while (0); |
2927 | SvPOK_on(sv_points)(((!((sv_points)->sv_flags & 0x00000800) || !(*({ SV * const _svrv = ((SV *)({ void *_p = (sv_points); _p; })); ((PL_valid_types_RV [((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 2927, __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_exec.c", 2927, __func__ , "!isGV_with_GP(_svrv)")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 2927, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); }))) ? (void)0 : __assert2 ("re_exec.c", 2927, __func__, "!((sv_points)->sv_flags & 0x00000800) || !(*({ SV *const _svrv = ((SV *)({ void *_p = (sv_points); _p; })); ((PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2(\"re_exec.c\", 2927, __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_exec.c\", 2927, __func__, \"!isGV_with_GP(_svrv)\")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2(\"re_exec.c\", 2927, __func__, \"!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))\")); &((_svrv)->sv_u.svu_rv); }))" )), ((!((((sv_points)->sv_flags & (0x00004000|0x00008000 )) == 0x00008000) && (((svtype)((sv_points)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((sv_points)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2("re_exec.c" , 2927, __func__, "!((((sv_points)->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((sv_points)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((sv_points)->sv_flags & 0xff)) == SVt_PVLV))" )), (sv_points)->sv_flags |= (0x00000400|0x00004000)); |
2928 | sv_2mortal(sv_points)Perl_sv_2mortal( sv_points); |
2929 | points=(U8**)SvPV_nolen(sv_points )((((sv_points)->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? (*({ SV *const _svpvx = ((SV *)({ void *_p = ( sv_points); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c" , 2929, __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_exec.c", 2929, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 2929, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) : Perl_sv_2pv_flags( sv_points,0,2)); |
2930 | if ( trie_type != trie_utf8_fold |
2931 | && (trie->bitmap || OP(c)((c)->type)==AHOCORASICKC91) ) |
2932 | { |
2933 | if (trie->bitmap) |
2934 | bitmap=(U8*)trie->bitmap; |
2935 | else |
2936 | bitmap=(U8*)ANYOF_BITMAP(c)((regnode_charclass*)(c))->bitmap; |
2937 | } |
2938 | /* this is the Aho-Corasick algorithm modified a touch |
2939 | to include special handling for long "unknown char" sequences. |
2940 | The basic idea being that we use AC as long as we are dealing |
2941 | with a possible matching char, when we encounter an unknown char |
2942 | (and we have not encountered an accepting state) we scan forward |
2943 | until we find a legal starting char. |
2944 | AC matching is basically that of trie matching, except that when |
2945 | we encounter a failing transition, we fall back to the current |
2946 | states "fail state", and try the current char again, a process |
2947 | we repeat until we reach the root state, state 1, or a legal |
2948 | transition. If we fail on the root state then we can either |
2949 | terminate if we have reached an accepting state previously, or |
2950 | restart the entire process from the beginning if we have not. |
2951 | |
2952 | */ |
2953 | while (s <= last_start) { |
2954 | const U32 uniflags = UTF8_ALLOW_DEFAULT0; |
2955 | U8 *uc = (U8*)s; |
2956 | U16 charid = 0; |
2957 | U32 base = 1; |
2958 | U32 state = 1; |
2959 | UV uvc = 0; |
2960 | STRLEN len = 0; |
2961 | STRLEN foldlen = 0; |
2962 | U8 *uscan = (U8*)NULL((void*)0); |
2963 | U8 *leftmost = NULL((void*)0); |
2964 | #ifdef DEBUGGING |
2965 | U32 accepted_word= 0; |
2966 | #endif |
2967 | U32 pointpos = 0; |
2968 | |
2969 | while ( state && uc <= (U8*)strend ) { |
2970 | int failed=0; |
2971 | U32 word = aho->states[ state ].wordnum; |
2972 | |
2973 | if( state==1 ) { |
2974 | if ( bitmap ) { |
2975 | DEBUG_TRIE_EXECUTE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) if ( uc <= (U8*)last_start && !((( (U8*) bitmap) [ ( ( (UV) (*uc)) >> 3) ] ) & (1U << (((U8)*uc) & 7))) ) { S_dump_exec_pos( (char *)uc,c,strend,real_start,(char *)uc,utf8_target,0); Perl_re_printf( " Scanning for legal start char...\n" ); };} while (0) |
2976 | if ( uc <= (U8*)last_start && !BITMAP_TEST(bitmap,*uc) ) {do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) if ( uc <= (U8*)last_start && !((( (U8*) bitmap) [ ( ( (UV) (*uc)) >> 3) ] ) & (1U << (((U8)*uc) & 7))) ) { S_dump_exec_pos( (char *)uc,c,strend,real_start,(char *)uc,utf8_target,0); Perl_re_printf( " Scanning for legal start char...\n" ); };} while (0) |
2977 | dump_exec_pos( (char *)uc, c, strend, real_start,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) if ( uc <= (U8*)last_start && !((( (U8*) bitmap) [ ( ( (UV) (*uc)) >> 3) ] ) & (1U << (((U8)*uc) & 7))) ) { S_dump_exec_pos( (char *)uc,c,strend,real_start,(char *)uc,utf8_target,0); Perl_re_printf( " Scanning for legal start char...\n" ); };} while (0) |
2978 | (char *)uc, utf8_target, 0 );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) if ( uc <= (U8*)last_start && !((( (U8*) bitmap) [ ( ( (UV) (*uc)) >> 3) ] ) & (1U << (((U8)*uc) & 7))) ) { S_dump_exec_pos( (char *)uc,c,strend,real_start,(char *)uc,utf8_target,0); Perl_re_printf( " Scanning for legal start char...\n" ); };} while (0) |
2979 | Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) if ( uc <= (U8*)last_start && !((( (U8*) bitmap) [ ( ( (UV) (*uc)) >> 3) ] ) & (1U << (((U8)*uc) & 7))) ) { S_dump_exec_pos( (char *)uc,c,strend,real_start,(char *)uc,utf8_target,0); Perl_re_printf( " Scanning for legal start char...\n" ); };} while (0) |
2980 | " Scanning for legal start char...\n");do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) if ( uc <= (U8*)last_start && !((( (U8*) bitmap) [ ( ( (UV) (*uc)) >> 3) ] ) & (1U << (((U8)*uc) & 7))) ) { S_dump_exec_pos( (char *)uc,c,strend,real_start,(char *)uc,utf8_target,0); Perl_re_printf( " Scanning for legal start char...\n" ); };} while (0) |
2981 | }do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) if ( uc <= (U8*)last_start && !((( (U8*) bitmap) [ ( ( (UV) (*uc)) >> 3) ] ) & (1U << (((U8)*uc) & 7))) ) { S_dump_exec_pos( (char *)uc,c,strend,real_start,(char *)uc,utf8_target,0); Perl_re_printf( " Scanning for legal start char...\n" ); };} while (0) |
2982 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) if ( uc <= (U8*)last_start && !((( (U8*) bitmap) [ ( ( (UV) (*uc)) >> 3) ] ) & (1U << (((U8)*uc) & 7))) ) { S_dump_exec_pos( (char *)uc,c,strend,real_start,(char *)uc,utf8_target,0); Perl_re_printf( " Scanning for legal start char...\n" ); };} while (0); |
2983 | if (utf8_target) { |
2984 | while ( uc <= (U8*)last_start && !BITMAP_TEST(bitmap,*uc)((( (U8*) bitmap) [ ( ( (UV) (*uc)) >> 3) ] ) & (1U << (((U8)*uc) & 7))) ) { |
2985 | uc += UTF8SKIP(uc)PL_utf8skip[*(const U8*)(uc)]; |
2986 | } |
2987 | } else { |
2988 | while ( uc <= (U8*)last_start && !BITMAP_TEST(bitmap,*uc)((( (U8*) bitmap) [ ( ( (UV) (*uc)) >> 3) ] ) & (1U << (((U8)*uc) & 7))) ) { |
2989 | uc++; |
2990 | } |
2991 | } |
2992 | s= (char *)uc; |
2993 | } |
2994 | if (uc >(U8*)last_start) break; |
2995 | } |
2996 | |
2997 | if ( word ) { |
2998 | U8 *lpos= points[ (pointpos - trie->wordinfo[word].len) % maxlen ]; |
2999 | if (!leftmost || lpos < leftmost) { |
3000 | DEBUG_r(accepted_word=word)do {accepted_word=word;} while (0); |
3001 | leftmost= lpos; |
3002 | } |
3003 | if (base==0) break; |
3004 | |
3005 | } |
3006 | points[pointpos++ % maxlen]= uc; |
3007 | if (foldlen || uc < (U8*)strend) { |
3008 | REXEC_TRIE_READ_CHAR(trie_type, trie, widecharmap, uc,do { STRLEN skiplen; U8 flags = 0x2; switch (trie_type) { case trie_flu8: do { if (__builtin_expect(((PL_warn_locale) ? (_Bool )1 : (_Bool)0),(0))) { Perl__warn_problematic_locale(); } } while (0); if ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 3011, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 3011, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((U8) ((*uc) | 0))) >= ((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((U8 *) (uc )),(const U8 *) (U8 *) ((U8 *) strend),((void*)0)); Perl_warner ( (63 ), "Wide character (U+%" "lX" ") in %s", (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field ( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type ])); } } while (0); } goto do_trie_utf8_fold; case trie_utf8_exactfa_fold : flags |= 0x4; case trie_utf8_fold: do_trie_utf8_fold: if ( foldlen >0 ) { uvc = Perl_utf8n_to_uvchr_msgs((const U8*) uscan, foldlen , &len, uniflags, 0, 0); foldlen -= len; uscan += len; len =0; } else { uvc = Perl__to_utf8_fold_flags( (const U8*) uc,( U8 *) strend,foldbuf,&foldlen,flags); len = (((((U8 *) strend ) >= (uc)) ? (void)0 : __assert2("re_exec.c", 3011, __func__ , "((U8 *) strend) >= (uc)")), (((U8 *) strend) - (uc)) <= 0 ? 0 : ((((((U8 *) strend) - (uc)))<(PL_utf8skip[*(const U8*)(uc)]))?((((U8 *) strend) - (uc))):(PL_utf8skip[*(const U8 *)(uc)]))); skiplen = ( ((((U64)(((UV) ((uvc) | 0)))) < (( (U8) (0xFF << 6)) & 0xB0))) ? 1 : ((UV) (uvc) < ( 32 * (1U << ( 6))) ? 2 : (UV) (uvc) < (16 * (1U << (2 * 6))) ? 3 : (UV) (uvc) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (uvc) < ( 4 * (1U << (4 * 6))) ? 5 : (UV ) (uvc) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (uvc) < ((UV) 1U << (6 * 6)) ? 7 : 13)); foldlen -= skiplen; uscan = foldbuf + skiplen; } break; case trie_flu8_latin: do { if ( __builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool)0),(0) )) { Perl__warn_problematic_locale(); } } while (0); goto do_trie_latin_utf8_fold ; case trie_latin_utf8_exactfa_fold: flags |= 0x4; case trie_latin_utf8_fold : do_trie_latin_utf8_fold: if ( foldlen>0 ) { uvc = Perl_utf8n_to_uvchr_msgs ((const U8*) uscan, foldlen, &len, uniflags, 0, 0); foldlen -= len; uscan += len; len=0; } else { len = 1; uvc = Perl__to_fold_latin1 ( (U8) *uc, foldbuf, &foldlen, flags); skiplen = ( ((((U64 )(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6)) & 0xB0 ))) ? 1 : ((UV) (uvc) < (32 * (1U << ( 6))) ? 2 : (UV ) (uvc) < (16 * (1U << (2 * 6))) ? 3 : (UV) (uvc) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (uvc) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (uvc) < ( 2 * (1U << ( 5 * 6))) ? 6 : (UV) (uvc) < ((UV) 1U << (6 * 6)) ? 7 : 13)); foldlen -= skiplen; uscan = foldbuf + skiplen; } break ; case trie_utf8l: do { if (__builtin_expect(((PL_warn_locale ) ? (_Bool)1 : (_Bool)0),(0))) { Perl__warn_problematic_locale (); } } while (0); if (utf8_target && (((( (sizeof(*uc ) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 3011, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 3011, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((U8) ((*uc) | 0))) >= ((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((U8 *) (uc )),(const U8 *) (U8 *) ((U8 *) strend),((void*)0)); Perl_warner ( (63 ), "Wide character (U+%" "lX" ") in %s", (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field ( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type ])); } } while (0); } case trie_utf8: uvc = Perl_utf8n_to_uvchr_msgs ((const U8*) uc, (U8 *) strend - uc, &len, uniflags, 0, 0 ); break; case trie_plain: uvc = (UV)*uc; len = 1; } if (uvc < 256) { charid = trie->charmap[ uvc ]; } else { charid = 0 ; if (widecharmap) { SV** const svpp = ((SV**) Perl_hv_common_key_len ( (widecharmap),((char*)&uvc),(sizeof(UV)),(0) ? (0x20 | 0x10 ) : 0x20,((void*)0),0)); if (svpp) charid = (U16)((((*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_exec.c", 3011, __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_exec.c", 3011, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( *svpp,2)); } } } while (0) |
3009 | (U8 *) strend, uscan, len, uvc,do { STRLEN skiplen; U8 flags = 0x2; switch (trie_type) { case trie_flu8: do { if (__builtin_expect(((PL_warn_locale) ? (_Bool )1 : (_Bool)0),(0))) { Perl__warn_problematic_locale(); } } while (0); if ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 3011, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 3011, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((U8) ((*uc) | 0))) >= ((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((U8 *) (uc )),(const U8 *) (U8 *) ((U8 *) strend),((void*)0)); Perl_warner ( (63 ), "Wide character (U+%" "lX" ") in %s", (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field ( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type ])); } } while (0); } goto do_trie_utf8_fold; case trie_utf8_exactfa_fold : flags |= 0x4; case trie_utf8_fold: do_trie_utf8_fold: if ( foldlen >0 ) { uvc = Perl_utf8n_to_uvchr_msgs((const U8*) uscan, foldlen , &len, uniflags, 0, 0); foldlen -= len; uscan += len; len =0; } else { uvc = Perl__to_utf8_fold_flags( (const U8*) uc,( U8 *) strend,foldbuf,&foldlen,flags); len = (((((U8 *) strend ) >= (uc)) ? (void)0 : __assert2("re_exec.c", 3011, __func__ , "((U8 *) strend) >= (uc)")), (((U8 *) strend) - (uc)) <= 0 ? 0 : ((((((U8 *) strend) - (uc)))<(PL_utf8skip[*(const U8*)(uc)]))?((((U8 *) strend) - (uc))):(PL_utf8skip[*(const U8 *)(uc)]))); skiplen = ( ((((U64)(((UV) ((uvc) | 0)))) < (( (U8) (0xFF << 6)) & 0xB0))) ? 1 : ((UV) (uvc) < ( 32 * (1U << ( 6))) ? 2 : (UV) (uvc) < (16 * (1U << (2 * 6))) ? 3 : (UV) (uvc) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (uvc) < ( 4 * (1U << (4 * 6))) ? 5 : (UV ) (uvc) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (uvc) < ((UV) 1U << (6 * 6)) ? 7 : 13)); foldlen -= skiplen; uscan = foldbuf + skiplen; } break; case trie_flu8_latin: do { if ( __builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool)0),(0) )) { Perl__warn_problematic_locale(); } } while (0); goto do_trie_latin_utf8_fold ; case trie_latin_utf8_exactfa_fold: flags |= 0x4; case trie_latin_utf8_fold : do_trie_latin_utf8_fold: if ( foldlen>0 ) { uvc = Perl_utf8n_to_uvchr_msgs ((const U8*) uscan, foldlen, &len, uniflags, 0, 0); foldlen -= len; uscan += len; len=0; } else { len = 1; uvc = Perl__to_fold_latin1 ( (U8) *uc, foldbuf, &foldlen, flags); skiplen = ( ((((U64 )(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6)) & 0xB0 ))) ? 1 : ((UV) (uvc) < (32 * (1U << ( 6))) ? 2 : (UV ) (uvc) < (16 * (1U << (2 * 6))) ? 3 : (UV) (uvc) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (uvc) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (uvc) < ( 2 * (1U << ( 5 * 6))) ? 6 : (UV) (uvc) < ((UV) 1U << (6 * 6)) ? 7 : 13)); foldlen -= skiplen; uscan = foldbuf + skiplen; } break ; case trie_utf8l: do { if (__builtin_expect(((PL_warn_locale ) ? (_Bool)1 : (_Bool)0),(0))) { Perl__warn_problematic_locale (); } } while (0); if (utf8_target && (((( (sizeof(*uc ) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 3011, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 3011, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((U8) ((*uc) | 0))) >= ((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((U8 *) (uc )),(const U8 *) (U8 *) ((U8 *) strend),((void*)0)); Perl_warner ( (63 ), "Wide character (U+%" "lX" ") in %s", (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field ( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type ])); } } while (0); } case trie_utf8: uvc = Perl_utf8n_to_uvchr_msgs ((const U8*) uc, (U8 *) strend - uc, &len, uniflags, 0, 0 ); break; case trie_plain: uvc = (UV)*uc; len = 1; } if (uvc < 256) { charid = trie->charmap[ uvc ]; } else { charid = 0 ; if (widecharmap) { SV** const svpp = ((SV**) Perl_hv_common_key_len ( (widecharmap),((char*)&uvc),(sizeof(UV)),(0) ? (0x20 | 0x10 ) : 0x20,((void*)0),0)); if (svpp) charid = (U16)((((*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_exec.c", 3011, __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_exec.c", 3011, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( *svpp,2)); } } } while (0) |
3010 | charid, foldlen, foldbuf,do { STRLEN skiplen; U8 flags = 0x2; switch (trie_type) { case trie_flu8: do { if (__builtin_expect(((PL_warn_locale) ? (_Bool )1 : (_Bool)0),(0))) { Perl__warn_problematic_locale(); } } while (0); if ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 3011, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 3011, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((U8) ((*uc) | 0))) >= ((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((U8 *) (uc )),(const U8 *) (U8 *) ((U8 *) strend),((void*)0)); Perl_warner ( (63 ), "Wide character (U+%" "lX" ") in %s", (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field ( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type ])); } } while (0); } goto do_trie_utf8_fold; case trie_utf8_exactfa_fold : flags |= 0x4; case trie_utf8_fold: do_trie_utf8_fold: if ( foldlen >0 ) { uvc = Perl_utf8n_to_uvchr_msgs((const U8*) uscan, foldlen , &len, uniflags, 0, 0); foldlen -= len; uscan += len; len =0; } else { uvc = Perl__to_utf8_fold_flags( (const U8*) uc,( U8 *) strend,foldbuf,&foldlen,flags); len = (((((U8 *) strend ) >= (uc)) ? (void)0 : __assert2("re_exec.c", 3011, __func__ , "((U8 *) strend) >= (uc)")), (((U8 *) strend) - (uc)) <= 0 ? 0 : ((((((U8 *) strend) - (uc)))<(PL_utf8skip[*(const U8*)(uc)]))?((((U8 *) strend) - (uc))):(PL_utf8skip[*(const U8 *)(uc)]))); skiplen = ( ((((U64)(((UV) ((uvc) | 0)))) < (( (U8) (0xFF << 6)) & 0xB0))) ? 1 : ((UV) (uvc) < ( 32 * (1U << ( 6))) ? 2 : (UV) (uvc) < (16 * (1U << (2 * 6))) ? 3 : (UV) (uvc) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (uvc) < ( 4 * (1U << (4 * 6))) ? 5 : (UV ) (uvc) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (uvc) < ((UV) 1U << (6 * 6)) ? 7 : 13)); foldlen -= skiplen; uscan = foldbuf + skiplen; } break; case trie_flu8_latin: do { if ( __builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool)0),(0) )) { Perl__warn_problematic_locale(); } } while (0); goto do_trie_latin_utf8_fold ; case trie_latin_utf8_exactfa_fold: flags |= 0x4; case trie_latin_utf8_fold : do_trie_latin_utf8_fold: if ( foldlen>0 ) { uvc = Perl_utf8n_to_uvchr_msgs ((const U8*) uscan, foldlen, &len, uniflags, 0, 0); foldlen -= len; uscan += len; len=0; } else { len = 1; uvc = Perl__to_fold_latin1 ( (U8) *uc, foldbuf, &foldlen, flags); skiplen = ( ((((U64 )(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6)) & 0xB0 ))) ? 1 : ((UV) (uvc) < (32 * (1U << ( 6))) ? 2 : (UV ) (uvc) < (16 * (1U << (2 * 6))) ? 3 : (UV) (uvc) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (uvc) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (uvc) < ( 2 * (1U << ( 5 * 6))) ? 6 : (UV) (uvc) < ((UV) 1U << (6 * 6)) ? 7 : 13)); foldlen -= skiplen; uscan = foldbuf + skiplen; } break ; case trie_utf8l: do { if (__builtin_expect(((PL_warn_locale ) ? (_Bool)1 : (_Bool)0),(0))) { Perl__warn_problematic_locale (); } } while (0); if (utf8_target && (((( (sizeof(*uc ) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 3011, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 3011, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((U8) ((*uc) | 0))) >= ((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((U8 *) (uc )),(const U8 *) (U8 *) ((U8 *) strend),((void*)0)); Perl_warner ( (63 ), "Wide character (U+%" "lX" ") in %s", (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field ( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type ])); } } while (0); } case trie_utf8: uvc = Perl_utf8n_to_uvchr_msgs ((const U8*) uc, (U8 *) strend - uc, &len, uniflags, 0, 0 ); break; case trie_plain: uvc = (UV)*uc; len = 1; } if (uvc < 256) { charid = trie->charmap[ uvc ]; } else { charid = 0 ; if (widecharmap) { SV** const svpp = ((SV**) Perl_hv_common_key_len ( (widecharmap),((char*)&uvc),(sizeof(UV)),(0) ? (0x20 | 0x10 ) : 0x20,((void*)0),0)); if (svpp) charid = (U16)((((*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_exec.c", 3011, __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_exec.c", 3011, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( *svpp,2)); } } } while (0) |
3011 | uniflags)do { STRLEN skiplen; U8 flags = 0x2; switch (trie_type) { case trie_flu8: do { if (__builtin_expect(((PL_warn_locale) ? (_Bool )1 : (_Bool)0),(0))) { Perl__warn_problematic_locale(); } } while (0); if ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 3011, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 3011, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((U8) ((*uc) | 0))) >= ((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((U8 *) (uc )),(const U8 *) (U8 *) ((U8 *) strend),((void*)0)); Perl_warner ( (63 ), "Wide character (U+%" "lX" ") in %s", (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field ( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type ])); } } while (0); } goto do_trie_utf8_fold; case trie_utf8_exactfa_fold : flags |= 0x4; case trie_utf8_fold: do_trie_utf8_fold: if ( foldlen >0 ) { uvc = Perl_utf8n_to_uvchr_msgs((const U8*) uscan, foldlen , &len, uniflags, 0, 0); foldlen -= len; uscan += len; len =0; } else { uvc = Perl__to_utf8_fold_flags( (const U8*) uc,( U8 *) strend,foldbuf,&foldlen,flags); len = (((((U8 *) strend ) >= (uc)) ? (void)0 : __assert2("re_exec.c", 3011, __func__ , "((U8 *) strend) >= (uc)")), (((U8 *) strend) - (uc)) <= 0 ? 0 : ((((((U8 *) strend) - (uc)))<(PL_utf8skip[*(const U8*)(uc)]))?((((U8 *) strend) - (uc))):(PL_utf8skip[*(const U8 *)(uc)]))); skiplen = ( ((((U64)(((UV) ((uvc) | 0)))) < (( (U8) (0xFF << 6)) & 0xB0))) ? 1 : ((UV) (uvc) < ( 32 * (1U << ( 6))) ? 2 : (UV) (uvc) < (16 * (1U << (2 * 6))) ? 3 : (UV) (uvc) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (uvc) < ( 4 * (1U << (4 * 6))) ? 5 : (UV ) (uvc) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (uvc) < ((UV) 1U << (6 * 6)) ? 7 : 13)); foldlen -= skiplen; uscan = foldbuf + skiplen; } break; case trie_flu8_latin: do { if ( __builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool)0),(0) )) { Perl__warn_problematic_locale(); } } while (0); goto do_trie_latin_utf8_fold ; case trie_latin_utf8_exactfa_fold: flags |= 0x4; case trie_latin_utf8_fold : do_trie_latin_utf8_fold: if ( foldlen>0 ) { uvc = Perl_utf8n_to_uvchr_msgs ((const U8*) uscan, foldlen, &len, uniflags, 0, 0); foldlen -= len; uscan += len; len=0; } else { len = 1; uvc = Perl__to_fold_latin1 ( (U8) *uc, foldbuf, &foldlen, flags); skiplen = ( ((((U64 )(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6)) & 0xB0 ))) ? 1 : ((UV) (uvc) < (32 * (1U << ( 6))) ? 2 : (UV ) (uvc) < (16 * (1U << (2 * 6))) ? 3 : (UV) (uvc) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (uvc) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (uvc) < ( 2 * (1U << ( 5 * 6))) ? 6 : (UV) (uvc) < ((UV) 1U << (6 * 6)) ? 7 : 13)); foldlen -= skiplen; uscan = foldbuf + skiplen; } break ; case trie_utf8l: do { if (__builtin_expect(((PL_warn_locale ) ? (_Bool)1 : (_Bool)0),(0))) { Perl__warn_problematic_locale (); } } while (0); if (utf8_target && (((( (sizeof(*uc ) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 3011, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 3011, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((U8) ((*uc) | 0))) >= ((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((U8 *) (uc )),(const U8 *) (U8 *) ((U8 *) strend),((void*)0)); Perl_warner ( (63 ), "Wide character (U+%" "lX" ") in %s", (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field ( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type ])); } } while (0); } case trie_utf8: uvc = Perl_utf8n_to_uvchr_msgs ((const U8*) uc, (U8 *) strend - uc, &len, uniflags, 0, 0 ); break; case trie_plain: uvc = (UV)*uc; len = 1; } if (uvc < 256) { charid = trie->charmap[ uvc ]; } else { charid = 0 ; if (widecharmap) { SV** const svpp = ((SV**) Perl_hv_common_key_len ( (widecharmap),((char*)&uvc),(sizeof(UV)),(0) ? (0x20 | 0x10 ) : 0x20,((void*)0),0)); if (svpp) charid = (U16)((((*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_exec.c", 3011, __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_exec.c", 3011, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( *svpp,2)); } } } while (0); |
3012 | DEBUG_TRIE_EXECUTE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { S_dump_exec_pos ( (char *)uc,c,strend,real_start,s,utf8_target,0); Perl_re_printf ( " Charid:%3u CP:%4" "lx" " ", charid, uvc); };} while (0) |
3013 | dump_exec_pos( (char *)uc, c, strend,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { S_dump_exec_pos ( (char *)uc,c,strend,real_start,s,utf8_target,0); Perl_re_printf ( " Charid:%3u CP:%4" "lx" " ", charid, uvc); };} while (0) |
3014 | real_start, s, utf8_target, 0);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { S_dump_exec_pos ( (char *)uc,c,strend,real_start,s,utf8_target,0); Perl_re_printf ( " Charid:%3u CP:%4" "lx" " ", charid, uvc); };} while (0) |
3015 | Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { S_dump_exec_pos ( (char *)uc,c,strend,real_start,s,utf8_target,0); Perl_re_printf ( " Charid:%3u CP:%4" "lx" " ", charid, uvc); };} while (0) |
3016 | " Charid:%3u CP:%4" UVxf " ",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { S_dump_exec_pos ( (char *)uc,c,strend,real_start,s,utf8_target,0); Perl_re_printf ( " Charid:%3u CP:%4" "lx" " ", charid, uvc); };} while (0) |
3017 | charid, uvc);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { S_dump_exec_pos ( (char *)uc,c,strend,real_start,s,utf8_target,0); Perl_re_printf ( " Charid:%3u CP:%4" "lx" " ", charid, uvc); };} while (0) |
3018 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { S_dump_exec_pos ( (char *)uc,c,strend,real_start,s,utf8_target,0); Perl_re_printf ( " Charid:%3u CP:%4" "lx" " ", charid, uvc); };} while (0); |
3019 | } |
3020 | else { |
3021 | len = 0; |
3022 | charid = 0; |
3023 | } |
3024 | |
3025 | |
3026 | do { |
3027 | #ifdef DEBUGGING |
3028 | word = aho->states[ state ].wordnum; |
3029 | #endif |
3030 | base = aho->states[ state ].trans.base; |
3031 | |
3032 | DEBUG_TRIE_EXECUTE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { if (failed) S_dump_exec_pos( (char *)uc,c,strend,real_start,s,utf8_target ,0); Perl_re_printf( "%sState: %4" "lx" ", word=%" "lx", failed ? " Fail transition to " : "", (UV)state, (UV)word); };} while (0) |
3033 | if (failed)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { if (failed) S_dump_exec_pos( (char *)uc,c,strend,real_start,s,utf8_target ,0); Perl_re_printf( "%sState: %4" "lx" ", word=%" "lx", failed ? " Fail transition to " : "", (UV)state, (UV)word); };} while (0) |
3034 | dump_exec_pos( (char *)uc, c, strend, real_start,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { if (failed) S_dump_exec_pos( (char *)uc,c,strend,real_start,s,utf8_target ,0); Perl_re_printf( "%sState: %4" "lx" ", word=%" "lx", failed ? " Fail transition to " : "", (UV)state, (UV)word); };} while (0) |
3035 | s, utf8_target, 0 );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { if (failed) S_dump_exec_pos( (char *)uc,c,strend,real_start,s,utf8_target ,0); Perl_re_printf( "%sState: %4" "lx" ", word=%" "lx", failed ? " Fail transition to " : "", (UV)state, (UV)word); };} while (0) |
3036 | Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { if (failed) S_dump_exec_pos( (char *)uc,c,strend,real_start,s,utf8_target ,0); Perl_re_printf( "%sState: %4" "lx" ", word=%" "lx", failed ? " Fail transition to " : "", (UV)state, (UV)word); };} while (0) |
3037 | "%sState: %4" UVxf ", word=%" UVxf,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { if (failed) S_dump_exec_pos( (char *)uc,c,strend,real_start,s,utf8_target ,0); Perl_re_printf( "%sState: %4" "lx" ", word=%" "lx", failed ? " Fail transition to " : "", (UV)state, (UV)word); };} while (0) |
3038 | failed ? " Fail transition to " : "",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { if (failed) S_dump_exec_pos( (char *)uc,c,strend,real_start,s,utf8_target ,0); Perl_re_printf( "%sState: %4" "lx" ", word=%" "lx", failed ? " Fail transition to " : "", (UV)state, (UV)word); };} while (0) |
3039 | (UV)state, (UV)word);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { if (failed) S_dump_exec_pos( (char *)uc,c,strend,real_start,s,utf8_target ,0); Perl_re_printf( "%sState: %4" "lx" ", word=%" "lx", failed ? " Fail transition to " : "", (UV)state, (UV)word); };} while (0) |
3040 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { if (failed) S_dump_exec_pos( (char *)uc,c,strend,real_start,s,utf8_target ,0); Perl_re_printf( "%sState: %4" "lx" ", word=%" "lx", failed ? " Fail transition to " : "", (UV)state, (UV)word); };} while (0); |
3041 | if ( base ) { |
3042 | U32 tmp; |
3043 | I32 offset; |
3044 | if (charid && |
3045 | ( ((offset = base + charid |
3046 | - 1 - trie->uniquecharcount)) >= 0) |
3047 | && ((U32)offset < trie->lasttrans) |
3048 | && trie->trans[offset].check == state |
3049 | && (tmp=trie->trans[offset].next)) |
3050 | { |
3051 | DEBUG_TRIE_EXECUTE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) Perl_re_printf ( " - legal\n");} while (0) |
3052 | Perl_re_printf( aTHX_ " - legal\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) Perl_re_printf ( " - legal\n");} while (0); |
3053 | state = tmp; |
3054 | break; |
3055 | } |
3056 | else { |
3057 | DEBUG_TRIE_EXECUTE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) Perl_re_printf ( " - fail\n");} while (0) |
3058 | Perl_re_printf( aTHX_ " - fail\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) Perl_re_printf ( " - fail\n");} while (0); |
3059 | failed = 1; |
3060 | state = aho->fail[state]; |
3061 | } |
3062 | } |
3063 | else { |
3064 | /* we must be accepting here */ |
3065 | DEBUG_TRIE_EXECUTE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) Perl_re_printf ( " - accepting\n");} while (0) |
3066 | Perl_re_printf( aTHX_ " - accepting\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) Perl_re_printf ( " - accepting\n");} while (0); |
3067 | failed = 1; |
3068 | break; |
3069 | } |
3070 | } while(state); |
3071 | uc += len; |
3072 | if (failed) { |
3073 | if (leftmost) |
3074 | break; |
3075 | if (!state) state = 1; |
3076 | } |
3077 | } |
3078 | if ( aho->states[ state ].wordnum ) { |
3079 | U8 *lpos = points[ (pointpos - trie->wordinfo[aho->states[ state ].wordnum].len) % maxlen ]; |
3080 | if (!leftmost || lpos < leftmost) { |
3081 | DEBUG_r(accepted_word=aho->states[ state ].wordnum)do {accepted_word=aho->states[ state ].wordnum;} while (0); |
3082 | leftmost = lpos; |
3083 | } |
3084 | } |
3085 | if (leftmost) { |
3086 | s = (char*)leftmost; |
3087 | DEBUG_TRIE_EXECUTE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { Perl_re_printf ( "Matches word #%" "lx" " at position %" "ld" ". Trying full pattern...\n" , (UV)accepted_word, (IV)(s - real_start) ); };} while (0) |
3088 | Perl_re_printf( aTHX_ "Matches word #%" UVxf " at position %" IVdf ". Trying full pattern...\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { Perl_re_printf ( "Matches word #%" "lx" " at position %" "ld" ". Trying full pattern...\n" , (UV)accepted_word, (IV)(s - real_start) ); };} while (0) |
3089 | (UV)accepted_word, (IV)(s - real_start)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { Perl_re_printf ( "Matches word #%" "lx" " at position %" "ld" ". Trying full pattern...\n" , (UV)accepted_word, (IV)(s - real_start) ); };} while (0) |
3090 | );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { Perl_re_printf ( "Matches word #%" "lx" " at position %" "ld" ". Trying full pattern...\n" , (UV)accepted_word, (IV)(s - real_start) ); };} while (0) |
3091 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { Perl_re_printf ( "Matches word #%" "lx" " at position %" "ld" ". Trying full pattern...\n" , (UV)accepted_word, (IV)(s - real_start) ); };} while (0); |
3092 | if (reginfo->intuit || regtry(reginfo, &s)S_regtry( reginfo,&s)) { |
3093 | FREETMPSif (PL_tmps_ix > PL_tmps_floor) Perl_free_tmps(); |
3094 | 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_exec.c" , 3094); Perl_pop_scope(); } while (0); |
3095 | goto got_it; |
3096 | } |
3097 | if (s < reginfo->strend) { |
3098 | s = HOPc(s,1)(char *)(reginfo->is_utf8_target ? S_reghop3((U8*)s, 1, (U8 *)(1 >= 0 ? reginfo->strend : reginfo->strbeg)) : (U8 *)(s + 1)); |
3099 | } |
3100 | DEBUG_TRIE_EXECUTE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { Perl_re_printf ( "Pattern failed. Looking for new start point...\n"); };} while (0) |
3101 | Perl_re_printf( aTHX_ "Pattern failed. Looking for new start point...\n");do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { Perl_re_printf ( "Pattern failed. Looking for new start point...\n"); };} while (0) |
3102 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { Perl_re_printf ( "Pattern failed. Looking for new start point...\n"); };} while (0); |
3103 | } else { |
3104 | DEBUG_TRIE_EXECUTE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) Perl_re_printf ( "No match.\n");} while (0) |
3105 | Perl_re_printf( aTHX_ "No match.\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) Perl_re_printf ( "No match.\n");} while (0); |
3106 | break; |
3107 | } |
3108 | } |
3109 | FREETMPSif (PL_tmps_ix > PL_tmps_floor) Perl_free_tmps(); |
3110 | 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_exec.c" , 3110); Perl_pop_scope(); } while (0); |
3111 | } |
3112 | break; |
3113 | default: |
3114 | Perl_croak(aTHX_ "panic: unknown regstclass %d", (int)OP(c)((c)->type)); |
3115 | } |
3116 | return 0; |
3117 | got_it: |
3118 | return s; |
3119 | } |
3120 | |
3121 | /* set RX_SAVED_COPY, RX_SUBBEG etc. |
3122 | * flags have same meanings as with regexec_flags() */ |
3123 | |
3124 | static void |
3125 | S_reg_set_capture_string(pTHX_ REGEXP * const rx, |
3126 | char *strbeg, |
3127 | char *strend, |
3128 | SV *sv, |
3129 | U32 flags, |
3130 | bool_Bool utf8_target) |
3131 | { |
3132 | struct regexp *const prog = ReANY(rx)Perl_ReANY((const REGEXP *)(rx)); |
3133 | |
3134 | if (flags & REXEC_COPY_STR0x01) { |
3135 | #ifdef PERL_ANY_COW |
3136 | if (SvCANCOW(sv)(((sv)->sv_flags & 0x10000000) ? ((XPV*) (sv)->sv_any )->xpv_len_u.xpvlenu_len ? (*(U8 *)((*({ SV *const _svpvx = ((SV *)({ void *_p = (sv); _p; })); ((PL_valid_types_PVX[((svtype )((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 3136, __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_exec.c", 3136, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3136, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))+((XPV*) (sv)->sv_any )->xpv_len_u.xpvlenu_len-1)) != ((1 << sizeof(U8)*8) - 1) : 1 : ((sv)->sv_flags & (0x00000400|0x00000800|0x00004000 |0x01000000| 0x02000000|0x04000000|0x08000000|0x00010000)) == (0x00004000|0x00000400) && (*({ const SV *const _svcur = (const SV *)(sv); ((PL_valid_types_PVX[((svtype)((_svcur)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c" , 3136, __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_exec.c", 3136, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3136, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))+1 < ((XPV*) (sv)->sv_any)->xpv_len_u .xpvlenu_len)) { |
3137 | DEBUG_C(Perl_re_printf( aTHX_do { if (__builtin_expect(((PL_debug & 0x00200000) ? (_Bool )1 : (_Bool)0),(0))) do {Perl_re_printf( "Copy on write: regexp capture, type %d\n" , (int) ((svtype)((sv)->sv_flags & 0xff)));} while (0) ; } while (0) |
3138 | "Copy on write: regexp capture, type %d\n",do { if (__builtin_expect(((PL_debug & 0x00200000) ? (_Bool )1 : (_Bool)0),(0))) do {Perl_re_printf( "Copy on write: regexp capture, type %d\n" , (int) ((svtype)((sv)->sv_flags & 0xff)));} while (0) ; } while (0) |
3139 | (int) SvTYPE(sv)))do { if (__builtin_expect(((PL_debug & 0x00200000) ? (_Bool )1 : (_Bool)0),(0))) do {Perl_re_printf( "Copy on write: regexp capture, type %d\n" , (int) ((svtype)((sv)->sv_flags & 0xff)));} while (0) ; } while (0); |
3140 | /* Create a new COW SV to share the match string and store |
3141 | * in saved_copy, unless the current COW SV in saved_copy |
3142 | * is valid and suitable for our purpose */ |
3143 | if (( prog->saved_copy |
3144 | && SvIsCOW(prog->saved_copy)((prog->saved_copy)->sv_flags & 0x10000000) |
3145 | && SvPOKp(prog->saved_copy)((prog->saved_copy)->sv_flags & 0x00004000) |
3146 | && SvIsCOW(sv)((sv)->sv_flags & 0x10000000) |
3147 | && SvPOKp(sv)((sv)->sv_flags & 0x00004000) |
3148 | && SvPVX(sv)(*({ SV *const _svpvx = ((SV *)({ void *_p = (sv); _p; })); ( (PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 3148, __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_exec.c", 3148, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 3148, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) == SvPVX(prog->saved_copy)(*({ SV *const _svpvx = ((SV *)({ void *_p = (prog->saved_copy ); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 3148, __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_exec.c", 3148, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3148, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })))) |
3149 | { |
3150 | /* just reuse saved_copy SV */ |
3151 | if (RXp_MATCH_COPIED(prog)(((prog)->extflags) & (1U<<(((0 +12) + 2)+11)))) { |
3152 | Safefree(prog->subbeg)Perl_safesysfree(((void *)(prog->subbeg))); |
3153 | RXp_MATCH_COPIED_off(prog)(((prog)->extflags) &= ~(1U<<(((0 +12) + 2)+11)) ); |
3154 | } |
3155 | } |
3156 | else { |
3157 | /* create new COW SV to share string */ |
3158 | RXp_MATCH_COPY_FREE(prog)do {if ((prog->saved_copy)) { if ((((prog->saved_copy)) ->sv_flags & (0x08000000|0x00010000|0x00000800|0x01000000 |0x00800000|0x10000000))) Perl_sv_force_normal_flags( (prog-> saved_copy),4); } if ((((prog)->extflags) & (1U<< (((0 +12) + 2)+11)))) { Perl_safesysfree(((void *)((prog-> subbeg)))); (((prog)->extflags) &= ~(1U<<(((0 +12 ) + 2)+11))); }} while (0); |
3159 | prog->saved_copy = sv_setsv_cow(prog->saved_copy, sv)Perl_sv_setsv_cow( prog->saved_copy,sv); |
3160 | } |
3161 | prog->subbeg = (char *)SvPVX_const(prog->saved_copy)((const char*)(0 + (prog->saved_copy)->sv_u.svu_pv)); |
3162 | assert (SvPOKp(prog->saved_copy))((((prog->saved_copy)->sv_flags & 0x00004000)) ? (void )0 : __assert2("re_exec.c", 3162, __func__, "SvPOKp(prog->saved_copy)" )); |
3163 | prog->sublen = strend - strbeg; |
3164 | prog->suboffset = 0; |
3165 | prog->subcoffset = 0; |
3166 | } else |
3167 | #endif |
3168 | { |
3169 | SSize_tssize_t min = 0; |
3170 | SSize_tssize_t max = strend - strbeg; |
3171 | SSize_tssize_t sublen; |
3172 | |
3173 | if ( (flags & REXEC_COPY_SKIP_POST0x40) |
3174 | && !(prog->extflags & RXf_PMf_KEEPCOPY(1U << (0 +6))) /* //p */ |
3175 | && !(PL_sawampersand(1|2|4) & SAWAMPERSAND_RIGHT4) |
3176 | ) { /* don't copy $' part of string */ |
3177 | U32 n = 0; |
3178 | max = -1; |
3179 | /* calculate the right-most part of the string covered |
3180 | * by a capture. Due to lookahead, this may be to |
3181 | * the right of $&, so we have to scan all captures */ |
3182 | while (n <= prog->lastparen) { |
3183 | if (prog->offs[n].end > max) |
3184 | max = prog->offs[n].end; |
3185 | n++; |
3186 | } |
3187 | if (max == -1) |
3188 | max = (PL_sawampersand(1|2|4) & SAWAMPERSAND_LEFT1) |
3189 | ? prog->offs[0].start |
3190 | : 0; |
3191 | assert(max >= 0 && max <= strend - strbeg)((max >= 0 && max <= strend - strbeg) ? (void)0 : __assert2("re_exec.c", 3191, __func__, "max >= 0 && max <= strend - strbeg" )); |
3192 | } |
3193 | |
3194 | if ( (flags & REXEC_COPY_SKIP_PRE0x20) |
3195 | && !(prog->extflags & RXf_PMf_KEEPCOPY(1U << (0 +6))) /* //p */ |
3196 | && !(PL_sawampersand(1|2|4) & SAWAMPERSAND_LEFT1) |
3197 | ) { /* don't copy $` part of string */ |
3198 | U32 n = 0; |
3199 | min = max; |
3200 | /* calculate the left-most part of the string covered |
3201 | * by a capture. Due to lookbehind, this may be to |
3202 | * the left of $&, so we have to scan all captures */ |
3203 | while (min && n <= prog->lastparen) { |
3204 | if ( prog->offs[n].start != -1 |
3205 | && prog->offs[n].start < min) |
3206 | { |
3207 | min = prog->offs[n].start; |
3208 | } |
3209 | n++; |
3210 | } |
3211 | if ((PL_sawampersand(1|2|4) & SAWAMPERSAND_RIGHT4) |
3212 | && min > prog->offs[0].end |
3213 | ) |
3214 | min = prog->offs[0].end; |
3215 | |
3216 | } |
3217 | |
3218 | assert(min >= 0 && min <= max && min <= strend - strbeg)((min >= 0 && min <= max && min <= strend - strbeg) ? (void)0 : __assert2("re_exec.c", 3218, __func__, "min >= 0 && min <= max && min <= strend - strbeg" )); |
3219 | sublen = max - min; |
3220 | |
3221 | if (RXp_MATCH_COPIED(prog)(((prog)->extflags) & (1U<<(((0 +12) + 2)+11)))) { |
3222 | if (sublen > prog->sublen) |
3223 | prog->subbeg = |
3224 | (char*)safereallocPerl_safesysrealloc(prog->subbeg, sublen+1); |
3225 | } |
3226 | else |
3227 | prog->subbeg = (char*)safemallocPerl_safesysmalloc(sublen+1); |
3228 | Copy(strbeg + min, prog->subbeg, sublen, char)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(sublen ) || sizeof(char) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(sublen)))) ? (size_t)(sublen) : ((size_t)-1)/sizeof(char )) > ((size_t)-1)/sizeof(char))) ? (_Bool)1 : (_Bool)0),(0 )) && (Perl_croak_memory_wrap(),0)), ((((void*)(prog-> subbeg)) != 0) ? (void)0 : __assert2("re_exec.c", 3228, __func__ , "((void*)(prog->subbeg)) != 0")), ((((void*)(strbeg + min )) != 0) ? (void)0 : __assert2("re_exec.c", 3228, __func__, "((void*)(strbeg + min)) != 0" )), (void)memcpy((char*)(prog->subbeg),(const char*)(strbeg + min), (sublen) * sizeof(char))); |
3229 | prog->subbeg[sublen] = '\0'; |
3230 | prog->suboffset = min; |
3231 | prog->sublen = sublen; |
3232 | RXp_MATCH_COPIED_on(prog)(((prog)->extflags) |= (1U<<(((0 +12) + 2)+11))); |
3233 | } |
3234 | prog->subcoffset = prog->suboffset; |
3235 | if (prog->suboffset && utf8_target) { |
3236 | /* Convert byte offset to chars. |
3237 | * XXX ideally should only compute this if @-/@+ |
3238 | * has been seen, a la PL_sawampersand ??? */ |
3239 | |
3240 | /* If there's a direct correspondence between the |
3241 | * string which we're matching and the original SV, |
3242 | * then we can use the utf8 len cache associated with |
3243 | * the SV. In particular, it means that under //g, |
3244 | * sv_pos_b2u() will use the previously cached |
3245 | * position to speed up working out the new length of |
3246 | * subcoffset, rather than counting from the start of |
3247 | * the string each time. This stops |
3248 | * $x = "\x{100}" x 1E6; 1 while $x =~ /(.)/g; |
3249 | * from going quadratic */ |
3250 | if (SvPOKp(sv)((sv)->sv_flags & 0x00004000) && SvPVX(sv)(*({ SV *const _svpvx = ((SV *)({ void *_p = (sv); _p; })); ( (PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 3250, __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_exec.c", 3250, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 3250, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) == strbeg) |
3251 | prog->subcoffset = sv_pos_b2u_flags(sv, prog->subcoffset,Perl_sv_pos_b2u_flags( sv,prog->subcoffset,2|32) |
3252 | SV_GMAGIC|SV_CONST_RETURN)Perl_sv_pos_b2u_flags( sv,prog->subcoffset,2|32); |
3253 | else |
3254 | prog->subcoffset = utf8_length((U8*)strbeg,Perl_utf8_length( (U8*)strbeg,(U8*)(strbeg+prog->suboffset )) |
3255 | (U8*)(strbeg+prog->suboffset))Perl_utf8_length( (U8*)strbeg,(U8*)(strbeg+prog->suboffset )); |
3256 | } |
3257 | } |
3258 | else { |
3259 | RXp_MATCH_COPY_FREE(prog)do {if ((prog->saved_copy)) { if ((((prog->saved_copy)) ->sv_flags & (0x08000000|0x00010000|0x00000800|0x01000000 |0x00800000|0x10000000))) Perl_sv_force_normal_flags( (prog-> saved_copy),4); } if ((((prog)->extflags) & (1U<< (((0 +12) + 2)+11)))) { Perl_safesysfree(((void *)((prog-> subbeg)))); (((prog)->extflags) &= ~(1U<<(((0 +12 ) + 2)+11))); }} while (0); |
3260 | prog->subbeg = strbeg; |
3261 | prog->suboffset = 0; |
3262 | prog->subcoffset = 0; |
3263 | prog->sublen = strend - strbeg; |
3264 | } |
3265 | } |
3266 | |
3267 | |
3268 | |
3269 | |
3270 | /* |
3271 | - regexec_flags - match a regexp against a string |
3272 | */ |
3273 | I32 |
3274 | Perl_regexec_flagsmy_regexec(pTHX_ REGEXP * const rx, char *stringarg, char *strend, |
3275 | char *strbeg, SSize_tssize_t minend, SV *sv, void *data, U32 flags) |
3276 | /* stringarg: the point in the string at which to begin matching */ |
3277 | /* strend: pointer to null at end of string */ |
3278 | /* strbeg: real beginning of string */ |
3279 | /* minend: end of match must be >= minend bytes after stringarg. */ |
3280 | /* sv: SV being matched: only used for utf8 flag, pos() etc; string |
3281 | * itself is accessed via the pointers above */ |
3282 | /* data: May be used for some additional optimizations. |
3283 | Currently unused. */ |
3284 | /* flags: For optimizations. See REXEC_* in regexp.h */ |
3285 | |
3286 | { |
3287 | struct regexp *const prog = ReANY(rx)Perl_ReANY((const REGEXP *)(rx)); |
3288 | char *s; |
3289 | regnode *c; |
3290 | char *startpos; |
3291 | SSize_tssize_t minlen; /* must match at least this many chars */ |
3292 | SSize_tssize_t dontbother = 0; /* how many characters not to try at end */ |
3293 | const bool_Bool utf8_target = cBOOL(DO_UTF8(sv))(((((sv)->sv_flags & 0x20000000) && !__builtin_expect (((((PL_curcop)->cop_hints + 0) & 0x00000008) ? (_Bool )1 : (_Bool)0),(0)))) ? (_Bool)1 : (_Bool)0); |
3294 | I32 multiline; |
3295 | RXi_GET_DECL(prog,progi)regexp_internal *progi = ((regexp_internal *)((prog)->pprivate )); |
3296 | regmatch_info reginfo_buf; /* create some info to pass to regtry etc */ |
3297 | regmatch_info *const reginfo = ®info_buf; |
3298 | regexp_paren_pair *swap = NULL((void*)0); |
3299 | I32 oldsave; |
3300 | 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_exec.c", 3300, __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_exec.c", 3300, __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); |
3301 | |
3302 | PERL_ARGS_ASSERT_REGEXEC_FLAGS((rx) ? (void)0 : __assert2("re_exec.c", 3302, __func__, "rx" )); ((stringarg) ? (void)0 : __assert2("re_exec.c", 3302, __func__ , "stringarg")); ((strend) ? (void)0 : __assert2("re_exec.c", 3302, __func__, "strend")); ((strbeg) ? (void)0 : __assert2( "re_exec.c", 3302, __func__, "strbeg")); ((sv) ? (void)0 : __assert2 ("re_exec.c", 3302, __func__, "sv")); |
3303 | PERL_UNUSED_ARG(data)((void)sizeof(data)); |
3304 | |
3305 | /* Be paranoid... */ |
3306 | if (prog == NULL((void*)0)) { |
3307 | Perl_croak(aTHX_ "NULL regexp parameter"); |
3308 | } |
3309 | |
3310 | DEBUG_EXECUTE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) S_debug_start_match ( rx,utf8_target,stringarg,strend,"Matching");;} while (0) |
3311 | debug_start_match(rx, utf8_target, stringarg, strend,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) S_debug_start_match ( rx,utf8_target,stringarg,strend,"Matching");;} while (0) |
3312 | "Matching");do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) S_debug_start_match ( rx,utf8_target,stringarg,strend,"Matching");;} while (0) |
3313 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) S_debug_start_match ( rx,utf8_target,stringarg,strend,"Matching");;} while (0); |
3314 | |
3315 | startpos = stringarg; |
3316 | |
3317 | /* set these early as they may be used by the HOP macros below */ |
3318 | reginfo->strbeg = strbeg; |
3319 | reginfo->strend = strend; |
3320 | reginfo->is_utf8_target = cBOOL(utf8_target)((utf8_target) ? (_Bool)1 : (_Bool)0); |
3321 | |
3322 | if (prog->intflags & PREGf_GPOS_SEEN0x00000100) { |
3323 | MAGIC *mg; |
3324 | |
3325 | /* set reginfo->ganch, the position where \G can match */ |
3326 | |
3327 | reginfo->ganch = |
3328 | (flags & REXEC_IGNOREPOS0x08) |
3329 | ? stringarg /* use start pos rather than pos() */ |
3330 | : ((mg = mg_find_mglob(sv)Perl_mg_find_mglob( sv)) && mg->mg_len >= 0) |
3331 | /* Defined pos(): */ |
3332 | ? strbeg + MgBYTEPOS(mg, sv, strbeg, strend-strbeg)S_MgBYTEPOS( mg,sv,strbeg,strend-strbeg) |
3333 | : strbeg; /* pos() not defined; use start of string */ |
3334 | |
3335 | DEBUG_GPOS_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0800000))) Perl_re_printf ( "GPOS ganch set to strbeg[%" "ld" "]\n", (IV)(reginfo->ganch - strbeg));} while (0) |
3336 | "GPOS ganch set to strbeg[%" IVdf "]\n", (IV)(reginfo->ganch - strbeg)))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0800000))) Perl_re_printf ( "GPOS ganch set to strbeg[%" "ld" "]\n", (IV)(reginfo->ganch - strbeg));} while (0); |
3337 | |
3338 | /* in the presence of \G, we may need to start looking earlier in |
3339 | * the string than the suggested start point of stringarg: |
3340 | * if prog->gofs is set, then that's a known, fixed minimum |
3341 | * offset, such as |
3342 | * /..\G/: gofs = 2 |
3343 | * /ab|c\G/: gofs = 1 |
3344 | * or if the minimum offset isn't known, then we have to go back |
3345 | * to the start of the string, e.g. /w+\G/ |
3346 | */ |
3347 | |
3348 | if (prog->intflags & PREGf_ANCH_GPOS0x00001000) { |
3349 | if (prog->gofs) { |
3350 | startpos = HOPBACKc(reginfo->ganch, prog->gofs)((char*)(reginfo->is_utf8_target ? S_reghopmaybe3((U8*)reginfo ->ganch, (ssize_t)0-prog->gofs, (U8*)(reginfo->strbeg )) : (reginfo->ganch - prog->gofs >= reginfo->strbeg ) ? (U8*)reginfo->ganch - prog->gofs : ((void*)0))); |
3351 | if (!startpos || |
3352 | ((flags & REXEC_FAIL_ON_UNDERFLOW0x80) && startpos < stringarg)) |
3353 | { |
3354 | DEBUG_GPOS_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0800000))) Perl_re_printf ( "fail: ganch-gofs before earliest possible start\n");} while (0) |
3355 | "fail: ganch-gofs before earliest possible start\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0800000))) Perl_re_printf ( "fail: ganch-gofs before earliest possible start\n");} while (0); |
3356 | return 0; |
3357 | } |
3358 | } |
3359 | else |
3360 | startpos = reginfo->ganch; |
3361 | } |
3362 | else if (prog->gofs) { |
3363 | startpos = HOPBACKc(startpos, prog->gofs)((char*)(reginfo->is_utf8_target ? S_reghopmaybe3((U8*)startpos , (ssize_t)0-prog->gofs, (U8*)(reginfo->strbeg)) : (startpos - prog->gofs >= reginfo->strbeg) ? (U8*)startpos - prog ->gofs : ((void*)0))); |
3364 | if (!startpos) |
3365 | startpos = strbeg; |
3366 | } |
3367 | else if (prog->intflags & PREGf_GPOS_FLOAT0x00000200) |
3368 | startpos = strbeg; |
3369 | } |
3370 | |
3371 | minlen = prog->minlen; |
3372 | if ((startpos + minlen) > strend || startpos < strbeg) { |
3373 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "Regex match can't succeed, so not even tried\n");} while ( 0) |
3374 | "Regex match can't succeed, so not even tried\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "Regex match can't succeed, so not even tried\n");} while ( 0); |
3375 | return 0; |
3376 | } |
3377 | |
3378 | /* at the end of this function, we'll do a LEAVE_SCOPE(oldsave), |
3379 | * which will call destuctors to reset PL_regmatch_state, free higher |
3380 | * PL_regmatch_slabs, and clean up regmatch_info_aux and |
3381 | * regmatch_info_aux_eval */ |
3382 | |
3383 | oldsave = PL_savestack_ix; |
3384 | |
3385 | s = startpos; |
3386 | |
3387 | if ((prog->extflags & RXf_USE_INTUIT((1U<<(((0 +12) + 2)+7))|(1U<<(((0 +12) + 2)+8)))) |
3388 | && !(flags & REXEC_CHECKED0x02)) |
3389 | { |
3390 | s = re_intuit_start(rx, sv, strbeg, startpos, strend,my_re_intuit_start( rx,sv,strbeg,startpos,strend,flags,((void *)0)) |
3391 | flags, NULL)my_re_intuit_start( rx,sv,strbeg,startpos,strend,flags,((void *)0)); |
3392 | if (!s) |
3393 | return 0; |
3394 | |
3395 | if (prog->extflags & RXf_CHECK_ALL(1U<<(((0 +12) + 2)+5))) { |
3396 | /* we can match based purely on the result of INTUIT. |
3397 | * Set up captures etc just for $& and $-[0] |
3398 | * (an intuit-only match wont have $1,$2,..) */ |
3399 | assert(!prog->nparens)((!prog->nparens) ? (void)0 : __assert2("re_exec.c", 3399, __func__, "!prog->nparens")); |
3400 | |
3401 | /* s/// doesn't like it if $& is earlier than where we asked it to |
3402 | * start searching (which can happen on something like /.\G/) */ |
3403 | if ( (flags & REXEC_FAIL_ON_UNDERFLOW0x80) |
3404 | && (s < stringarg)) |
3405 | { |
3406 | /* this should only be possible under \G */ |
3407 | assert(prog->intflags & PREGf_GPOS_SEEN)((prog->intflags & 0x00000100) ? (void)0 : __assert2("re_exec.c" , 3407, __func__, "prog->intflags & PREGf_GPOS_SEEN")); |
3408 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "matched, but failing for REXEC_FAIL_ON_UNDERFLOW\n");} while (0) |
3409 | "matched, but failing for REXEC_FAIL_ON_UNDERFLOW\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "matched, but failing for REXEC_FAIL_ON_UNDERFLOW\n");} while (0); |
3410 | goto phooey; |
3411 | } |
3412 | |
3413 | /* match via INTUIT shouldn't have any captures. |
3414 | * Let @-, @+, $^N know */ |
3415 | prog->lastparen = prog->lastcloseparen = 0; |
3416 | RXp_MATCH_UTF8_set(prog, utf8_target)((utf8_target) ? (((prog)->extflags) |= (1U<<(((0 +12 ) + 2)+6))) : (((prog)->extflags) &= ~(1U<<(((0 + 12) + 2)+6)))); |
3417 | prog->offs[0].start = s - strbeg; |
3418 | prog->offs[0].end = utf8_target |
3419 | ? (char*)utf8_hop_forwardPerl_utf8_hop_forward((U8*)s, prog->minlenret, (U8 *) strend) - strbeg |
3420 | : s - strbeg + prog->minlenret; |
3421 | if ( !(flags & REXEC_NOT_FIRST0x10) ) |
3422 | S_reg_set_capture_string(aTHX_ rx, |
3423 | strbeg, strend, |
3424 | sv, flags, utf8_target); |
3425 | |
3426 | return 1; |
3427 | } |
3428 | } |
3429 | |
3430 | multiline = prog->extflags & RXf_PMf_MULTILINE(1U << (0 +0)); |
3431 | |
3432 | if (strend - s < (minlen+(prog->check_offset_minsubstrs->data[2].min_offset<0?prog->check_offset_minsubstrs->data[2].min_offset:0))) { |
3433 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "String too short [regexec_flags]...\n");} while (0) |
3434 | "String too short [regexec_flags]...\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "String too short [regexec_flags]...\n");} while (0); |
3435 | goto phooey; |
3436 | } |
3437 | |
3438 | /* Check validity of program. */ |
3439 | if (UCHARAT(progi->program)((int)*(const U8*)(progi->program)) != REG_MAGIC0234) { |
3440 | Perl_croak(aTHX_ "corrupted regexp program"); |
3441 | } |
3442 | |
3443 | RXp_MATCH_TAINTED_off(prog)(((prog)->extflags) &= ~(1U<<(((0 +12) + 2)+12)) ); |
3444 | RXp_MATCH_UTF8_set(prog, utf8_target)((utf8_target) ? (((prog)->extflags) |= (1U<<(((0 +12 ) + 2)+6))) : (((prog)->extflags) &= ~(1U<<(((0 + 12) + 2)+6)))); |
3445 | |
3446 | reginfo->prog = rx; /* Yes, sorry that this is confusing. */ |
3447 | reginfo->intuit = 0; |
3448 | reginfo->is_utf8_pat = cBOOL(RX_UTF8(rx))((((rx)->sv_flags & 0x20000000)) ? (_Bool)1 : (_Bool)0 ); |
3449 | reginfo->warned = FALSE(0); |
3450 | reginfo->sv = sv; |
3451 | reginfo->poscache_maxiter = 0; /* not yet started a countdown */ |
3452 | /* see how far we have to get to not match where we matched before */ |
3453 | reginfo->till = stringarg + minend; |
3454 | |
3455 | if (prog->extflags & RXf_EVAL_SEEN(1U<<(((0 +12) + 2)+3)) && SvPADTMP(sv)((sv)->sv_flags & (0x00020000))) { |
3456 | /* SAVEFREESV, not sv_mortalcopy, as this SV must last until after |
3457 | S_cleanup_regmatch_info_aux has executed (registered by |
3458 | SAVEDESTRUCTOR_X below). S_cleanup_regmatch_info_aux modifies |
3459 | magic belonging to this SV. |
3460 | Not newSVsv, either, as it does not COW. |
3461 | */ |
3462 | reginfo->sv = newSV(0)Perl_newSV( 0); |
3463 | SvSetSV_nosteal(reginfo->sv, sv)do { if (__builtin_expect((((reginfo->sv) != (sv)) ? (_Bool )1 : (_Bool)0),(1))) { Perl_sv_setsv_flags( reginfo->sv,sv ,2 | 16 | 0); ;; } } while (0); |
3464 | SAVEFREESV(reginfo->sv)Perl_save_pushptr( (void *)(((SV *)({ void *_p = (reginfo-> sv); _p; }))),11); |
3465 | } |
3466 | |
3467 | /* reserve next 2 or 3 slots in PL_regmatch_state: |
3468 | * slot N+0: may currently be in use: skip it |
3469 | * slot N+1: use for regmatch_info_aux struct |
3470 | * slot N+2: use for regmatch_info_aux_eval struct if we have (?{})'s |
3471 | * slot N+3: ready for use by regmatch() |
3472 | */ |
3473 | |
3474 | { |
3475 | regmatch_state *old_regmatch_state; |
3476 | regmatch_slab *old_regmatch_slab; |
3477 | int i, max = (prog->extflags & RXf_EVAL_SEEN(1U<<(((0 +12) + 2)+3))) ? 2 : 1; |
3478 | |
3479 | /* on first ever match, allocate first slab */ |
3480 | if (!PL_regmatch_slab) { |
3481 | Newx(PL_regmatch_slab, 1, regmatch_slab)(PL_regmatch_slab = ((void)(__builtin_expect(((((( sizeof(size_t ) < sizeof(1) || sizeof(regmatch_slab) > ((size_t)1 << 8*(sizeof(size_t) - sizeof(1)))) ? (size_t)(1) : ((size_t)-1 )/sizeof(regmatch_slab)) > ((size_t)-1)/sizeof(regmatch_slab ))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap (),0)), (regmatch_slab*)(Perl_safesysmalloc((size_t)((1)*sizeof (regmatch_slab)))))); |
3482 | PL_regmatch_slab->prev = NULL((void*)0); |
3483 | PL_regmatch_slab->next = NULL((void*)0); |
3484 | PL_regmatch_state = SLAB_FIRST(PL_regmatch_slab)(&(PL_regmatch_slab)->states[0]); |
3485 | } |
3486 | |
3487 | old_regmatch_state = PL_regmatch_state; |
3488 | old_regmatch_slab = PL_regmatch_slab; |
3489 | |
3490 | for (i=0; i <= max; i++) { |
3491 | if (i == 1) |
3492 | reginfo->info_aux = &(PL_regmatch_state->u.info_aux); |
3493 | else if (i ==2) |
3494 | reginfo->info_aux_eval = |
3495 | reginfo->info_aux->info_aux_eval = |
3496 | &(PL_regmatch_state->u.info_aux_eval); |
3497 | |
3498 | if (++PL_regmatch_state > SLAB_LAST(PL_regmatch_slab)(&(PL_regmatch_slab)->states[((4096 - 3 * sizeof (void *)) / sizeof(regmatch_state))-1])) |
3499 | PL_regmatch_state = S_push_slab(aTHX); |
3500 | } |
3501 | |
3502 | /* note initial PL_regmatch_state position; at end of match we'll |
3503 | * pop back to there and free any higher slabs */ |
3504 | |
3505 | reginfo->info_aux->old_regmatch_state = old_regmatch_state; |
3506 | reginfo->info_aux->old_regmatch_slab = old_regmatch_slab; |
3507 | reginfo->info_aux->poscache = NULL((void*)0); |
3508 | |
3509 | SAVEDESTRUCTOR_X(S_cleanup_regmatch_info_aux, reginfo->info_aux)Perl_save_destructor_x( (DESTRUCTORFUNC_t)(S_cleanup_regmatch_info_aux ),(void*)(reginfo->info_aux)); |
3510 | |
3511 | if ((prog->extflags & RXf_EVAL_SEEN(1U<<(((0 +12) + 2)+3)))) |
3512 | S_setup_eval_state(aTHX_ reginfo); |
3513 | else |
3514 | reginfo->info_aux_eval = reginfo->info_aux->info_aux_eval = NULL((void*)0); |
3515 | } |
3516 | |
3517 | /* If there is a "must appear" string, look for it. */ |
3518 | |
3519 | if (PL_curpm && (PM_GETRE(PL_curpm)((PL_curpm)->op_pmregexp) == rx)) { |
3520 | /* We have to be careful. If the previous successful match |
3521 | was from this regex we don't want a subsequent partially |
3522 | successful match to clobber the old results. |
3523 | So when we detect this possibility we add a swap buffer |
3524 | to the re, and switch the buffer each match. If we fail, |
3525 | we switch it back; otherwise we leave it swapped. |
3526 | */ |
3527 | swap = prog->offs; |
3528 | /* avoid leak if we die, or clean up anyway if match completes */ |
3529 | SAVEFREEPV(swap)Perl_save_pushptr( (void *)((char*)(swap)),10); |
3530 | Newxz(prog->offs, (prog->nparens + 1), regexp_paren_pair)(prog->offs = ((void)(__builtin_expect(((((( sizeof(size_t ) < sizeof((prog->nparens + 1)) || sizeof(regexp_paren_pair ) > ((size_t)1 << 8*(sizeof(size_t) - sizeof((prog-> nparens + 1))))) ? (size_t)((prog->nparens + 1)) : ((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(((prog->nparens + 1)),sizeof(regexp_paren_pair))))); |
3531 | DEBUG_BUFFERS_r(Perl_re_exec_indentf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "rex=0x%" "lx" " saving offs: orig=0x%" "lx" " new=0x%" "lx" "\n", 0, (UV)(prog), (UV)(swap), (UV)(prog->offs) );} while (0) |
3532 | "rex=0x%" UVxf " saving offs: orig=0x%" UVxf " new=0x%" UVxf "\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "rex=0x%" "lx" " saving offs: orig=0x%" "lx" " new=0x%" "lx" "\n", 0, (UV)(prog), (UV)(swap), (UV)(prog->offs) );} while (0) |
3533 | 0,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "rex=0x%" "lx" " saving offs: orig=0x%" "lx" " new=0x%" "lx" "\n", 0, (UV)(prog), (UV)(swap), (UV)(prog->offs) );} while (0) |
3534 | PTR2UV(prog),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "rex=0x%" "lx" " saving offs: orig=0x%" "lx" " new=0x%" "lx" "\n", 0, (UV)(prog), (UV)(swap), (UV)(prog->offs) );} while (0) |
3535 | PTR2UV(swap),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "rex=0x%" "lx" " saving offs: orig=0x%" "lx" " new=0x%" "lx" "\n", 0, (UV)(prog), (UV)(swap), (UV)(prog->offs) );} while (0) |
3536 | PTR2UV(prog->offs)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "rex=0x%" "lx" " saving offs: orig=0x%" "lx" " new=0x%" "lx" "\n", 0, (UV)(prog), (UV)(swap), (UV)(prog->offs) );} while (0) |
3537 | ))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "rex=0x%" "lx" " saving offs: orig=0x%" "lx" " new=0x%" "lx" "\n", 0, (UV)(prog), (UV)(swap), (UV)(prog->offs) );} while (0); |
3538 | } |
3539 | |
3540 | if (prog->recurse_locinput) |
3541 | Zero(prog->recurse_locinput,prog->nparens + 1, char *)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(prog ->nparens + 1) || sizeof(char *) > ((size_t)1 << 8 *(sizeof(size_t) - sizeof(prog->nparens + 1)))) ? (size_t) (prog->nparens + 1) : ((size_t)-1)/sizeof(char *)) > (( size_t)-1)/sizeof(char *))) ? (_Bool)1 : (_Bool)0),(0)) && (Perl_croak_memory_wrap(),0)), ((((void*)(prog->recurse_locinput )) != 0) ? (void)0 : __assert2("re_exec.c", 3541, __func__, "((void*)(prog->recurse_locinput)) != 0" )), (void)memset((char*)(prog->recurse_locinput),0,(prog-> nparens + 1) * sizeof(char *))); |
3542 | |
3543 | /* Simplest case: anchored match need be tried only once, or with |
3544 | * MBOL, only at the beginning of each line. |
3545 | * |
3546 | * Note that /.*.../ sets PREGf_IMPLICIT|MBOL, while /.*.../s sets |
3547 | * PREGf_IMPLICIT|SBOL. The idea is that with /.*.../s, if it doesn't |
3548 | * match at the start of the string then it won't match anywhere else |
3549 | * either; while with /.*.../, if it doesn't match at the beginning, |
3550 | * the earliest it could match is at the start of the next line */ |
3551 | |
3552 | if (prog->intflags & (PREGf_ANCH( 0x00000800 | 0x00001000 | 0x00000400 ) & ~PREGf_ANCH_GPOS0x00001000)) { |
3553 | char *end; |
3554 | |
3555 | if (regtry(reginfo, &s)S_regtry( reginfo,&s)) |
3556 | goto got_it; |
3557 | |
3558 | if (!(prog->intflags & PREGf_ANCH_MBOL0x00000400)) |
3559 | goto phooey; |
3560 | |
3561 | /* didn't match at start, try at other newline positions */ |
3562 | |
3563 | if (minlen) |
3564 | dontbother = minlen - 1; |
3565 | end = HOP3c(strend, -dontbother, strbeg)((char*)(reginfo->is_utf8_target ? S_reghop3((U8*)(strend) , -dontbother, (U8*)(strbeg)) : (U8*)(strend + -dontbother))) - 1; |
3566 | |
3567 | /* skip to next newline */ |
3568 | |
3569 | while (s <= end) { /* note it could be possible to match at the end of the string */ |
3570 | /* NB: newlines are the same in unicode as they are in latin */ |
3571 | if (*s++ != '\n') |
3572 | continue; |
3573 | if (prog->check_substrsubstrs->data[2].substr || prog->check_utf8substrs->data[2].utf8_substr) { |
3574 | /* note that with PREGf_IMPLICIT, intuit can only fail |
3575 | * or return the start position, so it's of limited utility. |
3576 | * Nevertheless, I made the decision that the potential for |
3577 | * quick fail was still worth it - DAPM */ |
3578 | s = re_intuit_start(rx, sv, strbeg, s, strend, flags, NULL)my_re_intuit_start( rx,sv,strbeg,s,strend,flags,((void*)0)); |
3579 | if (!s) |
3580 | goto phooey; |
3581 | } |
3582 | if (regtry(reginfo, &s)S_regtry( reginfo,&s)) |
3583 | goto got_it; |
3584 | } |
3585 | goto phooey; |
3586 | } /* end anchored search */ |
3587 | |
3588 | if (prog->intflags & PREGf_ANCH_GPOS0x00001000) |
3589 | { |
3590 | /* PREGf_ANCH_GPOS should never be true if PREGf_GPOS_SEEN is not true */ |
3591 | assert(prog->intflags & PREGf_GPOS_SEEN)((prog->intflags & 0x00000100) ? (void)0 : __assert2("re_exec.c" , 3591, __func__, "prog->intflags & PREGf_GPOS_SEEN")); |
3592 | /* For anchored \G, the only position it can match from is |
3593 | * (ganch-gofs); we already set startpos to this above; if intuit |
3594 | * moved us on from there, we can't possibly succeed */ |
3595 | assert(startpos == HOPBACKc(reginfo->ganch, prog->gofs))((startpos == ((char*)(reginfo->is_utf8_target ? S_reghopmaybe3 ((U8*)reginfo->ganch, (ssize_t)0-prog->gofs, (U8*)(reginfo ->strbeg)) : (reginfo->ganch - prog->gofs >= reginfo ->strbeg) ? (U8*)reginfo->ganch - prog->gofs : ((void *)0)))) ? (void)0 : __assert2("re_exec.c", 3595, __func__, "startpos == HOPBACKc(reginfo->ganch, prog->gofs)" )); |
3596 | if (s == startpos && regtry(reginfo, &s)S_regtry( reginfo,&s)) |
3597 | goto got_it; |
3598 | goto phooey; |
3599 | } |
3600 | |
3601 | /* Messy cases: unanchored match. */ |
3602 | if ((prog->anchored_substrsubstrs->data[0].substr || prog->anchored_utf8substrs->data[0].utf8_substr) && prog->intflags & PREGf_SKIP0x00000001) { |
3603 | /* we have /x+whatever/ */ |
3604 | /* it must be a one character string (XXXX Except is_utf8_pat?) */ |
3605 | char ch; |
3606 | #ifdef DEBUGGING |
3607 | int did_match = 0; |
3608 | #endif |
3609 | if (utf8_target) { |
3610 | if (! prog->anchored_utf8substrs->data[0].utf8_substr) { |
3611 | to_utf8_substr(prog)S_to_utf8_substr( prog); |
3612 | } |
3613 | ch = SvPVX_const(prog->anchored_utf8)((const char*)(0 + (prog->substrs->data[0].utf8_substr) ->sv_u.svu_pv))[0]; |
3614 | REXEC_FBC_SCAN(0, /* 0=>not-utf8 */do { while (s < strend) { if (*s == ch) { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x00FF00))) did_match = 1;} while (0); if (S_regtry( reginfo,&s)) goto got_it; s += ((((strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 3618, __func__, "(strend) >= (s)" )), ((strend) - (s)) <= 0 ? 0 : (((((strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((strend) - (s))):(PL_utf8skip[*(const U8 *)(s)]))); while (s < strend && *s == ch) s += PL_utf8skip [*(const U8*)(s)]; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 3622, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0) |
3615 | if (*s == ch) {do { while (s < strend) { if (*s == ch) { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x00FF00))) did_match = 1;} while (0); if (S_regtry( reginfo,&s)) goto got_it; s += ((((strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 3618, __func__, "(strend) >= (s)" )), ((strend) - (s)) <= 0 ? 0 : (((((strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((strend) - (s))):(PL_utf8skip[*(const U8 *)(s)]))); while (s < strend && *s == ch) s += PL_utf8skip [*(const U8*)(s)]; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 3622, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0) |
3616 | DEBUG_EXECUTE_r( did_match = 1 );do { while (s < strend) { if (*s == ch) { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x00FF00))) did_match = 1;} while (0); if (S_regtry( reginfo,&s)) goto got_it; s += ((((strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 3618, __func__, "(strend) >= (s)" )), ((strend) - (s)) <= 0 ? 0 : (((((strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((strend) - (s))):(PL_utf8skip[*(const U8 *)(s)]))); while (s < strend && *s == ch) s += PL_utf8skip [*(const U8*)(s)]; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 3622, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0) |
3617 | if (regtry(reginfo, &s)) goto got_it;do { while (s < strend) { if (*s == ch) { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x00FF00))) did_match = 1;} while (0); if (S_regtry( reginfo,&s)) goto got_it; s += ((((strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 3618, __func__, "(strend) >= (s)" )), ((strend) - (s)) <= 0 ? 0 : (((((strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((strend) - (s))):(PL_utf8skip[*(const U8 *)(s)]))); while (s < strend && *s == ch) s += PL_utf8skip [*(const U8*)(s)]; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 3622, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0) |
3618 | s += UTF8_SAFE_SKIP(s, strend);do { while (s < strend) { if (*s == ch) { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x00FF00))) did_match = 1;} while (0); if (S_regtry( reginfo,&s)) goto got_it; s += ((((strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 3618, __func__, "(strend) >= (s)" )), ((strend) - (s)) <= 0 ? 0 : (((((strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((strend) - (s))):(PL_utf8skip[*(const U8 *)(s)]))); while (s < strend && *s == ch) s += PL_utf8skip [*(const U8*)(s)]; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 3622, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0) |
3619 | while (s < strend && *s == ch)do { while (s < strend) { if (*s == ch) { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x00FF00))) did_match = 1;} while (0); if (S_regtry( reginfo,&s)) goto got_it; s += ((((strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 3618, __func__, "(strend) >= (s)" )), ((strend) - (s)) <= 0 ? 0 : (((((strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((strend) - (s))):(PL_utf8skip[*(const U8 *)(s)]))); while (s < strend && *s == ch) s += PL_utf8skip [*(const U8*)(s)]; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 3622, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0) |
3620 | s += UTF8SKIP(s);do { while (s < strend) { if (*s == ch) { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x00FF00))) did_match = 1;} while (0); if (S_regtry( reginfo,&s)) goto got_it; s += ((((strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 3618, __func__, "(strend) >= (s)" )), ((strend) - (s)) <= 0 ? 0 : (((((strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((strend) - (s))):(PL_utf8skip[*(const U8 *)(s)]))); while (s < strend && *s == ch) s += PL_utf8skip [*(const U8*)(s)]; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 3622, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0) |
3621 | }do { while (s < strend) { if (*s == ch) { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x00FF00))) did_match = 1;} while (0); if (S_regtry( reginfo,&s)) goto got_it; s += ((((strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 3618, __func__, "(strend) >= (s)" )), ((strend) - (s)) <= 0 ? 0 : (((((strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((strend) - (s))):(PL_utf8skip[*(const U8 *)(s)]))); while (s < strend && *s == ch) s += PL_utf8skip [*(const U8*)(s)]; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 3622, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0) |
3622 | )do { while (s < strend) { if (*s == ch) { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x00FF00))) did_match = 1;} while (0); if (S_regtry( reginfo,&s)) goto got_it; s += ((((strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 3618, __func__, "(strend) >= (s)" )), ((strend) - (s)) <= 0 ? 0 : (((((strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((strend) - (s))):(PL_utf8skip[*(const U8 *)(s)]))); while (s < strend && *s == ch) s += PL_utf8skip [*(const U8*)(s)]; } s += ((0) ? ((((reginfo->strend) >= (s)) ? (void)0 : __assert2("re_exec.c", 3622, __func__, "(reginfo->strend) >= (s)" )), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo-> strend) - (s)))<(PL_utf8skip[*(const U8*)(s)]))?(((reginfo ->strend) - (s))):(PL_utf8skip[*(const U8*)(s)]))) : 1); } } while (0); |
3623 | |
3624 | } |
3625 | else { |
3626 | if (! prog->anchored_substrsubstrs->data[0].substr) { |
3627 | if (! to_byte_substr(prog)S_to_byte_substr( prog)) { |
3628 | NON_UTF8_TARGET_BUT_UTF8_REQUIRED(phooey)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00)) ) Perl_re_printf( "%s", non_utf8_target_but_utf8_required);} while (0); goto phooey; } while (0); |
3629 | } |
3630 | } |
3631 | ch = SvPVX_const(prog->anchored_substr)((const char*)(0 + (prog->substrs->data[0].substr)-> sv_u.svu_pv))[0]; |
3632 | REXEC_FBC_SCAN(0, /* 0=>not-utf8 */do { while (s < strend) { if (*s == ch) { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x00FF00))) did_match = 1;} while (0); if (S_regtry( reginfo,&s)) goto got_it; s++; while (s < strend && *s == ch) s++; } s += ((0) ? ((((reginfo->strend ) >= (s)) ? (void)0 : __assert2("re_exec.c", 3640, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1); } } while (0) |
3633 | if (*s == ch) {do { while (s < strend) { if (*s == ch) { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x00FF00))) did_match = 1;} while (0); if (S_regtry( reginfo,&s)) goto got_it; s++; while (s < strend && *s == ch) s++; } s += ((0) ? ((((reginfo->strend ) >= (s)) ? (void)0 : __assert2("re_exec.c", 3640, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1); } } while (0) |
3634 | DEBUG_EXECUTE_r( did_match = 1 );do { while (s < strend) { if (*s == ch) { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x00FF00))) did_match = 1;} while (0); if (S_regtry( reginfo,&s)) goto got_it; s++; while (s < strend && *s == ch) s++; } s += ((0) ? ((((reginfo->strend ) >= (s)) ? (void)0 : __assert2("re_exec.c", 3640, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1); } } while (0) |
3635 | if (regtry(reginfo, &s)) goto got_it;do { while (s < strend) { if (*s == ch) { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x00FF00))) did_match = 1;} while (0); if (S_regtry( reginfo,&s)) goto got_it; s++; while (s < strend && *s == ch) s++; } s += ((0) ? ((((reginfo->strend ) >= (s)) ? (void)0 : __assert2("re_exec.c", 3640, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1); } } while (0) |
3636 | s++;do { while (s < strend) { if (*s == ch) { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x00FF00))) did_match = 1;} while (0); if (S_regtry( reginfo,&s)) goto got_it; s++; while (s < strend && *s == ch) s++; } s += ((0) ? ((((reginfo->strend ) >= (s)) ? (void)0 : __assert2("re_exec.c", 3640, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1); } } while (0) |
3637 | while (s < strend && *s == ch)do { while (s < strend) { if (*s == ch) { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x00FF00))) did_match = 1;} while (0); if (S_regtry( reginfo,&s)) goto got_it; s++; while (s < strend && *s == ch) s++; } s += ((0) ? ((((reginfo->strend ) >= (s)) ? (void)0 : __assert2("re_exec.c", 3640, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1); } } while (0) |
3638 | s++;do { while (s < strend) { if (*s == ch) { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x00FF00))) did_match = 1;} while (0); if (S_regtry( reginfo,&s)) goto got_it; s++; while (s < strend && *s == ch) s++; } s += ((0) ? ((((reginfo->strend ) >= (s)) ? (void)0 : __assert2("re_exec.c", 3640, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1); } } while (0) |
3639 | }do { while (s < strend) { if (*s == ch) { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x00FF00))) did_match = 1;} while (0); if (S_regtry( reginfo,&s)) goto got_it; s++; while (s < strend && *s == ch) s++; } s += ((0) ? ((((reginfo->strend ) >= (s)) ? (void)0 : __assert2("re_exec.c", 3640, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1); } } while (0) |
3640 | )do { while (s < strend) { if (*s == ch) { do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x00FF00))) did_match = 1;} while (0); if (S_regtry( reginfo,&s)) goto got_it; s++; while (s < strend && *s == ch) s++; } s += ((0) ? ((((reginfo->strend ) >= (s)) ? (void)0 : __assert2("re_exec.c", 3640, __func__ , "(reginfo->strend) >= (s)")), ((reginfo->strend) - (s)) <= 0 ? 0 : (((((reginfo->strend) - (s)))<(PL_utf8skip [*(const U8*)(s)]))?(((reginfo->strend) - (s))):(PL_utf8skip [*(const U8*)(s)]))) : 1); } } while (0); |
3641 | } |
3642 | DEBUG_EXECUTE_r(if (!did_match)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( !did_match) Perl_re_printf( "Did not find anchored character...\n" );} while (0) |
3643 | Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( !did_match) Perl_re_printf( "Did not find anchored character...\n" );} while (0) |
3644 | "Did not find anchored character...\n")do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( !did_match) Perl_re_printf( "Did not find anchored character...\n" );} while (0) |
3645 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( !did_match) Perl_re_printf( "Did not find anchored character...\n" );} while (0); |
3646 | } |
3647 | else if (prog->anchored_substrsubstrs->data[0].substr != NULL((void*)0) |
3648 | || prog->anchored_utf8substrs->data[0].utf8_substr != NULL((void*)0) |
3649 | || ((prog->float_substrsubstrs->data[1].substr != NULL((void*)0) || prog->float_utf8substrs->data[1].utf8_substr != NULL((void*)0)) |
3650 | && prog->float_max_offsetsubstrs->data[1].max_offset < strend - s)) { |
3651 | SV *must; |
3652 | SSize_tssize_t back_max; |
3653 | SSize_tssize_t back_min; |
3654 | char *last; |
3655 | char *last1; /* Last position checked before */ |
3656 | #ifdef DEBUGGING |
3657 | int did_match = 0; |
3658 | #endif |
3659 | if (prog->anchored_substrsubstrs->data[0].substr || prog->anchored_utf8substrs->data[0].utf8_substr) { |
3660 | if (utf8_target) { |
3661 | if (! prog->anchored_utf8substrs->data[0].utf8_substr) { |
3662 | to_utf8_substr(prog)S_to_utf8_substr( prog); |
3663 | } |
3664 | must = prog->anchored_utf8substrs->data[0].utf8_substr; |
3665 | } |
3666 | else { |
3667 | if (! prog->anchored_substrsubstrs->data[0].substr) { |
3668 | if (! to_byte_substr(prog)S_to_byte_substr( prog)) { |
3669 | NON_UTF8_TARGET_BUT_UTF8_REQUIRED(phooey)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00)) ) Perl_re_printf( "%s", non_utf8_target_but_utf8_required);} while (0); goto phooey; } while (0); |
3670 | } |
3671 | } |
3672 | must = prog->anchored_substrsubstrs->data[0].substr; |
3673 | } |
3674 | back_max = back_min = prog->anchored_offsetsubstrs->data[0].min_offset; |
3675 | } else { |
3676 | if (utf8_target) { |
3677 | if (! prog->float_utf8substrs->data[1].utf8_substr) { |
3678 | to_utf8_substr(prog)S_to_utf8_substr( prog); |
3679 | } |
3680 | must = prog->float_utf8substrs->data[1].utf8_substr; |
3681 | } |
3682 | else { |
3683 | if (! prog->float_substrsubstrs->data[1].substr) { |
3684 | if (! to_byte_substr(prog)S_to_byte_substr( prog)) { |
3685 | NON_UTF8_TARGET_BUT_UTF8_REQUIRED(phooey)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00)) ) Perl_re_printf( "%s", non_utf8_target_but_utf8_required);} while (0); goto phooey; } while (0); |
3686 | } |
3687 | } |
3688 | must = prog->float_substrsubstrs->data[1].substr; |
3689 | } |
3690 | back_max = prog->float_max_offsetsubstrs->data[1].max_offset; |
3691 | back_min = prog->float_min_offsetsubstrs->data[1].min_offset; |
3692 | } |
3693 | |
3694 | if (back_min<0) { |
3695 | last = strend; |
3696 | } else { |
3697 | last = HOP3c(strend, /* Cannot start after this */((char*)(reginfo->is_utf8_target ? S_reghop3((U8*)(strend) , -(ssize_t)((utf8_target ? Perl_sv_len_utf8( must) : (*({ const SV *const _svcur = (const SV *)(must); ((PL_valid_types_PVX[ ((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3698, __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_exec.c", 3698, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3698, __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 *)(must); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 3699, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 3699, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 3699, __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_exec.c", 3699, __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_exec.c" , 3699, __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_exec.c", 3699, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) != 0) + back_min), (U8*)(strbeg)) : (U8*)(strend + -(ssize_t)((utf8_target ? Perl_sv_len_utf8( must) : (*({ const SV *const _svcur = (const SV *)(must); ((PL_valid_types_PVX[ ((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3698, __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_exec.c", 3698, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3698, __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 *)(must); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 3699, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 3699, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 3699, __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_exec.c", 3699, __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_exec.c" , 3699, __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_exec.c", 3699, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) != 0) + back_min)))) |
3698 | -(SSize_t)(CHR_SVLEN(must)((char*)(reginfo->is_utf8_target ? S_reghop3((U8*)(strend) , -(ssize_t)((utf8_target ? Perl_sv_len_utf8( must) : (*({ const SV *const _svcur = (const SV *)(must); ((PL_valid_types_PVX[ ((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3698, __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_exec.c", 3698, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3698, __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 *)(must); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 3699, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 3699, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 3699, __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_exec.c", 3699, __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_exec.c" , 3699, __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_exec.c", 3699, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) != 0) + back_min), (U8*)(strbeg)) : (U8*)(strend + -(ssize_t)((utf8_target ? Perl_sv_len_utf8( must) : (*({ const SV *const _svcur = (const SV *)(must); ((PL_valid_types_PVX[ ((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3698, __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_exec.c", 3698, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3698, __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 *)(must); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 3699, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 3699, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 3699, __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_exec.c", 3699, __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_exec.c" , 3699, __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_exec.c", 3699, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) != 0) + back_min)))) |
3699 | - (SvTAIL(must) != 0) + back_min), strbeg)((char*)(reginfo->is_utf8_target ? S_reghop3((U8*)(strend) , -(ssize_t)((utf8_target ? Perl_sv_len_utf8( must) : (*({ const SV *const _svcur = (const SV *)(must); ((PL_valid_types_PVX[ ((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3698, __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_exec.c", 3698, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3698, __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 *)(must); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 3699, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 3699, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 3699, __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_exec.c", 3699, __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_exec.c" , 3699, __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_exec.c", 3699, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) != 0) + back_min), (U8*)(strbeg)) : (U8*)(strend + -(ssize_t)((utf8_target ? Perl_sv_len_utf8( must) : (*({ const SV *const _svcur = (const SV *)(must); ((PL_valid_types_PVX[ ((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3698, __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_exec.c", 3698, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3698, __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 *)(must); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 3699, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 3699, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 3699, __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_exec.c", 3699, __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_exec.c" , 3699, __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_exec.c", 3699, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) != 0) + back_min)))); |
3700 | } |
3701 | if (s > reginfo->strbeg) |
3702 | last1 = HOPc(s, -1)(char *)(reginfo->is_utf8_target ? S_reghop3((U8*)s, -1, ( U8*)(-1 >= 0 ? reginfo->strend : reginfo->strbeg)) : (U8*)(s + -1)); |
3703 | else |
3704 | last1 = s - 1; /* bogus */ |
3705 | |
3706 | /* XXXX check_substr already used to find "s", can optimize if |
3707 | check_substr==must. */ |
3708 | dontbother = 0; |
3709 | strend = HOPc(strend, -dontbother)(char *)(reginfo->is_utf8_target ? S_reghop3((U8*)strend, - dontbother, (U8*)(-dontbother >= 0 ? reginfo->strend : reginfo ->strbeg)) : (U8*)(strend + -dontbother)); |
3710 | while ( (s <= last) && |
3711 | (s = fbm_instr((unsigned char*)HOP4c(s, back_min, strbeg, strend),Perl_fbm_instr( (unsigned char*)((char*)(reginfo->is_utf8_target ? S_reghop4((U8*)(s), back_min, (U8*)(strbeg), (U8*)(strend) ) : (U8*)(s + back_min))),(unsigned char*)strend,must,multiline ? 1 : 0) |
3712 | (unsigned char*)strend, must,Perl_fbm_instr( (unsigned char*)((char*)(reginfo->is_utf8_target ? S_reghop4((U8*)(s), back_min, (U8*)(strbeg), (U8*)(strend) ) : (U8*)(s + back_min))),(unsigned char*)strend,must,multiline ? 1 : 0) |
3713 | multiline ? FBMrf_MULTILINE : 0)Perl_fbm_instr( (unsigned char*)((char*)(reginfo->is_utf8_target ? S_reghop4((U8*)(s), back_min, (U8*)(strbeg), (U8*)(strend) ) : (U8*)(s + back_min))),(unsigned char*)strend,must,multiline ? 1 : 0)) ) { |
3714 | DEBUG_EXECUTE_r( did_match = 1 )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) did_match = 1;} while (0); |
3715 | if (HOPc(s, -back_max)(char *)(reginfo->is_utf8_target ? S_reghop3((U8*)s, -back_max , (U8*)(-back_max >= 0 ? reginfo->strend : reginfo-> strbeg)) : (U8*)(s + -back_max)) > last1) { |
3716 | last1 = HOPc(s, -back_min)(char *)(reginfo->is_utf8_target ? S_reghop3((U8*)s, -back_min , (U8*)(-back_min >= 0 ? reginfo->strend : reginfo-> strbeg)) : (U8*)(s + -back_min)); |
3717 | s = HOPc(s, -back_max)(char *)(reginfo->is_utf8_target ? S_reghop3((U8*)s, -back_max , (U8*)(-back_max >= 0 ? reginfo->strend : reginfo-> strbeg)) : (U8*)(s + -back_max)); |
3718 | } |
3719 | else { |
3720 | char * const t = (last1 >= reginfo->strbeg) |
3721 | ? HOPc(last1, 1)(char *)(reginfo->is_utf8_target ? S_reghop3((U8*)last1, 1 , (U8*)(1 >= 0 ? reginfo->strend : reginfo->strbeg)) : (U8*)(last1 + 1)) : last1 + 1; |
3722 | |
3723 | last1 = HOPc(s, -back_min)(char *)(reginfo->is_utf8_target ? S_reghop3((U8*)s, -back_min , (U8*)(-back_min >= 0 ? reginfo->strend : reginfo-> strbeg)) : (U8*)(s + -back_min)); |
3724 | s = t; |
3725 | } |
3726 | if (utf8_target) { |
3727 | while (s <= last1) { |
3728 | if (regtry(reginfo, &s)S_regtry( reginfo,&s)) |
3729 | goto got_it; |
3730 | if (s >= last1) { |
3731 | s++; /* to break out of outer loop */ |
3732 | break; |
3733 | } |
3734 | s += UTF8SKIP(s)PL_utf8skip[*(const U8*)(s)]; |
3735 | } |
3736 | } |
3737 | else { |
3738 | while (s <= last1) { |
3739 | if (regtry(reginfo, &s)S_regtry( reginfo,&s)) |
3740 | goto got_it; |
3741 | s++; |
3742 | } |
3743 | } |
3744 | } |
3745 | DEBUG_EXECUTE_r(if (!did_match) {do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( !did_match) { const char * const quoted = Perl_pv_pretty( ((( *({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad .pad[0])); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c" , 3746, __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_exec.c", 3746, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3746, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (must)->sv_u.svu_pv))),(((* ({ const SV *const _svcur = (const SV *)(must); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3747, __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_exec.c", 3747, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3747, __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 *)(must); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 3747, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 3747, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 3747, __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_exec.c", 3747, __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_exec.c" , 3747, __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_exec.c", 3747, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( "Did not find %s substr %s%s...\n", ( (must == prog->substrs->data[0].substr || must == prog-> substrs->data[0].utf8_substr) ? "anchored" : "floating"), quoted , (({ const SV *const _svtail = (const SV *)(must); ((((svtype )((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 3751, __func__, "SvTYPE(_svtail) != SVt_PVAV" )); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV ) ? (void)0 : __assert2("re_exec.c", 3751, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 3751, __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_exec.c", 3751, __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_exec.c" , 3751, __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_exec.c", 3751, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : "")); };} while (0) |
3746 | RE_PV_QUOTED_DECL(quoted, utf8_target, PERL_DEBUG_PAD_ZERO(0),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( !did_match) { const char * const quoted = Perl_pv_pretty( ((( *({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad .pad[0])); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c" , 3746, __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_exec.c", 3746, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3746, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (must)->sv_u.svu_pv))),(((* ({ const SV *const _svcur = (const SV *)(must); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3747, __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_exec.c", 3747, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3747, __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 *)(must); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 3747, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 3747, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 3747, __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_exec.c", 3747, __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_exec.c" , 3747, __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_exec.c", 3747, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( "Did not find %s substr %s%s...\n", ( (must == prog->substrs->data[0].substr || must == prog-> substrs->data[0].utf8_substr) ? "anchored" : "floating"), quoted , (({ const SV *const _svtail = (const SV *)(must); ((((svtype )((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 3751, __func__, "SvTYPE(_svtail) != SVt_PVAV" )); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV ) ? (void)0 : __assert2("re_exec.c", 3751, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 3751, __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_exec.c", 3751, __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_exec.c" , 3751, __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_exec.c", 3751, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : "")); };} while (0) |
3747 | SvPVX_const(must), RE_SV_DUMPLEN(must), 30);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( !did_match) { const char * const quoted = Perl_pv_pretty( ((( *({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad .pad[0])); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c" , 3746, __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_exec.c", 3746, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3746, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (must)->sv_u.svu_pv))),(((* ({ const SV *const _svcur = (const SV *)(must); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3747, __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_exec.c", 3747, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3747, __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 *)(must); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 3747, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 3747, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 3747, __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_exec.c", 3747, __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_exec.c" , 3747, __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_exec.c", 3747, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( "Did not find %s substr %s%s...\n", ( (must == prog->substrs->data[0].substr || must == prog-> substrs->data[0].utf8_substr) ? "anchored" : "floating"), quoted , (({ const SV *const _svtail = (const SV *)(must); ((((svtype )((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 3751, __func__, "SvTYPE(_svtail) != SVt_PVAV" )); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV ) ? (void)0 : __assert2("re_exec.c", 3751, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 3751, __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_exec.c", 3751, __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_exec.c" , 3751, __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_exec.c", 3751, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : "")); };} while (0) |
3748 | Perl_re_printf( aTHX_ "Did not find %s substr %s%s...\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( !did_match) { const char * const quoted = Perl_pv_pretty( ((( *({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad .pad[0])); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c" , 3746, __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_exec.c", 3746, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3746, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (must)->sv_u.svu_pv))),(((* ({ const SV *const _svcur = (const SV *)(must); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3747, __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_exec.c", 3747, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3747, __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 *)(must); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 3747, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 3747, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 3747, __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_exec.c", 3747, __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_exec.c" , 3747, __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_exec.c", 3747, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( "Did not find %s substr %s%s...\n", ( (must == prog->substrs->data[0].substr || must == prog-> substrs->data[0].utf8_substr) ? "anchored" : "floating"), quoted , (({ const SV *const _svtail = (const SV *)(must); ((((svtype )((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 3751, __func__, "SvTYPE(_svtail) != SVt_PVAV" )); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV ) ? (void)0 : __assert2("re_exec.c", 3751, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 3751, __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_exec.c", 3751, __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_exec.c" , 3751, __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_exec.c", 3751, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : "")); };} while (0) |
3749 | ((must == prog->anchored_substr || must == prog->anchored_utf8)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( !did_match) { const char * const quoted = Perl_pv_pretty( ((( *({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad .pad[0])); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c" , 3746, __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_exec.c", 3746, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3746, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (must)->sv_u.svu_pv))),(((* ({ const SV *const _svcur = (const SV *)(must); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3747, __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_exec.c", 3747, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3747, __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 *)(must); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 3747, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 3747, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 3747, __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_exec.c", 3747, __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_exec.c" , 3747, __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_exec.c", 3747, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( "Did not find %s substr %s%s...\n", ( (must == prog->substrs->data[0].substr || must == prog-> substrs->data[0].utf8_substr) ? "anchored" : "floating"), quoted , (({ const SV *const _svtail = (const SV *)(must); ((((svtype )((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 3751, __func__, "SvTYPE(_svtail) != SVt_PVAV" )); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV ) ? (void)0 : __assert2("re_exec.c", 3751, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 3751, __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_exec.c", 3751, __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_exec.c" , 3751, __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_exec.c", 3751, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : "")); };} while (0) |
3750 | ? "anchored" : "floating"),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( !did_match) { const char * const quoted = Perl_pv_pretty( ((( *({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad .pad[0])); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c" , 3746, __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_exec.c", 3746, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3746, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (must)->sv_u.svu_pv))),(((* ({ const SV *const _svcur = (const SV *)(must); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3747, __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_exec.c", 3747, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3747, __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 *)(must); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 3747, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 3747, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 3747, __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_exec.c", 3747, __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_exec.c" , 3747, __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_exec.c", 3747, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( "Did not find %s substr %s%s...\n", ( (must == prog->substrs->data[0].substr || must == prog-> substrs->data[0].utf8_substr) ? "anchored" : "floating"), quoted , (({ const SV *const _svtail = (const SV *)(must); ((((svtype )((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 3751, __func__, "SvTYPE(_svtail) != SVt_PVAV" )); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV ) ? (void)0 : __assert2("re_exec.c", 3751, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 3751, __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_exec.c", 3751, __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_exec.c" , 3751, __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_exec.c", 3751, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : "")); };} while (0) |
3751 | quoted, RE_SV_TAIL(must));do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( !did_match) { const char * const quoted = Perl_pv_pretty( ((( *({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad .pad[0])); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c" , 3746, __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_exec.c", 3746, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3746, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (must)->sv_u.svu_pv))),(((* ({ const SV *const _svcur = (const SV *)(must); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3747, __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_exec.c", 3747, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3747, __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 *)(must); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 3747, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 3747, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 3747, __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_exec.c", 3747, __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_exec.c" , 3747, __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_exec.c", 3747, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( "Did not find %s substr %s%s...\n", ( (must == prog->substrs->data[0].substr || must == prog-> substrs->data[0].utf8_substr) ? "anchored" : "floating"), quoted , (({ const SV *const _svtail = (const SV *)(must); ((((svtype )((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 3751, __func__, "SvTYPE(_svtail) != SVt_PVAV" )); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV ) ? (void)0 : __assert2("re_exec.c", 3751, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 3751, __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_exec.c", 3751, __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_exec.c" , 3751, __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_exec.c", 3751, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : "")); };} while (0) |
3752 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( !did_match) { const char * const quoted = Perl_pv_pretty( ((( *({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad .pad[0])); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c" , 3746, __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_exec.c", 3746, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3746, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),(((const char*)(0 + (must)->sv_u.svu_pv))),(((* ({ const SV *const _svcur = (const SV *)(must); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3747, __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_exec.c", 3747, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3747, __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 *)(must); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 3747, __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c", 3747, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 3747, __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_exec.c", 3747, __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_exec.c" , 3747, __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_exec.c", 3747, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })!=0))),(30),PL_colors[0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); Perl_re_printf( "Did not find %s substr %s%s...\n", ( (must == prog->substrs->data[0].substr || must == prog-> substrs->data[0].utf8_substr) ? "anchored" : "floating"), quoted , (({ const SV *const _svtail = (const SV *)(must); ((((svtype )((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 3751, __func__, "SvTYPE(_svtail) != SVt_PVAV" )); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV ) ? (void)0 : __assert2("re_exec.c", 3751, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 3751, __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_exec.c", 3751, __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_exec.c" , 3751, __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_exec.c", 3751, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; }) ? "$" : "")); };} while (0); |
3753 | goto phooey; |
3754 | } |
3755 | else if ( (c = progi->regstclass) ) { |
3756 | if (minlen) { |
3757 | const OPCODEU16 op = OP(progi->regstclass)((progi->regstclass)->type); |
3758 | /* don't bother with what can't match */ |
3759 | if (PL_regkind[op] != EXACT40 && PL_regkind[op] != TRIE88) |
3760 | strend = HOPc(strend, -(minlen - 1))(char *)(reginfo->is_utf8_target ? S_reghop3((U8*)strend, - (minlen - 1), (U8*)(-(minlen - 1) >= 0 ? reginfo->strend : reginfo->strbeg)) : (U8*)(strend + -(minlen - 1))); |
3761 | } |
3762 | DEBUG_EXECUTE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { SV * const prop = Perl_sv_newmortal(); my_regprop( prog,prop,c, reginfo,((void*)0)); { const char * const quoted = Perl_pv_pretty ( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad .pad[1])); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c" , 3766, __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_exec.c", 3766, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3766, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[1]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[1]))),(s),(strend-s),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target ) ? 0x000100 : 0))); Perl_re_printf( "Matching stclass %.*s against %s (%d bytes)\n" , (int)(*({ const SV *const _svcur = (const SV *)(prop); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3770, __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_exec.c", 3770, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3770, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })), ((const char*)(0 + (prop)->sv_u.svu_pv )), quoted, (int)(strend - s)); } };} while (0) |
3763 | SV * const prop = sv_newmortal();do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { SV * const prop = Perl_sv_newmortal(); my_regprop( prog,prop,c, reginfo,((void*)0)); { const char * const quoted = Perl_pv_pretty ( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad .pad[1])); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c" , 3766, __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_exec.c", 3766, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3766, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[1]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[1]))),(s),(strend-s),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target ) ? 0x000100 : 0))); Perl_re_printf( "Matching stclass %.*s against %s (%d bytes)\n" , (int)(*({ const SV *const _svcur = (const SV *)(prop); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3770, __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_exec.c", 3770, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3770, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })), ((const char*)(0 + (prop)->sv_u.svu_pv )), quoted, (int)(strend - s)); } };} while (0) |
3764 | regprop(prog, prop, c, reginfo, NULL);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { SV * const prop = Perl_sv_newmortal(); my_regprop( prog,prop,c, reginfo,((void*)0)); { const char * const quoted = Perl_pv_pretty ( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad .pad[1])); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c" , 3766, __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_exec.c", 3766, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3766, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[1]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[1]))),(s),(strend-s),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target ) ? 0x000100 : 0))); Perl_re_printf( "Matching stclass %.*s against %s (%d bytes)\n" , (int)(*({ const SV *const _svcur = (const SV *)(prop); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3770, __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_exec.c", 3770, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3770, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })), ((const char*)(0 + (prop)->sv_u.svu_pv )), quoted, (int)(strend - s)); } };} while (0) |
3765 | {do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { SV * const prop = Perl_sv_newmortal(); my_regprop( prog,prop,c, reginfo,((void*)0)); { const char * const quoted = Perl_pv_pretty ( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad .pad[1])); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c" , 3766, __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_exec.c", 3766, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3766, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[1]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[1]))),(s),(strend-s),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target ) ? 0x000100 : 0))); Perl_re_printf( "Matching stclass %.*s against %s (%d bytes)\n" , (int)(*({ const SV *const _svcur = (const SV *)(prop); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3770, __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_exec.c", 3770, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3770, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })), ((const char*)(0 + (prop)->sv_u.svu_pv )), quoted, (int)(strend - s)); } };} while (0) |
3766 | RE_PV_QUOTED_DECL(quoted,utf8_target,PERL_DEBUG_PAD_ZERO(1),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { SV * const prop = Perl_sv_newmortal(); my_regprop( prog,prop,c, reginfo,((void*)0)); { const char * const quoted = Perl_pv_pretty ( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad .pad[1])); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c" , 3766, __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_exec.c", 3766, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3766, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[1]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[1]))),(s),(strend-s),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target ) ? 0x000100 : 0))); Perl_re_printf( "Matching stclass %.*s against %s (%d bytes)\n" , (int)(*({ const SV *const _svcur = (const SV *)(prop); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3770, __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_exec.c", 3770, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3770, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })), ((const char*)(0 + (prop)->sv_u.svu_pv )), quoted, (int)(strend - s)); } };} while (0) |
3767 | s,strend-s,PL_dump_re_max_len);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { SV * const prop = Perl_sv_newmortal(); my_regprop( prog,prop,c, reginfo,((void*)0)); { const char * const quoted = Perl_pv_pretty ( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad .pad[1])); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c" , 3766, __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_exec.c", 3766, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3766, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[1]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[1]))),(s),(strend-s),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target ) ? 0x000100 : 0))); Perl_re_printf( "Matching stclass %.*s against %s (%d bytes)\n" , (int)(*({ const SV *const _svcur = (const SV *)(prop); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3770, __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_exec.c", 3770, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3770, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })), ((const char*)(0 + (prop)->sv_u.svu_pv )), quoted, (int)(strend - s)); } };} while (0) |
3768 | Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { SV * const prop = Perl_sv_newmortal(); my_regprop( prog,prop,c, reginfo,((void*)0)); { const char * const quoted = Perl_pv_pretty ( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad .pad[1])); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c" , 3766, __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_exec.c", 3766, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3766, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[1]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[1]))),(s),(strend-s),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target ) ? 0x000100 : 0))); Perl_re_printf( "Matching stclass %.*s against %s (%d bytes)\n" , (int)(*({ const SV *const _svcur = (const SV *)(prop); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3770, __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_exec.c", 3770, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3770, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })), ((const char*)(0 + (prop)->sv_u.svu_pv )), quoted, (int)(strend - s)); } };} while (0) |
3769 | "Matching stclass %.*s against %s (%d bytes)\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { SV * const prop = Perl_sv_newmortal(); my_regprop( prog,prop,c, reginfo,((void*)0)); { const char * const quoted = Perl_pv_pretty ( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad .pad[1])); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c" , 3766, __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_exec.c", 3766, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3766, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[1]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[1]))),(s),(strend-s),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target ) ? 0x000100 : 0))); Perl_re_printf( "Matching stclass %.*s against %s (%d bytes)\n" , (int)(*({ const SV *const _svcur = (const SV *)(prop); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3770, __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_exec.c", 3770, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3770, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })), ((const char*)(0 + (prop)->sv_u.svu_pv )), quoted, (int)(strend - s)); } };} while (0) |
3770 | (int)SvCUR(prop), SvPVX_const(prop),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { SV * const prop = Perl_sv_newmortal(); my_regprop( prog,prop,c, reginfo,((void*)0)); { const char * const quoted = Perl_pv_pretty ( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad .pad[1])); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c" , 3766, __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_exec.c", 3766, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3766, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[1]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[1]))),(s),(strend-s),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target ) ? 0x000100 : 0))); Perl_re_printf( "Matching stclass %.*s against %s (%d bytes)\n" , (int)(*({ const SV *const _svcur = (const SV *)(prop); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3770, __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_exec.c", 3770, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3770, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })), ((const char*)(0 + (prop)->sv_u.svu_pv )), quoted, (int)(strend - s)); } };} while (0) |
3771 | quoted, (int)(strend - s));do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { SV * const prop = Perl_sv_newmortal(); my_regprop( prog,prop,c, reginfo,((void*)0)); { const char * const quoted = Perl_pv_pretty ( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad .pad[1])); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c" , 3766, __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_exec.c", 3766, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3766, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[1]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[1]))),(s),(strend-s),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target ) ? 0x000100 : 0))); Perl_re_printf( "Matching stclass %.*s against %s (%d bytes)\n" , (int)(*({ const SV *const _svcur = (const SV *)(prop); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3770, __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_exec.c", 3770, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3770, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })), ((const char*)(0 + (prop)->sv_u.svu_pv )), quoted, (int)(strend - s)); } };} while (0) |
3772 | }do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { SV * const prop = Perl_sv_newmortal(); my_regprop( prog,prop,c, reginfo,((void*)0)); { const char * const quoted = Perl_pv_pretty ( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad .pad[1])); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c" , 3766, __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_exec.c", 3766, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3766, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[1]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[1]))),(s),(strend-s),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target ) ? 0x000100 : 0))); Perl_re_printf( "Matching stclass %.*s against %s (%d bytes)\n" , (int)(*({ const SV *const _svcur = (const SV *)(prop); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3770, __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_exec.c", 3770, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3770, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })), ((const char*)(0 + (prop)->sv_u.svu_pv )), quoted, (int)(strend - s)); } };} while (0) |
3773 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { SV * const prop = Perl_sv_newmortal(); my_regprop( prog,prop,c, reginfo,((void*)0)); { const char * const quoted = Perl_pv_pretty ( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad .pad[1])); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c" , 3766, __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_exec.c", 3766, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3766, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[1]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[1]))),(s),(strend-s),(PL_dump_re_max_len),PL_colors[0],PL_colors [1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target ) ? 0x000100 : 0))); Perl_re_printf( "Matching stclass %.*s against %s (%d bytes)\n" , (int)(*({ const SV *const _svcur = (const SV *)(prop); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 3770, __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_exec.c", 3770, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3770, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })), ((const char*)(0 + (prop)->sv_u.svu_pv )), quoted, (int)(strend - s)); } };} while (0); |
3774 | if (find_byclass(prog, c, s, strend, reginfo)S_find_byclass( prog,c,s,strend,reginfo)) |
3775 | goto got_it; |
3776 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_ "Contradicts stclass... [regexec_flags]\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "Contradicts stclass... [regexec_flags]\n");} while (0); |
3777 | } |
3778 | else { |
3779 | dontbother = 0; |
3780 | if (prog->float_substrsubstrs->data[1].substr != NULL((void*)0) || prog->float_utf8substrs->data[1].utf8_substr != NULL((void*)0)) { |
3781 | /* Trim the end. */ |
3782 | char *last= NULL((void*)0); |
3783 | SV* float_real; |
3784 | STRLEN len; |
3785 | const char *little; |
3786 | |
3787 | if (utf8_target) { |
3788 | if (! prog->float_utf8substrs->data[1].utf8_substr) { |
3789 | to_utf8_substr(prog)S_to_utf8_substr( prog); |
3790 | } |
3791 | float_real = prog->float_utf8substrs->data[1].utf8_substr; |
3792 | } |
3793 | else { |
3794 | if (! prog->float_substrsubstrs->data[1].substr) { |
3795 | if (! to_byte_substr(prog)S_to_byte_substr( prog)) { |
3796 | NON_UTF8_TARGET_BUT_UTF8_REQUIRED(phooey)do { do {if (__builtin_expect(((PL_debug & 0x00100000) ? ( _Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00)) ) Perl_re_printf( "%s", non_utf8_target_but_utf8_required);} while (0); goto phooey; } while (0); |
3797 | } |
3798 | } |
3799 | float_real = prog->float_substrsubstrs->data[1].substr; |
3800 | } |
3801 | |
3802 | little = SvPV_const(float_real, len)((((float_real)->sv_flags & (0x00000400|0x00200000)) == 0x00000400) ? ((len = (*({ const SV *const _svcur = (const SV *)(float_real); ((PL_valid_types_PVX[((svtype)((_svcur)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c" , 3802, __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_exec.c", 3802, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 3802, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); }))), ((const char*)(0 + (float_real)->sv_u .svu_pv))) : (const char*) Perl_sv_2pv_flags( float_real,& len,(2|32))); |
3803 | if (SvTAIL(float_real)({ const SV *const _svtail = (const SV *)(float_real); ((((svtype )((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 3803, __func__, "SvTYPE(_svtail) != SVt_PVAV" )); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVHV ) ? (void)0 : __assert2("re_exec.c", 3803, __func__, "SvTYPE(_svtail) != SVt_PVHV" )); ((!((_svtail)->sv_flags & (0x00000200|0x00002000)) ) ? (void)0 : __assert2("re_exec.c", 3803, __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_exec.c", 3803, __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_exec.c" , 3803, __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_exec.c", 3803, __func__, "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })) { |
3804 | /* This means that float_real contains an artificial \n on |
3805 | * the end due to the presence of something like this: |
3806 | * /foo$/ where we can match both "foo" and "foo\n" at the |
3807 | * end of the string. So we have to compare the end of the |
3808 | * string first against the float_real without the \n and |
3809 | * then against the full float_real with the string. We |
3810 | * have to watch out for cases where the string might be |
3811 | * smaller than the float_real or the float_real without |
3812 | * the \n. */ |
3813 | char *checkpos= strend - len; |
3814 | DEBUG_OPTIMISE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_printf ( "%sChecking for float_real.%s\n", PL_colors[4], PL_colors[5 ]);} while (0) |
3815 | Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_printf ( "%sChecking for float_real.%s\n", PL_colors[4], PL_colors[5 ]);} while (0) |
3816 | "%sChecking for float_real.%s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_printf ( "%sChecking for float_real.%s\n", PL_colors[4], PL_colors[5 ]);} while (0) |
3817 | PL_colors[4], PL_colors[5]))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_printf ( "%sChecking for float_real.%s\n", PL_colors[4], PL_colors[5 ]);} while (0); |
3818 | if (checkpos + 1 < strbeg) { |
3819 | /* can't match, even if we remove the trailing \n |
3820 | * string is too short to match */ |
3821 | DEBUG_EXECUTE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sString shorter than required trailing substring, cannot match.%s\n" , PL_colors[4], PL_colors[5]);} while (0) |
3822 | Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sString shorter than required trailing substring, cannot match.%s\n" , PL_colors[4], PL_colors[5]);} while (0) |
3823 | "%sString shorter than required trailing substring, cannot match.%s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sString shorter than required trailing substring, cannot match.%s\n" , PL_colors[4], PL_colors[5]);} while (0) |
3824 | PL_colors[4], PL_colors[5]))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sString shorter than required trailing substring, cannot match.%s\n" , PL_colors[4], PL_colors[5]);} while (0); |
3825 | goto phooey; |
3826 | } else if (memEQ(checkpos + 1, little, len - 1)(memcmp(((const void *) (checkpos + 1)), ((const void *) (little )), len - 1) == 0)) { |
3827 | /* can match, the end of the string matches without the |
3828 | * "\n" */ |
3829 | last = checkpos + 1; |
3830 | } else if (checkpos < strbeg) { |
3831 | /* cant match, string is too short when the "\n" is |
3832 | * included */ |
3833 | DEBUG_EXECUTE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sString does not contain required trailing substring, cannot match.%s\n" , PL_colors[4], PL_colors[5]);} while (0) |
3834 | Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sString does not contain required trailing substring, cannot match.%s\n" , PL_colors[4], PL_colors[5]);} while (0) |
3835 | "%sString does not contain required trailing substring, cannot match.%s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sString does not contain required trailing substring, cannot match.%s\n" , PL_colors[4], PL_colors[5]);} while (0) |
3836 | PL_colors[4], PL_colors[5]))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sString does not contain required trailing substring, cannot match.%s\n" , PL_colors[4], PL_colors[5]);} while (0); |
3837 | goto phooey; |
3838 | } else if (!multiline) { |
3839 | /* non multiline match, so compare with the "\n" at the |
3840 | * end of the string */ |
3841 | if (memEQ(checkpos, little, len)(memcmp(((const void *) (checkpos)), ((const void *) (little) ), len) == 0)) { |
3842 | last= checkpos; |
3843 | } else { |
3844 | DEBUG_EXECUTE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sString does not contain required trailing substring, cannot match.%s\n" , PL_colors[4], PL_colors[5]);} while (0) |
3845 | Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sString does not contain required trailing substring, cannot match.%s\n" , PL_colors[4], PL_colors[5]);} while (0) |
3846 | "%sString does not contain required trailing substring, cannot match.%s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sString does not contain required trailing substring, cannot match.%s\n" , PL_colors[4], PL_colors[5]);} while (0) |
3847 | PL_colors[4], PL_colors[5]))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sString does not contain required trailing substring, cannot match.%s\n" , PL_colors[4], PL_colors[5]);} while (0); |
3848 | goto phooey; |
3849 | } |
3850 | } else { |
3851 | /* multiline match, so we have to search for a place |
3852 | * where the full string is located */ |
3853 | goto find_last; |
3854 | } |
3855 | } else { |
3856 | find_last: |
3857 | if (len) |
3858 | last = rninstrPerl_rninstr(s, strend, little, little + len); |
3859 | else |
3860 | last = strend; /* matching "$" */ |
3861 | } |
3862 | if (!last) { |
3863 | /* at one point this block contained a comment which was |
3864 | * probably incorrect, which said that this was a "should not |
3865 | * happen" case. Even if it was true when it was written I am |
3866 | * pretty sure it is not anymore, so I have removed the comment |
3867 | * and replaced it with this one. Yves */ |
3868 | DEBUG_EXECUTE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sString does not contain required substring, cannot match.%s\n" , PL_colors[4], PL_colors[5] );} while (0) |
3869 | Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sString does not contain required substring, cannot match.%s\n" , PL_colors[4], PL_colors[5] );} while (0) |
3870 | "%sString does not contain required substring, cannot match.%s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sString does not contain required substring, cannot match.%s\n" , PL_colors[4], PL_colors[5] );} while (0) |
3871 | PL_colors[4], PL_colors[5]do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sString does not contain required substring, cannot match.%s\n" , PL_colors[4], PL_colors[5] );} while (0) |
3872 | ))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sString does not contain required substring, cannot match.%s\n" , PL_colors[4], PL_colors[5] );} while (0); |
3873 | goto phooey; |
3874 | } |
3875 | dontbother = strend - last + prog->float_min_offsetsubstrs->data[1].min_offset; |
3876 | } |
3877 | if (minlen && (dontbother < minlen)) |
3878 | dontbother = minlen - 1; |
3879 | strend -= dontbother; /* this one's always in bytes! */ |
3880 | /* We don't know much -- general case. */ |
3881 | if (utf8_target) { |
3882 | for (;;) { |
3883 | if (regtry(reginfo, &s)S_regtry( reginfo,&s)) |
3884 | goto got_it; |
3885 | if (s >= strend) |
3886 | break; |
3887 | s += UTF8SKIP(s)PL_utf8skip[*(const U8*)(s)]; |
3888 | }; |
3889 | } |
3890 | else { |
3891 | do { |
3892 | if (regtry(reginfo, &s)S_regtry( reginfo,&s)) |
3893 | goto got_it; |
3894 | } while (s++ < strend); |
3895 | } |
3896 | } |
3897 | |
3898 | /* Failure. */ |
3899 | goto phooey; |
3900 | |
3901 | got_it: |
3902 | /* s/// doesn't like it if $& is earlier than where we asked it to |
3903 | * start searching (which can happen on something like /.\G/) */ |
3904 | if ( (flags & REXEC_FAIL_ON_UNDERFLOW0x80) |
3905 | && (prog->offs[0].start < stringarg - strbeg)) |
3906 | { |
3907 | /* this should only be possible under \G */ |
3908 | assert(prog->intflags & PREGf_GPOS_SEEN)((prog->intflags & 0x00000100) ? (void)0 : __assert2("re_exec.c" , 3908, __func__, "prog->intflags & PREGf_GPOS_SEEN")); |
3909 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "matched, but failing for REXEC_FAIL_ON_UNDERFLOW\n");} while (0) |
3910 | "matched, but failing for REXEC_FAIL_ON_UNDERFLOW\n"))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "matched, but failing for REXEC_FAIL_ON_UNDERFLOW\n");} while (0); |
3911 | goto phooey; |
3912 | } |
3913 | |
3914 | /* clean up; this will trigger destructors that will free all slabs |
3915 | * above the current one, and cleanup the regmatch_info_aux |
3916 | * and regmatch_info_aux_eval sructs */ |
3917 | |
3918 | LEAVE_SCOPE(oldsave)do { if (PL_savestack_ix > oldsave) Perl_leave_scope( oldsave ); } while (0); |
3919 | |
3920 | if (RXp_PAREN_NAMES(prog)((prog)->paren_names)) |
3921 | (void)hv_iterinit(RXp_PAREN_NAMES(prog))Perl_hv_iterinit( ((prog)->paren_names)); |
3922 | |
3923 | /* make sure $`, $&, $', and $digit will work later */ |
3924 | if ( !(flags & REXEC_NOT_FIRST0x10) ) |
3925 | S_reg_set_capture_string(aTHX_ rx, |
3926 | strbeg, reginfo->strend, |
3927 | sv, flags, utf8_target); |
3928 | |
3929 | return 1; |
3930 | |
3931 | phooey: |
3932 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_ "%sMatch failed%s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sMatch failed%s\n", PL_colors[4], PL_colors[5]);} while ( 0) |
3933 | PL_colors[4], PL_colors[5]))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sMatch failed%s\n", PL_colors[4], PL_colors[5]);} while ( 0); |
3934 | |
3935 | if (swap) { |
3936 | /* we failed :-( roll it back. |
3937 | * Since the swap buffer will be freed on scope exit which follows |
3938 | * shortly, restore the old captures by copying 'swap's original |
3939 | * data to the new offs buffer |
3940 | */ |
3941 | DEBUG_BUFFERS_r(Perl_re_exec_indentf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "rex=0x%" "lx" " rolling back offs: 0x%" "lx" " will be freed; restoring data to =0x%" "lx" "\n", 0, (UV)(prog), (UV)(prog->offs), (UV)(swap) ); } while (0) |
3942 | "rex=0x%" UVxf " rolling back offs: 0x%" UVxf " will be freed; restoring data to =0x%" UVxf "\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "rex=0x%" "lx" " rolling back offs: 0x%" "lx" " will be freed; restoring data to =0x%" "lx" "\n", 0, (UV)(prog), (UV)(prog->offs), (UV)(swap) ); } while (0) |
3943 | 0,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "rex=0x%" "lx" " rolling back offs: 0x%" "lx" " will be freed; restoring data to =0x%" "lx" "\n", 0, (UV)(prog), (UV)(prog->offs), (UV)(swap) ); } while (0) |
3944 | PTR2UV(prog),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "rex=0x%" "lx" " rolling back offs: 0x%" "lx" " will be freed; restoring data to =0x%" "lx" "\n", 0, (UV)(prog), (UV)(prog->offs), (UV)(swap) ); } while (0) |
3945 | PTR2UV(prog->offs),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "rex=0x%" "lx" " rolling back offs: 0x%" "lx" " will be freed; restoring data to =0x%" "lx" "\n", 0, (UV)(prog), (UV)(prog->offs), (UV)(swap) ); } while (0) |
3946 | PTR2UV(swap)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "rex=0x%" "lx" " rolling back offs: 0x%" "lx" " will be freed; restoring data to =0x%" "lx" "\n", 0, (UV)(prog), (UV)(prog->offs), (UV)(swap) ); } while (0) |
3947 | ))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "rex=0x%" "lx" " rolling back offs: 0x%" "lx" " will be freed; restoring data to =0x%" "lx" "\n", 0, (UV)(prog), (UV)(prog->offs), (UV)(swap) ); } while (0); |
3948 | |
3949 | Copy(swap, prog->offs, prog->nparens + 1, regexp_paren_pair)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(prog ->nparens + 1) || sizeof(regexp_paren_pair) > ((size_t) 1 << 8*(sizeof(size_t) - sizeof(prog->nparens + 1))) ) ? (size_t)(prog->nparens + 1) : ((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*)(prog->offs)) != 0) ? (void)0 : __assert2("re_exec.c" , 3949, __func__, "((void*)(prog->offs)) != 0")), ((((void *)(swap)) != 0) ? (void)0 : __assert2("re_exec.c", 3949, __func__ , "((void*)(swap)) != 0")), (void)memcpy((char*)(prog->offs ),(const char*)(swap), (prog->nparens + 1) * sizeof(regexp_paren_pair ))); |
3950 | } |
3951 | |
3952 | /* clean up; this will trigger destructors that will free all slabs |
3953 | * above the current one, and cleanup the regmatch_info_aux |
3954 | * and regmatch_info_aux_eval sructs */ |
3955 | |
3956 | LEAVE_SCOPE(oldsave)do { if (PL_savestack_ix > oldsave) Perl_leave_scope( oldsave ); } while (0); |
3957 | |
3958 | return 0; |
3959 | } |
3960 | |
3961 | |
3962 | /* Set which rex is pointed to by PL_reg_curpm, handling ref counting. |
3963 | * Do inc before dec, in case old and new rex are the same */ |
3964 | #define SET_reg_curpm(Re2)if (reginfo->info_aux_eval) { (void)({ REGEXP *const _rerefcnt_inc = (Re2); ((((svtype)((_rerefcnt_inc)->sv_flags & 0xff )) == SVt_REGEXP) ? (void)0 : __assert2("re_exec.c", 3964, __func__ , "SvTYPE(_rerefcnt_inc) == SVt_REGEXP")); Perl_SvREFCNT_inc( ((SV *)({ void *_p = (_rerefcnt_inc); _p; }))); _rerefcnt_inc ; }); ({ REGEXP *const _rerefcnt_dec = (((PL_reg_curpm)->op_pmregexp )); Perl_SvREFCNT_dec( ((SV *)({ void *_p = (_rerefcnt_dec); _p ; }))); }); (((PL_reg_curpm))->op_pmregexp = ((Re2))); } \ |
3965 | if (reginfo->info_aux_eval) { \ |
3966 | (void)ReREFCNT_inc(Re2)({ REGEXP *const _rerefcnt_inc = (Re2); ((((svtype)((_rerefcnt_inc )->sv_flags & 0xff)) == SVt_REGEXP) ? (void)0 : __assert2 ("re_exec.c", 3966, __func__, "SvTYPE(_rerefcnt_inc) == SVt_REGEXP" )); Perl_SvREFCNT_inc(((SV *)({ void *_p = (_rerefcnt_inc); _p ; }))); _rerefcnt_inc; }); \ |
3967 | ReREFCNT_dec(PM_GETRE(PL_reg_curpm))({ REGEXP *const _rerefcnt_dec = (((PL_reg_curpm)->op_pmregexp )); Perl_SvREFCNT_dec( ((SV *)({ void *_p = (_rerefcnt_dec); _p ; }))); }); \ |
3968 | PM_SETRE((PL_reg_curpm), (Re2))(((PL_reg_curpm))->op_pmregexp = ((Re2))); \ |
3969 | } |
3970 | |
3971 | |
3972 | /* |
3973 | - regtry - try match at specific point |
3974 | */ |
3975 | STATICstatic bool_Bool /* 0 failure, 1 success */ |
3976 | S_regtry(pTHX_ regmatch_info *reginfo, char **startposp) |
3977 | { |
3978 | CHECKPOINT lastcp; |
3979 | REGEXP *const rx = reginfo->prog; |
3980 | regexp *const prog = ReANY(rx)Perl_ReANY((const REGEXP *)(rx)); |
3981 | SSize_tssize_t result; |
3982 | #ifdef DEBUGGING |
3983 | U32 depth = 0; /* used by REGCP_SET */ |
3984 | #endif |
3985 | RXi_GET_DECL(prog,progi)regexp_internal *progi = ((regexp_internal *)((prog)->pprivate )); |
3986 | 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_exec.c", 3986, __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_exec.c", 3986, __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); |
3987 | |
3988 | PERL_ARGS_ASSERT_REGTRY((reginfo) ? (void)0 : __assert2("re_exec.c", 3988, __func__, "reginfo")); ((startposp) ? (void)0 : __assert2("re_exec.c", 3988, __func__, "startposp")); |
3989 | |
3990 | reginfo->cutpoint=NULL((void*)0); |
3991 | |
3992 | prog->offs[0].start = *startposp - reginfo->strbeg; |
3993 | prog->lastparen = 0; |
3994 | prog->lastcloseparen = 0; |
3995 | |
3996 | /* XXXX What this code is doing here?!!! There should be no need |
3997 | to do this again and again, prog->lastparen should take care of |
3998 | this! --ilya*/ |
3999 | |
4000 | /* Tests pat.t#187 and split.t#{13,14} seem to depend on this code. |
4001 | * Actually, the code in regcppop() (which Ilya may be meaning by |
4002 | * prog->lastparen), is not needed at all by the test suite |
4003 | * (op/regexp, op/pat, op/split), but that code is needed otherwise |
4004 | * this erroneously leaves $1 defined: "1" =~ /^(?:(\d)x)?\d$/ |
4005 | * Meanwhile, this code *is* needed for the |
4006 | * above-mentioned test suite tests to succeed. The common theme |
4007 | * on those tests seems to be returning null fields from matches. |
4008 | * --jhi updated by dapm */ |
4009 | |
4010 | /* After encountering a variant of the issue mentioned above I think |
4011 | * the point Ilya was making is that if we properly unwind whenever |
4012 | * we set lastparen to a smaller value then we should not need to do |
4013 | * this every time, only when needed. So if we have tests that fail if |
4014 | * we remove this, then it suggests somewhere else we are improperly |
4015 | * unwinding the lastparen/paren buffers. See UNWIND_PARENS() and |
4016 | * places it is called, and related regcp() routines. - Yves */ |
4017 | #if 1 |
4018 | if (prog->nparens) { |
4019 | regexp_paren_pair *pp = prog->offs; |
4020 | I32 i; |
4021 | for (i = prog->nparens; i > (I32)prog->lastparen; i--) { |
4022 | ++pp; |
4023 | pp->start = -1; |
4024 | pp->end = -1; |
4025 | } |
4026 | } |
4027 | #endif |
4028 | REGCP_SET(lastcp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) Perl_re_exec_indentf ( "Setting an EVAL scope, savestack=%" "ld" ",\n", depth, (IV )PL_savestack_ix );} while (0); lastcp = PL_savestack_ix; |
4029 | result = regmatch(reginfo, *startposp, progi->program + 1)S_regmatch( reginfo,*startposp,progi->program + 1); |
4030 | if (result != -1) { |
4031 | prog->offs[0].end = result; |
4032 | return 1; |
4033 | } |
4034 | if (reginfo->cutpoint) |
4035 | *startposp= reginfo->cutpoint; |
4036 | REGCP_UNWIND(lastcp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) if (lastcp != PL_savestack_ix) Perl_re_exec_indentf( "Clearing an EVAL scope, savestack=%" "ld" "..%" "ld" "\n", depth, (IV)(lastcp), (IV)PL_savestack_ix );} while (0); do { if (PL_savestack_ix > lastcp) Perl_leave_scope ( lastcp); } while (0); |
4037 | return 0; |
4038 | } |
4039 | |
4040 | /* this is used to determine how far from the left messages like |
4041 | 'failed...' are printed in regexec.c. It should be set such that |
4042 | messages are inline with the regop output that created them. |
4043 | */ |
4044 | #define REPORT_CODE_OFF29 29 |
4045 | #define INDENT_CHARS(depth)((int)(depth) % 20) ((int)(depth) % 20) |
4046 | #ifdef DEBUGGING |
4047 | int |
4048 | Perl_re_exec_indentf(pTHX_ const char *fmt, U32 depth, ...) |
4049 | { |
4050 | va_list ap; |
4051 | int result; |
4052 | PerlIOPerlIO *f= Perl_debug_logPerl_PerlIO_stderr(); |
4053 | PERL_ARGS_ASSERT_RE_EXEC_INDENTF((fmt) ? (void)0 : __assert2("re_exec.c", 4053, __func__, "fmt" )); |
4054 | va_start(ap, depth)__builtin_va_start(ap, depth); |
4055 | PerlIO_printf(f, "%*s|%4" UVuf"lu" "| %*s", REPORT_CODE_OFF29, "", (UV)depth, INDENT_CHARS(depth)((int)(depth) % 20), "" ); |
4056 | result = PerlIO_vprintf(f, fmt, ap); |
4057 | va_end(ap)__builtin_va_end(ap); |
4058 | return result; |
4059 | } |
4060 | #endif /* DEBUGGING */ |
4061 | |
4062 | /* grab a new slab and return the first slot in it */ |
4063 | |
4064 | STATICstatic regmatch_state * |
4065 | S_push_slab(pTHXvoid) |
4066 | { |
4067 | regmatch_slab *s = PL_regmatch_slab->next; |
4068 | if (!s) { |
4069 | Newx(s, 1, regmatch_slab)(s = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof (1) || sizeof(regmatch_slab) > ((size_t)1 << 8*(sizeof (size_t) - sizeof(1)))) ? (size_t)(1) : ((size_t)-1)/sizeof(regmatch_slab )) > ((size_t)-1)/sizeof(regmatch_slab))) ? (_Bool)1 : (_Bool )0),(0)) && (Perl_croak_memory_wrap(),0)), (regmatch_slab *)(Perl_safesysmalloc((size_t)((1)*sizeof(regmatch_slab)))))); |
4070 | s->prev = PL_regmatch_slab; |
4071 | s->next = NULL((void*)0); |
4072 | PL_regmatch_slab->next = s; |
4073 | } |
4074 | PL_regmatch_slab = s; |
4075 | return SLAB_FIRST(s)(&(s)->states[0]); |
4076 | } |
4077 | |
4078 | #ifdef DEBUGGING |
4079 | |
4080 | STATICstatic void |
4081 | S_debug_start_match(pTHX_ const REGEXP *prog, const bool_Bool utf8_target, |
4082 | const char *start, const char *end, const char *blurb) |
4083 | { |
4084 | const bool_Bool utf8_pat = RX_UTF8(prog)((prog)->sv_flags & 0x20000000) ? 1 : 0; |
4085 | |
4086 | PERL_ARGS_ASSERT_DEBUG_START_MATCH((prog) ? (void)0 : __assert2("re_exec.c", 4086, __func__, "prog" )); ((start) ? (void)0 : __assert2("re_exec.c", 4086, __func__ , "start")); ((end) ? (void)0 : __assert2("re_exec.c", 4086, __func__ , "end")); ((blurb) ? (void)0 : __assert2("re_exec.c", 4086, __func__ , "blurb")); |
4087 | |
4088 | if (!PL_colorset) |
4089 | reginitcolors()Perl_reginitcolors(); |
4090 | { |
4091 | RE_PV_QUOTED_DECL(s0, utf8_pat, PERL_DEBUG_PAD_ZERO(0),const char * const s0 = Perl_pv_pretty( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad.pad[0])); _p; })) ; ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 4091, __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_exec.c", 4091, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 4091, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),((((const char*)(0 + (prog)->sv_u.svu_pv)) + Perl_ReANY ((const REGEXP *)(prog))->pre_prefix)),(((*({ const SV *const _svcur = (const SV *)(prog); ((PL_valid_types_PVX[((svtype)( (_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_exec.c", 4092, __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_exec.c", 4092, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 4092, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - Perl_ReANY((const REGEXP *)(prog))-> pre_prefix - 1)),(PL_dump_re_max_len),PL_colors[0],PL_colors[ 1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_pat) ? 0x000100 : 0))) |
4092 | RX_PRECOMP_const(prog), RX_PRELEN(prog), PL_dump_re_max_len)const char * const s0 = Perl_pv_pretty( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad.pad[0])); _p; })) ; ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 4091, __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_exec.c", 4091, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 4091, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[0]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[0]))),((((const char*)(0 + (prog)->sv_u.svu_pv)) + Perl_ReANY ((const REGEXP *)(prog))->pre_prefix)),(((*({ const SV *const _svcur = (const SV *)(prog); ((PL_valid_types_PVX[((svtype)( (_svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_exec.c", 4092, __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_exec.c", 4092, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 4092, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - Perl_ReANY((const REGEXP *)(prog))-> pre_prefix - 1)),(PL_dump_re_max_len),PL_colors[0],PL_colors[ 1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_pat) ? 0x000100 : 0))); |
4093 | |
4094 | RE_PV_QUOTED_DECL(s1, utf8_target, PERL_DEBUG_PAD_ZERO(1),const char * const s1 = Perl_pv_pretty( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad.pad[1])); _p; })) ; ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 4094, __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_exec.c", 4094, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 4094, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[1]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[1]))),(start),(end - start),(PL_dump_re_max_len),PL_colors [0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))) |
4095 | start, end - start, PL_dump_re_max_len)const char * const s1 = Perl_pv_pretty( (((*({ SV *const _svpvx = ((SV *)({ void *_p = (&(PL_debug_pad.pad[1])); _p; })) ; ((PL_valid_types_PVX[((svtype)((_svpvx)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 4094, __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_exec.c", 4094, __func__, "!isGV_with_GP(_svpvx)" )); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 4094, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))[0] = 0, (((XPV*) (& (PL_debug_pad.pad[1]))->sv_any)->xpv_cur = 0), &(PL_debug_pad .pad[1]))),(start),(end - start),(PL_dump_re_max_len),PL_colors [0],PL_colors[1],( 0x000001 | 0x008000 | 0x000400 | 0x000002 | ((utf8_target) ? 0x000100 : 0))); |
4096 | |
4097 | Perl_re_printf( aTHX_ |
4098 | "%s%s REx%s %s against %s\n", |
4099 | PL_colors[4], blurb, PL_colors[5], s0, s1); |
4100 | |
4101 | if (utf8_target||utf8_pat) |
4102 | Perl_re_printf( aTHX_ "UTF-8 %s%s%s...\n", |
4103 | utf8_pat ? "pattern" : "", |
4104 | utf8_pat && utf8_target ? " and " : "", |
4105 | utf8_target ? "string" : "" |
4106 | ); |
4107 | } |
4108 | } |
4109 | |
4110 | STATICstatic void |
4111 | S_dump_exec_pos(pTHX_ const char *locinput, |
4112 | const regnode *scan, |
4113 | const char *loc_regeol, |
4114 | const char *loc_bostr, |
4115 | const char *loc_reg_starttry, |
4116 | const bool_Bool utf8_target, |
4117 | const U32 depth |
4118 | ) |
4119 | { |
4120 | const int docolor = *PL_colors[0] || *PL_colors[2] || *PL_colors[4]; |
4121 | const int taill = (docolor ? 10 : 7); /* 3 chars for "> <" */ |
4122 | int l = (loc_regeol - locinput) > taill ? taill : (loc_regeol - locinput); |
4123 | /* The part of the string before starttry has one color |
4124 | (pref0_len chars), between starttry and current |
4125 | position another one (pref_len - pref0_len chars), |
4126 | after the current position the third one. |
4127 | We assume that pref0_len <= pref_len, otherwise we |
4128 | decrease pref0_len. */ |
4129 | int pref_len = (locinput - loc_bostr) > (5 + taill) - l |
4130 | ? (5 + taill) - l : locinput - loc_bostr; |
4131 | int pref0_len; |
4132 | |
4133 | PERL_ARGS_ASSERT_DUMP_EXEC_POS((locinput) ? (void)0 : __assert2("re_exec.c", 4133, __func__ , "locinput")); ((scan) ? (void)0 : __assert2("re_exec.c", 4133 , __func__, "scan")); ((loc_regeol) ? (void)0 : __assert2("re_exec.c" , 4133, __func__, "loc_regeol")); ((loc_bostr) ? (void)0 : __assert2 ("re_exec.c", 4133, __func__, "loc_bostr")); ((loc_reg_starttry ) ? (void)0 : __assert2("re_exec.c", 4133, __func__, "loc_reg_starttry" )); |
4134 | |
4135 | while (utf8_target && UTF8_IS_CONTINUATION(*(U8*)(locinput - pref_len))(((( (sizeof(*(U8*)(locinput - pref_len)) == 1) || !(((U64)(( *(U8*)(locinput - pref_len)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 4135, __func__, "( (sizeof(*(U8*)(locinput - pref_len)) == 1) || !(((U64)((*(U8*)(locinput - pref_len)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(U8*)(locinput - pref_len)) == 1) || !(( (U64)((*(U8*)(locinput - pref_len)) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 4135, __func__, "( (sizeof(*(U8*)(locinput - pref_len)) == 1) || !(((U64)((*(U8*)(locinput - pref_len)) | 0)) & ~0xFF))" )), ((U8) ((*(U8*)(locinput - pref_len)) | 0))) & ((U8) ( 0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))) )) |
4136 | pref_len++; |
4137 | pref0_len = pref_len - (locinput - loc_reg_starttry); |
4138 | if (l + pref_len < (5 + taill) && l < loc_regeol - locinput) |
4139 | l = ( loc_regeol - locinput > (5 + taill) - pref_len |
4140 | ? (5 + taill) - pref_len : loc_regeol - locinput); |
4141 | while (utf8_target && UTF8_IS_CONTINUATION(*(U8*)(locinput + l))(((( (sizeof(*(U8*)(locinput + l)) == 1) || !(((U64)((*(U8*)( locinput + l)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 4141, __func__, "( (sizeof(*(U8*)(locinput + l)) == 1) || !(((U64)((*(U8*)(locinput + l)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(U8*)(locinput + l)) == 1) || !(((U64)(( *(U8*)(locinput + l)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 4141, __func__, "( (sizeof(*(U8*)(locinput + l)) == 1) || !(((U64)((*(U8*)(locinput + l)) | 0)) & ~0xFF))" )), ((U8) ((*(U8*)(locinput + l)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) |
4142 | l--; |
4143 | if (pref0_len < 0) |
4144 | pref0_len = 0; |
4145 | if (pref0_len > pref_len) |
4146 | pref0_len = pref_len; |
4147 | { |
4148 | const int is_uni = utf8_target ? 1 : 0; |
4149 | |
4150 | RE_PV_COLOR_DECL(s0,len0,is_uni,PERL_DEBUG_PAD(0),const char * const s0 = Perl_pv_pretty( (&(PL_debug_pad.pad [0])),((locinput - pref_len)),(pref0_len),(PL_dump_re_max_len ),PL_colors[(4)],PL_colors[(5)],0x008000|0x000400 |((is_uni) ? 0x000100 : 0)); const int len0 = (*({ const SV *const _svcur = (const SV *)(&(PL_debug_pad.pad[0])); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 4151, __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_exec.c", 4151, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 4151, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) |
4151 | (locinput - pref_len),pref0_len, PL_dump_re_max_len, 4, 5)const char * const s0 = Perl_pv_pretty( (&(PL_debug_pad.pad [0])),((locinput - pref_len)),(pref0_len),(PL_dump_re_max_len ),PL_colors[(4)],PL_colors[(5)],0x008000|0x000400 |((is_uni) ? 0x000100 : 0)); const int len0 = (*({ const SV *const _svcur = (const SV *)(&(PL_debug_pad.pad[0])); ((PL_valid_types_PVX [((svtype)((_svcur)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 4151, __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_exec.c", 4151, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 4151, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })); |
4152 | |
4153 | RE_PV_COLOR_DECL(s1,len1,is_uni,PERL_DEBUG_PAD(1),const char * const s1 = Perl_pv_pretty( (&(PL_debug_pad.pad [1])),((locinput - pref_len + pref0_len)),(pref_len - pref0_len ),(PL_dump_re_max_len),PL_colors[(2)],PL_colors[(3)],0x008000 |0x000400 |((is_uni) ? 0x000100 : 0)); const int len1 = (*({ const SV *const _svcur = (const SV *)(&(PL_debug_pad.pad[1])); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 4155, __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_exec.c", 4155, __func__, "!isGV_with_GP(_svcur)" )); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 4155, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) |
4154 | (locinput - pref_len + pref0_len),const char * const s1 = Perl_pv_pretty( (&(PL_debug_pad.pad [1])),((locinput - pref_len + pref0_len)),(pref_len - pref0_len ),(PL_dump_re_max_len),PL_colors[(2)],PL_colors[(3)],0x008000 |0x000400 |((is_uni) ? 0x000100 : 0)); const int len1 = (*({ const SV *const _svcur = (const SV *)(&(PL_debug_pad.pad[1])); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 4155, __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_exec.c", 4155, __func__, "!isGV_with_GP(_svcur)" )); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 4155, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) |
4155 | pref_len - pref0_len, PL_dump_re_max_len, 2, 3)const char * const s1 = Perl_pv_pretty( (&(PL_debug_pad.pad [1])),((locinput - pref_len + pref0_len)),(pref_len - pref0_len ),(PL_dump_re_max_len),PL_colors[(2)],PL_colors[(3)],0x008000 |0x000400 |((is_uni) ? 0x000100 : 0)); const int len1 = (*({ const SV *const _svcur = (const SV *)(&(PL_debug_pad.pad[1])); ((PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 4155, __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_exec.c", 4155, __func__, "!isGV_with_GP(_svcur)" )); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 4155, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })); |
4156 | |
4157 | RE_PV_COLOR_DECL(s2,len2,is_uni,PERL_DEBUG_PAD(2),const char * const s2 = Perl_pv_pretty( (&(PL_debug_pad.pad [2])),(locinput),(loc_regeol - locinput),(10),PL_colors[(0)], PL_colors[(1)],0x008000|0x000400 |((is_uni) ? 0x000100 : 0)); const int len2 = (*({ const SV *const _svcur = (const SV *)( &(PL_debug_pad.pad[2])); ((PL_valid_types_PVX[((svtype)(( _svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_exec.c", 4158, __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_exec.c", 4158, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 4158, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) |
4158 | locinput, loc_regeol - locinput, 10, 0, 1)const char * const s2 = Perl_pv_pretty( (&(PL_debug_pad.pad [2])),(locinput),(loc_regeol - locinput),(10),PL_colors[(0)], PL_colors[(1)],0x008000|0x000400 |((is_uni) ? 0x000100 : 0)); const int len2 = (*({ const SV *const _svcur = (const SV *)( &(PL_debug_pad.pad[2])); ((PL_valid_types_PVX[((svtype)(( _svcur)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_exec.c", 4158, __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_exec.c", 4158, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 4158, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })); |
4159 | |
4160 | const STRLEN tlen=len0+len1+len2; |
4161 | Perl_re_printf( aTHX_ |
4162 | "%4" IVdf"ld" " <%.*s%.*s%s%.*s>%*s|%4u| ", |
4163 | (IV)(locinput - loc_bostr), |
4164 | len0, s0, |
4165 | len1, s1, |
4166 | (docolor ? "" : "> <"), |
4167 | len2, s2, |
4168 | (int)(tlen > 19 ? 0 : 19 - tlen), |
4169 | "", |
4170 | depth); |
4171 | } |
4172 | } |
4173 | |
4174 | #endif |
4175 | |
4176 | /* reg_check_named_buff_matched() |
4177 | * Checks to see if a named buffer has matched. The data array of |
4178 | * buffer numbers corresponding to the buffer is expected to reside |
4179 | * in the regexp->data->data array in the slot stored in the ARG() of |
4180 | * node involved. Note that this routine doesn't actually care about the |
4181 | * name, that information is not preserved from compilation to execution. |
4182 | * Returns the index of the leftmost defined buffer with the given name |
4183 | * or 0 if non of the buffers matched. |
4184 | */ |
4185 | STATICstatic I32 |
4186 | S_reg_check_named_buff_matched(const regexp *rex, const regnode *scan) |
4187 | { |
4188 | I32 n; |
4189 | RXi_GET_DECL(rex,rexi)regexp_internal *rexi = ((regexp_internal *)((rex)->pprivate )); |
4190 | SV *sv_dat= MUTABLE_SV(rexi->data->data[ ARG( scan ) ])((SV *)({ void *_p = (rexi->data->data[ ((((struct regnode_1 *)scan)->arg1)) ]); _p; })); |
4191 | 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_exec.c", 4191, __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_exec.c", 4191, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 4191, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })); |
4192 | |
4193 | PERL_ARGS_ASSERT_REG_CHECK_NAMED_BUFF_MATCHED((rex) ? (void)0 : __assert2("re_exec.c", 4193, __func__, "rex" )); ((scan) ? (void)0 : __assert2("re_exec.c", 4193, __func__ , "scan")); |
4194 | |
4195 | 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_exec.c", 4195, __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_exec.c", 4195, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })); n++ ) { |
4196 | if ((I32)rex->lastparen >= nums[n] && |
4197 | rex->offs[nums[n]].end != -1) |
4198 | { |
4199 | return nums[n]; |
4200 | } |
4201 | } |
4202 | return 0; |
4203 | } |
4204 | |
4205 | #define CHRTEST_UNINIT-1001 -1001 /* c1/c2 haven't been calculated yet */ |
4206 | #define CHRTEST_VOID-1000 -1000 /* the c1/c2 "next char" test should be skipped */ |
4207 | #define CHRTEST_NOT_A_CP_1-999 -999 |
4208 | #define CHRTEST_NOT_A_CP_2-998 -998 |
4209 | |
4210 | static bool_Bool |
4211 | S_setup_EXACTISH_ST_c1_c2(pTHX_ const regnode * const text_node, int *c1p, |
4212 | U8* c1_utf8, int *c2p, U8* c2_utf8, regmatch_info *reginfo) |
4213 | { |
4214 | /* This function determines if there are zero, one, two, or more characters |
4215 | * that match the first character of the passed-in EXACTish node |
4216 | * <text_node>, and if there are one or two, it returns them in the |
4217 | * passed-in pointers. |
4218 | * |
4219 | * If it determines that no possible character in the target string can |
4220 | * match, it returns FALSE; otherwise TRUE. (The FALSE situation occurs if |
4221 | * the first character in <text_node> requires UTF-8 to represent, and the |
4222 | * target string isn't in UTF-8.) |
4223 | * |
4224 | * If there are more than two characters that could match the beginning of |
4225 | * <text_node>, or if more context is required to determine a match or not, |
4226 | * it sets both *<c1p> and *<c2p> to CHRTEST_VOID. |
4227 | * |
4228 | * The motiviation behind this function is to allow the caller to set up |
4229 | * tight loops for matching. If <text_node> is of type EXACT, there is |
4230 | * only one possible character that can match its first character, and so |
4231 | * the situation is quite simple. But things get much more complicated if |
4232 | * folding is involved. It may be that the first character of an EXACTFish |
4233 | * node doesn't participate in any possible fold, e.g., punctuation, so it |
4234 | * can be matched only by itself. The vast majority of characters that are |
4235 | * in folds match just two things, their lower and upper-case equivalents. |
4236 | * But not all are like that; some have multiple possible matches, or match |
4237 | * sequences of more than one character. This function sorts all that out. |
4238 | * |
4239 | * Consider the patterns A*B or A*?B where A and B are arbitrary. In a |
4240 | * loop of trying to match A*, we know we can't exit where the thing |
4241 | * following it isn't a B. And something can't be a B unless it is the |
4242 | * beginning of B. By putting a quick test for that beginning in a tight |
4243 | * loop, we can rule out things that can't possibly be B without having to |
4244 | * break out of the loop, thus avoiding work. Similarly, if A is a single |
4245 | * character, we can make a tight loop matching A*, using the outputs of |
4246 | * this function. |
4247 | * |
4248 | * If the target string to match isn't in UTF-8, and there aren't |
4249 | * complications which require CHRTEST_VOID, *<c1p> and *<c2p> are set to |
4250 | * the one or two possible octets (which are characters in this situation) |
4251 | * that can match. In all cases, if there is only one character that can |
4252 | * match, *<c1p> and *<c2p> will be identical. |
4253 | * |
4254 | * If the target string is in UTF-8, the buffers pointed to by <c1_utf8> |
4255 | * and <c2_utf8> will contain the one or two UTF-8 sequences of bytes that |
4256 | * can match the beginning of <text_node>. They should be declared with at |
4257 | * least length UTF8_MAXBYTES+1. (If the target string isn't in UTF-8, it is |
4258 | * undefined what these contain.) If one or both of the buffers are |
4259 | * invariant under UTF-8, *<c1p>, and *<c2p> will also be set to the |
4260 | * corresponding invariant. If variant, the corresponding *<c1p> and/or |
4261 | * *<c2p> will be set to a negative number(s) that shouldn't match any code |
4262 | * point (unless inappropriately coerced to unsigned). *<c1p> will equal |
4263 | * *<c2p> if and only if <c1_utf8> and <c2_utf8> are the same. */ |
4264 | |
4265 | const bool_Bool utf8_target = reginfo->is_utf8_target; |
4266 | |
4267 | UV c1 = (UV)CHRTEST_NOT_A_CP_1-999; |
4268 | UV c2 = (UV)CHRTEST_NOT_A_CP_2-998; |
4269 | bool_Bool use_chrtest_void = FALSE(0); |
4270 | const bool_Bool is_utf8_pat = reginfo->is_utf8_pat; |
4271 | |
4272 | /* Used when we have both utf8 input and utf8 output, to avoid converting |
4273 | * to/from code points */ |
4274 | bool_Bool utf8_has_been_setup = FALSE(0); |
4275 | |
4276 | dVARstruct Perl___notused_struct; |
4277 | |
4278 | U8 *pat = (U8*)STRING(text_node)((((text_node)->type) == 41 || ((text_node)->type) == 51 ) ? (((((text_node)->type) == 41 || ((text_node)->type) == 51) ? (void)0 : __assert2("re_exec.c", 4278, __func__, "((text_node)->type) == 41 || ((text_node)->type) == 51" )), (((struct regnode_lstring *)text_node)->string)) : ((( ((text_node)->type) != 41 && ((text_node)->type ) != 51) ? (void)0 : __assert2("re_exec.c", 4278, __func__, "((text_node)->type) != 41 && ((text_node)->type) != 51" )), ((struct regnode_string *)text_node)->string)); |
4279 | 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' }; |
4280 | |
4281 | if ( OP(text_node)((text_node)->type) == EXACT40 |
4282 | || OP(text_node)((text_node)->type) == LEXACT41 |
4283 | || OP(text_node)((text_node)->type) == EXACT_REQ850 |
4284 | || OP(text_node)((text_node)->type) == LEXACT_REQ851 |
4285 | || OP(text_node)((text_node)->type) == EXACTL42) |
4286 | { |
4287 | |
4288 | /* In an exact node, only one thing can be matched, that first |
4289 | * character. If both the pat and the target are UTF-8, we can just |
4290 | * copy the input to the output, avoiding finding the code point of |
4291 | * that character */ |
4292 | if (!is_utf8_pat) { |
4293 | assert( OP(text_node) != EXACT_REQ8((((text_node)->type) != 50 && ((text_node)->type ) != 51) ? (void)0 : __assert2("re_exec.c", 4294, __func__, "OP(text_node) != EXACT_REQ8 && OP(text_node) != LEXACT_REQ8" )) |
4294 | && OP(text_node) != LEXACT_REQ8)((((text_node)->type) != 50 && ((text_node)->type ) != 51) ? (void)0 : __assert2("re_exec.c", 4294, __func__, "OP(text_node) != EXACT_REQ8 && OP(text_node) != LEXACT_REQ8" )); |
4295 | c2 = c1 = *pat; |
4296 | } |
4297 | else if (utf8_target) { |
4298 | Copy(pat, c1_utf8, UTF8SKIP(pat), U8)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(PL_utf8skip [*(const U8*)(pat)]) || sizeof(U8) > ((size_t)1 << 8 *(sizeof(size_t) - sizeof(PL_utf8skip[*(const U8*)(pat)])))) ? (size_t)(PL_utf8skip[*(const U8*)(pat)]) : ((size_t)-1)/sizeof (U8)) > ((size_t)-1)/sizeof(U8))) ? (_Bool)1 : (_Bool)0),( 0)) && (Perl_croak_memory_wrap(),0)), ((((void*)(c1_utf8 )) != 0) ? (void)0 : __assert2("re_exec.c", 4298, __func__, "((void*)(c1_utf8)) != 0" )), ((((void*)(pat)) != 0) ? (void)0 : __assert2("re_exec.c", 4298, __func__, "((void*)(pat)) != 0")), (void)memcpy((char* )(c1_utf8),(const char*)(pat), (PL_utf8skip[*(const U8*)(pat) ]) * sizeof(U8))); |
4299 | Copy(pat, c2_utf8, UTF8SKIP(pat), U8)((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(PL_utf8skip [*(const U8*)(pat)]) || sizeof(U8) > ((size_t)1 << 8 *(sizeof(size_t) - sizeof(PL_utf8skip[*(const U8*)(pat)])))) ? (size_t)(PL_utf8skip[*(const U8*)(pat)]) : ((size_t)-1)/sizeof (U8)) > ((size_t)-1)/sizeof(U8))) ? (_Bool)1 : (_Bool)0),( 0)) && (Perl_croak_memory_wrap(),0)), ((((void*)(c2_utf8 )) != 0) ? (void)0 : __assert2("re_exec.c", 4299, __func__, "((void*)(c2_utf8)) != 0" )), ((((void*)(pat)) != 0) ? (void)0 : __assert2("re_exec.c", 4299, __func__, "((void*)(pat)) != 0")), (void)memcpy((char* )(c2_utf8),(const char*)(pat), (PL_utf8skip[*(const U8*)(pat) ]) * sizeof(U8))); |
4300 | utf8_has_been_setup = TRUE(1); |
4301 | } |
4302 | else if ( OP(text_node)((text_node)->type) == EXACT_REQ850 |
4303 | || OP(text_node)((text_node)->type) == LEXACT_REQ851) |
4304 | { |
4305 | return FALSE(0); /* Can only match UTF-8 target */ |
4306 | } |
4307 | else { |
4308 | c2 = c1 = valid_utf8_to_uvchrPerl_valid_utf8_to_uvchr(pat, NULL((void*)0)); |
4309 | } |
4310 | } |
4311 | else { /* an EXACTFish node */ |
4312 | U8 *pat_end = pat + STR_LENs(text_node)(((((text_node)->type) != 41 && ((text_node)->type ) != 51) ? (void)0 : __assert2("re_exec.c", 4312, __func__, "((text_node)->type) != 41 && ((text_node)->type) != 51" )), ((struct regnode_string *)text_node)->str_len); |
4313 | |
4314 | /* An EXACTFL node has at least some characters unfolded, because what |
4315 | * they match is not known until now. So, now is the time to fold |
4316 | * the first few of them, as many as are needed to determine 'c1' and |
4317 | * 'c2' later in the routine. If the pattern isn't UTF-8, we only need |
4318 | * to fold if in a UTF-8 locale, and then only the Sharp S; everything |
4319 | * else is 1-1 and isn't assumed to be folded. In a UTF-8 pattern, we |
4320 | * need to fold as many characters as a single character can fold to, |
4321 | * so that later we can check if the first ones are such a multi-char |
4322 | * fold. But, in such a pattern only locale-problematic characters |
4323 | * aren't folded, so we can skip this completely if the first character |
4324 | * in the node isn't one of the tricky ones */ |
4325 | if (OP(text_node)((text_node)->type) == EXACTFL44) { |
4326 | |
4327 | if (! is_utf8_pat) { |
4328 | if (IN_UTF8_CTYPE_LOCALEPL_in_utf8_CTYPE_locale && *pat == LATIN_SMALL_LETTER_SHARP_S0xDF) |
4329 | { |
4330 | folded[0] = folded[1] = 's'; |
4331 | pat = folded; |
4332 | pat_end = folded + 2; |
4333 | } |
4334 | } |
4335 | else if (is_PROBLEMATIC_LOCALE_FOLDEDS_START_utf8(pat)( ( ((const U8*)pat)[0] <= 0x7F ) ? 1 : ( ((((0xC3) >= ( 0xC2)) ? (void)0 : __assert2("re_exec.c", 4335, __func__, "(0xC3) >= (0xC2)" )), ( (sizeof(((const U8*)pat)[0]) == sizeof(U8)) ? ((((NV) ( (0xC2)) >= 0) ? (void)0 : __assert2("re_exec.c", 4335, __func__ , "(NV) ((0xC2)) >= 0")), (((NV) (((0xC3) - (0xC2))) >= 0) ? (void)0 : __assert2("re_exec.c", 4335, __func__, "(NV) (((0xC3) - (0xC2))) >= 0" )), (((U64) (((((U8) (((const U8*)pat)[0])))) - (((0xC2)) | 0 ))) <= (((U64) ((((0xC3) - (0xC2))) | 0))))) : (sizeof(((const U8*)pat)[0]) == sizeof(U32)) ? ((((NV) ((0xC2)) >= 0) ? ( void)0 : __assert2("re_exec.c", 4335, __func__, "(NV) ((0xC2)) >= 0" )), (((NV) (((0xC3) - (0xC2))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 4335, __func__, "(NV) (((0xC3) - (0xC2))) >= 0" )), (((U64) (((((U32) (((const U8*)pat)[0])))) - (((0xC2)) | 0 ))) <= (((U64) ((((0xC3) - (0xC2))) | 0))))) : (((sizeof(( (const U8*)pat)[0]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 4335, __func__, "sizeof(((const U8*)pat)[0]) == sizeof(U64)" )), ((((NV) ((0xC2)) >= 0) ? (void)0 : __assert2("re_exec.c" , 4335, __func__, "(NV) ((0xC2)) >= 0")), (((NV) (((0xC3) - (0xC2))) >= 0) ? (void)0 : __assert2("re_exec.c", 4335, __func__ , "(NV) (((0xC3) - (0xC2))) >= 0")), (((U64) (((((U64) ((( const U8*)pat)[0])))) - (((0xC2)) | 0))) <= (((U64) ((((0xC3 ) - (0xC2))) | 0)))))))) ) ? 2 : ( 0xC4 == ((const U8*)pat)[0 ] ) ? ( ( ((((0xB1) >= (0xB0)) ? (void)0 : __assert2("re_exec.c" , 4335, __func__, "(0xB1) >= (0xB0)")), ( (sizeof(((const U8 *)pat)[1]) == sizeof(U8)) ? ((((NV) ((0xB0)) >= 0) ? (void )0 : __assert2("re_exec.c", 4335, __func__, "(NV) ((0xB0)) >= 0" )), (((NV) (((0xB1) - (0xB0))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 4335, __func__, "(NV) (((0xB1) - (0xB0))) >= 0" )), (((U64) (((((U8) (((const U8*)pat)[1])))) - (((0xB0)) | 0 ))) <= (((U64) ((((0xB1) - (0xB0))) | 0))))) : (sizeof(((const U8*)pat)[1]) == sizeof(U32)) ? ((((NV) ((0xB0)) >= 0) ? ( void)0 : __assert2("re_exec.c", 4335, __func__, "(NV) ((0xB0)) >= 0" )), (((NV) (((0xB1) - (0xB0))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 4335, __func__, "(NV) (((0xB1) - (0xB0))) >= 0" )), (((U64) (((((U32) (((const U8*)pat)[1])))) - (((0xB0)) | 0 ))) <= (((U64) ((((0xB1) - (0xB0))) | 0))))) : (((sizeof(( (const U8*)pat)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 4335, __func__, "sizeof(((const U8*)pat)[1]) == sizeof(U64)" )), ((((NV) ((0xB0)) >= 0) ? (void)0 : __assert2("re_exec.c" , 4335, __func__, "(NV) ((0xB0)) >= 0")), (((NV) (((0xB1) - (0xB0))) >= 0) ? (void)0 : __assert2("re_exec.c", 4335, __func__ , "(NV) (((0xB1) - (0xB0))) >= 0")), (((U64) (((((U64) ((( const U8*)pat)[1])))) - (((0xB0)) | 0))) <= (((U64) ((((0xB1 ) - (0xB0))) | 0)))))))) ) ? 2 : 0 ) : ( 0xC5 == ((const U8*) pat)[0] ) ? ( ( 0x89 == ((const U8*)pat)[1] || 0xB8 == ((const U8*)pat)[1] || 0xBF == ((const U8*)pat)[1] ) ? 2 : 0 ): ( 0xC7 == ((const U8*)pat)[0] ) ? ( ( 0xB0 == ((const U8*)pat)[1] ) ? 2 : 0 ) : ( 0xCA == ((const U8*)pat)[0] ) ? ( ( 0xBC == (( const U8*)pat)[1] ) ? 2 : 0 ) : ( 0xCE == ((const U8*)pat)[0] ) ? ( ( ( ((const U8*)pat)[1] & 0xDF ) == 0x9C ) ? 2 : 0 ) : ( 0xE1 == ((const U8*)pat)[0] ) ? ( ( ( 0xBA == ((const U8 *)pat)[1] ) && ( ((((0x9A) >= (0x96)) ? (void)0 : __assert2 ("re_exec.c", 4335, __func__, "(0x9A) >= (0x96)")), ( (sizeof (((const U8*)pat)[2]) == sizeof(U8)) ? ((((NV) ((0x96)) >= 0) ? (void)0 : __assert2("re_exec.c", 4335, __func__, "(NV) ((0x96)) >= 0" )), (((NV) (((0x9A) - (0x96))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 4335, __func__, "(NV) (((0x9A) - (0x96))) >= 0" )), (((U64) (((((U8) (((const U8*)pat)[2])))) - (((0x96)) | 0 ))) <= (((U64) ((((0x9A) - (0x96))) | 0))))) : (sizeof(((const U8*)pat)[2]) == sizeof(U32)) ? ((((NV) ((0x96)) >= 0) ? ( void)0 : __assert2("re_exec.c", 4335, __func__, "(NV) ((0x96)) >= 0" )), (((NV) (((0x9A) - (0x96))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 4335, __func__, "(NV) (((0x9A) - (0x96))) >= 0" )), (((U64) (((((U32) (((const U8*)pat)[2])))) - (((0x96)) | 0 ))) <= (((U64) ((((0x9A) - (0x96))) | 0))))) : (((sizeof(( (const U8*)pat)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 4335, __func__, "sizeof(((const U8*)pat)[2]) == sizeof(U64)" )), ((((NV) ((0x96)) >= 0) ? (void)0 : __assert2("re_exec.c" , 4335, __func__, "(NV) ((0x96)) >= 0")), (((NV) (((0x9A) - (0x96))) >= 0) ? (void)0 : __assert2("re_exec.c", 4335, __func__ , "(NV) (((0x9A) - (0x96))) >= 0")), (((U64) (((((U64) ((( const U8*)pat)[2])))) - (((0x96)) | 0))) <= (((U64) ((((0x9A ) - (0x96))) | 0)))))))) || 0x9E == ((const U8*)pat)[2] ) ) ? 3 : 0 ): ( 0xE2 == ((const U8*)pat)[0] ) ? ( ( ( 0x84 == ((const U8*)pat)[1] ) && ( ((((0xAB) >= (0xAA)) ? (void)0 : __assert2("re_exec.c", 4335, __func__, "(0xAB) >= (0xAA)" )), ( (sizeof(((const U8*)pat)[2]) == sizeof(U8)) ? ((((NV) ( (0xAA)) >= 0) ? (void)0 : __assert2("re_exec.c", 4335, __func__ , "(NV) ((0xAA)) >= 0")), (((NV) (((0xAB) - (0xAA))) >= 0) ? (void)0 : __assert2("re_exec.c", 4335, __func__, "(NV) (((0xAB) - (0xAA))) >= 0" )), (((U64) (((((U8) (((const U8*)pat)[2])))) - (((0xAA)) | 0 ))) <= (((U64) ((((0xAB) - (0xAA))) | 0))))) : (sizeof(((const U8*)pat)[2]) == sizeof(U32)) ? ((((NV) ((0xAA)) >= 0) ? ( void)0 : __assert2("re_exec.c", 4335, __func__, "(NV) ((0xAA)) >= 0" )), (((NV) (((0xAB) - (0xAA))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 4335, __func__, "(NV) (((0xAB) - (0xAA))) >= 0" )), (((U64) (((((U32) (((const U8*)pat)[2])))) - (((0xAA)) | 0 ))) <= (((U64) ((((0xAB) - (0xAA))) | 0))))) : (((sizeof(( (const U8*)pat)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 4335, __func__, "sizeof(((const U8*)pat)[2]) == sizeof(U64)" )), ((((NV) ((0xAA)) >= 0) ? (void)0 : __assert2("re_exec.c" , 4335, __func__, "(NV) ((0xAA)) >= 0")), (((NV) (((0xAB) - (0xAA))) >= 0) ? (void)0 : __assert2("re_exec.c", 4335, __func__ , "(NV) (((0xAB) - (0xAA))) >= 0")), (((U64) (((((U64) ((( const U8*)pat)[2])))) - (((0xAA)) | 0))) <= (((U64) ((((0xAB ) - (0xAA))) | 0)))))))) ) ) ? 3 : 0 ): ( ( ( 0xEF == ((const U8*)pat)[0] ) && ( 0xAC == ((const U8*)pat)[1] ) ) && ( ((((0x86) >= (0x80)) ? (void)0 : __assert2("re_exec.c", 4335, __func__, "(0x86) >= (0x80)")), ( (sizeof(((const U8 *)pat)[2]) == sizeof(U8)) ? ((((NV) ((0x80)) >= 0) ? (void )0 : __assert2("re_exec.c", 4335, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x86) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 4335, __func__, "(NV) (((0x86) - (0x80))) >= 0" )), (((U64) (((((U8) (((const U8*)pat)[2])))) - (((0x80)) | 0 ))) <= (((U64) ((((0x86) - (0x80))) | 0))))) : (sizeof(((const U8*)pat)[2]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? ( void)0 : __assert2("re_exec.c", 4335, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x86) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 4335, __func__, "(NV) (((0x86) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)pat)[2])))) - (((0x80)) | 0 ))) <= (((U64) ((((0x86) - (0x80))) | 0))))) : (((sizeof(( (const U8*)pat)[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 4335, __func__, "sizeof(((const U8*)pat)[2]) == sizeof(U64)" )), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_exec.c" , 4335, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x86) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c", 4335, __func__ , "(NV) (((0x86) - (0x80))) >= 0")), (((U64) (((((U64) ((( const U8*)pat)[2])))) - (((0x80)) | 0))) <= (((U64) ((((0x86 ) - (0x80))) | 0)))))))) ) ) ? 3 : 0 )) { |
4336 | U8 *s = pat; |
4337 | U8 *d = folded; |
4338 | int i; |
4339 | |
4340 | for (i = 0; i < UTF8_MAX_FOLD_CHAR_EXPAND3 && s < pat_end; i++) { |
4341 | if (isASCII(*s)((U64)((*s) | 0) < 128) && LIKELY(! PL_in_utf8_turkic_locale)__builtin_expect(((! PL_in_utf8_turkic_locale) ? (_Bool)1 : ( _Bool)0),(1))) { |
4342 | *(d++) = (U8) toFOLD_LC(*s)((__builtin_expect(((((*s)) == 0xB5) ? (_Bool)1 : (_Bool)0),( 0)) && PL_in_utf8_CTYPE_locale) ? 0x03BC : (((! PL_in_utf8_CTYPE_locale || ((*s)) != 0xDF) ? (void)0 : __assert2("re_exec.c", 4342, __func__ , "! PL_in_utf8_CTYPE_locale || ((*s)) != 0xDF")), (! ( (sizeof ((*s)) == 1) || !(((U64)(((*s)) | 0)) & ~0xFF)) ? ((*s)) : (PL_in_utf8_CTYPE_locale) ? PL_latin1_lc[ (U8) ((*s)) ] : (U8 )tolower((U8)((*s)))))); |
4343 | s++; |
4344 | } |
4345 | else { |
4346 | STRLEN len; |
4347 | _toFOLD_utf8_flags(s,Perl__to_utf8_fold_flags( s,pat_end,d,&len,0x2 | 0x1) |
4348 | pat_end,Perl__to_utf8_fold_flags( s,pat_end,d,&len,0x2 | 0x1) |
4349 | d,Perl__to_utf8_fold_flags( s,pat_end,d,&len,0x2 | 0x1) |
4350 | &len,Perl__to_utf8_fold_flags( s,pat_end,d,&len,0x2 | 0x1) |
4351 | FOLD_FLAGS_FULL | FOLD_FLAGS_LOCALE)Perl__to_utf8_fold_flags( s,pat_end,d,&len,0x2 | 0x1); |
4352 | d += len; |
4353 | s += UTF8SKIP(s)PL_utf8skip[*(const U8*)(s)]; |
4354 | } |
4355 | } |
4356 | |
4357 | pat = folded; |
4358 | pat_end = d; |
4359 | } |
4360 | } |
4361 | |
4362 | if ( ( is_utf8_pat && is_MULTI_CHAR_FOLD_utf8_safe(pat, pat_end)( ((pat_end)-(pat) > 5) ? ( ( 0x61 == ((const U8*)pat)[0] ) ? ( ( ( 0xCA == ((const U8*)pat)[1] ) && ( 0xBE == ( (const U8*)pat)[2] ) ) ? 3 : 0 ) : ( 0x66 == ((const U8*)pat) [0] ) ? ( ( 0x66 == ((const U8*)pat)[1] ) ? ( ( 0x69 == ((const U8*)pat)[2] || 0x6C == ((const U8*)pat)[2] ) ? 3 : 2 ) : ( 0x69 == ((const U8*)pat)[1] || 0x6C == ((const U8*)pat)[1] ) ? 2 : 0 ) : ( 0x68 == ((const U8*)pat)[0] ) ? ( ( ( 0xCC == ((const U8*)pat)[1] ) && ( 0xB1 == ((const U8*)pat)[2] ) ) ? 3 : 0 ) : ( 0x69 == ((const U8*)pat)[0] ) ? ( ( ( 0xCC == (( const U8*)pat)[1] ) && ( 0x87 == ((const U8*)pat)[2] ) ) ? 3 : 0 ) : ( 0x6A == ((const U8*)pat)[0] ) ? ( ( ( 0xCC == ((const U8*)pat)[1] ) && ( 0x8C == ((const U8*)pat)[ 2] ) ) ? 3 : 0 ) : ( 0x73 == ((const U8*)pat)[0] ) ? ( ( (((( 0x74) >= (0x73)) ? (void)0 : __assert2("re_exec.c", 4362, __func__ , "(0x74) >= (0x73)")), ( (sizeof(((const U8*)pat)[1]) == sizeof (U8)) ? ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_exec.c" , 4362, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_exec.c", 4362, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U8) (((const U8*)pat)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)pat)[1]) == sizeof(U32 )) ? ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_exec.c" , 4362, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_exec.c", 4362, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U32) ((( const U8*)pat)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0))))) : (((sizeof(((const U8*)pat)[1]) == sizeof (U64)) ? (void)0 : __assert2("re_exec.c", 4362, __func__, "sizeof(((const U8*)pat)[1]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_exec.c" , 4362, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_exec.c", 4362, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U64) ((( const U8*)pat)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0)))))))) ) ? 2 : 0 ) : ( 0x74 == ((const U8*) pat)[0] ) ? ( ( ( 0xCC == ((const U8*)pat)[1] ) && ( 0x88 == ((const U8*)pat)[2] ) ) ? 3 : 0 ) : ( 0x77 == ((const U8* )pat)[0] || 0x79 == ((const U8*)pat)[0] ) ? ( ( ( 0xCC == ((const U8*)pat)[1] ) && ( 0x8A == ((const U8*)pat)[2] ) ) ? 3 : 0 ) : ( 0xC5 == ((const U8*)pat)[0] ) ? ( ( ( ( 0xBF == ( (const U8*)pat)[1] ) && ( 0xC5 == ((const U8*)pat)[2] ) ) && ( 0xBF == ((const U8*)pat)[3] ) ) ? 4 : 0 ) : ( 0xCA == ((const U8*)pat)[0] ) ? ( ( ( 0xBC == ((const U8*) pat)[1] ) && ( 0x6E == ((const U8*)pat)[2] ) ) ? 3 : 0 ) : ( 0xCE == ((const U8*)pat)[0] ) ? ( ( ( ((const U8*)pat) [1] & 0xFD ) == 0xAC ) ? ( ( ( 0xCE == ((const U8*)pat)[2 ] ) && ( 0xB9 == ((const U8*)pat)[3] ) ) ? 4 : 0 ) : ( 0xB1 == ((const U8*)pat)[1] || 0xB7 == ((const U8*)pat)[1] ) ? ( ( 0xCD == ((const U8*)pat)[2] ) ? ( ( 0x82 == ((const U8 *)pat)[3] ) ? ( ( ( 0xCE == ((const U8*)pat)[4] ) && ( 0xB9 == ((const U8*)pat)[5] ) ) ? 6 : 4 ) : 0 ) : ( ( 0xCE == ((const U8*)pat)[2] ) && ( 0xB9 == ((const U8*)pat)[ 3] ) ) ? 4 : 0 ) : ( 0xB9 == ((const U8*)pat)[1] ) ? ( ( 0xCC == ((const U8*)pat)[2] ) ? ( ( 0x88 == ((const U8*)pat)[3] ) ? ( ( 0xCC == ((const U8*)pat)[4] ) ? ( ( ((((0x81) >= (0x80 )) ? (void)0 : __assert2("re_exec.c", 4362, __func__, "(0x81) >= (0x80)" )), ( (sizeof(((const U8*)pat)[5]) == sizeof(U8)) ? ((((NV) ( (0x80)) >= 0) ? (void)0 : __assert2("re_exec.c", 4362, __func__ , "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c", 4362, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U8) (((const U8*)pat)[5])))) - (((0x80)) | 0 ))) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (sizeof(((const U8*)pat)[5]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? ( void)0 : __assert2("re_exec.c", 4362, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 4362, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)pat)[5])))) - (((0x80)) | 0 ))) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (((sizeof(( (const U8*)pat)[5]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 4362, __func__, "sizeof(((const U8*)pat)[5]) == sizeof(U64)" )), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_exec.c" , 4362, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c", 4362, __func__ , "(NV) (((0x81) - (0x80))) >= 0")), (((U64) (((((U64) ((( const U8*)pat)[5])))) - (((0x80)) | 0))) <= (((U64) ((((0x81 ) - (0x80))) | 0)))))))) ) ? 6 : 0 ) : ( ( 0xCD == ((const U8 *)pat)[4] ) && ( 0x82 == ((const U8*)pat)[5] ) ) ? 6 : 0 ) : 0 ) : ( ( 0xCD == ((const U8*)pat)[2] ) && ( 0x82 == ((const U8*)pat)[3] ) ) ? 4 : 0 ) : 0 ) : ( 0xCF == ((const U8*)pat)[0] ) ? ( ( 0x81 == ((const U8*)pat)[1] ) ? ( ( ( 0xCC == ((const U8*)pat)[2] ) && ( 0x93 == ((const U8*)pat )[3] ) ) ? 4 : 0 ) : ( 0x85 == ((const U8*)pat)[1] ) ? ( ( 0xCC == ((const U8*)pat)[2] ) ? ( ( 0x88 == ((const U8*)pat)[3] ) ? ( ( 0xCC == ((const U8*)pat)[4] ) ? ( ( ((((0x81) >= (0x80 )) ? (void)0 : __assert2("re_exec.c", 4362, __func__, "(0x81) >= (0x80)" )), ( (sizeof(((const U8*)pat)[5]) == sizeof(U8)) ? ((((NV) ( (0x80)) >= 0) ? (void)0 : __assert2("re_exec.c", 4362, __func__ , "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c", 4362, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U8) (((const U8*)pat)[5])))) - (((0x80)) | 0 ))) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (sizeof(((const U8*)pat)[5]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? ( void)0 : __assert2("re_exec.c", 4362, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 4362, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)pat)[5])))) - (((0x80)) | 0 ))) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (((sizeof(( (const U8*)pat)[5]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 4362, __func__, "sizeof(((const U8*)pat)[5]) == sizeof(U64)" )), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_exec.c" , 4362, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c", 4362, __func__ , "(NV) (((0x81) - (0x80))) >= 0")), (((U64) (((((U64) ((( const U8*)pat)[5])))) - (((0x80)) | 0))) <= (((U64) ((((0x81 ) - (0x80))) | 0)))))))) ) ? 6 : 0 ) : ( ( 0xCD == ((const U8 *)pat)[4] ) && ( 0x82 == ((const U8*)pat)[5] ) ) ? 6 : 0 ) : ( 0x93 == ((const U8*)pat)[3] ) ? ( ( 0xCC == ((const U8 *)pat)[4] ) ? ( ( ((((0x81) >= (0x80)) ? (void)0 : __assert2 ("re_exec.c", 4362, __func__, "(0x81) >= (0x80)")), ( (sizeof (((const U8*)pat)[5]) == sizeof(U8)) ? ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_exec.c", 4362, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 4362, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U8) (((const U8*)pat)[5])))) - (((0x80)) | 0 ))) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (sizeof(((const U8*)pat)[5]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? ( void)0 : __assert2("re_exec.c", 4362, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 4362, __func__, "(NV) (((0x81) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)pat)[5])))) - (((0x80)) | 0 ))) <= (((U64) ((((0x81) - (0x80))) | 0))))) : (((sizeof(( (const U8*)pat)[5]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 4362, __func__, "sizeof(((const U8*)pat)[5]) == sizeof(U64)" )), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_exec.c" , 4362, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x81) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c", 4362, __func__ , "(NV) (((0x81) - (0x80))) >= 0")), (((U64) (((((U64) ((( const U8*)pat)[5])))) - (((0x80)) | 0))) <= (((U64) ((((0x81 ) - (0x80))) | 0)))))))) ) ? 6 : 4 ) : ( ( 0xCD == ((const U8 *)pat)[4] ) && ( 0x82 == ((const U8*)pat)[5] ) ) ? 6 : 4 ) : 0 ) : ( ( 0xCD == ((const U8*)pat)[2] ) && ( 0x82 == ((const U8*)pat)[3] ) ) ? 4 : 0 ) : ( 0x89 == ((const U8* )pat)[1] ) ? ( ( 0xCD == ((const U8*)pat)[2] ) ? ( ( 0x82 == ( (const U8*)pat)[3] ) ? ( ( ( 0xCE == ((const U8*)pat)[4] ) && ( 0xB9 == ((const U8*)pat)[5] ) ) ? 6 : 4 ) : 0 ) : ( ( 0xCE == ((const U8*)pat)[2] ) && ( 0xB9 == ((const U8*)pat )[3] ) ) ? 4 : 0 ) : ( ( ( 0x8E == ((const U8*)pat)[1] ) && ( 0xCE == ((const U8*)pat)[2] ) ) && ( 0xB9 == ((const U8*)pat)[3] ) ) ? 4 : 0 ) : ( 0xD5 == ((const U8*)pat)[0] ) ? ( ( 0xA5 == ((const U8*)pat)[1] ) ? ( ( ( 0xD6 == ((const U8 *)pat)[2] ) && ( 0x82 == ((const U8*)pat)[3] ) ) ? 4 : 0 ) : ( 0xB4 == ((const U8*)pat)[1] ) ? ( ( ( 0xD5 == ((const U8*)pat)[2] ) && ( ( ( ((const U8*)pat)[3] & 0xF7 ) == 0xA5 ) || ((const U8*)pat)[3] == 0xAB || ((const U8*)pat )[3] == 0xB6 ) ) ? 4 : 0 ) : ( ( ( 0xBE == ((const U8*)pat)[1 ] ) && ( 0xD5 == ((const U8*)pat)[2] ) ) && ( 0xB6 == ((const U8*)pat)[3] ) ) ? 4 : 0 ) : ( 0xE1 == ((const U8*)pat)[0] ) ? ( ( 0xBC == ((const U8*)pat)[1] ) ? ( ( ( ( ( ((const U8*)pat)[2] & 0xD8 ) == 0x80 ) && ( 0xCE == ((const U8*)pat)[3] ) ) && ( 0xB9 == ((const U8*) pat)[4] ) ) ? 5 : 0 ) : ( ( ( ( 0xBD == ((const U8*)pat)[1] ) && ( ( ( ((const U8*)pat)[2] & 0xF8 ) == 0xA0 ) || ( ( ((const U8*)pat)[2] & 0xFB ) == 0xB0 ) || ((const U8 *)pat)[2] == 0xBC ) ) && ( 0xCE == ((const U8*)pat)[3 ] ) ) && ( 0xB9 == ((const U8*)pat)[4] ) ) ? 5 : 0 ) : 0 ) : ((pat_end)-(pat) > 4) ? ( ( 0x61 == ((const U8*)pat )[0] ) ? ( ( ( 0xCA == ((const U8*)pat)[1] ) && ( 0xBE == ((const U8*)pat)[2] ) ) ? 3 : 0 ) : ( 0x66 == ((const U8* )pat)[0] ) ? ( ( 0x66 == ((const U8*)pat)[1] ) ? ( ( 0x69 == ( (const U8*)pat)[2] || 0x6C == ((const U8*)pat)[2] ) ? 3 : 2 ) : ( 0x69 == ((const U8*)pat)[1] || 0x6C == ((const U8*)pat)[ 1] ) ? 2 : 0 ) : ( 0x68 == ((const U8*)pat)[0] ) ? ( ( ( 0xCC == ((const U8*)pat)[1] ) && ( 0xB1 == ((const U8*)pat )[2] ) ) ? 3 : 0 ) : ( 0x69 == ((const U8*)pat)[0] ) ? ( ( ( 0xCC == ((const U8*)pat)[1] ) && ( 0x87 == ((const U8*)pat )[2] ) ) ? 3 : 0 ) : ( 0x6A == ((const U8*)pat)[0] ) ? ( ( ( 0xCC == ((const U8*)pat)[1] ) && ( 0x8C == ((const U8*)pat )[2] ) ) ? 3 : 0 ) : ( 0x73 == ((const U8*)pat)[0] ) ? ( ( (( ((0x74) >= (0x73)) ? (void)0 : __assert2("re_exec.c", 4362 , __func__, "(0x74) >= (0x73)")), ( (sizeof(((const U8*)pat )[1]) == sizeof(U8)) ? ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2 ("re_exec.c", 4362, __func__, "(NV) ((0x73)) >= 0")), (((NV ) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_exec.c" , 4362, __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64 ) (((((U8) (((const U8*)pat)[1])))) - (((0x73)) | 0))) <= ( ((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)pat )[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_exec.c", 4362, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 4362, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)pat)[1])))) - (((0x73)) | 0 ))) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof(( (const U8*)pat)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 4362, __func__, "sizeof(((const U8*)pat)[1]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_exec.c" , 4362, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_exec.c", 4362, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U64) ((( const U8*)pat)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0)))))))) ) ? 2 : 0 ) : ( 0x74 == ((const U8*) pat)[0] ) ? ( ( ( 0xCC == ((const U8*)pat)[1] ) && ( 0x88 == ((const U8*)pat)[2] ) ) ? 3 : 0 ) : ( 0x77 == ((const U8* )pat)[0] || 0x79 == ((const U8*)pat)[0] ) ? ( ( ( 0xCC == ((const U8*)pat)[1] ) && ( 0x8A == ((const U8*)pat)[2] ) ) ? 3 : 0 ) : ( 0xC5 == ((const U8*)pat)[0] ) ? ( ( ( ( 0xBF == ( (const U8*)pat)[1] ) && ( 0xC5 == ((const U8*)pat)[2] ) ) && ( 0xBF == ((const U8*)pat)[3] ) ) ? 4 : 0 ) : ( 0xCA == ((const U8*)pat)[0] ) ? ( ( ( 0xBC == ((const U8*) pat)[1] ) && ( 0x6E == ((const U8*)pat)[2] ) ) ? 3 : 0 ) : ( 0xCE == ((const U8*)pat)[0] ) ? ( ( ( ((const U8*)pat) [1] & 0xFD ) == 0xAC ) ? ( ( ( 0xCE == ((const U8*)pat)[2 ] ) && ( 0xB9 == ((const U8*)pat)[3] ) ) ? 4 : 0 ) : ( 0xB1 == ((const U8*)pat)[1] || 0xB7 == ((const U8*)pat)[1] ) ? ( ( 0xCD == ((const U8*)pat)[2] ) ? ( ( 0x82 == ((const U8 *)pat)[3] ) ? 4 : 0 ) : ( ( 0xCE == ((const U8*)pat)[2] ) && ( 0xB9 == ((const U8*)pat)[3] ) ) ? 4 : 0 ) : ( ( ( 0xB9 == ( (const U8*)pat)[1] ) && ( 0xCD == ((const U8*)pat)[2] ) ) && ( 0x82 == ((const U8*)pat)[3] ) ) ? 4 : 0 ) : ( 0xCF == ((const U8*)pat)[0] ) ? ( ( 0x81 == ((const U8*)pat )[1] ) ? ( ( ( 0xCC == ((const U8*)pat)[2] ) && ( 0x93 == ((const U8*)pat)[3] ) ) ? 4 : 0 ) : ( 0x85 == ((const U8* )pat)[1] ) ? ( ( 0xCC == ((const U8*)pat)[2] ) ? ( ( 0x93 == ( (const U8*)pat)[3] ) ? 4 : 0 ) : ( ( 0xCD == ((const U8*)pat) [2] ) && ( 0x82 == ((const U8*)pat)[3] ) ) ? 4 : 0 ) : ( 0x89 == ((const U8*)pat)[1] ) ? ( ( 0xCD == ((const U8*)pat )[2] ) ? ( ( 0x82 == ((const U8*)pat)[3] ) ? 4 : 0 ) : ( ( 0xCE == ((const U8*)pat)[2] ) && ( 0xB9 == ((const U8*)pat )[3] ) ) ? 4 : 0 ) : ( ( ( 0x8E == ((const U8*)pat)[1] ) && ( 0xCE == ((const U8*)pat)[2] ) ) && ( 0xB9 == ((const U8*)pat)[3] ) ) ? 4 : 0 ) : ( 0xD5 == ((const U8*)pat)[0] ) ? ( ( 0xA5 == ((const U8*)pat)[1] ) ? ( ( ( 0xD6 == ((const U8 *)pat)[2] ) && ( 0x82 == ((const U8*)pat)[3] ) ) ? 4 : 0 ) : ( 0xB4 == ((const U8*)pat)[1] ) ? ( ( ( 0xD5 == ((const U8*)pat)[2] ) && ( ( ( ((const U8*)pat)[3] & 0xF7 ) == 0xA5 ) || ((const U8*)pat)[3] == 0xAB || ((const U8*)pat )[3] == 0xB6 ) ) ? 4 : 0 ) : ( ( ( 0xBE == ((const U8*)pat)[1 ] ) && ( 0xD5 == ((const U8*)pat)[2] ) ) && ( 0xB6 == ((const U8*)pat)[3] ) ) ? 4 : 0 ) : ( 0xE1 == ((const U8*)pat)[0] ) ? ( ( 0xBC == ((const U8*)pat)[1] ) ? ( ( ( ( ( ((const U8*)pat)[2] & 0xD8 ) == 0x80 ) && ( 0xCE == ((const U8*)pat)[3] ) ) && ( 0xB9 == ((const U8*) pat)[4] ) ) ? 5 : 0 ) : ( ( ( ( 0xBD == ((const U8*)pat)[1] ) && ( ( ( ((const U8*)pat)[2] & 0xF8 ) == 0xA0 ) || ( ( ((const U8*)pat)[2] & 0xFB ) == 0xB0 ) || ((const U8 *)pat)[2] == 0xBC ) ) && ( 0xCE == ((const U8*)pat)[3 ] ) ) && ( 0xB9 == ((const U8*)pat)[4] ) ) ? 5 : 0 ) : 0 ) : ( ((pat_end)-(pat) > 3) ? ( ( 0x61 == ((const U8*)pat )[0] ) ? ( ( ( 0xCA == ((const U8*)pat)[1] ) && ( 0xBE == ((const U8*)pat)[2] ) ) ? 3 : 0 ) : ( 0x66 == ((const U8* )pat)[0] ) ? ( ( 0x66 == ((const U8*)pat)[1] ) ? ( ( 0x69 == ( (const U8*)pat)[2] || 0x6C == ((const U8*)pat)[2] ) ? 3 : 2 ) : ( 0x69 == ((const U8*)pat)[1] || 0x6C == ((const U8*)pat)[ 1] ) ? 2 : 0 ) : ( 0x68 == ((const U8*)pat)[0] ) ? ( ( ( 0xCC == ((const U8*)pat)[1] ) && ( 0xB1 == ((const U8*)pat )[2] ) ) ? 3 : 0 ) : ( 0x69 == ((const U8*)pat)[0] ) ? ( ( ( 0xCC == ((const U8*)pat)[1] ) && ( 0x87 == ((const U8*)pat )[2] ) ) ? 3 : 0 ) : ( 0x6A == ((const U8*)pat)[0] ) ? ( ( ( 0xCC == ((const U8*)pat)[1] ) && ( 0x8C == ((const U8*)pat )[2] ) ) ? 3 : 0 ) : ( 0x73 == ((const U8*)pat)[0] ) ? ( ( (( ((0x74) >= (0x73)) ? (void)0 : __assert2("re_exec.c", 4362 , __func__, "(0x74) >= (0x73)")), ( (sizeof(((const U8*)pat )[1]) == sizeof(U8)) ? ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2 ("re_exec.c", 4362, __func__, "(NV) ((0x73)) >= 0")), (((NV ) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_exec.c" , 4362, __func__, "(NV) (((0x74) - (0x73))) >= 0")), (((U64 ) (((((U8) (((const U8*)pat)[1])))) - (((0x73)) | 0))) <= ( ((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)pat )[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_exec.c", 4362, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 4362, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)pat)[1])))) - (((0x73)) | 0 ))) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof(( (const U8*)pat)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 4362, __func__, "sizeof(((const U8*)pat)[1]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_exec.c" , 4362, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_exec.c", 4362, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U64) ((( const U8*)pat)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0)))))))) ) ? 2 : 0 ) : ( 0x74 == ((const U8*) pat)[0] ) ? ( ( ( 0xCC == ((const U8*)pat)[1] ) && ( 0x88 == ((const U8*)pat)[2] ) ) ? 3 : 0 ) : ( 0x77 == ((const U8* )pat)[0] || 0x79 == ((const U8*)pat)[0] ) ? ( ( ( 0xCC == ((const U8*)pat)[1] ) && ( 0x8A == ((const U8*)pat)[2] ) ) ? 3 : 0 ) : ( 0xC5 == ((const U8*)pat)[0] ) ? ( ( ( ( 0xBF == ( (const U8*)pat)[1] ) && ( 0xC5 == ((const U8*)pat)[2] ) ) && ( 0xBF == ((const U8*)pat)[3] ) ) ? 4 : 0 ) : ( 0xCA == ((const U8*)pat)[0] ) ? ( ( ( 0xBC == ((const U8*) pat)[1] ) && ( 0x6E == ((const U8*)pat)[2] ) ) ? 3 : 0 ) : ( 0xCE == ((const U8*)pat)[0] ) ? ( ( ( ((const U8*)pat) [1] & 0xFD ) == 0xAC ) ? ( ( ( 0xCE == ((const U8*)pat)[2 ] ) && ( 0xB9 == ((const U8*)pat)[3] ) ) ? 4 : 0 ) : ( 0xB1 == ((const U8*)pat)[1] || 0xB7 == ((const U8*)pat)[1] ) ? ( ( 0xCD == ((const U8*)pat)[2] ) ? ( ( 0x82 == ((const U8 *)pat)[3] ) ? 4 : 0 ) : ( ( 0xCE == ((const U8*)pat)[2] ) && ( 0xB9 == ((const U8*)pat)[3] ) ) ? 4 : 0 ) : ( ( ( 0xB9 == ( (const U8*)pat)[1] ) && ( 0xCD == ((const U8*)pat)[2] ) ) && ( 0x82 == ((const U8*)pat)[3] ) ) ? 4 : 0 ) : ( 0xCF == ((const U8*)pat)[0] ) ? ( ( 0x81 == ((const U8*)pat )[1] ) ? ( ( ( 0xCC == ((const U8*)pat)[2] ) && ( 0x93 == ((const U8*)pat)[3] ) ) ? 4 : 0 ) : ( 0x85 == ((const U8* )pat)[1] ) ? ( ( 0xCC == ((const U8*)pat)[2] ) ? ( ( 0x93 == ( (const U8*)pat)[3] ) ? 4 : 0 ) : ( ( 0xCD == ((const U8*)pat) [2] ) && ( 0x82 == ((const U8*)pat)[3] ) ) ? 4 : 0 ) : ( 0x89 == ((const U8*)pat)[1] ) ? ( ( 0xCD == ((const U8*)pat )[2] ) ? ( ( 0x82 == ((const U8*)pat)[3] ) ? 4 : 0 ) : ( ( 0xCE == ((const U8*)pat)[2] ) && ( 0xB9 == ((const U8*)pat )[3] ) ) ? 4 : 0 ) : ( ( ( 0x8E == ((const U8*)pat)[1] ) && ( 0xCE == ((const U8*)pat)[2] ) ) && ( 0xB9 == ((const U8*)pat)[3] ) ) ? 4 : 0 ) : ( 0xD5 == ((const U8*)pat)[0] ) ? ( ( 0xA5 == ((const U8*)pat)[1] ) ? ( ( ( 0xD6 == ((const U8 *)pat)[2] ) && ( 0x82 == ((const U8*)pat)[3] ) ) ? 4 : 0 ) : ( 0xB4 == ((const U8*)pat)[1] ) ? ( ( ( 0xD5 == ((const U8*)pat)[2] ) && ( ( ( ((const U8*)pat)[3] & 0xF7 ) == 0xA5 ) || ((const U8*)pat)[3] == 0xAB || ((const U8*)pat )[3] == 0xB6 ) ) ? 4 : 0 ) : ( ( ( 0xBE == ((const U8*)pat)[1 ] ) && ( 0xD5 == ((const U8*)pat)[2] ) ) && ( 0xB6 == ((const U8*)pat)[3] ) ) ? 4 : 0 ) : 0 ) : ((pat_end) -(pat) > 2) ? ( ( 0x61 == ((const U8*)pat)[0] ) ? ( ( ( 0xCA == ((const U8*)pat)[1] ) && ( 0xBE == ((const U8*)pat )[2] ) ) ? 3 : 0 ) : ( 0x66 == ((const U8*)pat)[0] ) ? ( ( 0x66 == ((const U8*)pat)[1] ) ? ( ( 0x69 == ((const U8*)pat)[2] || 0x6C == ((const U8*)pat)[2] ) ? 3 : 2 ) : ( 0x69 == ((const U8 *)pat)[1] || 0x6C == ((const U8*)pat)[1] ) ? 2 : 0 ) : ( 0x68 == ((const U8*)pat)[0] ) ? ( ( ( 0xCC == ((const U8*)pat)[1] ) && ( 0xB1 == ((const U8*)pat)[2] ) ) ? 3 : 0 ) : ( 0x69 == ((const U8*)pat)[0] ) ? ( ( ( 0xCC == ((const U8*)pat )[1] ) && ( 0x87 == ((const U8*)pat)[2] ) ) ? 3 : 0 ) : ( 0x6A == ((const U8*)pat)[0] ) ? ( ( ( 0xCC == ((const U8 *)pat)[1] ) && ( 0x8C == ((const U8*)pat)[2] ) ) ? 3 : 0 ) : ( 0x73 == ((const U8*)pat)[0] ) ? ( ( ((((0x74) >= ( 0x73)) ? (void)0 : __assert2("re_exec.c", 4362, __func__, "(0x74) >= (0x73)" )), ( (sizeof(((const U8*)pat)[1]) == sizeof(U8)) ? ((((NV) ( (0x73)) >= 0) ? (void)0 : __assert2("re_exec.c", 4362, __func__ , "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_exec.c", 4362, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)pat)[1])))) - (((0x73)) | 0 ))) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)pat)[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? ( void)0 : __assert2("re_exec.c", 4362, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 4362, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)pat)[1])))) - (((0x73)) | 0 ))) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof(( (const U8*)pat)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 4362, __func__, "sizeof(((const U8*)pat)[1]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_exec.c" , 4362, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_exec.c", 4362, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U64) ((( const U8*)pat)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0)))))))) ) ? 2 : 0 ) : ( 0x74 == ((const U8*) pat)[0] ) ? ( ( ( 0xCC == ((const U8*)pat)[1] ) && ( 0x88 == ((const U8*)pat)[2] ) ) ? 3 : 0 ) : ( 0x77 == ((const U8* )pat)[0] || 0x79 == ((const U8*)pat)[0] ) ? ( ( ( 0xCC == ((const U8*)pat)[1] ) && ( 0x8A == ((const U8*)pat)[2] ) ) ? 3 : 0 ) : ( ( ( 0xCA == ((const U8*)pat)[0] ) && ( 0xBC == ((const U8*)pat)[1] ) ) && ( 0x6E == ((const U8*) pat)[2] ) ) ? 3 : 0 ): ((pat_end)-(pat) > 1) ? ( ( 0x66 == ((const U8*)pat)[0] ) ? ( ( 0x66 == ((const U8*)pat)[1] || 0x69 == ((const U8*)pat)[1] || 0x6C == ((const U8*)pat)[1] ) ? 2 : 0 ) : ( ( 0x73 == ((const U8*)pat)[0] ) && ( ((((0x74 ) >= (0x73)) ? (void)0 : __assert2("re_exec.c", 4362, __func__ , "(0x74) >= (0x73)")), ( (sizeof(((const U8*)pat)[1]) == sizeof (U8)) ? ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_exec.c" , 4362, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_exec.c", 4362, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U8) (((const U8*)pat)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)pat)[1]) == sizeof(U32 )) ? ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_exec.c" , 4362, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_exec.c", 4362, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U32) ((( const U8*)pat)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0))))) : (((sizeof(((const U8*)pat)[1]) == sizeof (U64)) ? (void)0 : __assert2("re_exec.c", 4362, __func__, "sizeof(((const U8*)pat)[1]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_exec.c" , 4362, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_exec.c", 4362, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U64) ((( const U8*)pat)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0)))))))) ) ) ? 2 : 0 ): 0 ) )) |
4363 | || (!is_utf8_pat && is_MULTI_CHAR_FOLD_latin1_safe(pat, pat_end)( ((pat_end)-(pat) > 2) ? ( ( ( ((const U8*)pat)[0] & 0xDF ) == 0x46 ) ? ( ( ( ((const U8*)pat)[1] & 0xDF ) == 0x46 ) ? ( ( ( ( ((const U8*)pat)[2] & 0xDF ) == 0x49 ) || ( ( ((const U8*)pat)[2] & 0xDF ) == 0x4C ) ) ? 3 : 2 ) : ( ( ( ((const U8*)pat)[1] & 0xDF ) == 0x49 ) || ( ( ((const U8 *)pat)[1] & 0xDF ) == 0x4C ) ) ? 2 : 0 ) : ( ( ( ((const U8 *)pat)[0] & 0xDF ) == 0x53 ) && ( ((((0x54) >= (0x53)) ? (void)0 : __assert2("re_exec.c", 4363, __func__, "(0x54) >= (0x53)" )), ( (sizeof(((const U8*)pat)[1]) == sizeof(U8)) ? ((((NV) ( (0x53)) >= 0) ? (void)0 : __assert2("re_exec.c", 4363, __func__ , "(NV) ((0x53)) >= 0")), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2("re_exec.c", 4363, __func__, "(NV) (((0x54) - (0x53))) >= 0" )), (((U64) (((((U8) (((const U8*)pat)[1])))) - (((0x53)) | 0 ))) <= (((U64) ((((0x54) - (0x53))) | 0))))) : (sizeof(((const U8*)pat)[1]) == sizeof(U32)) ? ((((NV) ((0x53)) >= 0) ? ( void)0 : __assert2("re_exec.c", 4363, __func__, "(NV) ((0x53)) >= 0" )), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 4363, __func__, "(NV) (((0x54) - (0x53))) >= 0" )), (((U64) (((((U32) (((const U8*)pat)[1])))) - (((0x53)) | 0 ))) <= (((U64) ((((0x54) - (0x53))) | 0))))) : (((sizeof(( (const U8*)pat)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 4363, __func__, "sizeof(((const U8*)pat)[1]) == sizeof(U64)" )), ((((NV) ((0x53)) >= 0) ? (void)0 : __assert2("re_exec.c" , 4363, __func__, "(NV) ((0x53)) >= 0")), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2("re_exec.c", 4363, __func__ , "(NV) (((0x54) - (0x53))) >= 0")), (((U64) (((((U64) ((( const U8*)pat)[1])))) - (((0x53)) | 0))) <= (((U64) ((((0x54 ) - (0x53))) | 0)))))))) || ((((0x74) >= (0x73)) ? (void)0 : __assert2("re_exec.c", 4363, __func__, "(0x74) >= (0x73)" )), ( (sizeof(((const U8*)pat)[1]) == sizeof(U8)) ? ((((NV) ( (0x73)) >= 0) ? (void)0 : __assert2("re_exec.c", 4363, __func__ , "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_exec.c", 4363, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)pat)[1])))) - (((0x73)) | 0 ))) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)pat)[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? ( void)0 : __assert2("re_exec.c", 4363, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 4363, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)pat)[1])))) - (((0x73)) | 0 ))) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof(( (const U8*)pat)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 4363, __func__, "sizeof(((const U8*)pat)[1]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_exec.c" , 4363, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_exec.c", 4363, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U64) ((( const U8*)pat)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0)))))))) ) ) ? 2 : 0 ): ((pat_end)-(pat) > 1) ? ( ( ( ((const U8*)pat)[0] & 0xDF ) == 0x46 ) ? ( ( ( ( ((const U8*)pat)[1] & 0xDF ) == 0x46 ) || ( ( ((const U8 *)pat)[1] & 0xDF ) == 0x49 ) || ( ( ((const U8*)pat)[1] & 0xDF ) == 0x4C ) ) ? 2 : 0 ) : ( ( ( ((const U8*)pat)[0] & 0xDF ) == 0x53 ) && ( ((((0x54) >= (0x53)) ? (void )0 : __assert2("re_exec.c", 4363, __func__, "(0x54) >= (0x53)" )), ( (sizeof(((const U8*)pat)[1]) == sizeof(U8)) ? ((((NV) ( (0x53)) >= 0) ? (void)0 : __assert2("re_exec.c", 4363, __func__ , "(NV) ((0x53)) >= 0")), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2("re_exec.c", 4363, __func__, "(NV) (((0x54) - (0x53))) >= 0" )), (((U64) (((((U8) (((const U8*)pat)[1])))) - (((0x53)) | 0 ))) <= (((U64) ((((0x54) - (0x53))) | 0))))) : (sizeof(((const U8*)pat)[1]) == sizeof(U32)) ? ((((NV) ((0x53)) >= 0) ? ( void)0 : __assert2("re_exec.c", 4363, __func__, "(NV) ((0x53)) >= 0" )), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 4363, __func__, "(NV) (((0x54) - (0x53))) >= 0" )), (((U64) (((((U32) (((const U8*)pat)[1])))) - (((0x53)) | 0 ))) <= (((U64) ((((0x54) - (0x53))) | 0))))) : (((sizeof(( (const U8*)pat)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 4363, __func__, "sizeof(((const U8*)pat)[1]) == sizeof(U64)" )), ((((NV) ((0x53)) >= 0) ? (void)0 : __assert2("re_exec.c" , 4363, __func__, "(NV) ((0x53)) >= 0")), (((NV) (((0x54) - (0x53))) >= 0) ? (void)0 : __assert2("re_exec.c", 4363, __func__ , "(NV) (((0x54) - (0x53))) >= 0")), (((U64) (((((U64) ((( const U8*)pat)[1])))) - (((0x53)) | 0))) <= (((U64) ((((0x54 ) - (0x53))) | 0)))))))) || ((((0x74) >= (0x73)) ? (void)0 : __assert2("re_exec.c", 4363, __func__, "(0x74) >= (0x73)" )), ( (sizeof(((const U8*)pat)[1]) == sizeof(U8)) ? ((((NV) ( (0x73)) >= 0) ? (void)0 : __assert2("re_exec.c", 4363, __func__ , "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_exec.c", 4363, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U8) (((const U8*)pat)[1])))) - (((0x73)) | 0 ))) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (sizeof(((const U8*)pat)[1]) == sizeof(U32)) ? ((((NV) ((0x73)) >= 0) ? ( void)0 : __assert2("re_exec.c", 4363, __func__, "(NV) ((0x73)) >= 0" )), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 4363, __func__, "(NV) (((0x74) - (0x73))) >= 0" )), (((U64) (((((U32) (((const U8*)pat)[1])))) - (((0x73)) | 0 ))) <= (((U64) ((((0x74) - (0x73))) | 0))))) : (((sizeof(( (const U8*)pat)[1]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c" , 4363, __func__, "sizeof(((const U8*)pat)[1]) == sizeof(U64)" )), ((((NV) ((0x73)) >= 0) ? (void)0 : __assert2("re_exec.c" , 4363, __func__, "(NV) ((0x73)) >= 0")), (((NV) (((0x74) - (0x73))) >= 0) ? (void)0 : __assert2("re_exec.c", 4363, __func__ , "(NV) (((0x74) - (0x73))) >= 0")), (((U64) (((((U64) ((( const U8*)pat)[1])))) - (((0x73)) | 0))) <= (((U64) ((((0x74 ) - (0x73))) | 0)))))))) ) ) ? 2 : 0 ): 0 ))) |
4364 | { |
4365 | /* Multi-character folds require more context to sort out. Also |
4366 | * PL_utf8_foldclosures used below doesn't handle them, so have to |
4367 | * be handled outside this routine */ |
4368 | use_chrtest_void = TRUE(1); |
4369 | } |
4370 | else { /* an EXACTFish node which doesn't begin with a multi-char fold */ |
4371 | c1 = is_utf8_pat ? valid_utf8_to_uvchrPerl_valid_utf8_to_uvchr(pat, NULL((void*)0)) : *pat; |
4372 | |
4373 | if ( UNLIKELY(PL_in_utf8_turkic_locale)__builtin_expect(((PL_in_utf8_turkic_locale) ? (_Bool)1 : (_Bool )0),(0)) |
4374 | && OP(text_node)((text_node)->type) == EXACTFL44 |
4375 | && UNLIKELY( c1 == 'i' || c1 == 'I'__builtin_expect(((c1 == 'i' || c1 == 'I' || c1 == 0x130 || c1 == 0x131) ? (_Bool)1 : (_Bool)0),(0)) |
4376 | || c1 == LATIN_CAPITAL_LETTER_I_WITH_DOT_ABOVE__builtin_expect(((c1 == 'i' || c1 == 'I' || c1 == 0x130 || c1 == 0x131) ? (_Bool)1 : (_Bool)0),(0)) |
4377 | || c1 == LATIN_SMALL_LETTER_DOTLESS_I)__builtin_expect(((c1 == 'i' || c1 == 'I' || c1 == 0x130 || c1 == 0x131) ? (_Bool)1 : (_Bool)0),(0))) |
4378 | { /* Hard-coded Turkish locale rules for these 4 characters |
4379 | override normal rules */ |
4380 | if (c1 == 'i') { |
4381 | c2 = LATIN_CAPITAL_LETTER_I_WITH_DOT_ABOVE0x130; |
4382 | } |
4383 | else if (c1 == 'I') { |
4384 | c2 = LATIN_SMALL_LETTER_DOTLESS_I0x131; |
4385 | } |
4386 | else if (c1 == LATIN_CAPITAL_LETTER_I_WITH_DOT_ABOVE0x130) { |
4387 | c2 = 'i'; |
4388 | } |
4389 | else if (c1 == LATIN_SMALL_LETTER_DOTLESS_I0x131) { |
4390 | c2 = 'I'; |
4391 | } |
4392 | } |
4393 | else if (c1 > 255) { |
4394 | const U32 * remaining_folds; |
4395 | U32 first_fold; |
4396 | |
4397 | /* Look up what code points (besides c1) fold to c1; e.g., |
4398 | * [ 'K', KELVIN_SIGN ] both fold to 'k'. */ |
4399 | Size_tsize_t folds_count = _inverse_folds(c1, &first_fold,Perl__inverse_folds( c1,&first_fold,&remaining_folds) |
4400 | &remaining_folds)Perl__inverse_folds( c1,&first_fold,&remaining_folds); |
4401 | if (folds_count == 0) { |
4402 | c2 = c1; /* there is only a single character that could |
4403 | match */ |
4404 | } |
4405 | else if (folds_count != 1) { |
4406 | /* If there aren't exactly two folds to this (itself and |
4407 | * another), it is outside the scope of this function */ |
4408 | use_chrtest_void = TRUE(1); |
4409 | } |
4410 | else { /* There are two. We already have one, get the other */ |
4411 | c2 = first_fold; |
4412 | |
4413 | /* Folds that cross the 255/256 boundary are forbidden if |
4414 | * EXACTFL (and isnt a UTF8 locale), or EXACTFAA and one is |
4415 | * ASCIII. The only other match to c1 is c2, and since c1 |
4416 | * is above 255, c2 better be as well under these |
4417 | * circumstances. If it isn't, it means the only legal |
4418 | * match of c1 is itself. */ |
4419 | if ( c2 < 256 |
4420 | && ( ( OP(text_node)((text_node)->type) == EXACTFL44 |
4421 | && ! IN_UTF8_CTYPE_LOCALEPL_in_utf8_CTYPE_locale) |
4422 | || (( OP(text_node)((text_node)->type) == EXACTFAA46 |
4423 | || OP(text_node)((text_node)->type) == EXACTFAA_NO_TRIE49) |
4424 | && (isASCII(c1)((U64)((c1) | 0) < 128) || isASCII(c2)((U64)((c2) | 0) < 128))))) |
4425 | { |
4426 | c2 = c1; |
4427 | } |
4428 | } |
4429 | } |
4430 | else /* Here, c1 is <= 255 */ |
4431 | if ( utf8_target |
4432 | && HAS_NONLATIN1_FOLD_CLOSURE(c1)((! ((( (sizeof(c1) == 1) || !(((U64)((c1) | 0)) & ~0xFF) )) ? (_Bool)1 : (_Bool)0)) || (PL_charclass[(U8) (c1)] & ( 1U << (18)))) |
4433 | && ( ! (OP(text_node)((text_node)->type) == EXACTFL44 && ! IN_UTF8_CTYPE_LOCALEPL_in_utf8_CTYPE_locale)) |
4434 | && ( ( OP(text_node)((text_node)->type) != EXACTFAA46 |
4435 | && OP(text_node)((text_node)->type) != EXACTFAA_NO_TRIE49) |
4436 | || ! isASCII(c1)((U64)((c1) | 0) < 128))) |
4437 | { |
4438 | /* Here, there could be something above Latin1 in the target |
4439 | * which folds to this character in the pattern. All such |
4440 | * cases except LATIN SMALL LETTER Y WITH DIAERESIS have more |
4441 | * than two characters involved in their folds, so are outside |
4442 | * the scope of this function */ |
4443 | if (UNLIKELY(c1 == LATIN_SMALL_LETTER_Y_WITH_DIAERESIS)__builtin_expect(((c1 == 0xFF) ? (_Bool)1 : (_Bool)0),(0))) { |
4444 | c2 = LATIN_CAPITAL_LETTER_Y_WITH_DIAERESIS0x0178; |
4445 | } |
4446 | else { |
4447 | use_chrtest_void = TRUE(1); |
4448 | } |
4449 | } |
4450 | else { /* Here nothing above Latin1 can fold to the pattern |
4451 | character */ |
4452 | switch (OP(text_node)((text_node)->type)) { |
4453 | |
4454 | case EXACTFL44: /* /l rules */ |
4455 | c2 = PL_fold_locale[c1]; |
4456 | break; |
4457 | |
4458 | case EXACTF43: /* This node only generated for non-utf8 |
4459 | patterns */ |
4460 | assert(! is_utf8_pat)((! is_utf8_pat) ? (void)0 : __assert2("re_exec.c", 4460, __func__ , "! is_utf8_pat")); |
4461 | if (! utf8_target) { /* /d rules */ |
4462 | c2 = PL_fold[c1]; |
4463 | break; |
4464 | } |
4465 | /* FALLTHROUGH */ |
4466 | /* /u rules for all these. This happens to work for |
4467 | * EXACTFAA as nothing in Latin1 folds to ASCII */ |
4468 | case EXACTFAA_NO_TRIE49: /* This node only generated for |
4469 | non-utf8 patterns */ |
4470 | assert(! is_utf8_pat)((! is_utf8_pat) ? (void)0 : __assert2("re_exec.c", 4470, __func__ , "! is_utf8_pat")); |
4471 | /* FALLTHROUGH */ |
4472 | case EXACTFAA46: |
4473 | case EXACTFUP47: |
4474 | case EXACTFU45: |
4475 | c2 = PL_fold_latin1[c1]; |
4476 | break; |
4477 | case EXACTFU_REQ852: |
4478 | return FALSE(0); |
4479 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 4479 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
4480 | |
4481 | default: |
4482 | Perl_croak(aTHX_ "panic: Unexpected op %u", OP(text_node)((text_node)->type)); |
4483 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 4483 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
4484 | } |
4485 | } |
4486 | } |
4487 | } |
4488 | |
4489 | /* Here have figured things out. Set up the returns */ |
4490 | if (use_chrtest_void) { |
4491 | *c2p = *c1p = CHRTEST_VOID-1000; |
4492 | } |
4493 | else if (utf8_target) { |
4494 | if (! utf8_has_been_setup) { /* Don't have the utf8; must get it */ |
4495 | uvchr_to_utf8(c1_utf8, c1)Perl_uvoffuni_to_utf8_flags_msgs( c1_utf8,((UV) ((c1) | 0)),0 ,0); |
4496 | uvchr_to_utf8(c2_utf8, c2)Perl_uvoffuni_to_utf8_flags_msgs( c2_utf8,((UV) ((c2) | 0)),0 ,0); |
4497 | } |
4498 | |
4499 | /* Invariants are stored in both the utf8 and byte outputs; Use |
4500 | * negative numbers otherwise for the byte ones. Make sure that the |
4501 | * byte ones are the same iff the utf8 ones are the same */ |
4502 | *c1p = (UTF8_IS_INVARIANT(*c1_utf8)((((U64)(((UV) (((*c1_utf8) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? *c1_utf8 : CHRTEST_NOT_A_CP_1-999; |
4503 | *c2p = (UTF8_IS_INVARIANT(*c2_utf8)((((U64)(((UV) (((*c2_utf8) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) |
4504 | ? *c2_utf8 |
4505 | : (c1 == c2) |
4506 | ? CHRTEST_NOT_A_CP_1-999 |
4507 | : CHRTEST_NOT_A_CP_2-998; |
4508 | } |
4509 | else if (c1 > 255) { |
4510 | if (c2 > 255) { /* both possibilities are above what a non-utf8 string |
4511 | can represent */ |
4512 | return FALSE(0); |
4513 | } |
4514 | |
4515 | *c1p = *c2p = c2; /* c2 is the only representable value */ |
4516 | } |
4517 | else { /* c1 is representable; see about c2 */ |
4518 | *c1p = c1; |
4519 | *c2p = (c2 < 256) ? c2 : c1; |
4520 | } |
4521 | |
4522 | return TRUE(1); |
4523 | } |
4524 | |
4525 | STATICstatic bool_Bool |
4526 | S_isGCB(pTHX_ const GCB_enum before, const GCB_enum after, const U8 * const strbeg, const U8 * const curpos, const bool_Bool utf8_target) |
4527 | { |
4528 | /* returns a boolean indicating if there is a Grapheme Cluster Boundary |
4529 | * between the inputs. See https://www.unicode.org/reports/tr29/. */ |
4530 | |
4531 | PERL_ARGS_ASSERT_ISGCB((strbeg) ? (void)0 : __assert2("re_exec.c", 4531, __func__, "strbeg" )); ((curpos) ? (void)0 : __assert2("re_exec.c", 4531, __func__ , "curpos")); |
4532 | |
4533 | switch (GCB_table[before][after]) { |
4534 | case GCB_BREAKABLE1: |
4535 | return TRUE(1); |
4536 | |
4537 | case GCB_NOBREAK0: |
4538 | return FALSE(0); |
4539 | |
4540 | case GCB_RI_then_RI2: |
4541 | { |
4542 | int RI_count = 1; |
4543 | U8 * temp_pos = (U8 *) curpos; |
4544 | |
4545 | /* Do not break within emoji flag sequences. That is, do not |
4546 | * break between regional indicator (RI) symbols if there is an |
4547 | * odd number of RI characters before the break point. |
4548 | * GB12 sot (RI RI)* RI × RI |
4549 | * GB13 [^RI] (RI RI)* RI × RI */ |
4550 | |
4551 | while (backup_one_GCB(strbeg,S_backup_one_GCB( strbeg,&temp_pos,utf8_target) |
4552 | &temp_pos,S_backup_one_GCB( strbeg,&temp_pos,utf8_target) |
4553 | utf8_target)S_backup_one_GCB( strbeg,&temp_pos,utf8_target) == GCB_Regional_Indicator) |
4554 | { |
4555 | RI_count++; |
4556 | } |
4557 | |
4558 | return RI_count % 2 != 1; |
4559 | } |
4560 | |
4561 | case GCB_EX_then_EM3: |
4562 | |
4563 | /* GB10 ( E_Base | E_Base_GAZ ) Extend* × E_Modifier */ |
4564 | { |
4565 | U8 * temp_pos = (U8 *) curpos; |
4566 | GCB_enum prev; |
4567 | |
4568 | do { |
4569 | prev = backup_one_GCB(strbeg, &temp_pos, utf8_target)S_backup_one_GCB( strbeg,&temp_pos,utf8_target); |
4570 | } |
4571 | while (prev == GCB_Extend); |
4572 | |
4573 | return prev != GCB_E_Base && prev != GCB_E_Base_GAZ; |
4574 | } |
4575 | |
4576 | case GCB_Maybe_Emoji_NonBreak4: |
4577 | |
4578 | { |
4579 | |
4580 | /* Do not break within emoji modifier sequences or emoji zwj sequences. |
4581 | GB11 \p{Extended_Pictographic} Extend* ZWJ × \p{Extended_Pictographic} |
4582 | */ |
4583 | U8 * temp_pos = (U8 *) curpos; |
4584 | GCB_enum prev; |
4585 | |
4586 | do { |
4587 | prev = backup_one_GCB(strbeg, &temp_pos, utf8_target)S_backup_one_GCB( strbeg,&temp_pos,utf8_target); |
4588 | } |
4589 | while (prev == GCB_Extend); |
4590 | |
4591 | return prev != GCB_ExtPict_XX; |
4592 | } |
4593 | |
4594 | default: |
4595 | break; |
4596 | } |
4597 | |
4598 | #ifdef DEBUGGING |
4599 | Perl_re_printf( aTHX_ "Unhandled GCB pair: GCB_table[%d, %d] = %d\n", |
4600 | before, after, GCB_table[before][after]); |
4601 | assert(0)((0) ? (void)0 : __assert2("re_exec.c", 4601, __func__, "0")); |
4602 | #endif |
4603 | return TRUE(1); |
4604 | } |
4605 | |
4606 | STATICstatic GCB_enum |
4607 | S_backup_one_GCB(pTHX_ const U8 * const strbeg, U8 ** curpos, const bool_Bool utf8_target) |
4608 | { |
4609 | dVARstruct Perl___notused_struct; |
4610 | GCB_enum gcb; |
4611 | |
4612 | PERL_ARGS_ASSERT_BACKUP_ONE_GCB((strbeg) ? (void)0 : __assert2("re_exec.c", 4612, __func__, "strbeg" )); ((curpos) ? (void)0 : __assert2("re_exec.c", 4612, __func__ , "curpos")); |
4613 | |
4614 | if (*curpos < strbeg) { |
4615 | return GCB_EDGE; |
4616 | } |
4617 | |
4618 | if (utf8_target) { |
4619 | U8 * prev_char_pos = reghopmaybe3S_reghopmaybe3(*curpos, -1, strbeg); |
4620 | U8 * prev_prev_char_pos; |
4621 | |
4622 | if (! prev_char_pos) { |
4623 | return GCB_EDGE; |
4624 | } |
4625 | |
4626 | if ((prev_prev_char_pos = reghopmaybe3S_reghopmaybe3((U8 *) prev_char_pos, -1, strbeg))) { |
4627 | gcb = getGCB_VAL_UTF8(prev_prev_char_pos, prev_char_pos)(((prev_prev_char_pos < prev_char_pos) ? (void)0 : __assert2 ("re_exec.c", 4627, __func__, "prev_prev_char_pos < prev_char_pos" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((prev_prev_char_pos )),(const U8 *) (prev_char_pos),((void*)0))))])); |
4628 | *curpos = prev_char_pos; |
4629 | prev_char_pos = prev_prev_char_pos; |
4630 | } |
4631 | else { |
4632 | *curpos = (U8 *) strbeg; |
4633 | return GCB_EDGE; |
4634 | } |
4635 | } |
4636 | else { |
4637 | if (*curpos - 2 < strbeg) { |
4638 | *curpos = (U8 *) strbeg; |
4639 | return GCB_EDGE; |
4640 | } |
4641 | (*curpos)--; |
4642 | gcb = getGCB_VAL_CP(*(*curpos - 1))_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist, ( *(*curpos - 1)))]; |
4643 | } |
4644 | |
4645 | return gcb; |
4646 | } |
4647 | |
4648 | /* Combining marks attach to most classes that precede them, but this defines |
4649 | * the exceptions (from TR14) */ |
4650 | #define LB_CM_ATTACHES_TO(prev)( ! ( prev == LB_EDGE || prev == LB_Mandatory_Break || prev == LB_Carriage_Return || prev == LB_Line_Feed || prev == LB_Next_Line || prev == LB_Space || prev == LB_ZWSpace)) ( ! ( prev == LB_EDGE \ |
4651 | || prev == LB_Mandatory_Break \ |
4652 | || prev == LB_Carriage_Return \ |
4653 | || prev == LB_Line_Feed \ |
4654 | || prev == LB_Next_Line \ |
4655 | || prev == LB_Space \ |
4656 | || prev == LB_ZWSpace)) |
4657 | |
4658 | STATICstatic bool_Bool |
4659 | S_isLB(pTHX_ LB_enum before, |
4660 | LB_enum after, |
4661 | const U8 * const strbeg, |
4662 | const U8 * const curpos, |
4663 | const U8 * const strend, |
4664 | const bool_Bool utf8_target) |
4665 | { |
4666 | U8 * temp_pos = (U8 *) curpos; |
4667 | LB_enum prev = before; |
4668 | |
4669 | /* Is the boundary between 'before' and 'after' line-breakable? |
4670 | * Most of this is just a table lookup of a generated table from Unicode |
4671 | * rules. But some rules require context to decide, and so have to be |
4672 | * implemented in code */ |
4673 | |
4674 | PERL_ARGS_ASSERT_ISLB((strbeg) ? (void)0 : __assert2("re_exec.c", 4674, __func__, "strbeg" )); ((curpos) ? (void)0 : __assert2("re_exec.c", 4674, __func__ , "curpos")); ((strend) ? (void)0 : __assert2("re_exec.c", 4674 , __func__, "strend")); |
4675 | |
4676 | /* Rule numbers in the comments below are as of Unicode 9.0 */ |
4677 | |
4678 | redo: |
4679 | before = prev; |
4680 | switch (LB_table[before][after]) { |
4681 | case LB_BREAKABLE1: |
4682 | return TRUE(1); |
4683 | |
4684 | case LB_NOBREAK0: |
4685 | case LB_NOBREAK_EVEN_WITH_SP_BETWEEN2: |
4686 | return FALSE(0); |
4687 | |
4688 | case LB_SP_foo6 + LB_BREAKABLE1: |
4689 | case LB_SP_foo6 + LB_NOBREAK0: |
4690 | case LB_SP_foo6 + LB_NOBREAK_EVEN_WITH_SP_BETWEEN2: |
4691 | |
4692 | /* When we have something following a SP, we have to look at the |
4693 | * context in order to know what to do. |
4694 | * |
4695 | * SP SP should not reach here because LB7: Do not break before |
4696 | * spaces. (For two spaces in a row there is nothing that |
4697 | * overrides that) */ |
4698 | assert(after != LB_Space)((after != LB_Space) ? (void)0 : __assert2("re_exec.c", 4698, __func__, "after != LB_Space")); |
4699 | |
4700 | /* Here we have a space followed by a non-space. Mostly this is a |
4701 | * case of LB18: "Break after spaces". But there are complications |
4702 | * as the handling of spaces is somewhat tricky. They are in a |
4703 | * number of rules, which have to be applied in priority order, but |
4704 | * something earlier in the string can cause a rule to be skipped |
4705 | * and a lower priority rule invoked. A prime example is LB7 which |
4706 | * says don't break before a space. But rule LB8 (lower priority) |
4707 | * says that the first break opportunity after a ZW is after any |
4708 | * span of spaces immediately after it. If a ZW comes before a SP |
4709 | * in the input, rule LB8 applies, and not LB7. Other such rules |
4710 | * involve combining marks which are rules 9 and 10, but they may |
4711 | * override higher priority rules if they come earlier in the |
4712 | * string. Since we're doing random access into the middle of the |
4713 | * string, we have to look for rules that should get applied based |
4714 | * on both string position and priority. Combining marks do not |
4715 | * attach to either ZW nor SP, so we don't have to consider them |
4716 | * until later. |
4717 | * |
4718 | * To check for LB8, we have to find the first non-space character |
4719 | * before this span of spaces */ |
4720 | do { |
4721 | prev = backup_one_LB(strbeg, &temp_pos, utf8_target)S_backup_one_LB( strbeg,&temp_pos,utf8_target); |
4722 | } |
4723 | while (prev == LB_Space); |
4724 | |
4725 | /* LB8 Break before any character following a zero-width space, |
4726 | * even if one or more spaces intervene. |
4727 | * ZW SP* ÷ |
4728 | * So if we have a ZW just before this span, and to get here this |
4729 | * is the final space in the span. */ |
4730 | if (prev == LB_ZWSpace) { |
4731 | return TRUE(1); |
4732 | } |
4733 | |
4734 | /* Here, not ZW SP+. There are several rules that have higher |
4735 | * priority than LB18 and can be resolved now, as they don't depend |
4736 | * on anything earlier in the string (except ZW, which we have |
4737 | * already handled). One of these rules is LB11 Do not break |
4738 | * before Word joiner, but we have specially encoded that in the |
4739 | * lookup table so it is caught by the single test below which |
4740 | * catches the other ones. */ |
4741 | if (LB_table[LB_Space][after] - LB_SP_foo6 |
4742 | == LB_NOBREAK_EVEN_WITH_SP_BETWEEN2) |
4743 | { |
4744 | return FALSE(0); |
4745 | } |
4746 | |
4747 | /* If we get here, we have to XXX consider combining marks. */ |
4748 | if (prev == LB_Combining_Mark) { |
4749 | |
4750 | /* What happens with these depends on the character they |
4751 | * follow. */ |
4752 | do { |
4753 | prev = backup_one_LB(strbeg, &temp_pos, utf8_target)S_backup_one_LB( strbeg,&temp_pos,utf8_target); |
4754 | } |
4755 | while (prev == LB_Combining_Mark); |
4756 | |
4757 | /* Most times these attach to and inherit the characteristics |
4758 | * of that character, but not always, and when not, they are to |
4759 | * be treated as AL by rule LB10. */ |
4760 | if (! LB_CM_ATTACHES_TO(prev)( ! ( prev == LB_EDGE || prev == LB_Mandatory_Break || prev == LB_Carriage_Return || prev == LB_Line_Feed || prev == LB_Next_Line || prev == LB_Space || prev == LB_ZWSpace))) { |
4761 | prev = LB_Alphabetic; |
4762 | } |
4763 | } |
4764 | |
4765 | /* Here, we have the character preceding the span of spaces all set |
4766 | * up. We follow LB18: "Break after spaces" unless the table shows |
4767 | * that is overriden */ |
4768 | return LB_table[prev][after] != LB_NOBREAK_EVEN_WITH_SP_BETWEEN2; |
4769 | |
4770 | case LB_CM_ZWJ_foo3: |
4771 | |
4772 | /* We don't know how to treat the CM except by looking at the first |
4773 | * non-CM character preceding it. ZWJ is treated as CM */ |
4774 | do { |
4775 | prev = backup_one_LB(strbeg, &temp_pos, utf8_target)S_backup_one_LB( strbeg,&temp_pos,utf8_target); |
4776 | } |
4777 | while (prev == LB_Combining_Mark || prev == LB_ZWJ); |
4778 | |
4779 | /* Here, 'prev' is that first earlier non-CM character. If the CM |
4780 | * attatches to it, then it inherits the behavior of 'prev'. If it |
4781 | * doesn't attach, it is to be treated as an AL */ |
4782 | if (! LB_CM_ATTACHES_TO(prev)( ! ( prev == LB_EDGE || prev == LB_Mandatory_Break || prev == LB_Carriage_Return || prev == LB_Line_Feed || prev == LB_Next_Line || prev == LB_Space || prev == LB_ZWSpace))) { |
4783 | prev = LB_Alphabetic; |
4784 | } |
4785 | |
4786 | goto redo; |
4787 | |
4788 | case LB_HY_or_BA_then_foo13 + LB_BREAKABLE1: |
4789 | case LB_HY_or_BA_then_foo13 + LB_NOBREAK0: |
4790 | |
4791 | /* LB21a Don't break after Hebrew + Hyphen. |
4792 | * HL (HY | BA) × */ |
4793 | |
4794 | if (backup_one_LB(strbeg, &temp_pos, utf8_target)S_backup_one_LB( strbeg,&temp_pos,utf8_target) |
4795 | == LB_Hebrew_Letter) |
4796 | { |
4797 | return FALSE(0); |
4798 | } |
4799 | |
4800 | return LB_table[prev][after] - LB_HY_or_BA_then_foo13 == LB_BREAKABLE1; |
4801 | |
4802 | case LB_PR_or_PO_then_OP_or_HY9 + LB_BREAKABLE1: |
4803 | case LB_PR_or_PO_then_OP_or_HY9 + LB_NOBREAK0: |
4804 | |
4805 | /* LB25a (PR | PO) × ( OP | HY )? NU */ |
4806 | if (advance_one_LB(&temp_pos, strend, utf8_target)S_advance_one_LB( &temp_pos,strend,utf8_target) == LB_Numeric) { |
4807 | return FALSE(0); |
4808 | } |
4809 | |
4810 | return LB_table[prev][after] - LB_PR_or_PO_then_OP_or_HY9 |
4811 | == LB_BREAKABLE1; |
4812 | |
4813 | case LB_SY_or_IS_then_various11 + LB_BREAKABLE1: |
4814 | case LB_SY_or_IS_then_various11 + LB_NOBREAK0: |
4815 | { |
4816 | /* LB25d NU (SY | IS)* × (NU | SY | IS | CL | CP ) */ |
4817 | |
4818 | LB_enum temp = prev; |
Value stored to 'temp' during its initialization is never read | |
4819 | do { |
4820 | temp = backup_one_LB(strbeg, &temp_pos, utf8_target)S_backup_one_LB( strbeg,&temp_pos,utf8_target); |
4821 | } |
4822 | while (temp == LB_Break_Symbols || temp == LB_Infix_Numeric); |
4823 | if (temp == LB_Numeric) { |
4824 | return FALSE(0); |
4825 | } |
4826 | |
4827 | return LB_table[prev][after] - LB_SY_or_IS_then_various11 |
4828 | == LB_BREAKABLE1; |
4829 | } |
4830 | |
4831 | case LB_various_then_PO_or_PR32 + LB_BREAKABLE1: |
4832 | case LB_various_then_PO_or_PR32 + LB_NOBREAK0: |
4833 | { |
4834 | /* LB25e NU (SY | IS)* (CL | CP)? × (PO | PR) */ |
4835 | |
4836 | LB_enum temp = prev; |
4837 | if (temp == LB_Close_Punctuation || temp == LB_Close_Parenthesis) |
4838 | { |
4839 | temp = backup_one_LB(strbeg, &temp_pos, utf8_target)S_backup_one_LB( strbeg,&temp_pos,utf8_target); |
4840 | } |
4841 | while (temp == LB_Break_Symbols || temp == LB_Infix_Numeric) { |
4842 | temp = backup_one_LB(strbeg, &temp_pos, utf8_target)S_backup_one_LB( strbeg,&temp_pos,utf8_target); |
4843 | } |
4844 | if (temp == LB_Numeric) { |
4845 | return FALSE(0); |
4846 | } |
4847 | return LB_various_then_PO_or_PR32; |
4848 | } |
4849 | |
4850 | case LB_RI_then_RI15 + LB_NOBREAK0: |
4851 | case LB_RI_then_RI15 + LB_BREAKABLE1: |
4852 | { |
4853 | int RI_count = 1; |
4854 | |
4855 | /* LB30a Break between two regional indicator symbols if and |
4856 | * only if there are an even number of regional indicators |
4857 | * preceding the position of the break. |
4858 | * |
4859 | * sot (RI RI)* RI × RI |
4860 | * [^RI] (RI RI)* RI × RI */ |
4861 | |
4862 | while (backup_one_LB(strbeg,S_backup_one_LB( strbeg,&temp_pos,utf8_target) |
4863 | &temp_pos,S_backup_one_LB( strbeg,&temp_pos,utf8_target) |
4864 | utf8_target)S_backup_one_LB( strbeg,&temp_pos,utf8_target) == LB_Regional_Indicator) |
4865 | { |
4866 | RI_count++; |
4867 | } |
4868 | |
4869 | return RI_count % 2 == 0; |
4870 | } |
4871 | |
4872 | default: |
4873 | break; |
4874 | } |
4875 | |
4876 | #ifdef DEBUGGING |
4877 | Perl_re_printf( aTHX_ "Unhandled LB pair: LB_table[%d, %d] = %d\n", |
4878 | before, after, LB_table[before][after]); |
4879 | assert(0)((0) ? (void)0 : __assert2("re_exec.c", 4879, __func__, "0")); |
4880 | #endif |
4881 | return TRUE(1); |
4882 | } |
4883 | |
4884 | STATICstatic LB_enum |
4885 | S_advance_one_LB(pTHX_ U8 ** curpos, const U8 * const strend, const bool_Bool utf8_target) |
4886 | { |
4887 | dVARstruct Perl___notused_struct; |
4888 | |
4889 | LB_enum lb; |
4890 | |
4891 | PERL_ARGS_ASSERT_ADVANCE_ONE_LB((curpos) ? (void)0 : __assert2("re_exec.c", 4891, __func__, "curpos" )); ((strend) ? (void)0 : __assert2("re_exec.c", 4891, __func__ , "strend")); |
4892 | |
4893 | if (*curpos >= strend) { |
4894 | return LB_EDGE; |
4895 | } |
4896 | |
4897 | if (utf8_target) { |
4898 | *curpos += UTF8SKIP(*curpos)PL_utf8skip[*(const U8*)(*curpos)]; |
4899 | if (*curpos >= strend) { |
4900 | return LB_EDGE; |
4901 | } |
4902 | lb = getLB_VAL_UTF8(*curpos, strend)(((*curpos < strend) ? (void)0 : __assert2("re_exec.c", 4902 , __func__, "*curpos < strend")), (_Perl_LB_invmap[S_get_break_val_cp_checked (PL_LB_invlist, (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ( (*curpos)),(const U8 *) (strend),((void*)0))))])); |
4903 | } |
4904 | else { |
4905 | (*curpos)++; |
4906 | if (*curpos >= strend) { |
4907 | return LB_EDGE; |
4908 | } |
4909 | lb = getLB_VAL_CP(**curpos)_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist, (** curpos))]; |
4910 | } |
4911 | |
4912 | return lb; |
4913 | } |
4914 | |
4915 | STATICstatic LB_enum |
4916 | S_backup_one_LB(pTHX_ const U8 * const strbeg, U8 ** curpos, const bool_Bool utf8_target) |
4917 | { |
4918 | dVARstruct Perl___notused_struct; |
4919 | LB_enum lb; |
4920 | |
4921 | PERL_ARGS_ASSERT_BACKUP_ONE_LB((strbeg) ? (void)0 : __assert2("re_exec.c", 4921, __func__, "strbeg" )); ((curpos) ? (void)0 : __assert2("re_exec.c", 4921, __func__ , "curpos")); |
4922 | |
4923 | if (*curpos < strbeg) { |
4924 | return LB_EDGE; |
4925 | } |
4926 | |
4927 | if (utf8_target) { |
4928 | U8 * prev_char_pos = reghopmaybe3S_reghopmaybe3(*curpos, -1, strbeg); |
4929 | U8 * prev_prev_char_pos; |
4930 | |
4931 | if (! prev_char_pos) { |
4932 | return LB_EDGE; |
4933 | } |
4934 | |
4935 | if ((prev_prev_char_pos = reghopmaybe3S_reghopmaybe3((U8 *) prev_char_pos, -1, strbeg))) { |
4936 | lb = getLB_VAL_UTF8(prev_prev_char_pos, prev_char_pos)(((prev_prev_char_pos < prev_char_pos) ? (void)0 : __assert2 ("re_exec.c", 4936, __func__, "prev_prev_char_pos < prev_char_pos" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((prev_prev_char_pos )),(const U8 *) (prev_char_pos),((void*)0))))])); |
4937 | *curpos = prev_char_pos; |
4938 | prev_char_pos = prev_prev_char_pos; |
4939 | } |
4940 | else { |
4941 | *curpos = (U8 *) strbeg; |
4942 | return LB_EDGE; |
4943 | } |
4944 | } |
4945 | else { |
4946 | if (*curpos - 2 < strbeg) { |
4947 | *curpos = (U8 *) strbeg; |
4948 | return LB_EDGE; |
4949 | } |
4950 | (*curpos)--; |
4951 | lb = getLB_VAL_CP(*(*curpos - 1))_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist, (*( *curpos - 1)))]; |
4952 | } |
4953 | |
4954 | return lb; |
4955 | } |
4956 | |
4957 | STATICstatic bool_Bool |
4958 | S_isSB(pTHX_ SB_enum before, |
4959 | SB_enum after, |
4960 | const U8 * const strbeg, |
4961 | const U8 * const curpos, |
4962 | const U8 * const strend, |
4963 | const bool_Bool utf8_target) |
4964 | { |
4965 | /* returns a boolean indicating if there is a Sentence Boundary Break |
4966 | * between the inputs. See https://www.unicode.org/reports/tr29/ */ |
4967 | |
4968 | U8 * lpos = (U8 *) curpos; |
4969 | bool_Bool has_para_sep = FALSE(0); |
4970 | bool_Bool has_sp = FALSE(0); |
4971 | |
4972 | PERL_ARGS_ASSERT_ISSB((strbeg) ? (void)0 : __assert2("re_exec.c", 4972, __func__, "strbeg" )); ((curpos) ? (void)0 : __assert2("re_exec.c", 4972, __func__ , "curpos")); ((strend) ? (void)0 : __assert2("re_exec.c", 4972 , __func__, "strend")); |
4973 | |
4974 | /* Break at the start and end of text. |
4975 | SB1. sot ÷ |
4976 | SB2. ÷ eot |
4977 | But unstated in Unicode is don't break if the text is empty */ |
4978 | if (before == SB_EDGE || after == SB_EDGE) { |
4979 | return before != after; |
4980 | } |
4981 | |
4982 | /* SB 3: Do not break within CRLF. */ |
4983 | if (before == SB_CR && after == SB_LF) { |
4984 | return FALSE(0); |
4985 | } |
4986 | |
4987 | /* Break after paragraph separators. CR and LF are considered |
4988 | * so because Unicode views text as like word processing text where there |
4989 | * are no newlines except between paragraphs, and the word processor takes |
4990 | * care of wrapping without there being hard line-breaks in the text *./ |
4991 | SB4. Sep | CR | LF ÷ */ |
4992 | if (before == SB_Sep || before == SB_CR || before == SB_LF) { |
4993 | return TRUE(1); |
4994 | } |
4995 | |
4996 | /* Ignore Format and Extend characters, except after sot, Sep, CR, or LF. |
4997 | * (See Section 6.2, Replacing Ignore Rules.) |
4998 | SB5. X (Extend | Format)* → X */ |
4999 | if (after == SB_Extend || after == SB_Format) { |
5000 | |
5001 | /* Implied is that the these characters attach to everything |
5002 | * immediately prior to them except for those separator-type |
5003 | * characters. And the rules earlier have already handled the case |
5004 | * when one of those immediately precedes the extend char */ |
5005 | return FALSE(0); |
5006 | } |
5007 | |
5008 | if (before == SB_Extend || before == SB_Format) { |
5009 | U8 * temp_pos = lpos; |
5010 | const SB_enum backup = backup_one_SB(strbeg, &temp_pos, utf8_target)S_backup_one_SB( strbeg,&temp_pos,utf8_target); |
5011 | if ( backup != SB_EDGE |
5012 | && backup != SB_Sep |
5013 | && backup != SB_CR |
5014 | && backup != SB_LF) |
5015 | { |
5016 | before = backup; |
5017 | lpos = temp_pos; |
5018 | } |
5019 | |
5020 | /* Here, both 'before' and 'backup' are these types; implied is that we |
5021 | * don't break between them */ |
5022 | if (backup == SB_Extend || backup == SB_Format) { |
5023 | return FALSE(0); |
5024 | } |
5025 | } |
5026 | |
5027 | /* Do not break after ambiguous terminators like period, if they are |
5028 | * immediately followed by a number or lowercase letter, if they are |
5029 | * between uppercase letters, if the first following letter (optionally |
5030 | * after certain punctuation) is lowercase, or if they are followed by |
5031 | * "continuation" punctuation such as comma, colon, or semicolon. For |
5032 | * example, a period may be an abbreviation or numeric period, and thus may |
5033 | * not mark the end of a sentence. |
5034 | |
5035 | * SB6. ATerm × Numeric */ |
5036 | if (before == SB_ATerm && after == SB_Numeric) { |
5037 | return FALSE(0); |
5038 | } |
5039 | |
5040 | /* SB7. (Upper | Lower) ATerm × Upper */ |
5041 | if (before == SB_ATerm && after == SB_Upper) { |
5042 | U8 * temp_pos = lpos; |
5043 | SB_enum backup = backup_one_SB(strbeg, &temp_pos, utf8_target)S_backup_one_SB( strbeg,&temp_pos,utf8_target); |
5044 | if (backup == SB_Upper || backup == SB_Lower) { |
5045 | return FALSE(0); |
5046 | } |
5047 | } |
5048 | |
5049 | /* The remaining rules that aren't the final one, all require an STerm or |
5050 | * an ATerm after having backed up over some Close* Sp*, and in one case an |
5051 | * optional Paragraph separator, although one rule doesn't have any Sp's in it. |
5052 | * So do that backup now, setting flags if either Sp or a paragraph |
5053 | * separator are found */ |
5054 | |
5055 | if (before == SB_Sep || before == SB_CR || before == SB_LF) { |
5056 | has_para_sep = TRUE(1); |
5057 | before = backup_one_SB(strbeg, &lpos, utf8_target)S_backup_one_SB( strbeg,&lpos,utf8_target); |
5058 | } |
5059 | |
5060 | if (before == SB_Sp) { |
5061 | has_sp = TRUE(1); |
5062 | do { |
5063 | before = backup_one_SB(strbeg, &lpos, utf8_target)S_backup_one_SB( strbeg,&lpos,utf8_target); |
5064 | } |
5065 | while (before == SB_Sp); |
5066 | } |
5067 | |
5068 | while (before == SB_Close) { |
5069 | before = backup_one_SB(strbeg, &lpos, utf8_target)S_backup_one_SB( strbeg,&lpos,utf8_target); |
5070 | } |
5071 | |
5072 | /* The next few rules apply only when the backed-up-to is an ATerm, and in |
5073 | * most cases an STerm */ |
5074 | if (before == SB_STerm || before == SB_ATerm) { |
5075 | |
5076 | /* So, here the lhs matches |
5077 | * (STerm | ATerm) Close* Sp* (Sep | CR | LF)? |
5078 | * and we have set flags if we found an Sp, or the optional Sep,CR,LF. |
5079 | * The rules that apply here are: |
5080 | * |
5081 | * SB8 ATerm Close* Sp* × ( ¬(OLetter | Upper | Lower | Sep | CR |
5082 | | LF | STerm | ATerm) )* Lower |
5083 | SB8a (STerm | ATerm) Close* Sp* × (SContinue | STerm | ATerm) |
5084 | SB9 (STerm | ATerm) Close* × (Close | Sp | Sep | CR | LF) |
5085 | SB10 (STerm | ATerm) Close* Sp* × (Sp | Sep | CR | LF) |
5086 | SB11 (STerm | ATerm) Close* Sp* (Sep | CR | LF)? ÷ |
5087 | */ |
5088 | |
5089 | /* And all but SB11 forbid having seen a paragraph separator */ |
5090 | if (! has_para_sep) { |
5091 | if (before == SB_ATerm) { /* SB8 */ |
5092 | U8 * rpos = (U8 *) curpos; |
5093 | SB_enum later = after; |
5094 | |
5095 | while ( later != SB_OLetter |
5096 | && later != SB_Upper |
5097 | && later != SB_Lower |
5098 | && later != SB_Sep |
5099 | && later != SB_CR |
5100 | && later != SB_LF |
5101 | && later != SB_STerm |
5102 | && later != SB_ATerm |
5103 | && later != SB_EDGE) |
5104 | { |
5105 | later = advance_one_SB(&rpos, strend, utf8_target)S_advance_one_SB( &rpos,strend,utf8_target); |
5106 | } |
5107 | if (later == SB_Lower) { |
5108 | return FALSE(0); |
5109 | } |
5110 | } |
5111 | |
5112 | if ( after == SB_SContinue /* SB8a */ |
5113 | || after == SB_STerm |
5114 | || after == SB_ATerm) |
5115 | { |
5116 | return FALSE(0); |
5117 | } |
5118 | |
5119 | if (! has_sp) { /* SB9 applies only if there was no Sp* */ |
5120 | if ( after == SB_Close |
5121 | || after == SB_Sp |
5122 | || after == SB_Sep |
5123 | || after == SB_CR |
5124 | || after == SB_LF) |
5125 | { |
5126 | return FALSE(0); |
5127 | } |
5128 | } |
5129 | |
5130 | /* SB10. This and SB9 could probably be combined some way, but khw |
5131 | * has decided to follow the Unicode rule book precisely for |
5132 | * simplified maintenance */ |
5133 | if ( after == SB_Sp |
5134 | || after == SB_Sep |
5135 | || after == SB_CR |
5136 | || after == SB_LF) |
5137 | { |
5138 | return FALSE(0); |
5139 | } |
5140 | } |
5141 | |
5142 | /* SB11. */ |
5143 | return TRUE(1); |
5144 | } |
5145 | |
5146 | /* Otherwise, do not break. |
5147 | SB12. Any × Any */ |
5148 | |
5149 | return FALSE(0); |
5150 | } |
5151 | |
5152 | STATICstatic SB_enum |
5153 | S_advance_one_SB(pTHX_ U8 ** curpos, const U8 * const strend, const bool_Bool utf8_target) |
5154 | { |
5155 | dVARstruct Perl___notused_struct; |
5156 | SB_enum sb; |
5157 | |
5158 | PERL_ARGS_ASSERT_ADVANCE_ONE_SB((curpos) ? (void)0 : __assert2("re_exec.c", 5158, __func__, "curpos" )); ((strend) ? (void)0 : __assert2("re_exec.c", 5158, __func__ , "strend")); |
5159 | |
5160 | if (*curpos >= strend) { |
5161 | return SB_EDGE; |
5162 | } |
5163 | |
5164 | if (utf8_target) { |
5165 | do { |
5166 | *curpos += UTF8SKIP(*curpos)PL_utf8skip[*(const U8*)(*curpos)]; |
5167 | if (*curpos >= strend) { |
5168 | return SB_EDGE; |
5169 | } |
5170 | sb = getSB_VAL_UTF8(*curpos, strend)(((*curpos < strend) ? (void)0 : __assert2("re_exec.c", 5170 , __func__, "*curpos < strend")), (_Perl_SB_invmap[S_get_break_val_cp_checked (PL_SB_invlist, (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ( (*curpos)),(const U8 *) (strend),((void*)0))))])); |
5171 | } while (sb == SB_Extend || sb == SB_Format); |
5172 | } |
5173 | else { |
5174 | do { |
5175 | (*curpos)++; |
5176 | if (*curpos >= strend) { |
5177 | return SB_EDGE; |
5178 | } |
5179 | sb = getSB_VAL_CP(**curpos)_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist, (** curpos))]; |
5180 | } while (sb == SB_Extend || sb == SB_Format); |
5181 | } |
5182 | |
5183 | return sb; |
5184 | } |
5185 | |
5186 | STATICstatic SB_enum |
5187 | S_backup_one_SB(pTHX_ const U8 * const strbeg, U8 ** curpos, const bool_Bool utf8_target) |
5188 | { |
5189 | dVARstruct Perl___notused_struct; |
5190 | SB_enum sb; |
5191 | |
5192 | PERL_ARGS_ASSERT_BACKUP_ONE_SB((strbeg) ? (void)0 : __assert2("re_exec.c", 5192, __func__, "strbeg" )); ((curpos) ? (void)0 : __assert2("re_exec.c", 5192, __func__ , "curpos")); |
5193 | |
5194 | if (*curpos < strbeg) { |
5195 | return SB_EDGE; |
5196 | } |
5197 | |
5198 | if (utf8_target) { |
5199 | U8 * prev_char_pos = reghopmaybe3S_reghopmaybe3(*curpos, -1, strbeg); |
5200 | if (! prev_char_pos) { |
5201 | return SB_EDGE; |
5202 | } |
5203 | |
5204 | /* Back up over Extend and Format. curpos is always just to the right |
5205 | * of the characater whose value we are getting */ |
5206 | do { |
5207 | U8 * prev_prev_char_pos; |
5208 | if ((prev_prev_char_pos = reghopmaybe3S_reghopmaybe3((U8 *) prev_char_pos, -1, |
5209 | strbeg))) |
5210 | { |
5211 | sb = getSB_VAL_UTF8(prev_prev_char_pos, prev_char_pos)(((prev_prev_char_pos < prev_char_pos) ? (void)0 : __assert2 ("re_exec.c", 5211, __func__, "prev_prev_char_pos < prev_char_pos" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((prev_prev_char_pos )),(const U8 *) (prev_char_pos),((void*)0))))])); |
5212 | *curpos = prev_char_pos; |
5213 | prev_char_pos = prev_prev_char_pos; |
5214 | } |
5215 | else { |
5216 | *curpos = (U8 *) strbeg; |
5217 | return SB_EDGE; |
5218 | } |
5219 | } while (sb == SB_Extend || sb == SB_Format); |
5220 | } |
5221 | else { |
5222 | do { |
5223 | if (*curpos - 2 < strbeg) { |
5224 | *curpos = (U8 *) strbeg; |
5225 | return SB_EDGE; |
5226 | } |
5227 | (*curpos)--; |
5228 | sb = getSB_VAL_CP(*(*curpos - 1))_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist, (*( *curpos - 1)))]; |
5229 | } while (sb == SB_Extend || sb == SB_Format); |
5230 | } |
5231 | |
5232 | return sb; |
5233 | } |
5234 | |
5235 | STATICstatic bool_Bool |
5236 | S_isWB(pTHX_ WB_enum previous, |
5237 | WB_enum before, |
5238 | WB_enum after, |
5239 | const U8 * const strbeg, |
5240 | const U8 * const curpos, |
5241 | const U8 * const strend, |
5242 | const bool_Bool utf8_target) |
5243 | { |
5244 | /* Return a boolean as to if the boundary between 'before' and 'after' is |
5245 | * a Unicode word break, using their published algorithm, but tailored for |
5246 | * Perl by treating spans of white space as one unit. Context may be |
5247 | * needed to make this determination. If the value for the character |
5248 | * before 'before' is known, it is passed as 'previous'; otherwise that |
5249 | * should be set to WB_UNKNOWN. The other input parameters give the |
5250 | * boundaries and current position in the matching of the string. That |
5251 | * is, 'curpos' marks the position where the character whose wb value is |
5252 | * 'after' begins. See http://www.unicode.org/reports/tr29/ */ |
5253 | |
5254 | U8 * before_pos = (U8 *) curpos; |
5255 | U8 * after_pos = (U8 *) curpos; |
5256 | WB_enum prev = before; |
5257 | WB_enum next; |
5258 | |
5259 | PERL_ARGS_ASSERT_ISWB((strbeg) ? (void)0 : __assert2("re_exec.c", 5259, __func__, "strbeg" )); ((curpos) ? (void)0 : __assert2("re_exec.c", 5259, __func__ , "curpos")); ((strend) ? (void)0 : __assert2("re_exec.c", 5259 , __func__, "strend")); |
5260 | |
5261 | /* Rule numbers in the comments below are as of Unicode 9.0 */ |
5262 | |
5263 | redo: |
5264 | before = prev; |
5265 | switch (WB_table[before][after]) { |
5266 | case WB_BREAKABLE1: |
5267 | return TRUE(1); |
5268 | |
5269 | case WB_NOBREAK0: |
5270 | return FALSE(0); |
5271 | |
5272 | case WB_hs_then_hs2: /* 2 horizontal spaces in a row */ |
5273 | next = advance_one_WB(&after_pos, strend, utf8_target,S_advance_one_WB( &after_pos,strend,utf8_target,(0)) |
5274 | FALSE /* Don't skip Extend nor Format */ )S_advance_one_WB( &after_pos,strend,utf8_target,(0)); |
5275 | /* A space immediately preceeding an Extend or Format is attached |
5276 | * to by them, and hence gets separated from previous spaces. |
5277 | * Otherwise don't break between horizontal white space */ |
5278 | return next == WB_Extend || next == WB_Format; |
5279 | |
5280 | /* WB4 Ignore Format and Extend characters, except when they appear at |
5281 | * the beginning of a region of text. This code currently isn't |
5282 | * general purpose, but it works as the rules are currently and likely |
5283 | * to be laid out. The reason it works is that when 'they appear at |
5284 | * the beginning of a region of text', the rule is to break before |
5285 | * them, just like any other character. Therefore, the default rule |
5286 | * applies and we don't have to look in more depth. Should this ever |
5287 | * change, we would have to have 2 'case' statements, like in the rules |
5288 | * below, and backup a single character (not spacing over the extend |
5289 | * ones) and then see if that is one of the region-end characters and |
5290 | * go from there */ |
5291 | case WB_Ex_or_FO_or_ZWJ_then_foo3: |
5292 | prev = backup_one_WB(&previous, strbeg, &before_pos, utf8_target)S_backup_one_WB( &previous,strbeg,&before_pos,utf8_target ); |
5293 | goto redo; |
5294 | |
5295 | case WB_DQ_then_HL4 + WB_BREAKABLE1: |
5296 | case WB_DQ_then_HL4 + WB_NOBREAK0: |
5297 | |
5298 | /* WB7c Hebrew_Letter Double_Quote × Hebrew_Letter */ |
5299 | |
5300 | if (backup_one_WB(&previous, strbeg, &before_pos, utf8_target)S_backup_one_WB( &previous,strbeg,&before_pos,utf8_target ) |
5301 | == WB_Hebrew_Letter) |
5302 | { |
5303 | return FALSE(0); |
5304 | } |
5305 | |
5306 | return WB_table[before][after] - WB_DQ_then_HL4 == WB_BREAKABLE1; |
5307 | |
5308 | case WB_HL_then_DQ6 + WB_BREAKABLE1: |
5309 | case WB_HL_then_DQ6 + WB_NOBREAK0: |
5310 | |
5311 | /* WB7b Hebrew_Letter × Double_Quote Hebrew_Letter */ |
5312 | |
5313 | if (advance_one_WB(&after_pos, strend, utf8_target,S_advance_one_WB( &after_pos,strend,utf8_target,(1)) |
5314 | TRUE /* Do skip Extend and Format */ )S_advance_one_WB( &after_pos,strend,utf8_target,(1)) |
5315 | == WB_Hebrew_Letter) |
5316 | { |
5317 | return FALSE(0); |
5318 | } |
5319 | |
5320 | return WB_table[before][after] - WB_HL_then_DQ6 == WB_BREAKABLE1; |
5321 | |
5322 | case WB_LE_or_HL_then_MB_or_ML_or_SQ8 + WB_NOBREAK0: |
5323 | case WB_LE_or_HL_then_MB_or_ML_or_SQ8 + WB_BREAKABLE1: |
5324 | |
5325 | /* WB6 (ALetter | Hebrew_Letter) × (MidLetter | MidNumLet |
5326 | * | Single_Quote) (ALetter | Hebrew_Letter) */ |
5327 | |
5328 | next = advance_one_WB(&after_pos, strend, utf8_target,S_advance_one_WB( &after_pos,strend,utf8_target,(1)) |
5329 | TRUE /* Do skip Extend and Format */ )S_advance_one_WB( &after_pos,strend,utf8_target,(1)); |
5330 | |
5331 | if (next == WB_ALetter || next == WB_Hebrew_Letter) |
5332 | { |
5333 | return FALSE(0); |
5334 | } |
5335 | |
5336 | return WB_table[before][after] |
5337 | - WB_LE_or_HL_then_MB_or_ML_or_SQ8 == WB_BREAKABLE1; |
5338 | |
5339 | case WB_MB_or_ML_or_SQ_then_LE_or_HL10 + WB_NOBREAK0: |
5340 | case WB_MB_or_ML_or_SQ_then_LE_or_HL10 + WB_BREAKABLE1: |
5341 | |
5342 | /* WB7 (ALetter | Hebrew_Letter) (MidLetter | MidNumLet |
5343 | * | Single_Quote) × (ALetter | Hebrew_Letter) */ |
5344 | |
5345 | prev = backup_one_WB(&previous, strbeg, &before_pos, utf8_target)S_backup_one_WB( &previous,strbeg,&before_pos,utf8_target ); |
5346 | if (prev == WB_ALetter || prev == WB_Hebrew_Letter) |
5347 | { |
5348 | return FALSE(0); |
5349 | } |
5350 | |
5351 | return WB_table[before][after] |
5352 | - WB_MB_or_ML_or_SQ_then_LE_or_HL10 == WB_BREAKABLE1; |
5353 | |
5354 | case WB_MB_or_MN_or_SQ_then_NU12 + WB_NOBREAK0: |
5355 | case WB_MB_or_MN_or_SQ_then_NU12 + WB_BREAKABLE1: |
5356 | |
5357 | /* WB11 Numeric (MidNum | (MidNumLet | Single_Quote)) × Numeric |
5358 | * */ |
5359 | |
5360 | if (backup_one_WB(&previous, strbeg, &before_pos, utf8_target)S_backup_one_WB( &previous,strbeg,&before_pos,utf8_target ) |
5361 | == WB_Numeric) |
5362 | { |
5363 | return FALSE(0); |
5364 | } |
5365 | |
5366 | return WB_table[before][after] |
5367 | - WB_MB_or_MN_or_SQ_then_NU12 == WB_BREAKABLE1; |
5368 | |
5369 | case WB_NU_then_MB_or_MN_or_SQ14 + WB_NOBREAK0: |
5370 | case WB_NU_then_MB_or_MN_or_SQ14 + WB_BREAKABLE1: |
5371 | |
5372 | /* WB12 Numeric × (MidNum | MidNumLet | Single_Quote) Numeric */ |
5373 | |
5374 | if (advance_one_WB(&after_pos, strend, utf8_target,S_advance_one_WB( &after_pos,strend,utf8_target,(1)) |
5375 | TRUE /* Do skip Extend and Format */ )S_advance_one_WB( &after_pos,strend,utf8_target,(1)) |
5376 | == WB_Numeric) |
5377 | { |
5378 | return FALSE(0); |
5379 | } |
5380 | |
5381 | return WB_table[before][after] |
5382 | - WB_NU_then_MB_or_MN_or_SQ14 == WB_BREAKABLE1; |
5383 | |
5384 | case WB_RI_then_RI16 + WB_NOBREAK0: |
5385 | case WB_RI_then_RI16 + WB_BREAKABLE1: |
5386 | { |
5387 | int RI_count = 1; |
5388 | |
5389 | /* Do not break within emoji flag sequences. That is, do not |
5390 | * break between regional indicator (RI) symbols if there is an |
5391 | * odd number of RI characters before the potential break |
5392 | * point. |
5393 | * |
5394 | * WB15 sot (RI RI)* RI × RI |
5395 | * WB16 [^RI] (RI RI)* RI × RI */ |
5396 | |
5397 | while (backup_one_WB(&previous,S_backup_one_WB( &previous,strbeg,&before_pos,utf8_target ) |
5398 | strbeg,S_backup_one_WB( &previous,strbeg,&before_pos,utf8_target ) |
5399 | &before_pos,S_backup_one_WB( &previous,strbeg,&before_pos,utf8_target ) |
5400 | utf8_target)S_backup_one_WB( &previous,strbeg,&before_pos,utf8_target ) == WB_Regional_Indicator) |
5401 | { |
5402 | RI_count++; |
5403 | } |
5404 | |
5405 | return RI_count % 2 != 1; |
5406 | } |
5407 | |
5408 | default: |
5409 | break; |
5410 | } |
5411 | |
5412 | #ifdef DEBUGGING |
5413 | Perl_re_printf( aTHX_ "Unhandled WB pair: WB_table[%d, %d] = %d\n", |
5414 | before, after, WB_table[before][after]); |
5415 | assert(0)((0) ? (void)0 : __assert2("re_exec.c", 5415, __func__, "0")); |
5416 | #endif |
5417 | return TRUE(1); |
5418 | } |
5419 | |
5420 | STATICstatic WB_enum |
5421 | S_advance_one_WB(pTHX_ U8 ** curpos, |
5422 | const U8 * const strend, |
5423 | const bool_Bool utf8_target, |
5424 | const bool_Bool skip_Extend_Format) |
5425 | { |
5426 | dVARstruct Perl___notused_struct; |
5427 | WB_enum wb; |
5428 | |
5429 | PERL_ARGS_ASSERT_ADVANCE_ONE_WB((curpos) ? (void)0 : __assert2("re_exec.c", 5429, __func__, "curpos" )); ((strend) ? (void)0 : __assert2("re_exec.c", 5429, __func__ , "strend")); |
5430 | |
5431 | if (*curpos >= strend) { |
5432 | return WB_EDGE; |
5433 | } |
5434 | |
5435 | if (utf8_target) { |
5436 | |
5437 | /* Advance over Extend and Format */ |
5438 | do { |
5439 | *curpos += UTF8SKIP(*curpos)PL_utf8skip[*(const U8*)(*curpos)]; |
5440 | if (*curpos >= strend) { |
5441 | return WB_EDGE; |
5442 | } |
5443 | wb = getWB_VAL_UTF8(*curpos, strend)(((*curpos < strend) ? (void)0 : __assert2("re_exec.c", 5443 , __func__, "*curpos < strend")), (_Perl_WB_invmap[S_get_break_val_cp_checked (PL_WB_invlist, (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ( (*curpos)),(const U8 *) (strend),((void*)0))))])); |
5444 | } while ( skip_Extend_Format |
5445 | && (wb == WB_Extend || wb == WB_Format)); |
5446 | } |
5447 | else { |
5448 | do { |
5449 | (*curpos)++; |
5450 | if (*curpos >= strend) { |
5451 | return WB_EDGE; |
5452 | } |
5453 | wb = getWB_VAL_CP(**curpos)_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist, (** curpos))]; |
5454 | } while ( skip_Extend_Format |
5455 | && (wb == WB_Extend || wb == WB_Format)); |
5456 | } |
5457 | |
5458 | return wb; |
5459 | } |
5460 | |
5461 | STATICstatic WB_enum |
5462 | S_backup_one_WB(pTHX_ WB_enum * previous, const U8 * const strbeg, U8 ** curpos, const bool_Bool utf8_target) |
5463 | { |
5464 | dVARstruct Perl___notused_struct; |
5465 | WB_enum wb; |
5466 | |
5467 | PERL_ARGS_ASSERT_BACKUP_ONE_WB((previous) ? (void)0 : __assert2("re_exec.c", 5467, __func__ , "previous")); ((strbeg) ? (void)0 : __assert2("re_exec.c", 5467 , __func__, "strbeg")); ((curpos) ? (void)0 : __assert2("re_exec.c" , 5467, __func__, "curpos")); |
5468 | |
5469 | /* If we know what the previous character's break value is, don't have |
5470 | * to look it up */ |
5471 | if (*previous != WB_UNKNOWN) { |
5472 | wb = *previous; |
5473 | |
5474 | /* But we need to move backwards by one */ |
5475 | if (utf8_target) { |
5476 | *curpos = reghopmaybe3S_reghopmaybe3(*curpos, -1, strbeg); |
5477 | if (! *curpos) { |
5478 | *previous = WB_EDGE; |
5479 | *curpos = (U8 *) strbeg; |
5480 | } |
5481 | else { |
5482 | *previous = WB_UNKNOWN; |
5483 | } |
5484 | } |
5485 | else { |
5486 | (*curpos)--; |
5487 | *previous = (*curpos <= strbeg) ? WB_EDGE : WB_UNKNOWN; |
5488 | } |
5489 | |
5490 | /* And we always back up over these three types */ |
5491 | if (wb != WB_Extend && wb != WB_Format && wb != WB_ZWJ) { |
5492 | return wb; |
5493 | } |
5494 | } |
5495 | |
5496 | if (*curpos < strbeg) { |
5497 | return WB_EDGE; |
5498 | } |
5499 | |
5500 | if (utf8_target) { |
5501 | U8 * prev_char_pos = reghopmaybe3S_reghopmaybe3(*curpos, -1, strbeg); |
5502 | if (! prev_char_pos) { |
5503 | return WB_EDGE; |
5504 | } |
5505 | |
5506 | /* Back up over Extend and Format. curpos is always just to the right |
5507 | * of the characater whose value we are getting */ |
5508 | do { |
5509 | U8 * prev_prev_char_pos; |
5510 | if ((prev_prev_char_pos = reghopmaybe3S_reghopmaybe3((U8 *) prev_char_pos, |
5511 | -1, |
5512 | strbeg))) |
5513 | { |
5514 | wb = getWB_VAL_UTF8(prev_prev_char_pos, prev_char_pos)(((prev_prev_char_pos < prev_char_pos) ? (void)0 : __assert2 ("re_exec.c", 5514, __func__, "prev_prev_char_pos < prev_char_pos" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((prev_prev_char_pos )),(const U8 *) (prev_char_pos),((void*)0))))])); |
5515 | *curpos = prev_char_pos; |
5516 | prev_char_pos = prev_prev_char_pos; |
5517 | } |
5518 | else { |
5519 | *curpos = (U8 *) strbeg; |
5520 | return WB_EDGE; |
5521 | } |
5522 | } while (wb == WB_Extend || wb == WB_Format || wb == WB_ZWJ); |
5523 | } |
5524 | else { |
5525 | do { |
5526 | if (*curpos - 2 < strbeg) { |
5527 | *curpos = (U8 *) strbeg; |
5528 | return WB_EDGE; |
5529 | } |
5530 | (*curpos)--; |
5531 | wb = getWB_VAL_CP(*(*curpos - 1))_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist, (*( *curpos - 1)))]; |
5532 | } while (wb == WB_Extend || wb == WB_Format); |
5533 | } |
5534 | |
5535 | return wb; |
5536 | } |
5537 | |
5538 | /* Macros for regmatch(), using its internal variables */ |
5539 | #define NEXTCHR_EOS-10 -10 /* nextchr has fallen off the end */ |
5540 | #define NEXTCHR_IS_EOS(nextchr < 0) (nextchr < 0) |
5541 | |
5542 | #define SET_nextchrnextchr = ((locinput < reginfo->strend) ? ((int)*(const U8*)(locinput)) : -10) \ |
5543 | nextchr = ((locinput < reginfo->strend) ? UCHARAT(locinput)((int)*(const U8*)(locinput)) : NEXTCHR_EOS-10) |
5544 | |
5545 | #define SET_locinput(p)locinput = (p); nextchr = ((locinput < reginfo->strend) ? ((int)*(const U8*)(locinput)) : -10) \ |
5546 | locinput = (p); \ |
5547 | SET_nextchrnextchr = ((locinput < reginfo->strend) ? ((int)*(const U8*)(locinput)) : -10) |
5548 | |
5549 | #define sayYESgoto yes goto yes |
5550 | #define sayNOgoto no goto no |
5551 | #define sayNO_SILENTgoto no_silent goto no_silent |
5552 | |
5553 | /* we dont use STMT_START/END here because it leads to |
5554 | "unreachable code" warnings, which are bogus, but distracting. */ |
5555 | #define CACHEsayNOif (ST.cache_mask) reginfo->info_aux->poscache[ST.cache_offset ] |= ST.cache_mask; goto no \ |
5556 | if (ST.cache_mask) \ |
5557 | reginfo->info_aux->poscache[ST.cache_offset] |= ST.cache_mask; \ |
5558 | sayNOgoto no |
5559 | |
5560 | #define EVAL_CLOSE_PAREN_IS(st,expr)( ( ( st ) ) && ( ( st )->u.eval.close_paren ) && ( ( ( st )->u.eval.close_paren ) == ( (expr) + 1 ) ) ) \ |
5561 | ( \ |
5562 | ( ( st ) ) && \ |
5563 | ( ( st )->u.eval.close_paren ) && \ |
5564 | ( ( ( st )->u.eval.close_paren ) == ( (expr) + 1 ) ) \ |
5565 | ) |
5566 | |
5567 | #define EVAL_CLOSE_PAREN_IS_TRUE(st,expr)( ( ( st ) ) && ( ( st )->u.eval.close_paren ) && ( ( expr ) ) && ( ( ( st )->u.eval.close_paren ) == ( (expr) + 1 ) ) ) \ |
5568 | ( \ |
5569 | ( ( st ) ) && \ |
5570 | ( ( st )->u.eval.close_paren ) && \ |
5571 | ( ( expr ) ) && \ |
5572 | ( ( ( st )->u.eval.close_paren ) == ( (expr) + 1 ) ) \ |
5573 | ) |
5574 | |
5575 | |
5576 | #define EVAL_CLOSE_PAREN_SET(st,expr)(st)->u.eval.close_paren = ( (expr) + 1 ) \ |
5577 | (st)->u.eval.close_paren = ( (expr) + 1 ) |
5578 | |
5579 | #define EVAL_CLOSE_PAREN_CLEAR(st)(st)->u.eval.close_paren = 0 \ |
5580 | (st)->u.eval.close_paren = 0 |
5581 | |
5582 | /* push a new state then goto it */ |
5583 | |
5584 | #define PUSH_STATE_GOTO(state, node, input, eol, sr0)pushinput = input; pusheol = eol; pushsr0 = sr0; scan = node; st->resume_state = state; goto push_state; \ |
5585 | pushinput = input; \ |
5586 | pusheol = eol; \ |
5587 | pushsr0 = sr0; \ |
5588 | scan = node; \ |
5589 | st->resume_state = state; \ |
5590 | goto push_state; |
5591 | |
5592 | /* push a new state with success backtracking, then goto it */ |
5593 | |
5594 | #define PUSH_YES_STATE_GOTO(state, node, input, eol, sr0)pushinput = input; pusheol = eol; pushsr0 = sr0; scan = node; st->resume_state = state; goto push_yes_state; \ |
5595 | pushinput = input; \ |
5596 | pusheol = eol; \ |
5597 | pushsr0 = sr0; \ |
5598 | scan = node; \ |
5599 | st->resume_state = state; \ |
5600 | goto push_yes_state; |
5601 | |
5602 | #define DEBUG_STATE_pp(pp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) { S_dump_exec_pos ( locinput,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); Perl_re_printf( "%*s" pp " %s%s%s%s%s\n" , ((int)(depth) % 20), "", PL_reg_name[st->resume_state], ( (st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state|| st==mark_state) ? "]" : "") ); };} while (0); \ |
5603 | DEBUG_STATE_r({ \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) { S_dump_exec_pos ( locinput,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); Perl_re_printf( "%*s" pp " %s%s%s%s%s\n" , ((int)(depth) % 20), "", PL_reg_name[st->resume_state], ( (st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state|| st==mark_state) ? "]" : "") ); };} while (0) |
5604 | DUMP_EXEC_POS(locinput, scan, utf8_target,depth); \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) { S_dump_exec_pos ( locinput,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); Perl_re_printf( "%*s" pp " %s%s%s%s%s\n" , ((int)(depth) % 20), "", PL_reg_name[st->resume_state], ( (st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state|| st==mark_state) ? "]" : "") ); };} while (0) |
5605 | Perl_re_printf( aTHX_ \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) { S_dump_exec_pos ( locinput,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); Perl_re_printf( "%*s" pp " %s%s%s%s%s\n" , ((int)(depth) % 20), "", PL_reg_name[st->resume_state], ( (st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state|| st==mark_state) ? "]" : "") ); };} while (0) |
5606 | "%*s" pp " %s%s%s%s%s\n", \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) { S_dump_exec_pos ( locinput,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); Perl_re_printf( "%*s" pp " %s%s%s%s%s\n" , ((int)(depth) % 20), "", PL_reg_name[st->resume_state], ( (st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state|| st==mark_state) ? "]" : "") ); };} while (0) |
5607 | INDENT_CHARS(depth), "", \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) { S_dump_exec_pos ( locinput,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); Perl_re_printf( "%*s" pp " %s%s%s%s%s\n" , ((int)(depth) % 20), "", PL_reg_name[st->resume_state], ( (st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state|| st==mark_state) ? "]" : "") ); };} while (0) |
5608 | PL_reg_name[st->resume_state], \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) { S_dump_exec_pos ( locinput,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); Perl_re_printf( "%*s" pp " %s%s%s%s%s\n" , ((int)(depth) % 20), "", PL_reg_name[st->resume_state], ( (st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state|| st==mark_state) ? "]" : "") ); };} while (0) |
5609 | ((st==yes_state||st==mark_state) ? "[" : ""), \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) { S_dump_exec_pos ( locinput,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); Perl_re_printf( "%*s" pp " %s%s%s%s%s\n" , ((int)(depth) % 20), "", PL_reg_name[st->resume_state], ( (st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state|| st==mark_state) ? "]" : "") ); };} while (0) |
5610 | ((st==yes_state) ? "Y" : ""), \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) { S_dump_exec_pos ( locinput,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); Perl_re_printf( "%*s" pp " %s%s%s%s%s\n" , ((int)(depth) % 20), "", PL_reg_name[st->resume_state], ( (st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state|| st==mark_state) ? "]" : "") ); };} while (0) |
5611 | ((st==mark_state) ? "M" : ""), \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) { S_dump_exec_pos ( locinput,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); Perl_re_printf( "%*s" pp " %s%s%s%s%s\n" , ((int)(depth) % 20), "", PL_reg_name[st->resume_state], ( (st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state|| st==mark_state) ? "]" : "") ); };} while (0) |
5612 | ((st==yes_state||st==mark_state) ? "]" : "") \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) { S_dump_exec_pos ( locinput,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); Perl_re_printf( "%*s" pp " %s%s%s%s%s\n" , ((int)(depth) % 20), "", PL_reg_name[st->resume_state], ( (st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state|| st==mark_state) ? "]" : "") ); };} while (0) |
5613 | ); \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) { S_dump_exec_pos ( locinput,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); Perl_re_printf( "%*s" pp " %s%s%s%s%s\n" , ((int)(depth) % 20), "", PL_reg_name[st->resume_state], ( (st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state|| st==mark_state) ? "]" : "") ); };} while (0) |
5614 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) { S_dump_exec_pos ( locinput,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); Perl_re_printf( "%*s" pp " %s%s%s%s%s\n" , ((int)(depth) % 20), "", PL_reg_name[st->resume_state], ( (st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state|| st==mark_state) ? "]" : "") ); };} while (0); |
5615 | |
5616 | /* |
5617 | |
5618 | regmatch() - main matching routine |
5619 | |
5620 | This is basically one big switch statement in a loop. We execute an op, |
5621 | set 'next' to point the next op, and continue. If we come to a point which |
5622 | we may need to backtrack to on failure such as (A|B|C), we push a |
5623 | backtrack state onto the backtrack stack. On failure, we pop the top |
5624 | state, and re-enter the loop at the state indicated. If there are no more |
5625 | states to pop, we return failure. |
5626 | |
5627 | Sometimes we also need to backtrack on success; for example /A+/, where |
5628 | after successfully matching one A, we need to go back and try to |
5629 | match another one; similarly for lookahead assertions: if the assertion |
5630 | completes successfully, we backtrack to the state just before the assertion |
5631 | and then carry on. In these cases, the pushed state is marked as |
5632 | 'backtrack on success too'. This marking is in fact done by a chain of |
5633 | pointers, each pointing to the previous 'yes' state. On success, we pop to |
5634 | the nearest yes state, discarding any intermediate failure-only states. |
5635 | Sometimes a yes state is pushed just to force some cleanup code to be |
5636 | called at the end of a successful match or submatch; e.g. (??{$re}) uses |
5637 | it to free the inner regex. |
5638 | |
5639 | Note that failure backtracking rewinds the cursor position, while |
5640 | success backtracking leaves it alone. |
5641 | |
5642 | A pattern is complete when the END op is executed, while a subpattern |
5643 | such as (?=foo) is complete when the SUCCESS op is executed. Both of these |
5644 | ops trigger the "pop to last yes state if any, otherwise return true" |
5645 | behaviour. |
5646 | |
5647 | A common convention in this function is to use A and B to refer to the two |
5648 | subpatterns (or to the first nodes thereof) in patterns like /A*B/: so A is |
5649 | the subpattern to be matched possibly multiple times, while B is the entire |
5650 | rest of the pattern. Variable and state names reflect this convention. |
5651 | |
5652 | The states in the main switch are the union of ops and failure/success of |
5653 | substates associated with that op. For example, IFMATCH is the op |
5654 | that does lookahead assertions /(?=A)B/ and so the IFMATCH state means |
5655 | 'execute IFMATCH'; while IFMATCH_A is a state saying that we have just |
5656 | successfully matched A and IFMATCH_A_fail is a state saying that we have |
5657 | just failed to match A. Resume states always come in pairs. The backtrack |
5658 | state we push is marked as 'IFMATCH_A', but when that is popped, we resume |
5659 | at IFMATCH_A or IFMATCH_A_fail, depending on whether we are backtracking |
5660 | on success or failure. |
5661 | |
5662 | The struct that holds a backtracking state is actually a big union, with |
5663 | one variant for each major type of op. The variable st points to the |
5664 | top-most backtrack struct. To make the code clearer, within each |
5665 | block of code we #define ST to alias the relevant union. |
5666 | |
5667 | Here's a concrete example of a (vastly oversimplified) IFMATCH |
5668 | implementation: |
5669 | |
5670 | switch (state) { |
5671 | .... |
5672 | |
5673 | #define ST st->u.ifmatch |
5674 | |
5675 | case IFMATCH: // we are executing the IFMATCH op, (?=A)B |
5676 | ST.foo = ...; // some state we wish to save |
5677 | ... |
5678 | // push a yes backtrack state with a resume value of |
5679 | // IFMATCH_A/IFMATCH_A_fail, then continue execution at the |
5680 | // first node of A: |
5681 | PUSH_YES_STATE_GOTO(IFMATCH_A, A, newinput); |
5682 | // NOTREACHED |
5683 | |
5684 | case IFMATCH_A: // we have successfully executed A; now continue with B |
5685 | next = B; |
5686 | bar = ST.foo; // do something with the preserved value |
5687 | break; |
5688 | |
5689 | case IFMATCH_A_fail: // A failed, so the assertion failed |
5690 | ...; // do some housekeeping, then ... |
5691 | sayNO; // propagate the failure |
5692 | |
5693 | #undef ST |
5694 | |
5695 | ... |
5696 | } |
5697 | |
5698 | For any old-timers reading this who are familiar with the old recursive |
5699 | approach, the code above is equivalent to: |
5700 | |
5701 | case IFMATCH: // we are executing the IFMATCH op, (?=A)B |
5702 | { |
5703 | int foo = ... |
5704 | ... |
5705 | if (regmatch(A)) { |
5706 | next = B; |
5707 | bar = foo; |
5708 | break; |
5709 | } |
5710 | ...; // do some housekeeping, then ... |
5711 | sayNO; // propagate the failure |
5712 | } |
5713 | |
5714 | The topmost backtrack state, pointed to by st, is usually free. If you |
5715 | want to claim it, populate any ST.foo fields in it with values you wish to |
5716 | save, then do one of |
5717 | |
5718 | PUSH_STATE_GOTO(resume_state, node, newinput, new_eol); |
5719 | PUSH_YES_STATE_GOTO(resume_state, node, newinput, new_eol); |
5720 | |
5721 | which sets that backtrack state's resume value to 'resume_state', pushes a |
5722 | new free entry to the top of the backtrack stack, then goes to 'node'. |
5723 | On backtracking, the free slot is popped, and the saved state becomes the |
5724 | new free state. An ST.foo field in this new top state can be temporarily |
5725 | accessed to retrieve values, but once the main loop is re-entered, it |
5726 | becomes available for reuse. |
5727 | |
5728 | Note that the depth of the backtrack stack constantly increases during the |
5729 | left-to-right execution of the pattern, rather than going up and down with |
5730 | the pattern nesting. For example the stack is at its maximum at Z at the |
5731 | end of the pattern, rather than at X in the following: |
5732 | |
5733 | /(((X)+)+)+....(Y)+....Z/ |
5734 | |
5735 | The only exceptions to this are lookahead/behind assertions and the cut, |
5736 | (?>A), which pop all the backtrack states associated with A before |
5737 | continuing. |
5738 | |
5739 | Backtrack state structs are allocated in slabs of about 4K in size. |
5740 | PL_regmatch_state and st always point to the currently active state, |
5741 | and PL_regmatch_slab points to the slab currently containing |
5742 | PL_regmatch_state. The first time regmatch() is called, the first slab is |
5743 | allocated, and is never freed until interpreter destruction. When the slab |
5744 | is full, a new one is allocated and chained to the end. At exit from |
5745 | regmatch(), slabs allocated since entry are freed. |
5746 | |
5747 | In order to work with variable length lookbehinds, an upper limit is placed on |
5748 | lookbehinds which is set to where the match position is at the end of where the |
5749 | lookbehind would get to. Nothing in the lookbehind should match above that, |
5750 | except we should be able to look beyond if for things like \b, which need the |
5751 | next character in the string to be able to determine if this is a boundary or |
5752 | not. We also can't match the end of string/line unless we are also at the end |
5753 | of the entire string, so NEXTCHR_IS_EOS remains the same, and for those OPs |
5754 | that match a width, we have to add a condition that they are within the legal |
5755 | bounds of our window into the string. |
5756 | |
5757 | */ |
5758 | |
5759 | /* returns -1 on failure, $+[0] on success */ |
5760 | STATICstatic SSize_tssize_t |
5761 | S_regmatch(pTHX_ regmatch_info *reginfo, char *startpos, regnode *prog) |
5762 | { |
5763 | dVARstruct Perl___notused_struct; |
5764 | const bool_Bool utf8_target = reginfo->is_utf8_target; |
5765 | const U32 uniflags = UTF8_ALLOW_DEFAULT0; |
5766 | REGEXP *rex_sv = reginfo->prog; |
5767 | regexp *rex = ReANY(rex_sv)Perl_ReANY((const REGEXP *)(rex_sv)); |
5768 | RXi_GET_DECL(rex,rexi)regexp_internal *rexi = ((regexp_internal *)((rex)->pprivate )); |
5769 | /* the current state. This is a cached copy of PL_regmatch_state */ |
5770 | regmatch_state *st; |
5771 | /* cache heavy used fields of st in registers */ |
5772 | regnode *scan; |
5773 | regnode *next; |
5774 | U32 n = 0; /* general value; init to avoid compiler warning */ |
5775 | SSize_tssize_t ln = 0; /* len or last; init to avoid compiler warning */ |
5776 | SSize_tssize_t endref = 0; /* offset of end of backref when ln is start */ |
5777 | char *locinput = startpos; |
5778 | char *loceol = reginfo->strend; |
5779 | char *pushinput; /* where to continue after a PUSH */ |
5780 | char *pusheol; /* where to stop matching (loceol) after a PUSH */ |
5781 | U8 *pushsr0; /* save starting pos of script run */ |
5782 | I32 nextchr; /* is always set to UCHARAT(locinput), or -1 at EOS */ |
5783 | |
5784 | bool_Bool result = 0; /* return value of S_regmatch */ |
5785 | U32 depth = 0; /* depth of backtrack stack */ |
5786 | U32 nochange_depth = 0; /* depth of GOSUB recursion with nochange */ |
5787 | const U32 max_nochange_depth = |
5788 | (3 * rex->nparens > MAX_RECURSE_EVAL_NOCHANGE_DEPTH10) ? |
5789 | 3 * rex->nparens : MAX_RECURSE_EVAL_NOCHANGE_DEPTH10; |
5790 | regmatch_state *yes_state = NULL((void*)0); /* state to pop to on success of |
5791 | subpattern */ |
5792 | /* mark_state piggy backs on the yes_state logic so that when we unwind |
5793 | the stack on success we can update the mark_state as we go */ |
5794 | regmatch_state *mark_state = NULL((void*)0); /* last mark state we have seen */ |
5795 | regmatch_state *cur_eval = NULL((void*)0); /* most recent EVAL_AB state */ |
5796 | struct regmatch_state *cur_curlyx = NULL((void*)0); /* most recent curlyx */ |
5797 | U32 state_num; |
5798 | bool_Bool no_final = 0; /* prevent failure from backtracking? */ |
5799 | bool_Bool do_cutgroup = 0; /* no_final only until next branch/trie entry */ |
5800 | char *startpoint = locinput; |
5801 | SV *popmark = NULL((void*)0); /* are we looking for a mark? */ |
5802 | SV *sv_commit = NULL((void*)0); /* last mark name seen in failure */ |
5803 | SV *sv_yes_mark = NULL((void*)0); /* last mark name we have seen |
5804 | during a successful match */ |
5805 | U32 lastopen = 0; /* last open we saw */ |
5806 | bool_Bool has_cutgroup = RXp_HAS_CUTGROUP(rex)((rex)->intflags & 0x00000010) ? 1 : 0; |
5807 | SV* const oreplsv = GvSVn(PL_replgv)(*((0+(*({GV *const _gvgp = (GV *) (PL_replgv); ((((svtype)(( _gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp )->sv_flags & 0xff)) == SVt_PVLV) ? (void)0 : __assert2 ("re_exec.c", 5807, __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_exec.c", 5807, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_sv ? &((0+(*({GV *const _gvgp = (GV *) (PL_replgv ); ((((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVLV) ? ( void)0 : __assert2("re_exec.c", 5807, __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_exec.c", 5807, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_sv) : &((0+(*({GV *const _gvgp = (GV *) (Perl_gv_add_by_type ( (PL_replgv),SVt_NULL)); ((((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff )) == SVt_PVLV) ? (void)0 : __assert2("re_exec.c", 5807, __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_exec.c", 5807, __func__, "isGV_with_GP(_gvgp)" )); &((_gvgp)->sv_u.svu_gp);})))->gp_sv))); |
5808 | /* these three flags are set by various ops to signal information to |
5809 | * the very next op. They have a useful lifetime of exactly one loop |
5810 | * iteration, and are not preserved or restored by state pushes/pops |
5811 | */ |
5812 | bool_Bool sw = 0; /* the condition value in (?(cond)a|b) */ |
5813 | bool_Bool minmod = 0; /* the next "{n,m}" is a "{n,m}?" */ |
5814 | int logical = 0; /* the following EVAL is: |
5815 | 0: (?{...}) |
5816 | 1: (?(?{...})X|Y) |
5817 | 2: (??{...}) |
5818 | or the following IFMATCH/UNLESSM is: |
5819 | false: plain (?=foo) |
5820 | true: used as a condition: (?(?=foo)) |
5821 | */ |
5822 | PAD* last_pad = NULL((void*)0); |
5823 | dMULTICALLOP *multicall_cop; _Bool multicall_oldcatch; |
5824 | U8 gimme = G_SCALAR2; |
5825 | CV *caller_cv = NULL((void*)0); /* who called us */ |
5826 | CV *last_pushed_cv = NULL((void*)0); /* most recently called (?{}) CV */ |
5827 | U32 maxopenparen = 0; /* max '(' index seen so far */ |
5828 | int to_complement; /* Invert the result? */ |
5829 | _char_class_number classnum; |
5830 | bool_Bool is_utf8_pat = reginfo->is_utf8_pat; |
5831 | bool_Bool match = FALSE(0); |
5832 | I32 orig_savestack_ix = PL_savestack_ix; |
5833 | U8 * script_run_begin = NULL((void*)0); |
5834 | |
5835 | /* Solaris Studio 12.3 messes up fetching PL_charclass['\n'] */ |
5836 | #if (defined(__SUNPRO_C) && (__SUNPRO_C == 0x5120) && defined(__x86_641) && defined(USE_64_BIT_ALL)) |
5837 | # define SOLARIS_BAD_OPTIMIZER |
5838 | const U32 *pl_charclass_dup = PL_charclass; |
5839 | # define PL_charclass pl_charclass_dup |
5840 | #endif |
5841 | |
5842 | #ifdef DEBUGGING |
5843 | 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_exec.c", 5843, __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_exec.c", 5843, __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); |
5844 | #endif |
5845 | |
5846 | /* protect against undef(*^R) */ |
5847 | SAVEFREESV(SvREFCNT_inc_simple_NN(oreplsv))Perl_save_pushptr( (void *)(((SV *)({ void *_p = ((++((oreplsv )->sv_refcnt),((SV *)({ void *_p = (oreplsv); _p; })))); _p ; }))),11); |
5848 | |
5849 | /* shut up 'may be used uninitialized' compiler warnings for dMULTICALL */ |
5850 | multicall_oldcatch = 0; |
5851 | PERL_UNUSED_VAR(multicall_cop)((void)sizeof(multicall_cop)); |
5852 | |
5853 | PERL_ARGS_ASSERT_REGMATCH((reginfo) ? (void)0 : __assert2("re_exec.c", 5853, __func__, "reginfo")); ((startpos) ? (void)0 : __assert2("re_exec.c", 5853 , __func__, "startpos")); ((prog) ? (void)0 : __assert2("re_exec.c" , 5853, __func__, "prog")); |
5854 | |
5855 | st = PL_regmatch_state; |
5856 | |
5857 | /* Note that nextchr is a byte even in UTF */ |
5858 | SET_nextchrnextchr = ((locinput < reginfo->strend) ? ((int)*(const U8*)(locinput)) : -10); |
5859 | scan = prog; |
5860 | |
5861 | DEBUG_OPTIMISE_r( DEBUG_EXECUTE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) do { if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { S_dump_exec_pos ( locinput,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); Perl_re_printf( "regmatch start\n" ); }; } while (0);} while (0) |
5862 | DUMP_EXEC_POS( locinput, scan, utf8_target, depth );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) do { if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { S_dump_exec_pos ( locinput,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); Perl_re_printf( "regmatch start\n" ); }; } while (0);} while (0) |
5863 | Perl_re_printf( aTHX_ "regmatch start\n" );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) do { if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { S_dump_exec_pos ( locinput,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); Perl_re_printf( "regmatch start\n" ); }; } while (0);} while (0) |
5864 | }))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) do { if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { S_dump_exec_pos ( locinput,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); Perl_re_printf( "regmatch start\n" ); }; } while (0);} while (0); |
5865 | |
5866 | while (scan != NULL((void*)0)) { |
5867 | next = scan + NEXT_OFF(scan)((scan)->next_off); |
5868 | if (next == scan) |
5869 | next = NULL((void*)0); |
5870 | state_num = OP(scan)((scan)->type); |
5871 | |
5872 | reenter_switch: |
5873 | DEBUG_EXECUTE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( state_num <= 109) { SV * const prop = Perl_sv_newmortal(); regnode *rnext = Perl_regnext( scan); S_dump_exec_pos( locinput ,scan,(reginfo->strend),(reginfo->strbeg),startpos,utf8_target ,depth); my_regprop( rex,prop,scan,reginfo,((void*)0)); Perl_re_printf ( "%*s%" "ld" ":%s(%" "ld" ")\n", ((int)(depth) % 20), "", (IV )(scan - rexi->program), ((const char*)(0 + (prop)->sv_u .svu_pv)), (PL_regkind[((scan)->type)] == 0 || !rnext) ? 0 : (IV)(rnext - rexi->program)); };} while (0) |
5874 | if (state_num <= REGNODE_MAX) {do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( state_num <= 109) { SV * const prop = Perl_sv_newmortal(); regnode *rnext = Perl_regnext( scan); S_dump_exec_pos( locinput ,scan,(reginfo->strend),(reginfo->strbeg),startpos,utf8_target ,depth); my_regprop( rex,prop,scan,reginfo,((void*)0)); Perl_re_printf ( "%*s%" "ld" ":%s(%" "ld" ")\n", ((int)(depth) % 20), "", (IV )(scan - rexi->program), ((const char*)(0 + (prop)->sv_u .svu_pv)), (PL_regkind[((scan)->type)] == 0 || !rnext) ? 0 : (IV)(rnext - rexi->program)); };} while (0) |
5875 | SV * const prop = sv_newmortal();do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( state_num <= 109) { SV * const prop = Perl_sv_newmortal(); regnode *rnext = Perl_regnext( scan); S_dump_exec_pos( locinput ,scan,(reginfo->strend),(reginfo->strbeg),startpos,utf8_target ,depth); my_regprop( rex,prop,scan,reginfo,((void*)0)); Perl_re_printf ( "%*s%" "ld" ":%s(%" "ld" ")\n", ((int)(depth) % 20), "", (IV )(scan - rexi->program), ((const char*)(0 + (prop)->sv_u .svu_pv)), (PL_regkind[((scan)->type)] == 0 || !rnext) ? 0 : (IV)(rnext - rexi->program)); };} while (0) |
5876 | regnode *rnext = regnext(scan);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( state_num <= 109) { SV * const prop = Perl_sv_newmortal(); regnode *rnext = Perl_regnext( scan); S_dump_exec_pos( locinput ,scan,(reginfo->strend),(reginfo->strbeg),startpos,utf8_target ,depth); my_regprop( rex,prop,scan,reginfo,((void*)0)); Perl_re_printf ( "%*s%" "ld" ":%s(%" "ld" ")\n", ((int)(depth) % 20), "", (IV )(scan - rexi->program), ((const char*)(0 + (prop)->sv_u .svu_pv)), (PL_regkind[((scan)->type)] == 0 || !rnext) ? 0 : (IV)(rnext - rexi->program)); };} while (0) |
5877 | |
5878 | DUMP_EXEC_POS( locinput, scan, utf8_target, depth );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( state_num <= 109) { SV * const prop = Perl_sv_newmortal(); regnode *rnext = Perl_regnext( scan); S_dump_exec_pos( locinput ,scan,(reginfo->strend),(reginfo->strbeg),startpos,utf8_target ,depth); my_regprop( rex,prop,scan,reginfo,((void*)0)); Perl_re_printf ( "%*s%" "ld" ":%s(%" "ld" ")\n", ((int)(depth) % 20), "", (IV )(scan - rexi->program), ((const char*)(0 + (prop)->sv_u .svu_pv)), (PL_regkind[((scan)->type)] == 0 || !rnext) ? 0 : (IV)(rnext - rexi->program)); };} while (0) |
5879 | regprop(rex, prop, scan, reginfo, NULL);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( state_num <= 109) { SV * const prop = Perl_sv_newmortal(); regnode *rnext = Perl_regnext( scan); S_dump_exec_pos( locinput ,scan,(reginfo->strend),(reginfo->strbeg),startpos,utf8_target ,depth); my_regprop( rex,prop,scan,reginfo,((void*)0)); Perl_re_printf ( "%*s%" "ld" ":%s(%" "ld" ")\n", ((int)(depth) % 20), "", (IV )(scan - rexi->program), ((const char*)(0 + (prop)->sv_u .svu_pv)), (PL_regkind[((scan)->type)] == 0 || !rnext) ? 0 : (IV)(rnext - rexi->program)); };} while (0) |
5880 | Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( state_num <= 109) { SV * const prop = Perl_sv_newmortal(); regnode *rnext = Perl_regnext( scan); S_dump_exec_pos( locinput ,scan,(reginfo->strend),(reginfo->strbeg),startpos,utf8_target ,depth); my_regprop( rex,prop,scan,reginfo,((void*)0)); Perl_re_printf ( "%*s%" "ld" ":%s(%" "ld" ")\n", ((int)(depth) % 20), "", (IV )(scan - rexi->program), ((const char*)(0 + (prop)->sv_u .svu_pv)), (PL_regkind[((scan)->type)] == 0 || !rnext) ? 0 : (IV)(rnext - rexi->program)); };} while (0) |
5881 | "%*s%" IVdf ":%s(%" IVdf ")\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( state_num <= 109) { SV * const prop = Perl_sv_newmortal(); regnode *rnext = Perl_regnext( scan); S_dump_exec_pos( locinput ,scan,(reginfo->strend),(reginfo->strbeg),startpos,utf8_target ,depth); my_regprop( rex,prop,scan,reginfo,((void*)0)); Perl_re_printf ( "%*s%" "ld" ":%s(%" "ld" ")\n", ((int)(depth) % 20), "", (IV )(scan - rexi->program), ((const char*)(0 + (prop)->sv_u .svu_pv)), (PL_regkind[((scan)->type)] == 0 || !rnext) ? 0 : (IV)(rnext - rexi->program)); };} while (0) |
5882 | INDENT_CHARS(depth), "",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( state_num <= 109) { SV * const prop = Perl_sv_newmortal(); regnode *rnext = Perl_regnext( scan); S_dump_exec_pos( locinput ,scan,(reginfo->strend),(reginfo->strbeg),startpos,utf8_target ,depth); my_regprop( rex,prop,scan,reginfo,((void*)0)); Perl_re_printf ( "%*s%" "ld" ":%s(%" "ld" ")\n", ((int)(depth) % 20), "", (IV )(scan - rexi->program), ((const char*)(0 + (prop)->sv_u .svu_pv)), (PL_regkind[((scan)->type)] == 0 || !rnext) ? 0 : (IV)(rnext - rexi->program)); };} while (0) |
5883 | (IV)(scan - rexi->program),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( state_num <= 109) { SV * const prop = Perl_sv_newmortal(); regnode *rnext = Perl_regnext( scan); S_dump_exec_pos( locinput ,scan,(reginfo->strend),(reginfo->strbeg),startpos,utf8_target ,depth); my_regprop( rex,prop,scan,reginfo,((void*)0)); Perl_re_printf ( "%*s%" "ld" ":%s(%" "ld" ")\n", ((int)(depth) % 20), "", (IV )(scan - rexi->program), ((const char*)(0 + (prop)->sv_u .svu_pv)), (PL_regkind[((scan)->type)] == 0 || !rnext) ? 0 : (IV)(rnext - rexi->program)); };} while (0) |
5884 | SvPVX_const(prop),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( state_num <= 109) { SV * const prop = Perl_sv_newmortal(); regnode *rnext = Perl_regnext( scan); S_dump_exec_pos( locinput ,scan,(reginfo->strend),(reginfo->strbeg),startpos,utf8_target ,depth); my_regprop( rex,prop,scan,reginfo,((void*)0)); Perl_re_printf ( "%*s%" "ld" ":%s(%" "ld" ")\n", ((int)(depth) % 20), "", (IV )(scan - rexi->program), ((const char*)(0 + (prop)->sv_u .svu_pv)), (PL_regkind[((scan)->type)] == 0 || !rnext) ? 0 : (IV)(rnext - rexi->program)); };} while (0) |
5885 | (PL_regkind[OP(scan)] == END || !rnext) ?do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( state_num <= 109) { SV * const prop = Perl_sv_newmortal(); regnode *rnext = Perl_regnext( scan); S_dump_exec_pos( locinput ,scan,(reginfo->strend),(reginfo->strbeg),startpos,utf8_target ,depth); my_regprop( rex,prop,scan,reginfo,((void*)0)); Perl_re_printf ( "%*s%" "ld" ":%s(%" "ld" ")\n", ((int)(depth) % 20), "", (IV )(scan - rexi->program), ((const char*)(0 + (prop)->sv_u .svu_pv)), (PL_regkind[((scan)->type)] == 0 || !rnext) ? 0 : (IV)(rnext - rexi->program)); };} while (0) |
5886 | 0 : (IV)(rnext - rexi->program));do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( state_num <= 109) { SV * const prop = Perl_sv_newmortal(); regnode *rnext = Perl_regnext( scan); S_dump_exec_pos( locinput ,scan,(reginfo->strend),(reginfo->strbeg),startpos,utf8_target ,depth); my_regprop( rex,prop,scan,reginfo,((void*)0)); Perl_re_printf ( "%*s%" "ld" ":%s(%" "ld" ")\n", ((int)(depth) % 20), "", (IV )(scan - rexi->program), ((const char*)(0 + (prop)->sv_u .svu_pv)), (PL_regkind[((scan)->type)] == 0 || !rnext) ? 0 : (IV)(rnext - rexi->program)); };} while (0) |
5887 | }do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( state_num <= 109) { SV * const prop = Perl_sv_newmortal(); regnode *rnext = Perl_regnext( scan); S_dump_exec_pos( locinput ,scan,(reginfo->strend),(reginfo->strbeg),startpos,utf8_target ,depth); my_regprop( rex,prop,scan,reginfo,((void*)0)); Perl_re_printf ( "%*s%" "ld" ":%s(%" "ld" ")\n", ((int)(depth) % 20), "", (IV )(scan - rexi->program), ((const char*)(0 + (prop)->sv_u .svu_pv)), (PL_regkind[((scan)->type)] == 0 || !rnext) ? 0 : (IV)(rnext - rexi->program)); };} while (0) |
5888 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) if ( state_num <= 109) { SV * const prop = Perl_sv_newmortal(); regnode *rnext = Perl_regnext( scan); S_dump_exec_pos( locinput ,scan,(reginfo->strend),(reginfo->strbeg),startpos,utf8_target ,depth); my_regprop( rex,prop,scan,reginfo,((void*)0)); Perl_re_printf ( "%*s%" "ld" ":%s(%" "ld" ")\n", ((int)(depth) % 20), "", (IV )(scan - rexi->program), ((const char*)(0 + (prop)->sv_u .svu_pv)), (PL_regkind[((scan)->type)] == 0 || !rnext) ? 0 : (IV)(rnext - rexi->program)); };} while (0); |
5889 | |
5890 | to_complement = 0; |
5891 | |
5892 | SET_nextchrnextchr = ((locinput < reginfo->strend) ? ((int)*(const U8*)(locinput)) : -10); |
5893 | assert(nextchr < 256 && (nextchr >= 0 || nextchr == NEXTCHR_EOS))((nextchr < 256 && (nextchr >= 0 || nextchr == - 10)) ? (void)0 : __assert2("re_exec.c", 5893, __func__, "nextchr < 256 && (nextchr >= 0 || nextchr == NEXTCHR_EOS)" )); |
5894 | |
5895 | switch (state_num) { |
5896 | case SBOL2: /* /^../ and /\A../ */ |
5897 | if (locinput == reginfo->strbeg) |
5898 | break; |
5899 | sayNOgoto no; |
5900 | |
5901 | case MBOL3: /* /^../m */ |
5902 | if (locinput == reginfo->strbeg || |
5903 | (!NEXTCHR_IS_EOS(nextchr < 0) && locinput[-1] == '\n')) |
5904 | { |
5905 | break; |
5906 | } |
5907 | sayNOgoto no; |
5908 | |
5909 | case GPOS7: /* \G */ |
5910 | if (locinput == reginfo->ganch) |
5911 | break; |
5912 | sayNOgoto no; |
5913 | |
5914 | case KEEPS105: /* \K */ |
5915 | /* update the startpoint */ |
5916 | st->u.keeper.val = rex->offs[0].start; |
5917 | rex->offs[0].start = locinput - reginfo->strbeg; |
5918 | PUSH_STATE_GOTO(KEEPS_next, next, locinput, loceol,pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = next; st->resume_state = (109 + 39); goto push_state ; |
5919 | script_run_begin)pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = next; st->resume_state = (109 + 39); goto push_state ;; |
5920 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 5920 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
5921 | |
5922 | case KEEPS_next_fail(109 + 40): |
5923 | /* rollback the start point change */ |
5924 | rex->offs[0].start = st->u.keeper.val; |
5925 | sayNO_SILENTgoto no_silent; |
5926 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 5926 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
5927 | |
5928 | case MEOL5: /* /..$/m */ |
5929 | if (!NEXTCHR_IS_EOS(nextchr < 0) && nextchr != '\n') |
5930 | sayNOgoto no; |
5931 | break; |
5932 | |
5933 | case SEOL4: /* /..$/ */ |
5934 | if (!NEXTCHR_IS_EOS(nextchr < 0) && nextchr != '\n') |
5935 | sayNOgoto no; |
5936 | if (reginfo->strend - locinput > 1) |
5937 | sayNOgoto no; |
5938 | break; |
5939 | |
5940 | case EOS6: /* \z */ |
5941 | if (!NEXTCHR_IS_EOS(nextchr < 0)) |
5942 | sayNOgoto no; |
5943 | break; |
5944 | |
5945 | case SANY17: /* /./s */ |
5946 | if (NEXTCHR_IS_EOS(nextchr < 0) || locinput >= loceol) |
5947 | sayNOgoto no; |
5948 | goto increment_locinput; |
5949 | |
5950 | case REG_ANY16: /* /./ */ |
5951 | if ( NEXTCHR_IS_EOS(nextchr < 0) |
5952 | || locinput >= loceol |
5953 | || nextchr == '\n') |
5954 | { |
5955 | sayNOgoto no; |
5956 | } |
5957 | goto increment_locinput; |
5958 | |
5959 | |
5960 | #undef ST |
5961 | #define ST st->u.trie |
5962 | case TRIEC89: /* (ab|cd) with known charclass */ |
5963 | /* In this case the charclass data is available inline so |
5964 | we can fail fast without a lot of extra overhead. |
5965 | */ |
5966 | if ( ! NEXTCHR_IS_EOS(nextchr < 0) |
5967 | && locinput < loceol |
5968 | && ! ANYOF_BITMAP_TEST(scan, nextchr)(((( (U8*) ((regnode_charclass*)(scan))->bitmap) [ ( ( (UV ) (nextchr)) >> 3) ] ) & (1U << ((nextchr) & 7))) ? (_Bool)1 : (_Bool)0)) |
5969 | { |
5970 | DEBUG_EXECUTE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "%sTRIE: failed to match trie start class...%s\n", depth, PL_colors [4], PL_colors[5]);} while (0) |
5971 | Perl_re_exec_indentf( aTHX_ "%sTRIE: failed to match trie start class...%s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "%sTRIE: failed to match trie start class...%s\n", depth, PL_colors [4], PL_colors[5]);} while (0) |
5972 | depth, PL_colors[4], PL_colors[5])do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "%sTRIE: failed to match trie start class...%s\n", depth, PL_colors [4], PL_colors[5]);} while (0) |
5973 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "%sTRIE: failed to match trie start class...%s\n", depth, PL_colors [4], PL_colors[5]);} while (0); |
5974 | sayNO_SILENTgoto no_silent; |
5975 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 5975 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
5976 | } |
5977 | /* FALLTHROUGH */ |
5978 | case TRIE88: /* (ab|cd) */ |
5979 | /* the basic plan of execution of the trie is: |
5980 | * At the beginning, run though all the states, and |
5981 | * find the longest-matching word. Also remember the position |
5982 | * of the shortest matching word. For example, this pattern: |
5983 | * 1 2 3 4 5 |
5984 | * ab|a|x|abcd|abc |
5985 | * when matched against the string "abcde", will generate |
5986 | * accept states for all words except 3, with the longest |
5987 | * matching word being 4, and the shortest being 2 (with |
5988 | * the position being after char 1 of the string). |
5989 | * |
5990 | * Then for each matching word, in word order (i.e. 1,2,4,5), |
5991 | * we run the remainder of the pattern; on each try setting |
5992 | * the current position to the character following the word, |
5993 | * returning to try the next word on failure. |
5994 | * |
5995 | * We avoid having to build a list of words at runtime by |
5996 | * using a compile-time structure, wordinfo[].prev, which |
5997 | * gives, for each word, the previous accepting word (if any). |
5998 | * In the case above it would contain the mappings 1->2, 2->0, |
5999 | * 3->0, 4->5, 5->1. We can use this table to generate, from |
6000 | * the longest word (4 above), a list of all words, by |
6001 | * following the list of prev pointers; this gives us the |
6002 | * unordered list 4,5,1,2. Then given the current word we have |
6003 | * just tried, we can go through the list and find the |
6004 | * next-biggest word to try (so if we just failed on word 2, |
6005 | * the next in the list is 4). |
6006 | * |
6007 | * Since at runtime we don't record the matching position in |
6008 | * the string for each word, we have to work that out for |
6009 | * each word we're about to process. The wordinfo table holds |
6010 | * the character length of each word; given that we recorded |
6011 | * at the start: the position of the shortest word and its |
6012 | * length in chars, we just need to move the pointer the |
6013 | * difference between the two char lengths. Depending on |
6014 | * Unicode status and folding, that's cheap or expensive. |
6015 | * |
6016 | * This algorithm is optimised for the case where are only a |
6017 | * small number of accept states, i.e. 0,1, or maybe 2. |
6018 | * With lots of accepts states, and having to try all of them, |
6019 | * it becomes quadratic on number of accept states to find all |
6020 | * the next words. |
6021 | */ |
6022 | |
6023 | { |
6024 | /* what type of TRIE am I? (utf8 makes this contextual) */ |
6025 | DECL_TRIE_TYPE(scan)const enum { trie_plain, trie_utf8, trie_utf8_fold, trie_latin_utf8_fold , trie_utf8_exactfa_fold, trie_latin_utf8_exactfa_fold, trie_utf8l , trie_flu8, trie_flu8_latin } trie_type = ((scan->flags == 40) ? (utf8_target ? trie_utf8 : trie_plain) : (scan->flags == 42) ? (utf8_target ? trie_utf8l : trie_plain) : (scan-> flags == 46) ? (utf8_target ? trie_utf8_exactfa_fold : trie_latin_utf8_exactfa_fold ) : (scan->flags == 48 ? (utf8_target ? trie_flu8 : trie_flu8_latin ) : (utf8_target ? trie_utf8_fold : trie_latin_utf8_fold))); |
6026 | |
6027 | /* what trie are we using right now */ |
6028 | reg_trie_data * const trie |
6029 | = (reg_trie_data*)rexi->data->data[ ARG( scan )((((struct regnode_1 *)scan)->arg1)) ]; |
6030 | HV * widecharmap = MUTABLE_HV(rexi->data->data[ ARG( scan ) + 1 ])((HV *)({ void *_p = (rexi->data->data[ ((((struct regnode_1 *)scan)->arg1)) + 1 ]); _p; })); |
6031 | U32 state = trie->startstate; |
6032 | |
6033 | if (scan->flags == EXACTL42 || scan->flags == EXACTFLU848) { |
6034 | _CHECK_AND_WARN_PROBLEMATIC_LOCALEdo { if (__builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool )0),(0))) { Perl__warn_problematic_locale(); } } while (0); |
6035 | if (utf8_target |
6036 | && ! NEXTCHR_IS_EOS(nextchr < 0) |
6037 | && UTF8_IS_ABOVE_LATIN1(nextchr)(((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6037, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6037, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) >= ((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) |
6038 | && scan->flags == EXACTL42) |
6039 | { |
6040 | /* We only output for EXACTL, as we let the folder |
6041 | * output this message for EXACTFLU8 to avoid |
6042 | * duplication */ |
6043 | _CHECK_AND_OUTPUT_WIDE_LOCALE_UTF8_MSG(locinput,do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) (locinput)),(const U8 *) (U8 *) (reginfo->strend),(( void*)0)); Perl_warner( (63 ), "Wide character (U+%" "lX" ") in %s" , (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type])); } } while (0) |
6044 | reginfo->strend)do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) (locinput)),(const U8 *) (U8 *) (reginfo->strend),(( void*)0)); Perl_warner( (63 ), "Wide character (U+%" "lX" ") in %s" , (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type])); } } while (0); |
6045 | } |
6046 | } |
6047 | if ( trie->bitmap |
6048 | && ( NEXTCHR_IS_EOS(nextchr < 0) |
6049 | || locinput >= loceol |
6050 | || ! TRIE_BITMAP_TEST(trie, nextchr)((( (U8*) (((reg_trie_data *)(trie))->bitmap)) [ ( ( (UV) ( nextchr)) >> 3) ] ) & (1U << (((U8)nextchr) & 7))))) |
6051 | { |
6052 | if (trie->states[ state ].wordnum) { |
6053 | DEBUG_EXECUTE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "%sTRIE: matched empty string...%s\n", depth, PL_colors[4], PL_colors[5]);} while (0) |
6054 | Perl_re_exec_indentf( aTHX_ "%sTRIE: matched empty string...%s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "%sTRIE: matched empty string...%s\n", depth, PL_colors[4], PL_colors[5]);} while (0) |
6055 | depth, PL_colors[4], PL_colors[5])do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "%sTRIE: matched empty string...%s\n", depth, PL_colors[4], PL_colors[5]);} while (0) |
6056 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "%sTRIE: matched empty string...%s\n", depth, PL_colors[4], PL_colors[5]);} while (0); |
6057 | if (!trie->jump) |
6058 | break; |
6059 | } else { |
6060 | DEBUG_EXECUTE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "%sTRIE: failed to match trie start class...%s\n", depth, PL_colors [4], PL_colors[5]);} while (0) |
6061 | Perl_re_exec_indentf( aTHX_ "%sTRIE: failed to match trie start class...%s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "%sTRIE: failed to match trie start class...%s\n", depth, PL_colors [4], PL_colors[5]);} while (0) |
6062 | depth, PL_colors[4], PL_colors[5])do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "%sTRIE: failed to match trie start class...%s\n", depth, PL_colors [4], PL_colors[5]);} while (0) |
6063 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "%sTRIE: failed to match trie start class...%s\n", depth, PL_colors [4], PL_colors[5]);} while (0); |
6064 | sayNO_SILENTgoto no_silent; |
6065 | } |
6066 | } |
6067 | |
6068 | { |
6069 | U8 *uc = ( U8* )locinput; |
6070 | |
6071 | STRLEN len = 0; |
6072 | STRLEN foldlen = 0; |
6073 | U8 *uscan = (U8*)NULL((void*)0); |
6074 | 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 ]; |
6075 | U32 charcount = 0; /* how many input chars we have matched */ |
6076 | U32 accepted = 0; /* have we seen any accepting states? */ |
6077 | |
6078 | ST.jump = trie->jump; |
6079 | ST.me = scan; |
6080 | ST.firstpos = NULL((void*)0); |
6081 | ST.longfold = FALSE(0); /* char longer if folded => it's harder */ |
6082 | ST.nextword = 0; |
6083 | |
6084 | /* fully traverse the TRIE; note the position of the |
6085 | shortest accept state and the wordnum of the longest |
6086 | accept state */ |
6087 | |
6088 | while ( state && uc <= (U8*)(loceol) ) { |
6089 | U32 base = trie->states[ state ].trans.base; |
6090 | UV uvc = 0; |
6091 | U16 charid = 0; |
6092 | U16 wordnum; |
6093 | wordnum = trie->states[ state ].wordnum; |
6094 | |
6095 | if (wordnum) { /* it's an accept state */ |
6096 | if (!accepted) { |
6097 | accepted = 1; |
6098 | /* record first match position */ |
6099 | if (ST.longfold) { |
6100 | ST.firstpos = (U8*)locinput; |
6101 | ST.firstchars = 0; |
6102 | } |
6103 | else { |
6104 | ST.firstpos = uc; |
6105 | ST.firstchars = charcount; |
6106 | } |
6107 | } |
6108 | if (!ST.nextword || wordnum < ST.nextword) |
6109 | ST.nextword = wordnum; |
6110 | ST.topword = wordnum; |
6111 | } |
6112 | |
6113 | DEBUG_TRIE_EXECUTE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { S_dump_exec_pos ( (char *)uc,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); PerlIO_printf( Perl_PerlIO_stderr(), "%*s%sTRIE: State: %4" "lx" " Accepted: %c ", ((int)(depth) % 20), "", PL_colors[4] , (UV)state, (accepted ? 'Y' : 'N')); };} while (0) |
6114 | DUMP_EXEC_POS( (char *)uc, scan, utf8_target, depth );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { S_dump_exec_pos ( (char *)uc,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); PerlIO_printf( Perl_PerlIO_stderr(), "%*s%sTRIE: State: %4" "lx" " Accepted: %c ", ((int)(depth) % 20), "", PL_colors[4] , (UV)state, (accepted ? 'Y' : 'N')); };} while (0) |
6115 | /* HERE */do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { S_dump_exec_pos ( (char *)uc,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); PerlIO_printf( Perl_PerlIO_stderr(), "%*s%sTRIE: State: %4" "lx" " Accepted: %c ", ((int)(depth) % 20), "", PL_colors[4] , (UV)state, (accepted ? 'Y' : 'N')); };} while (0) |
6116 | PerlIO_printf( Perl_debug_log,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { S_dump_exec_pos ( (char *)uc,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); PerlIO_printf( Perl_PerlIO_stderr(), "%*s%sTRIE: State: %4" "lx" " Accepted: %c ", ((int)(depth) % 20), "", PL_colors[4] , (UV)state, (accepted ? 'Y' : 'N')); };} while (0) |
6117 | "%*s%sTRIE: State: %4" UVxf " Accepted: %c ",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { S_dump_exec_pos ( (char *)uc,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); PerlIO_printf( Perl_PerlIO_stderr(), "%*s%sTRIE: State: %4" "lx" " Accepted: %c ", ((int)(depth) % 20), "", PL_colors[4] , (UV)state, (accepted ? 'Y' : 'N')); };} while (0) |
6118 | INDENT_CHARS(depth), "", PL_colors[4],do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { S_dump_exec_pos ( (char *)uc,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); PerlIO_printf( Perl_PerlIO_stderr(), "%*s%sTRIE: State: %4" "lx" " Accepted: %c ", ((int)(depth) % 20), "", PL_colors[4] , (UV)state, (accepted ? 'Y' : 'N')); };} while (0) |
6119 | (UV)state, (accepted ? 'Y' : 'N'));do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { S_dump_exec_pos ( (char *)uc,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); PerlIO_printf( Perl_PerlIO_stderr(), "%*s%sTRIE: State: %4" "lx" " Accepted: %c ", ((int)(depth) % 20), "", PL_colors[4] , (UV)state, (accepted ? 'Y' : 'N')); };} while (0) |
6120 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) { S_dump_exec_pos ( (char *)uc,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); PerlIO_printf( Perl_PerlIO_stderr(), "%*s%sTRIE: State: %4" "lx" " Accepted: %c ", ((int)(depth) % 20), "", PL_colors[4] , (UV)state, (accepted ? 'Y' : 'N')); };} while (0); |
6121 | |
6122 | /* read a char and goto next state */ |
6123 | if ( base && (foldlen || uc < (U8*)(loceol))) { |
6124 | I32 offset; |
6125 | REXEC_TRIE_READ_CHAR(trie_type, trie, widecharmap, uc,do { STRLEN skiplen; U8 flags = 0x2; switch (trie_type) { case trie_flu8: do { if (__builtin_expect(((PL_warn_locale) ? (_Bool )1 : (_Bool)0),(0))) { Perl__warn_problematic_locale(); } } while (0); if ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6128, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 6128, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((U8) ((*uc) | 0))) >= ((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((U8 *) (uc )),(const U8 *) (U8 *) ((U8 *) loceol),((void*)0)); Perl_warner ( (63 ), "Wide character (U+%" "lX" ") in %s", (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field ( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type ])); } } while (0); } goto do_trie_utf8_fold; case trie_utf8_exactfa_fold : flags |= 0x4; case trie_utf8_fold: do_trie_utf8_fold: if ( foldlen >0 ) { uvc = Perl_utf8n_to_uvchr_msgs((const U8*) uscan, foldlen , &len, uniflags, 0, 0); foldlen -= len; uscan += len; len =0; } else { uvc = Perl__to_utf8_fold_flags( (const U8*) uc,( U8 *) loceol,foldbuf,&foldlen,flags); len = (((((U8 *) loceol ) >= (uc)) ? (void)0 : __assert2("re_exec.c", 6128, __func__ , "((U8 *) loceol) >= (uc)")), (((U8 *) loceol) - (uc)) <= 0 ? 0 : ((((((U8 *) loceol) - (uc)))<(PL_utf8skip[*(const U8*)(uc)]))?((((U8 *) loceol) - (uc))):(PL_utf8skip[*(const U8 *)(uc)]))); skiplen = ( ((((U64)(((UV) ((uvc) | 0)))) < (( (U8) (0xFF << 6)) & 0xB0))) ? 1 : ((UV) (uvc) < ( 32 * (1U << ( 6))) ? 2 : (UV) (uvc) < (16 * (1U << (2 * 6))) ? 3 : (UV) (uvc) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (uvc) < ( 4 * (1U << (4 * 6))) ? 5 : (UV ) (uvc) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (uvc) < ((UV) 1U << (6 * 6)) ? 7 : 13)); foldlen -= skiplen; uscan = foldbuf + skiplen; } break; case trie_flu8_latin: do { if ( __builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool)0),(0) )) { Perl__warn_problematic_locale(); } } while (0); goto do_trie_latin_utf8_fold ; case trie_latin_utf8_exactfa_fold: flags |= 0x4; case trie_latin_utf8_fold : do_trie_latin_utf8_fold: if ( foldlen>0 ) { uvc = Perl_utf8n_to_uvchr_msgs ((const U8*) uscan, foldlen, &len, uniflags, 0, 0); foldlen -= len; uscan += len; len=0; } else { len = 1; uvc = Perl__to_fold_latin1 ( (U8) *uc, foldbuf, &foldlen, flags); skiplen = ( ((((U64 )(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6)) & 0xB0 ))) ? 1 : ((UV) (uvc) < (32 * (1U << ( 6))) ? 2 : (UV ) (uvc) < (16 * (1U << (2 * 6))) ? 3 : (UV) (uvc) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (uvc) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (uvc) < ( 2 * (1U << ( 5 * 6))) ? 6 : (UV) (uvc) < ((UV) 1U << (6 * 6)) ? 7 : 13)); foldlen -= skiplen; uscan = foldbuf + skiplen; } break ; case trie_utf8l: do { if (__builtin_expect(((PL_warn_locale ) ? (_Bool)1 : (_Bool)0),(0))) { Perl__warn_problematic_locale (); } } while (0); if (utf8_target && (((( (sizeof(*uc ) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6128, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 6128, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((U8) ((*uc) | 0))) >= ((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((U8 *) (uc )),(const U8 *) (U8 *) ((U8 *) loceol),((void*)0)); Perl_warner ( (63 ), "Wide character (U+%" "lX" ") in %s", (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field ( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type ])); } } while (0); } case trie_utf8: uvc = Perl_utf8n_to_uvchr_msgs ((const U8*) uc, (U8 *) loceol - uc, &len, uniflags, 0, 0 ); break; case trie_plain: uvc = (UV)*uc; len = 1; } if (uvc < 256) { charid = trie->charmap[ uvc ]; } else { charid = 0 ; if (widecharmap) { SV** const svpp = ((SV**) Perl_hv_common_key_len ( (widecharmap),((char*)&uvc),(sizeof(UV)),(0) ? (0x20 | 0x10 ) : 0x20,((void*)0),0)); if (svpp) charid = (U16)((((*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_exec.c", 6128, __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_exec.c", 6128, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( *svpp,2)); } } } while (0) |
6126 | (U8 *) loceol, uscan,do { STRLEN skiplen; U8 flags = 0x2; switch (trie_type) { case trie_flu8: do { if (__builtin_expect(((PL_warn_locale) ? (_Bool )1 : (_Bool)0),(0))) { Perl__warn_problematic_locale(); } } while (0); if ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6128, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 6128, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((U8) ((*uc) | 0))) >= ((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((U8 *) (uc )),(const U8 *) (U8 *) ((U8 *) loceol),((void*)0)); Perl_warner ( (63 ), "Wide character (U+%" "lX" ") in %s", (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field ( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type ])); } } while (0); } goto do_trie_utf8_fold; case trie_utf8_exactfa_fold : flags |= 0x4; case trie_utf8_fold: do_trie_utf8_fold: if ( foldlen >0 ) { uvc = Perl_utf8n_to_uvchr_msgs((const U8*) uscan, foldlen , &len, uniflags, 0, 0); foldlen -= len; uscan += len; len =0; } else { uvc = Perl__to_utf8_fold_flags( (const U8*) uc,( U8 *) loceol,foldbuf,&foldlen,flags); len = (((((U8 *) loceol ) >= (uc)) ? (void)0 : __assert2("re_exec.c", 6128, __func__ , "((U8 *) loceol) >= (uc)")), (((U8 *) loceol) - (uc)) <= 0 ? 0 : ((((((U8 *) loceol) - (uc)))<(PL_utf8skip[*(const U8*)(uc)]))?((((U8 *) loceol) - (uc))):(PL_utf8skip[*(const U8 *)(uc)]))); skiplen = ( ((((U64)(((UV) ((uvc) | 0)))) < (( (U8) (0xFF << 6)) & 0xB0))) ? 1 : ((UV) (uvc) < ( 32 * (1U << ( 6))) ? 2 : (UV) (uvc) < (16 * (1U << (2 * 6))) ? 3 : (UV) (uvc) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (uvc) < ( 4 * (1U << (4 * 6))) ? 5 : (UV ) (uvc) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (uvc) < ((UV) 1U << (6 * 6)) ? 7 : 13)); foldlen -= skiplen; uscan = foldbuf + skiplen; } break; case trie_flu8_latin: do { if ( __builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool)0),(0) )) { Perl__warn_problematic_locale(); } } while (0); goto do_trie_latin_utf8_fold ; case trie_latin_utf8_exactfa_fold: flags |= 0x4; case trie_latin_utf8_fold : do_trie_latin_utf8_fold: if ( foldlen>0 ) { uvc = Perl_utf8n_to_uvchr_msgs ((const U8*) uscan, foldlen, &len, uniflags, 0, 0); foldlen -= len; uscan += len; len=0; } else { len = 1; uvc = Perl__to_fold_latin1 ( (U8) *uc, foldbuf, &foldlen, flags); skiplen = ( ((((U64 )(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6)) & 0xB0 ))) ? 1 : ((UV) (uvc) < (32 * (1U << ( 6))) ? 2 : (UV ) (uvc) < (16 * (1U << (2 * 6))) ? 3 : (UV) (uvc) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (uvc) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (uvc) < ( 2 * (1U << ( 5 * 6))) ? 6 : (UV) (uvc) < ((UV) 1U << (6 * 6)) ? 7 : 13)); foldlen -= skiplen; uscan = foldbuf + skiplen; } break ; case trie_utf8l: do { if (__builtin_expect(((PL_warn_locale ) ? (_Bool)1 : (_Bool)0),(0))) { Perl__warn_problematic_locale (); } } while (0); if (utf8_target && (((( (sizeof(*uc ) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6128, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 6128, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((U8) ((*uc) | 0))) >= ((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((U8 *) (uc )),(const U8 *) (U8 *) ((U8 *) loceol),((void*)0)); Perl_warner ( (63 ), "Wide character (U+%" "lX" ") in %s", (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field ( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type ])); } } while (0); } case trie_utf8: uvc = Perl_utf8n_to_uvchr_msgs ((const U8*) uc, (U8 *) loceol - uc, &len, uniflags, 0, 0 ); break; case trie_plain: uvc = (UV)*uc; len = 1; } if (uvc < 256) { charid = trie->charmap[ uvc ]; } else { charid = 0 ; if (widecharmap) { SV** const svpp = ((SV**) Perl_hv_common_key_len ( (widecharmap),((char*)&uvc),(sizeof(UV)),(0) ? (0x20 | 0x10 ) : 0x20,((void*)0),0)); if (svpp) charid = (U16)((((*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_exec.c", 6128, __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_exec.c", 6128, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( *svpp,2)); } } } while (0) |
6127 | len, uvc, charid, foldlen,do { STRLEN skiplen; U8 flags = 0x2; switch (trie_type) { case trie_flu8: do { if (__builtin_expect(((PL_warn_locale) ? (_Bool )1 : (_Bool)0),(0))) { Perl__warn_problematic_locale(); } } while (0); if ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6128, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 6128, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((U8) ((*uc) | 0))) >= ((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((U8 *) (uc )),(const U8 *) (U8 *) ((U8 *) loceol),((void*)0)); Perl_warner ( (63 ), "Wide character (U+%" "lX" ") in %s", (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field ( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type ])); } } while (0); } goto do_trie_utf8_fold; case trie_utf8_exactfa_fold : flags |= 0x4; case trie_utf8_fold: do_trie_utf8_fold: if ( foldlen >0 ) { uvc = Perl_utf8n_to_uvchr_msgs((const U8*) uscan, foldlen , &len, uniflags, 0, 0); foldlen -= len; uscan += len; len =0; } else { uvc = Perl__to_utf8_fold_flags( (const U8*) uc,( U8 *) loceol,foldbuf,&foldlen,flags); len = (((((U8 *) loceol ) >= (uc)) ? (void)0 : __assert2("re_exec.c", 6128, __func__ , "((U8 *) loceol) >= (uc)")), (((U8 *) loceol) - (uc)) <= 0 ? 0 : ((((((U8 *) loceol) - (uc)))<(PL_utf8skip[*(const U8*)(uc)]))?((((U8 *) loceol) - (uc))):(PL_utf8skip[*(const U8 *)(uc)]))); skiplen = ( ((((U64)(((UV) ((uvc) | 0)))) < (( (U8) (0xFF << 6)) & 0xB0))) ? 1 : ((UV) (uvc) < ( 32 * (1U << ( 6))) ? 2 : (UV) (uvc) < (16 * (1U << (2 * 6))) ? 3 : (UV) (uvc) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (uvc) < ( 4 * (1U << (4 * 6))) ? 5 : (UV ) (uvc) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (uvc) < ((UV) 1U << (6 * 6)) ? 7 : 13)); foldlen -= skiplen; uscan = foldbuf + skiplen; } break; case trie_flu8_latin: do { if ( __builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool)0),(0) )) { Perl__warn_problematic_locale(); } } while (0); goto do_trie_latin_utf8_fold ; case trie_latin_utf8_exactfa_fold: flags |= 0x4; case trie_latin_utf8_fold : do_trie_latin_utf8_fold: if ( foldlen>0 ) { uvc = Perl_utf8n_to_uvchr_msgs ((const U8*) uscan, foldlen, &len, uniflags, 0, 0); foldlen -= len; uscan += len; len=0; } else { len = 1; uvc = Perl__to_fold_latin1 ( (U8) *uc, foldbuf, &foldlen, flags); skiplen = ( ((((U64 )(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6)) & 0xB0 ))) ? 1 : ((UV) (uvc) < (32 * (1U << ( 6))) ? 2 : (UV ) (uvc) < (16 * (1U << (2 * 6))) ? 3 : (UV) (uvc) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (uvc) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (uvc) < ( 2 * (1U << ( 5 * 6))) ? 6 : (UV) (uvc) < ((UV) 1U << (6 * 6)) ? 7 : 13)); foldlen -= skiplen; uscan = foldbuf + skiplen; } break ; case trie_utf8l: do { if (__builtin_expect(((PL_warn_locale ) ? (_Bool)1 : (_Bool)0),(0))) { Perl__warn_problematic_locale (); } } while (0); if (utf8_target && (((( (sizeof(*uc ) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6128, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 6128, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((U8) ((*uc) | 0))) >= ((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((U8 *) (uc )),(const U8 *) (U8 *) ((U8 *) loceol),((void*)0)); Perl_warner ( (63 ), "Wide character (U+%" "lX" ") in %s", (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field ( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type ])); } } while (0); } case trie_utf8: uvc = Perl_utf8n_to_uvchr_msgs ((const U8*) uc, (U8 *) loceol - uc, &len, uniflags, 0, 0 ); break; case trie_plain: uvc = (UV)*uc; len = 1; } if (uvc < 256) { charid = trie->charmap[ uvc ]; } else { charid = 0 ; if (widecharmap) { SV** const svpp = ((SV**) Perl_hv_common_key_len ( (widecharmap),((char*)&uvc),(sizeof(UV)),(0) ? (0x20 | 0x10 ) : 0x20,((void*)0),0)); if (svpp) charid = (U16)((((*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_exec.c", 6128, __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_exec.c", 6128, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( *svpp,2)); } } } while (0) |
6128 | foldbuf, uniflags)do { STRLEN skiplen; U8 flags = 0x2; switch (trie_type) { case trie_flu8: do { if (__builtin_expect(((PL_warn_locale) ? (_Bool )1 : (_Bool)0),(0))) { Perl__warn_problematic_locale(); } } while (0); if ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6128, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 6128, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((U8) ((*uc) | 0))) >= ((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((U8 *) (uc )),(const U8 *) (U8 *) ((U8 *) loceol),((void*)0)); Perl_warner ( (63 ), "Wide character (U+%" "lX" ") in %s", (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field ( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type ])); } } while (0); } goto do_trie_utf8_fold; case trie_utf8_exactfa_fold : flags |= 0x4; case trie_utf8_fold: do_trie_utf8_fold: if ( foldlen >0 ) { uvc = Perl_utf8n_to_uvchr_msgs((const U8*) uscan, foldlen , &len, uniflags, 0, 0); foldlen -= len; uscan += len; len =0; } else { uvc = Perl__to_utf8_fold_flags( (const U8*) uc,( U8 *) loceol,foldbuf,&foldlen,flags); len = (((((U8 *) loceol ) >= (uc)) ? (void)0 : __assert2("re_exec.c", 6128, __func__ , "((U8 *) loceol) >= (uc)")), (((U8 *) loceol) - (uc)) <= 0 ? 0 : ((((((U8 *) loceol) - (uc)))<(PL_utf8skip[*(const U8*)(uc)]))?((((U8 *) loceol) - (uc))):(PL_utf8skip[*(const U8 *)(uc)]))); skiplen = ( ((((U64)(((UV) ((uvc) | 0)))) < (( (U8) (0xFF << 6)) & 0xB0))) ? 1 : ((UV) (uvc) < ( 32 * (1U << ( 6))) ? 2 : (UV) (uvc) < (16 * (1U << (2 * 6))) ? 3 : (UV) (uvc) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (uvc) < ( 4 * (1U << (4 * 6))) ? 5 : (UV ) (uvc) < ( 2 * (1U << (5 * 6))) ? 6 : (UV) (uvc) < ((UV) 1U << (6 * 6)) ? 7 : 13)); foldlen -= skiplen; uscan = foldbuf + skiplen; } break; case trie_flu8_latin: do { if ( __builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool)0),(0) )) { Perl__warn_problematic_locale(); } } while (0); goto do_trie_latin_utf8_fold ; case trie_latin_utf8_exactfa_fold: flags |= 0x4; case trie_latin_utf8_fold : do_trie_latin_utf8_fold: if ( foldlen>0 ) { uvc = Perl_utf8n_to_uvchr_msgs ((const U8*) uscan, foldlen, &len, uniflags, 0, 0); foldlen -= len; uscan += len; len=0; } else { len = 1; uvc = Perl__to_fold_latin1 ( (U8) *uc, foldbuf, &foldlen, flags); skiplen = ( ((((U64 )(((UV) ((uvc) | 0)))) < (((U8) (0xFF << 6)) & 0xB0 ))) ? 1 : ((UV) (uvc) < (32 * (1U << ( 6))) ? 2 : (UV ) (uvc) < (16 * (1U << (2 * 6))) ? 3 : (UV) (uvc) < ( 8 * (1U << (3 * 6))) ? 4 : (UV) (uvc) < ( 4 * (1U << (4 * 6))) ? 5 : (UV) (uvc) < ( 2 * (1U << ( 5 * 6))) ? 6 : (UV) (uvc) < ((UV) 1U << (6 * 6)) ? 7 : 13)); foldlen -= skiplen; uscan = foldbuf + skiplen; } break ; case trie_utf8l: do { if (__builtin_expect(((PL_warn_locale ) ? (_Bool)1 : (_Bool)0),(0))) { Perl__warn_problematic_locale (); } } while (0); if (utf8_target && (((( (sizeof(*uc ) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6128, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((((( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 6128, __func__, "( (sizeof(*uc) == 1) || !(((U64)((*uc) | 0)) & ~0xFF))" )), ((U8) ((*uc) | 0))) >= ((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((U8 *) (uc )),(const U8 *) (U8 *) ((U8 *) loceol),((void*)0)); Perl_warner ( (63 ), "Wide character (U+%" "lX" ") in %s", (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field ( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type ])); } } while (0); } case trie_utf8: uvc = Perl_utf8n_to_uvchr_msgs ((const U8*) uc, (U8 *) loceol - uc, &len, uniflags, 0, 0 ); break; case trie_plain: uvc = (UV)*uc; len = 1; } if (uvc < 256) { charid = trie->charmap[ uvc ]; } else { charid = 0 ; if (widecharmap) { SV** const svpp = ((SV**) Perl_hv_common_key_len ( (widecharmap),((char*)&uvc),(sizeof(UV)),(0) ? (0x20 | 0x10 ) : 0x20,((void*)0),0)); if (svpp) charid = (U16)((((*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_exec.c", 6128, __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_exec.c", 6128, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) : Perl_sv_2iv_flags ( *svpp,2)); } } } while (0); |
6129 | charcount++; |
6130 | if (foldlen>0) |
6131 | ST.longfold = TRUE(1); |
6132 | if (charid && |
6133 | ( ((offset = |
6134 | base + charid - 1 - trie->uniquecharcount)) >= 0) |
6135 | |
6136 | && ((U32)offset < trie->lasttrans) |
6137 | && trie->trans[offset].check == state) |
6138 | { |
6139 | state = trie->trans[offset].next; |
6140 | } |
6141 | else { |
6142 | state = 0; |
6143 | } |
6144 | uc += len; |
6145 | |
6146 | } |
6147 | else { |
6148 | state = 0; |
6149 | } |
6150 | DEBUG_TRIE_EXECUTE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) Perl_re_printf ( "TRIE: Charid:%3x CP:%4" "lx" " After State: %4" "lx" "%s\n" , charid, uvc, (UV)state, PL_colors[5] );;} while (0) |
6151 | Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) Perl_re_printf ( "TRIE: Charid:%3x CP:%4" "lx" " After State: %4" "lx" "%s\n" , charid, uvc, (UV)state, PL_colors[5] );;} while (0) |
6152 | "TRIE: Charid:%3x CP:%4" UVxf " After State: %4" UVxf "%s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) Perl_re_printf ( "TRIE: Charid:%3x CP:%4" "lx" " After State: %4" "lx" "%s\n" , charid, uvc, (UV)state, PL_colors[5] );;} while (0) |
6153 | charid, uvc, (UV)state, PL_colors[5] );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) Perl_re_printf ( "TRIE: Charid:%3x CP:%4" "lx" " After State: %4" "lx" "%s\n" , charid, uvc, (UV)state, PL_colors[5] );;} while (0) |
6154 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000400))) Perl_re_printf ( "TRIE: Charid:%3x CP:%4" "lx" " After State: %4" "lx" "%s\n" , charid, uvc, (UV)state, PL_colors[5] );;} while (0); |
6155 | } |
6156 | if (!accepted) |
6157 | sayNOgoto no; |
6158 | |
6159 | /* calculate total number of accept states */ |
6160 | { |
6161 | U16 w = ST.topword; |
6162 | accepted = 0; |
6163 | while (w) { |
6164 | w = trie->wordinfo[w].prev; |
6165 | accepted++; |
6166 | } |
6167 | ST.accepted = accepted; |
6168 | } |
6169 | |
6170 | DEBUG_EXECUTE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "%sTRIE: got %" "ld" " possible matches%s\n", depth, PL_colors [4], (IV)ST.accepted, PL_colors[5] );;} while (0) |
6171 | Perl_re_exec_indentf( aTHX_ "%sTRIE: got %" IVdf " possible matches%s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "%sTRIE: got %" "ld" " possible matches%s\n", depth, PL_colors [4], (IV)ST.accepted, PL_colors[5] );;} while (0) |
6172 | depth,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "%sTRIE: got %" "ld" " possible matches%s\n", depth, PL_colors [4], (IV)ST.accepted, PL_colors[5] );;} while (0) |
6173 | PL_colors[4], (IV)ST.accepted, PL_colors[5] );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "%sTRIE: got %" "ld" " possible matches%s\n", depth, PL_colors [4], (IV)ST.accepted, PL_colors[5] );;} while (0) |
6174 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "%sTRIE: got %" "ld" " possible matches%s\n", depth, PL_colors [4], (IV)ST.accepted, PL_colors[5] );;} while (0); |
6175 | goto trie_first_try; /* jump into the fail handler */ |
6176 | }} |
6177 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 6177 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
6178 | |
6179 | case TRIE_next_fail(109 + 2): /* we failed - try next alternative */ |
6180 | { |
6181 | U8 *uc; |
6182 | if ( ST.jump ) { |
6183 | /* undo any captures done in the tail part of a branch, |
6184 | * e.g. |
6185 | * /(?:X(.)(.)|Y(.)).../ |
6186 | * where the trie just matches X then calls out to do the |
6187 | * rest of the branch */ |
6188 | REGCP_UNWIND(ST.cp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) if (ST.cp != PL_savestack_ix) Perl_re_exec_indentf( "Clearing an EVAL scope, savestack=%" "ld" "..%" "ld" "\n", depth, (IV)(ST.cp), (IV)PL_savestack_ix );} while (0); do { if (PL_savestack_ix > ST.cp) Perl_leave_scope ( ST.cp); } while (0); |
6189 | UNWIND_PAREN(ST.lastparen, ST.lastcloseparen)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "UNWIND_PAREN: rex=0x%" "lx" " offs=0x%" "lx" ": invalidate (%" "lu" "..%" "lu" "] set lcp: %" "lu" "\n", depth, (UV)(rex), ( UV)(rex->offs), (UV)(ST.lastparen), (UV)(rex->lastparen ), (UV)(ST.lastcloseparen) );} while (0); for (n = rex->lastparen ; n > ST.lastparen; n--) rex->offs[n].end = -1; rex-> lastparen = n; rex->lastcloseparen = ST.lastcloseparen;; |
6190 | } |
6191 | if (!--ST.accepted) { |
6192 | DEBUG_EXECUTE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { Perl_re_exec_indentf ( "%sTRIE failed...%s\n", depth, PL_colors[4], PL_colors[5] ) ; };} while (0) |
6193 | Perl_re_exec_indentf( aTHX_ "%sTRIE failed...%s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { Perl_re_exec_indentf ( "%sTRIE failed...%s\n", depth, PL_colors[4], PL_colors[5] ) ; };} while (0) |
6194 | depth,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { Perl_re_exec_indentf ( "%sTRIE failed...%s\n", depth, PL_colors[4], PL_colors[5] ) ; };} while (0) |
6195 | PL_colors[4],do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { Perl_re_exec_indentf ( "%sTRIE failed...%s\n", depth, PL_colors[4], PL_colors[5] ) ; };} while (0) |
6196 | PL_colors[5] );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { Perl_re_exec_indentf ( "%sTRIE failed...%s\n", depth, PL_colors[4], PL_colors[5] ) ; };} while (0) |
6197 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { Perl_re_exec_indentf ( "%sTRIE failed...%s\n", depth, PL_colors[4], PL_colors[5] ) ; };} while (0); |
6198 | sayNO_SILENTgoto no_silent; |
6199 | } |
6200 | { |
6201 | /* Find next-highest word to process. Note that this code |
6202 | * is O(N^2) per trie run (O(N) per branch), so keep tight */ |
6203 | U16 min = 0; |
6204 | U16 word; |
6205 | U16 const nextword = ST.nextword; |
6206 | reg_trie_wordinfo * const wordinfo |
6207 | = ((reg_trie_data*)rexi->data->data[ARG(ST.me)((((struct regnode_1 *)ST.me)->arg1))])->wordinfo; |
6208 | for (word=ST.topword; word; word=wordinfo[word].prev) { |
6209 | if (word > nextword && (!min || word < min)) |
6210 | min = word; |
6211 | } |
6212 | ST.nextword = min; |
6213 | } |
6214 | |
6215 | trie_first_try: |
6216 | if (do_cutgroup) { |
6217 | do_cutgroup = 0; |
6218 | no_final = 0; |
6219 | } |
6220 | |
6221 | if ( ST.jump ) { |
6222 | ST.lastparen = rex->lastparen; |
6223 | ST.lastcloseparen = rex->lastcloseparen; |
6224 | REGCP_SET(ST.cp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) Perl_re_exec_indentf ( "Setting an EVAL scope, savestack=%" "ld" ",\n", depth, (IV )PL_savestack_ix );} while (0); ST.cp = PL_savestack_ix; |
6225 | } |
6226 | |
6227 | /* find start char of end of current word */ |
6228 | { |
6229 | U32 chars; /* how many chars to skip */ |
6230 | reg_trie_data * const trie |
6231 | = (reg_trie_data*)rexi->data->data[ARG(ST.me)((((struct regnode_1 *)ST.me)->arg1))]; |
6232 | |
6233 | assert((trie->wordinfo[ST.nextword].len - trie->prefixlen)(((trie->wordinfo[ST.nextword].len - trie->prefixlen) >= ST.firstchars) ? (void)0 : __assert2("re_exec.c", 6234, __func__ , "(trie->wordinfo[ST.nextword].len - trie->prefixlen) >= ST.firstchars" )) |
6234 | >= ST.firstchars)(((trie->wordinfo[ST.nextword].len - trie->prefixlen) >= ST.firstchars) ? (void)0 : __assert2("re_exec.c", 6234, __func__ , "(trie->wordinfo[ST.nextword].len - trie->prefixlen) >= ST.firstchars" )); |
6235 | chars = (trie->wordinfo[ST.nextword].len - trie->prefixlen) |
6236 | - ST.firstchars; |
6237 | uc = ST.firstpos; |
6238 | |
6239 | if (ST.longfold) { |
6240 | /* the hard option - fold each char in turn and find |
6241 | * its folded length (which may be different */ |
6242 | 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]; |
6243 | STRLEN foldlen; |
6244 | STRLEN len; |
6245 | UV uvc; |
6246 | U8 *uscan; |
6247 | |
6248 | while (chars) { |
6249 | if (utf8_target) { |
6250 | /* XXX This assumes the length is well-formed, as |
6251 | * does the UTF8SKIP below */ |
6252 | uvc = utf8n_to_uvchr((U8*)uc, UTF8_MAXLEN, &len,Perl_utf8n_to_uvchr_msgs((U8*)uc, 13, &len, uniflags, 0, 0 ) |
6253 | uniflags)Perl_utf8n_to_uvchr_msgs((U8*)uc, 13, &len, uniflags, 0, 0 ); |
6254 | uc += len; |
6255 | } |
6256 | else { |
6257 | uvc = *uc; |
6258 | uc++; |
6259 | } |
6260 | uvc = to_uni_fold(uvc, foldbuf, &foldlen)Perl__to_uni_fold_flags( uvc,foldbuf,&foldlen,0x2); |
6261 | uscan = foldbuf; |
6262 | while (foldlen) { |
6263 | if (!--chars) |
6264 | break; |
6265 | uvc = utf8n_to_uvchr(uscan, foldlen, &len,Perl_utf8n_to_uvchr_msgs(uscan, foldlen, &len, uniflags, 0 , 0) |
6266 | uniflags)Perl_utf8n_to_uvchr_msgs(uscan, foldlen, &len, uniflags, 0 , 0); |
6267 | uscan += len; |
6268 | foldlen -= len; |
6269 | } |
6270 | } |
6271 | } |
6272 | else { |
6273 | if (utf8_target) |
6274 | while (chars--) |
6275 | uc += UTF8SKIP(uc)PL_utf8skip[*(const U8*)(uc)]; |
6276 | else |
6277 | uc += chars; |
6278 | } |
6279 | } |
6280 | |
6281 | scan = ST.me + ((ST.jump && ST.jump[ST.nextword]) |
6282 | ? ST.jump[ST.nextword] |
6283 | : NEXT_OFF(ST.me)((ST.me)->next_off)); |
6284 | |
6285 | DEBUG_EXECUTE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { Perl_re_exec_indentf ( "%sTRIE matched word #%d, continuing%s\n", depth, PL_colors [4], ST.nextword, PL_colors[5] ); };} while (0) |
6286 | Perl_re_exec_indentf( aTHX_ "%sTRIE matched word #%d, continuing%s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { Perl_re_exec_indentf ( "%sTRIE matched word #%d, continuing%s\n", depth, PL_colors [4], ST.nextword, PL_colors[5] ); };} while (0) |
6287 | depth,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { Perl_re_exec_indentf ( "%sTRIE matched word #%d, continuing%s\n", depth, PL_colors [4], ST.nextword, PL_colors[5] ); };} while (0) |
6288 | PL_colors[4],do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { Perl_re_exec_indentf ( "%sTRIE matched word #%d, continuing%s\n", depth, PL_colors [4], ST.nextword, PL_colors[5] ); };} while (0) |
6289 | ST.nextword,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { Perl_re_exec_indentf ( "%sTRIE matched word #%d, continuing%s\n", depth, PL_colors [4], ST.nextword, PL_colors[5] ); };} while (0) |
6290 | PL_colors[5]do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { Perl_re_exec_indentf ( "%sTRIE matched word #%d, continuing%s\n", depth, PL_colors [4], ST.nextword, PL_colors[5] ); };} while (0) |
6291 | );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { Perl_re_exec_indentf ( "%sTRIE matched word #%d, continuing%s\n", depth, PL_colors [4], ST.nextword, PL_colors[5] ); };} while (0) |
6292 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { Perl_re_exec_indentf ( "%sTRIE matched word #%d, continuing%s\n", depth, PL_colors [4], ST.nextword, PL_colors[5] ); };} while (0); |
6293 | |
6294 | if ( ST.accepted > 1 || has_cutgroup || ST.jump ) { |
6295 | PUSH_STATE_GOTO(TRIE_next, scan, (char*)uc, loceol,pushinput = (char*)uc; pusheol = loceol; pushsr0 = script_run_begin ; scan = scan; st->resume_state = (109 + 1); goto push_state ; |
6296 | script_run_begin)pushinput = (char*)uc; pusheol = loceol; pushsr0 = script_run_begin ; scan = scan; st->resume_state = (109 + 1); goto push_state ;; |
6297 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 6297 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
6298 | } |
6299 | /* only one choice left - just continue */ |
6300 | DEBUG_EXECUTE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { AV *const trie_words = ((AV *)({ void *_p = (rexi->data-> data[((((struct regnode_1 *)ST.me)->arg1))+2]); _p; })); SV ** const tmp = trie_words ? Perl_av_fetch( trie_words,ST.nextword - 1,0) : ((void*)0); SV *sv= tmp ? Perl_sv_newmortal() : ((void *)0); Perl_re_exec_indentf( "%sTRIE: only one match left, short-circuiting: #%d <%s>%s\n" , depth, PL_colors[4], ST.nextword, 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_exec.c", 6310, __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_exec.c", 6310, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 6310, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),0,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0)|0x000400) : "not compiled under -Dr" , PL_colors[5] ); };} while (0) |
6301 | AV *const trie_wordsdo {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { AV *const trie_words = ((AV *)({ void *_p = (rexi->data-> data[((((struct regnode_1 *)ST.me)->arg1))+2]); _p; })); SV ** const tmp = trie_words ? Perl_av_fetch( trie_words,ST.nextword - 1,0) : ((void*)0); SV *sv= tmp ? Perl_sv_newmortal() : ((void *)0); Perl_re_exec_indentf( "%sTRIE: only one match left, short-circuiting: #%d <%s>%s\n" , depth, PL_colors[4], ST.nextword, 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_exec.c", 6310, __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_exec.c", 6310, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 6310, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),0,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0)|0x000400) : "not compiled under -Dr" , PL_colors[5] ); };} while (0) |
6302 | = MUTABLE_AV(rexi->data->data[ARG(ST.me)+TRIE_WORDS_OFFSET]);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { AV *const trie_words = ((AV *)({ void *_p = (rexi->data-> data[((((struct regnode_1 *)ST.me)->arg1))+2]); _p; })); SV ** const tmp = trie_words ? Perl_av_fetch( trie_words,ST.nextword - 1,0) : ((void*)0); SV *sv= tmp ? Perl_sv_newmortal() : ((void *)0); Perl_re_exec_indentf( "%sTRIE: only one match left, short-circuiting: #%d <%s>%s\n" , depth, PL_colors[4], ST.nextword, 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_exec.c", 6310, __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_exec.c", 6310, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 6310, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),0,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0)|0x000400) : "not compiled under -Dr" , PL_colors[5] ); };} while (0) |
6303 | SV ** const tmp = trie_wordsdo {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { AV *const trie_words = ((AV *)({ void *_p = (rexi->data-> data[((((struct regnode_1 *)ST.me)->arg1))+2]); _p; })); SV ** const tmp = trie_words ? Perl_av_fetch( trie_words,ST.nextword - 1,0) : ((void*)0); SV *sv= tmp ? Perl_sv_newmortal() : ((void *)0); Perl_re_exec_indentf( "%sTRIE: only one match left, short-circuiting: #%d <%s>%s\n" , depth, PL_colors[4], ST.nextword, 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_exec.c", 6310, __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_exec.c", 6310, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 6310, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),0,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0)|0x000400) : "not compiled under -Dr" , PL_colors[5] ); };} while (0) |
6304 | ? av_fetch(trie_words, ST.nextword - 1, 0) : NULL;do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { AV *const trie_words = ((AV *)({ void *_p = (rexi->data-> data[((((struct regnode_1 *)ST.me)->arg1))+2]); _p; })); SV ** const tmp = trie_words ? Perl_av_fetch( trie_words,ST.nextword - 1,0) : ((void*)0); SV *sv= tmp ? Perl_sv_newmortal() : ((void *)0); Perl_re_exec_indentf( "%sTRIE: only one match left, short-circuiting: #%d <%s>%s\n" , depth, PL_colors[4], ST.nextword, 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_exec.c", 6310, __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_exec.c", 6310, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 6310, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),0,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0)|0x000400) : "not compiled under -Dr" , PL_colors[5] ); };} while (0) |
6305 | SV *sv= tmp ? sv_newmortal() : NULL;do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { AV *const trie_words = ((AV *)({ void *_p = (rexi->data-> data[((((struct regnode_1 *)ST.me)->arg1))+2]); _p; })); SV ** const tmp = trie_words ? Perl_av_fetch( trie_words,ST.nextword - 1,0) : ((void*)0); SV *sv= tmp ? Perl_sv_newmortal() : ((void *)0); Perl_re_exec_indentf( "%sTRIE: only one match left, short-circuiting: #%d <%s>%s\n" , depth, PL_colors[4], ST.nextword, 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_exec.c", 6310, __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_exec.c", 6310, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 6310, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),0,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0)|0x000400) : "not compiled under -Dr" , PL_colors[5] ); };} while (0) |
6306 | |
6307 | Perl_re_exec_indentf( aTHX_ "%sTRIE: only one match left, short-circuiting: #%d <%s>%s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { AV *const trie_words = ((AV *)({ void *_p = (rexi->data-> data[((((struct regnode_1 *)ST.me)->arg1))+2]); _p; })); SV ** const tmp = trie_words ? Perl_av_fetch( trie_words,ST.nextword - 1,0) : ((void*)0); SV *sv= tmp ? Perl_sv_newmortal() : ((void *)0); Perl_re_exec_indentf( "%sTRIE: only one match left, short-circuiting: #%d <%s>%s\n" , depth, PL_colors[4], ST.nextword, 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_exec.c", 6310, __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_exec.c", 6310, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 6310, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),0,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0)|0x000400) : "not compiled under -Dr" , PL_colors[5] ); };} while (0) |
6308 | depth, PL_colors[4],do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { AV *const trie_words = ((AV *)({ void *_p = (rexi->data-> data[((((struct regnode_1 *)ST.me)->arg1))+2]); _p; })); SV ** const tmp = trie_words ? Perl_av_fetch( trie_words,ST.nextword - 1,0) : ((void*)0); SV *sv= tmp ? Perl_sv_newmortal() : ((void *)0); Perl_re_exec_indentf( "%sTRIE: only one match left, short-circuiting: #%d <%s>%s\n" , depth, PL_colors[4], ST.nextword, 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_exec.c", 6310, __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_exec.c", 6310, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 6310, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),0,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0)|0x000400) : "not compiled under -Dr" , PL_colors[5] ); };} while (0) |
6309 | ST.nextword,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { AV *const trie_words = ((AV *)({ void *_p = (rexi->data-> data[((((struct regnode_1 *)ST.me)->arg1))+2]); _p; })); SV ** const tmp = trie_words ? Perl_av_fetch( trie_words,ST.nextword - 1,0) : ((void*)0); SV *sv= tmp ? Perl_sv_newmortal() : ((void *)0); Perl_re_exec_indentf( "%sTRIE: only one match left, short-circuiting: #%d <%s>%s\n" , depth, PL_colors[4], ST.nextword, 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_exec.c", 6310, __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_exec.c", 6310, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 6310, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),0,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0)|0x000400) : "not compiled under -Dr" , PL_colors[5] ); };} while (0) |
6310 | tmp ? pv_pretty(sv, SvPV_nolen_const(*tmp), SvCUR(*tmp), 0,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { AV *const trie_words = ((AV *)({ void *_p = (rexi->data-> data[((((struct regnode_1 *)ST.me)->arg1))+2]); _p; })); SV ** const tmp = trie_words ? Perl_av_fetch( trie_words,ST.nextword - 1,0) : ((void*)0); SV *sv= tmp ? Perl_sv_newmortal() : ((void *)0); Perl_re_exec_indentf( "%sTRIE: only one match left, short-circuiting: #%d <%s>%s\n" , depth, PL_colors[4], ST.nextword, 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_exec.c", 6310, __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_exec.c", 6310, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 6310, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),0,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0)|0x000400) : "not compiled under -Dr" , PL_colors[5] ); };} while (0) |
6311 | PL_colors[0], PL_colors[1],do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { AV *const trie_words = ((AV *)({ void *_p = (rexi->data-> data[((((struct regnode_1 *)ST.me)->arg1))+2]); _p; })); SV ** const tmp = trie_words ? Perl_av_fetch( trie_words,ST.nextword - 1,0) : ((void*)0); SV *sv= tmp ? Perl_sv_newmortal() : ((void *)0); Perl_re_exec_indentf( "%sTRIE: only one match left, short-circuiting: #%d <%s>%s\n" , depth, PL_colors[4], ST.nextword, 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_exec.c", 6310, __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_exec.c", 6310, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 6310, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),0,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0)|0x000400) : "not compiled under -Dr" , PL_colors[5] ); };} while (0) |
6312 | (SvUTF8(*tmp) ? PERL_PV_ESCAPE_UNI : 0)|PERL_PV_ESCAPE_NONASCIIdo {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { AV *const trie_words = ((AV *)({ void *_p = (rexi->data-> data[((((struct regnode_1 *)ST.me)->arg1))+2]); _p; })); SV ** const tmp = trie_words ? Perl_av_fetch( trie_words,ST.nextword - 1,0) : ((void*)0); SV *sv= tmp ? Perl_sv_newmortal() : ((void *)0); Perl_re_exec_indentf( "%sTRIE: only one match left, short-circuiting: #%d <%s>%s\n" , depth, PL_colors[4], ST.nextword, 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_exec.c", 6310, __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_exec.c", 6310, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 6310, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),0,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0)|0x000400) : "not compiled under -Dr" , PL_colors[5] ); };} while (0) |
6313 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { AV *const trie_words = ((AV *)({ void *_p = (rexi->data-> data[((((struct regnode_1 *)ST.me)->arg1))+2]); _p; })); SV ** const tmp = trie_words ? Perl_av_fetch( trie_words,ST.nextword - 1,0) : ((void*)0); SV *sv= tmp ? Perl_sv_newmortal() : ((void *)0); Perl_re_exec_indentf( "%sTRIE: only one match left, short-circuiting: #%d <%s>%s\n" , depth, PL_colors[4], ST.nextword, 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_exec.c", 6310, __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_exec.c", 6310, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 6310, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),0,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0)|0x000400) : "not compiled under -Dr" , PL_colors[5] ); };} while (0) |
6314 | : "not compiled under -Dr",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { AV *const trie_words = ((AV *)({ void *_p = (rexi->data-> data[((((struct regnode_1 *)ST.me)->arg1))+2]); _p; })); SV ** const tmp = trie_words ? Perl_av_fetch( trie_words,ST.nextword - 1,0) : ((void*)0); SV *sv= tmp ? Perl_sv_newmortal() : ((void *)0); Perl_re_exec_indentf( "%sTRIE: only one match left, short-circuiting: #%d <%s>%s\n" , depth, PL_colors[4], ST.nextword, 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_exec.c", 6310, __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_exec.c", 6310, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 6310, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),0,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0)|0x000400) : "not compiled under -Dr" , PL_colors[5] ); };} while (0) |
6315 | PL_colors[5] );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { AV *const trie_words = ((AV *)({ void *_p = (rexi->data-> data[((((struct regnode_1 *)ST.me)->arg1))+2]); _p; })); SV ** const tmp = trie_words ? Perl_av_fetch( trie_words,ST.nextword - 1,0) : ((void*)0); SV *sv= tmp ? Perl_sv_newmortal() : ((void *)0); Perl_re_exec_indentf( "%sTRIE: only one match left, short-circuiting: #%d <%s>%s\n" , depth, PL_colors[4], ST.nextword, 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_exec.c", 6310, __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_exec.c", 6310, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 6310, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),0,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0)|0x000400) : "not compiled under -Dr" , PL_colors[5] ); };} while (0) |
6316 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { AV *const trie_words = ((AV *)({ void *_p = (rexi->data-> data[((((struct regnode_1 *)ST.me)->arg1))+2]); _p; })); SV ** const tmp = trie_words ? Perl_av_fetch( trie_words,ST.nextword - 1,0) : ((void*)0); SV *sv= tmp ? Perl_sv_newmortal() : ((void *)0); Perl_re_exec_indentf( "%sTRIE: only one match left, short-circuiting: #%d <%s>%s\n" , depth, PL_colors[4], ST.nextword, 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_exec.c", 6310, __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_exec.c", 6310, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 6310, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })),0,PL_colors[0],PL_colors[1],(((*tmp)-> sv_flags & 0x20000000) ? 0x000100 : 0)|0x000400) : "not compiled under -Dr" , PL_colors[5] ); };} while (0); |
6317 | |
6318 | locinput = (char*)uc; |
6319 | continue; /* execute rest of RE */ |
6320 | /* NOTREACHED */ |
6321 | } |
6322 | #undef ST |
6323 | |
6324 | case LEXACT_REQ851: |
6325 | if (! utf8_target) { |
6326 | sayNOgoto no; |
6327 | } |
6328 | /* FALLTHROUGH */ |
6329 | |
6330 | case LEXACT41: |
6331 | { |
6332 | char *s; |
6333 | |
6334 | s = STRINGl(scan)(((((scan)->type) == 41 || ((scan)->type) == 51) ? (void )0 : __assert2("re_exec.c", 6334, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->string)); |
6335 | ln = STR_LENl(scan)(((((scan)->type) == 41 || ((scan)->type) == 51) ? (void )0 : __assert2("re_exec.c", 6335, __func__, "((scan)->type) == 41 || ((scan)->type) == 51" )), (((struct regnode_lstring *)scan)->str_len)); |
6336 | goto join_short_long_exact; |
6337 | |
6338 | case EXACTL42: /* /abc/l */ |
6339 | _CHECK_AND_WARN_PROBLEMATIC_LOCALEdo { if (__builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool )0),(0))) { Perl__warn_problematic_locale(); } } while (0); |
6340 | |
6341 | /* Complete checking would involve going through every character |
6342 | * matched by the string to see if any is above latin1. But the |
6343 | * comparision otherwise might very well be a fast assembly |
6344 | * language routine, and I (khw) don't think slowing things down |
6345 | * just to check for this warning is worth it. So this just checks |
6346 | * the first character */ |
6347 | if (utf8_target && UTF8_IS_ABOVE_LATIN1(*locinput)(((( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6347, __func__, "( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))" )), ((((( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6347, __func__ , "( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))" )), ((U8) ((*locinput) | 0))) >= ((0x100 >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { |
6348 | _CHECK_AND_OUTPUT_WIDE_LOCALE_UTF8_MSG(locinput, reginfo->strend)do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) (locinput)),(const U8 *) (U8 *) (reginfo->strend),(( void*)0)); Perl_warner( (63 ), "Wide character (U+%" "lX" ") in %s" , (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type])); } } while (0); |
6349 | } |
6350 | goto do_exact; |
6351 | case EXACT_REQ850: |
6352 | if (! utf8_target) { |
6353 | sayNOgoto no; |
6354 | } |
6355 | /* FALLTHROUGH */ |
6356 | |
6357 | case EXACT40: /* /abc/ */ |
6358 | do_exact: |
6359 | s = STRINGs(scan)(((((scan)->type) != 41 && ((scan)->type) != 51 ) ? (void)0 : __assert2("re_exec.c", 6359, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->string); |
6360 | ln = STR_LENs(scan)(((((scan)->type) != 41 && ((scan)->type) != 51 ) ? (void)0 : __assert2("re_exec.c", 6360, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->str_len); |
6361 | |
6362 | join_short_long_exact: |
6363 | if (utf8_target != is_utf8_pat) { |
6364 | /* The target and the pattern have differing utf8ness. */ |
6365 | char *l = locinput; |
6366 | const char * const e = s + ln; |
6367 | |
6368 | if (utf8_target) { |
6369 | /* The target is utf8, the pattern is not utf8. |
6370 | * Above-Latin1 code points can't match the pattern; |
6371 | * invariants match exactly, and the other Latin1 ones need |
6372 | * to be downgraded to a single byte in order to do the |
6373 | * comparison. (If we could be confident that the target |
6374 | * is not malformed, this could be refactored to have fewer |
6375 | * tests by just assuming that if the first bytes match, it |
6376 | * is an invariant, but there are tests in the test suite |
6377 | * dealing with (??{...}) which violate this) */ |
6378 | while (s < e) { |
6379 | if ( l >= loceol |
6380 | || UTF8_IS_ABOVE_LATIN1(* (U8*) l)(((( (sizeof(* (U8*) l) == 1) || !(((U64)((* (U8*) l) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6380, __func__, "( (sizeof(* (U8*) l) == 1) || !(((U64)((* (U8*) l) | 0)) & ~0xFF))" )), ((((( (sizeof(* (U8*) l) == 1) || !(((U64)((* (U8*) l) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6380, __func__ , "( (sizeof(* (U8*) l) == 1) || !(((U64)((* (U8*) l) | 0)) & ~0xFF))" )), ((U8) ((* (U8*) l) | 0))) >= ((0x100 >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) |
6381 | { |
6382 | sayNOgoto no; |
6383 | } |
6384 | if (UTF8_IS_INVARIANT(*(U8*)l)((((U64)(((UV) (((*(U8*)l) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) { |
6385 | if (*l != *s) { |
6386 | sayNOgoto no; |
6387 | } |
6388 | l++; |
6389 | } |
6390 | else { |
6391 | if (EIGHT_BIT_UTF8_TO_NATIVE(*l, *(l+1))( (((((( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 6391, __func__, "( (sizeof(*l) == 1) || !(((U64)((*l) | 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_exec.c", 6391 , __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(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6391, __func__, "( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))" )), ((U8) ((*l) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) ( 0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 6391, __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_exec.c" , 6391, __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(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6391 , __func__, "( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))" )), ((U8) ((*l) | 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(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6391, __func__, "( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))" )), ((U8) ((*l) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) ( 0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 6391, __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_exec.c" , 6391, __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(*l) == 1) || !(((U64)((*l ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6391 , __func__, "( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))" )), ((U8) ((*l) | 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(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6391, __func__ , "( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))") ), ((U8) ((*l) | 0)))) == sizeof(U64)) ? (void)0 : __assert2( "re_exec.c", 6391, __func__, "sizeof((((( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6391, __func__, \"( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))\")), ((U8) ((*l) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6391, __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_exec.c" , 6391, __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(*l) == 1) || !(((U64)((*l ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6391 , __func__, "( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))" )), ((U8) ((*l) | 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_exec.c", 6391, __func__, "(((( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6391, __func__, \"( (sizeof(*l) == 1) || !(((U64)((*l) | 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_exec.c\", 6391, __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(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6391, __func__, \"( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))\")), ((U8) ((*l) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6391, __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_exec.c\", 6391, __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(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6391, __func__, \"( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))\")), ((U8) ((*l) | 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(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6391, __func__, \"( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))\")), ((U8) ((*l) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6391, __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_exec.c\", 6391, __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(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6391, __func__, \"( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))\")), ((U8) ((*l) | 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(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6391, __func__, \"( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))\")), ((U8) ((*l) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6391, __func__, \"sizeof((((( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6391, __func__, \\\"( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))\\\")), ((U8) ((*l) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6391, __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_exec.c\", 6391, __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(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6391, __func__, \"( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))\")), ((U8) ((*l) | 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(*(l+1)) == 1) || !(((U64)((*(l+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6391, __func__, "( (sizeof(*(l+1)) == 1) || !(((U64)((*(l+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(l+1)) == 1) || !(((U64)((*(l+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6391, __func__, "( (sizeof(*(l+1)) == 1) || !(((U64)((*(l+1)) | 0)) & ~0xFF))" )), ((U8) ((*(l+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 6391, __func__, "(((( (sizeof(*(l+1)) == 1) || !(((U64)((*(l+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6391, __func__, \"( (sizeof(*(l+1)) == 1) || !(((U64)((*(l+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(l+1)) == 1) || !(((U64)((*(l+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6391, __func__, \"( (sizeof(*(l+1)) == 1) || !(((U64)((*(l+1)) | 0)) & ~0xFF))\")), ((U8) ((*(l+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(l+1))) == 1) || !(((U64)(((* (l+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6391, __func__, "( (sizeof((*(l+1))) == 1) || !(((U64)(((*(l+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~ 0xFF))) ? (void)0 : __assert2("re_exec.c", 6391, __func__, "( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))" )), ((U8) ((*l) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(l+1))) == 1) || ! (((U64)(((*(l+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6391, __func__, "( (sizeof((*(l+1))) == 1) || !(((U64)(((*(l+1))) | 0)) & ~0xFF))" )), ((U8) (((*(l+1))) | 0)))) & ((U8) ((1U << 6) - 1 ))))) == 1) || !(((U64)(((((( (sizeof((*(l+1))) == 1) || !((( U64)(((*(l+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6391, __func__, "( (sizeof((*(l+1))) == 1) || !(((U64)(((*(l+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~ 0xFF))) ? (void)0 : __assert2("re_exec.c", 6391, __func__, "( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))" )), ((U8) ((*l) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(l+1))) == 1) || ! (((U64)(((*(l+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6391, __func__, "( (sizeof((*(l+1))) == 1) || !(((U64)(((*(l+1))) | 0)) & ~0xFF))" )), ((U8) (((*(l+1))) | 0)))) & ((U8) ((1U << 6) - 1 ))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6391, __func__, "( (sizeof((((( (sizeof((*(l+1))) == 1) || !(((U64)(((*(l+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6391, __func__, \"( (sizeof((*(l+1))) == 1) || !(((U64)(((*(l+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6391, __func__, \"( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))\")), ((U8) ((*l) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(l+1))) == 1) || !(((U64)(((*(l+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6391, __func__, \"( (sizeof((*(l+1))) == 1) || !(((U64)(((*(l+1))) | 0)) & ~0xFF))\")), ((U8) (((*(l+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(l+1))) == 1) || !(((U64)(((*(l+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6391, __func__, \"( (sizeof((*(l+1))) == 1) || !(((U64)(((*(l+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6391, __func__, \"( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))\")), ((U8) ((*l) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(l+1))) == 1) || !(((U64)(((*(l+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6391, __func__, \"( (sizeof((*(l+1))) == 1) || !(((U64)(((*(l+1))) | 0)) & ~0xFF))\")), ((U8) (((*(l+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(l+1))) == 1) || !(((U64)(((*(l+1) )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6391 , __func__, "( (sizeof((*(l+1))) == 1) || !(((U64)(((*(l+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~ 0xFF))) ? (void)0 : __assert2("re_exec.c", 6391, __func__, "( (sizeof(*l) == 1) || !(((U64)((*l) | 0)) & ~0xFF))" )), ((U8) ((*l) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(l+1))) == 1) || ! (((U64)(((*(l+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6391, __func__, "( (sizeof((*(l+1))) == 1) || !(((U64)(((*(l+1))) | 0)) & ~0xFF))" )), ((U8) (((*(l+1))) | 0)))) & ((U8) ((1U << 6) - 1 ))))) | 0)))) != * (U8*) s) |
6392 | { |
6393 | sayNOgoto no; |
6394 | } |
6395 | l += 2; |
6396 | } |
6397 | s++; |
6398 | } |
6399 | } |
6400 | else { |
6401 | /* The target is not utf8, the pattern is utf8. */ |
6402 | while (s < e) { |
6403 | if ( l >= loceol |
6404 | || UTF8_IS_ABOVE_LATIN1(* (U8*) s)(((( (sizeof(* (U8*) s) == 1) || !(((U64)((* (U8*) s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6404, __func__, "( (sizeof(* (U8*) s) == 1) || !(((U64)((* (U8*) s) | 0)) & ~0xFF))" )), ((((( (sizeof(* (U8*) s) == 1) || !(((U64)((* (U8*) s) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6404, __func__ , "( (sizeof(* (U8*) s) == 1) || !(((U64)((* (U8*) s) | 0)) & ~0xFF))" )), ((U8) ((* (U8*) s) | 0))) >= ((0x100 >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) |
6405 | { |
6406 | sayNOgoto no; |
6407 | } |
6408 | if (UTF8_IS_INVARIANT(*(U8*)s)((((U64)(((UV) (((*(U8*)s) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) { |
6409 | if (*s != *l) { |
6410 | sayNOgoto no; |
6411 | } |
6412 | s++; |
6413 | } |
6414 | else { |
6415 | if (EIGHT_BIT_UTF8_TO_NATIVE(*s, *(s+1))( (((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 6415, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 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_exec.c", 6415 , __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(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6415, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) ( 0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 6415, __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_exec.c" , 6415, __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(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6415 , __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 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(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6415, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) ( 0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 6415, __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_exec.c" , 6415, __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(*s) == 1) || !(((U64)((*s ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6415 , __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 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(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6415, __func__ , "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))") ), ((U8) ((*s) | 0)))) == sizeof(U64)) ? (void)0 : __assert2( "re_exec.c", 6415, __func__, "sizeof((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6415, __func__, \"( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))\")), ((U8) ((*s) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6415, __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_exec.c" , 6415, __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(*s) == 1) || !(((U64)((*s ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6415 , __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 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_exec.c", 6415, __func__, "(((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6415, __func__, \"( (sizeof(*s) == 1) || !(((U64)((*s) | 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_exec.c\", 6415, __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(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6415, __func__, \"( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))\")), ((U8) ((*s) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6415, __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_exec.c\", 6415, __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(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6415, __func__, \"( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))\")), ((U8) ((*s) | 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(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6415, __func__, \"( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))\")), ((U8) ((*s) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6415, __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_exec.c\", 6415, __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(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6415, __func__, \"( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))\")), ((U8) ((*s) | 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(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6415, __func__, \"( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))\")), ((U8) ((*s) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6415, __func__, \"sizeof((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6415, __func__, \\\"( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))\\\")), ((U8) ((*s) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6415, __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_exec.c\", 6415, __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(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6415, __func__, \"( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))\")), ((U8) ((*s) | 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(*(s+1)) == 1) || !(((U64)((*(s+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6415, __func__, "( (sizeof(*(s+1)) == 1) || !(((U64)((*(s+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(s+1)) == 1) || !(((U64)((*(s+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6415, __func__, "( (sizeof(*(s+1)) == 1) || !(((U64)((*(s+1)) | 0)) & ~0xFF))" )), ((U8) ((*(s+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 6415, __func__, "(((( (sizeof(*(s+1)) == 1) || !(((U64)((*(s+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6415, __func__, \"( (sizeof(*(s+1)) == 1) || !(((U64)((*(s+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(s+1)) == 1) || !(((U64)((*(s+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6415, __func__, \"( (sizeof(*(s+1)) == 1) || !(((U64)((*(s+1)) | 0)) & ~0xFF))\")), ((U8) ((*(s+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(s+1))) == 1) || !(((U64)(((* (s+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6415, __func__, "( (sizeof((*(s+1))) == 1) || !(((U64)(((*(s+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~ 0xFF))) ? (void)0 : __assert2("re_exec.c", 6415, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(s+1))) == 1) || ! (((U64)(((*(s+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6415, __func__, "( (sizeof((*(s+1))) == 1) || !(((U64)(((*(s+1))) | 0)) & ~0xFF))" )), ((U8) (((*(s+1))) | 0)))) & ((U8) ((1U << 6) - 1 ))))) == 1) || !(((U64)(((((( (sizeof((*(s+1))) == 1) || !((( U64)(((*(s+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6415, __func__, "( (sizeof((*(s+1))) == 1) || !(((U64)(((*(s+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~ 0xFF))) ? (void)0 : __assert2("re_exec.c", 6415, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(s+1))) == 1) || ! (((U64)(((*(s+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6415, __func__, "( (sizeof((*(s+1))) == 1) || !(((U64)(((*(s+1))) | 0)) & ~0xFF))" )), ((U8) (((*(s+1))) | 0)))) & ((U8) ((1U << 6) - 1 ))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6415, __func__, "( (sizeof((((( (sizeof((*(s+1))) == 1) || !(((U64)(((*(s+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6415, __func__, \"( (sizeof((*(s+1))) == 1) || !(((U64)(((*(s+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6415, __func__, \"( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))\")), ((U8) ((*s) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(s+1))) == 1) || !(((U64)(((*(s+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6415, __func__, \"( (sizeof((*(s+1))) == 1) || !(((U64)(((*(s+1))) | 0)) & ~0xFF))\")), ((U8) (((*(s+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(s+1))) == 1) || !(((U64)(((*(s+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6415, __func__, \"( (sizeof((*(s+1))) == 1) || !(((U64)(((*(s+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6415, __func__, \"( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))\")), ((U8) ((*s) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(s+1))) == 1) || !(((U64)(((*(s+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6415, __func__, \"( (sizeof((*(s+1))) == 1) || !(((U64)(((*(s+1))) | 0)) & ~0xFF))\")), ((U8) (((*(s+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(s+1))) == 1) || !(((U64)(((*(s+1) )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6415 , __func__, "( (sizeof((*(s+1))) == 1) || !(((U64)(((*(s+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~ 0xFF))) ? (void)0 : __assert2("re_exec.c", 6415, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(s+1))) == 1) || ! (((U64)(((*(s+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6415, __func__, "( (sizeof((*(s+1))) == 1) || !(((U64)(((*(s+1))) | 0)) & ~0xFF))" )), ((U8) (((*(s+1))) | 0)))) & ((U8) ((1U << 6) - 1 ))))) | 0)))) != * (U8*) l) |
6416 | { |
6417 | sayNOgoto no; |
6418 | } |
6419 | s += 2; |
6420 | } |
6421 | l++; |
6422 | } |
6423 | } |
6424 | locinput = l; |
6425 | } |
6426 | else { |
6427 | /* The target and the pattern have the same utf8ness. */ |
6428 | /* Inline the first character, for speed. */ |
6429 | if ( loceol - locinput < ln |
6430 | || UCHARAT(s)((int)*(const U8*)(s)) != nextchr |
6431 | || (ln > 1 && memNE(s, locinput, ln)(! (memcmp(((const void *) (s)), ((const void *) (locinput)), ln) == 0)))) |
6432 | { |
6433 | sayNOgoto no; |
6434 | } |
6435 | locinput += ln; |
6436 | } |
6437 | break; |
6438 | } |
6439 | |
6440 | case EXACTFL44: /* /abc/il */ |
6441 | { |
6442 | re_fold_t folder; |
6443 | const U8 * fold_array; |
6444 | const char * s; |
6445 | U32 fold_utf8_flags; |
6446 | |
6447 | _CHECK_AND_WARN_PROBLEMATIC_LOCALEdo { if (__builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool )0),(0))) { Perl__warn_problematic_locale(); } } while (0); |
6448 | folder = foldEQ_localePerl_foldEQ_locale; |
6449 | fold_array = PL_fold_locale; |
6450 | fold_utf8_flags = FOLDEQ_LOCALE(1 << 1); |
6451 | goto do_exactf; |
6452 | |
6453 | case EXACTFLU848: /* /abc/il; but all 'abc' are above 255, so |
6454 | is effectively /u; hence to match, target |
6455 | must be UTF-8. */ |
6456 | if (! utf8_target) { |
6457 | sayNOgoto no; |
6458 | } |
6459 | fold_utf8_flags = FOLDEQ_LOCALE(1 << 1) | FOLDEQ_S2_ALREADY_FOLDED(1 << 3) |
6460 | | FOLDEQ_S2_FOLDS_SANE(1 << 5); |
6461 | folder = foldEQ_latin1_s2_foldedS_foldEQ_latin1_s2_folded; |
6462 | fold_array = PL_fold_latin1; |
6463 | goto do_exactf; |
6464 | |
6465 | case EXACTFU_REQ852: /* /abc/iu with something in /abc/ > 255 */ |
6466 | if (! utf8_target) { |
6467 | sayNOgoto no; |
6468 | } |
6469 | assert(is_utf8_pat)((is_utf8_pat) ? (void)0 : __assert2("re_exec.c", 6469, __func__ , "is_utf8_pat")); |
6470 | fold_utf8_flags = FOLDEQ_S2_ALREADY_FOLDED(1 << 3); |
6471 | goto do_exactf; |
6472 | |
6473 | case EXACTFUP47: /* /foo/iu, and something is problematic in |
6474 | 'foo' so can't take shortcuts. */ |
6475 | assert(! is_utf8_pat)((! is_utf8_pat) ? (void)0 : __assert2("re_exec.c", 6475, __func__ , "! is_utf8_pat")); |
6476 | folder = foldEQ_latin1Perl_foldEQ_latin1; |
6477 | fold_array = PL_fold_latin1; |
6478 | fold_utf8_flags = 0; |
6479 | goto do_exactf; |
6480 | |
6481 | case EXACTFU45: /* /abc/iu */ |
6482 | folder = foldEQ_latin1_s2_foldedS_foldEQ_latin1_s2_folded; |
6483 | fold_array = PL_fold_latin1; |
6484 | fold_utf8_flags = FOLDEQ_S2_ALREADY_FOLDED(1 << 3); |
6485 | goto do_exactf; |
6486 | |
6487 | case EXACTFAA_NO_TRIE49: /* This node only generated for non-utf8 |
6488 | patterns */ |
6489 | assert(! is_utf8_pat)((! is_utf8_pat) ? (void)0 : __assert2("re_exec.c", 6489, __func__ , "! is_utf8_pat")); |
6490 | /* FALLTHROUGH */ |
6491 | case EXACTFAA46: /* /abc/iaa */ |
6492 | folder = foldEQ_latin1_s2_foldedS_foldEQ_latin1_s2_folded; |
6493 | fold_array = PL_fold_latin1; |
6494 | fold_utf8_flags = FOLDEQ_UTF8_NOMIX_ASCII(1 << 0); |
6495 | if (is_utf8_pat || ! utf8_target) { |
6496 | |
6497 | /* The possible presence of a MICRO SIGN in the pattern forbids |
6498 | * us to view a non-UTF-8 pattern as folded when there is a |
6499 | * UTF-8 target */ |
6500 | fold_utf8_flags |= FOLDEQ_S2_ALREADY_FOLDED(1 << 3) |
6501 | |FOLDEQ_S2_FOLDS_SANE(1 << 5); |
6502 | } |
6503 | goto do_exactf; |
6504 | |
6505 | |
6506 | case EXACTF43: /* /abc/i This node only generated for |
6507 | non-utf8 patterns */ |
6508 | assert(! is_utf8_pat)((! is_utf8_pat) ? (void)0 : __assert2("re_exec.c", 6508, __func__ , "! is_utf8_pat")); |
6509 | folder = foldEQPerl_foldEQ; |
6510 | fold_array = PL_fold; |
6511 | fold_utf8_flags = 0; |
6512 | |
6513 | do_exactf: |
6514 | s = STRINGs(scan)(((((scan)->type) != 41 && ((scan)->type) != 51 ) ? (void)0 : __assert2("re_exec.c", 6514, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->string); |
6515 | ln = STR_LENs(scan)(((((scan)->type) != 41 && ((scan)->type) != 51 ) ? (void)0 : __assert2("re_exec.c", 6515, __func__, "((scan)->type) != 41 && ((scan)->type) != 51" )), ((struct regnode_string *)scan)->str_len); |
6516 | |
6517 | if ( utf8_target |
6518 | || is_utf8_pat |
6519 | || state_num == EXACTFUP47 |
6520 | || (state_num == EXACTFL44 && IN_UTF8_CTYPE_LOCALEPL_in_utf8_CTYPE_locale)) |
6521 | { |
6522 | /* Either target or the pattern are utf8, or has the issue where |
6523 | * the fold lengths may differ. */ |
6524 | const char * const l = locinput; |
6525 | char *e = loceol; |
6526 | |
6527 | if (! foldEQ_utf8_flags(l, &e, 0, utf8_target,Perl_foldEQ_utf8_flags( l,&e,0,utf8_target,s,0,ln,is_utf8_pat ,fold_utf8_flags) |
6528 | s, 0, ln, is_utf8_pat,fold_utf8_flags)Perl_foldEQ_utf8_flags( l,&e,0,utf8_target,s,0,ln,is_utf8_pat ,fold_utf8_flags)) |
6529 | { |
6530 | sayNOgoto no; |
6531 | } |
6532 | locinput = e; |
6533 | break; |
6534 | } |
6535 | |
6536 | /* Neither the target nor the pattern are utf8 */ |
6537 | if (UCHARAT(s)((int)*(const U8*)(s)) != nextchr |
6538 | && !NEXTCHR_IS_EOS(nextchr < 0) |
6539 | && UCHARAT(s)((int)*(const U8*)(s)) != fold_array[nextchr]) |
6540 | { |
6541 | sayNOgoto no; |
6542 | } |
6543 | if (loceol - locinput < ln) |
6544 | sayNOgoto no; |
6545 | if (ln > 1 && ! folder(locinput, s, ln)) |
6546 | sayNOgoto no; |
6547 | locinput += ln; |
6548 | break; |
6549 | } |
6550 | |
6551 | case NBOUNDL13: /* /\B/l */ |
6552 | to_complement = 1; |
6553 | /* FALLTHROUGH */ |
6554 | |
6555 | case BOUNDL9: /* /\b/l */ |
6556 | { |
6557 | bool_Bool b1, b2; |
6558 | _CHECK_AND_WARN_PROBLEMATIC_LOCALEdo { if (__builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool )0),(0))) { Perl__warn_problematic_locale(); } } while (0); |
6559 | |
6560 | if (FLAGS(scan)((scan)->flags) != TRADITIONAL_BOUND) { |
6561 | if (! IN_UTF8_CTYPE_LOCALEPL_in_utf8_CTYPE_locale) { |
6562 | Perl_ck_warner(aTHX_ packWARN(WARN_LOCALE)(63 ), |
6563 | B_ON_NON_UTF8_LOCALE_IS_WRONG"Use of \\b{} or \\B{} for non-UTF-8 locale is wrong. Assuming a UTF-8 locale"); |
6564 | } |
6565 | goto boundu; |
6566 | } |
6567 | |
6568 | if (utf8_target) { |
6569 | if (locinput == reginfo->strbeg) |
6570 | b1 = isWORDCHAR_LC('\n')(! ( (sizeof('\n') == 1) || !(((U64)(('\n') | 0)) & ~0xFF )) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) ('\n') ] & (1U << (0))) ? (_Bool)1 : (_Bool)0) : (((isalnum ( (U8) ('\n')) || (char)('\n') == '_')) ? (_Bool)1 : (_Bool)0 )); |
6571 | else { |
6572 | U8 *p = reghop3S_reghop3((U8*)locinput, -1, |
6573 | (U8*)(reginfo->strbeg)); |
6574 | b1 = isWORDCHAR_LC_utf8_safe(p, (U8*)(reginfo->strend))((((((U8*)(reginfo->strend)) > (p))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "(((U8*)(reginfo->strend)) > (p))" )), (((((U64)(((UV) (((*(p)) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? (! ( (sizeof(*(p)) == 1) || !(((U64)((* (p)) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass [(U8) (*(p))] & (1U << (0))) ? (_Bool)1 : (_Bool)0) : (((isalnum( (U8) (*(p))) || (char)(*(p)) == '_')) ? (_Bool )1 : (_Bool)0)) : ((((( (sizeof(*(p)) == 1) || !(((U64)((*(p) ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 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_exec.c", 6574 , __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(*(p)) == 1) || !(((U64)((*(p)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__ , "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6574, __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_exec.c" , 6574, __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(*(p)) == 1) || !(((U64)((* (p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6574, __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_exec.c" , 6574, __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(*(p)) == 1) || !(((U64)(( *(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "sizeof((((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6574, __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_exec.c" , 6574, __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(*(p)) == 1) || !(((U64)(( *(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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*)(reginfo->strend) ) - (p) > 1 && (((( (sizeof(*((p)+1)) == 1) || !(( (U64)((*((p)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6574, __func__, "( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__ , "( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))" )), ((U8) ((*((p)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : (_Bool )0),(1))) ? (! ( (sizeof(( (((((( (sizeof(*(p)) == 1) || !((( U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 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_exec.c", 6574 , __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(*(p)) == 1) || !(((U64)((*(p)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__ , "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6574, __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_exec.c" , 6574, __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(*(p)) == 1) || !(((U64)((* (p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6574, __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_exec.c" , 6574, __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(*(p)) == 1) || !(((U64)(( *(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "sizeof((((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6574, __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_exec.c" , 6574, __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(*(p)) == 1) || !(((U64)(( *(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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_exec.c", 6574, __func__ , "(((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 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_exec.c\", 6574, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6574, __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_exec.c\", 6574, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6574, __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_exec.c\", 6574, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"sizeof((((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6574, __func__, \\\"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\\\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6574, __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_exec.c\", 6574, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 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(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__ , "( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__ , "( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))" )), ((U8) ((*((p)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "(((( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))\")), ((U8) ((*((p)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((p)+1))) == 1) || !(((U64)(( (*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((U8) (((*((p)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((p)+1))) == 1) || ! (((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((U8) (((*((p)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6574, __func__, "( (sizeof((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))\")), ((U8) (((*((p)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))\")), ((U8) (((*((p)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p )+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((U8) (((*((p)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 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_exec.c", 6574 , __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(*(p)) == 1) || !(((U64)((*(p)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__ , "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6574, __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_exec.c" , 6574, __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(*(p)) == 1) || !(((U64)((* (p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6574, __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_exec.c" , 6574, __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(*(p)) == 1) || !(((U64)(( *(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "sizeof((((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6574, __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_exec.c" , 6574, __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(*(p)) == 1) || !(((U64)(( *(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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_exec.c", 6574, __func__ , "(((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 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_exec.c\", 6574, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6574, __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_exec.c\", 6574, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6574, __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_exec.c\", 6574, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"sizeof((((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6574, __func__, \\\"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\\\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6574, __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_exec.c\", 6574, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 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(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__ , "( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__ , "( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))" )), ((U8) ((*((p)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "(((( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))\")), ((U8) ((*((p)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((p)+1))) == 1) || !(((U64)(( (*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((U8) (((*((p)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((p)+1))) == 1) || ! (((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((U8) (((*((p)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6574, __func__, "( (sizeof((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))\")), ((U8) (((*((p)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))\")), ((U8) (((*((p)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p )+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((U8) (((*((p)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) (( (((((( (sizeof(*(p)) == 1) || !(((U64 )((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 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_exec.c", 6574 , __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(*(p)) == 1) || !(((U64)((*(p)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__ , "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6574, __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_exec.c" , 6574, __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(*(p)) == 1) || !(((U64)((* (p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6574, __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_exec.c" , 6574, __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(*(p)) == 1) || !(((U64)(( *(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "sizeof((((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6574, __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_exec.c" , 6574, __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(*(p)) == 1) || !(((U64)(( *(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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_exec.c", 6574, __func__ , "(((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 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_exec.c\", 6574, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6574, __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_exec.c\", 6574, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6574, __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_exec.c\", 6574, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"sizeof((((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6574, __func__, \\\"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\\\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6574, __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_exec.c\", 6574, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 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(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__ , "( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__ , "( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))" )), ((U8) ((*((p)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "(((( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))\")), ((U8) ((*((p)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((p)+1))) == 1) || !(((U64)(( (*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((U8) (((*((p)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((p)+1))) == 1) || ! (((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((U8) (((*((p)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6574, __func__, "( (sizeof((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))\")), ((U8) (((*((p)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))\")), ((U8) (((*((p)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p )+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((U8) (((*((p)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (0))) ? (_Bool)1 : (_Bool )0) : (((isalnum( (U8) (( (((((( (sizeof(*(p)) == 1) || !(((U64 )((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 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_exec.c", 6574 , __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(*(p)) == 1) || !(((U64)((*(p)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__ , "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6574, __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_exec.c" , 6574, __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(*(p)) == 1) || !(((U64)((* (p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6574, __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_exec.c" , 6574, __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(*(p)) == 1) || !(((U64)(( *(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "sizeof((((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6574, __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_exec.c" , 6574, __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(*(p)) == 1) || !(((U64)(( *(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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_exec.c", 6574, __func__ , "(((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 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_exec.c\", 6574, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6574, __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_exec.c\", 6574, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6574, __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_exec.c\", 6574, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"sizeof((((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6574, __func__, \\\"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\\\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6574, __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_exec.c\", 6574, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 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(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__ , "( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__ , "( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))" )), ((U8) ((*((p)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "(((( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))\")), ((U8) ((*((p)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((p)+1))) == 1) || !(((U64)(( (*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((U8) (((*((p)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((p)+1))) == 1) || ! (((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((U8) (((*((p)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6574, __func__, "( (sizeof((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))\")), ((U8) (((*((p)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))\")), ((U8) (((*((p)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p )+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((U8) (((*((p)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))) || (char)(( (((((( (sizeof(*(p)) == 1) || ! (((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 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_exec.c", 6574 , __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(*(p)) == 1) || !(((U64)((*(p)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__ , "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6574, __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_exec.c" , 6574, __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(*(p)) == 1) || !(((U64)((* (p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6574, __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_exec.c" , 6574, __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(*(p)) == 1) || !(((U64)(( *(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "sizeof((((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6574, __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_exec.c" , 6574, __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(*(p)) == 1) || !(((U64)(( *(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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_exec.c", 6574, __func__ , "(((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 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_exec.c\", 6574, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6574, __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_exec.c\", 6574, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6574, __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_exec.c\", 6574, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"sizeof((((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6574, __func__, \\\"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\\\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6574, __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_exec.c\", 6574, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 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(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__ , "( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__ , "( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))" )), ((U8) ((*((p)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "(((( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))\")), ((U8) ((*((p)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((p)+1))) == 1) || !(((U64)(( (*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((U8) (((*((p)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((p)+1))) == 1) || ! (((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((U8) (((*((p)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6574, __func__, "( (sizeof((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))\")), ((U8) (((*((p)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6574, __func__, \"( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))\")), ((U8) (((*((p)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p )+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6574, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6574, __func__, "( (sizeof((*((p)+1))) == 1) || !(((U64)(((*((p)+1))) | 0)) & ~0xFF))" )), ((U8) (((*((p)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == '_')) ? (_Bool)1 : (_Bool)0)) : (Perl__force_out_malformed_utf8_message ( (U8 *) (p),(U8 *) ((U8*)(reginfo->strend)),0,1), 0)) : Perl__is_utf8_FOO ( 0,p,(U8*)(reginfo->strend)))); |
6575 | } |
6576 | b2 = (NEXTCHR_IS_EOS(nextchr < 0)) |
6577 | ? isWORDCHAR_LC('\n')(! ( (sizeof('\n') == 1) || !(((U64)(('\n') | 0)) & ~0xFF )) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) ('\n') ] & (1U << (0))) ? (_Bool)1 : (_Bool)0) : (((isalnum ( (U8) ('\n')) || (char)('\n') == '_')) ? (_Bool)1 : (_Bool)0 )) |
6578 | : isWORDCHAR_LC_utf8_safe((U8*) locinput,((((((U8*) reginfo->strend) > ((U8*) locinput))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "(((U8*) reginfo->strend) > ((U8*) locinput))" )), (((((U64)(((UV) (((*((U8*) locinput)) | 0) | 0)))) < ( ((U8) (0xFF << 6)) & 0xB0)))) ? (! ( (sizeof(*((U8* ) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) ( *((U8*) locinput))] & (1U << (0))) ? (_Bool)1 : (_Bool )0) : (((isalnum( (U8) (*((U8*) locinput))) || (char)(*((U8*) locinput)) == '_')) ? (_Bool)1 : (_Bool)0)) : ((((( (sizeof( *((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0) ) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__ , "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 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_exec.c", 6579 , __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*) locinput)) == 1) || !(((U64 )((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U8)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U32)) ? (((( NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ( ((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1 ) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "sizeof((((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) reginfo->strend ) - ((U8*) locinput) > 1 && (((( (sizeof(*(((U8*) locinput )+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~ 0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)( (*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8*) locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : (_Bool)0),(1))) ? (! ( (sizeof(( (((((( (sizeof(*((U8*) locinput )) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 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_exec.c", 6579 , __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*) locinput)) == 1) || !(((U64 )((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U8)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U32)) ? (((( NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ( ((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1 ) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "sizeof((((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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_exec.c", 6579, __func__ , "(((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"sizeof((((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6579, __func__, \\\"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)+1)) == 1) || !(((U64)(( *(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)( (*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8*) locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "(((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))\")), ((U8) ((*(((U8*) locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579 , __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !( ((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof (*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__ , "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 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_exec.c", 6579 , __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*) locinput)) == 1) || !(((U64 )((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U8)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U32)) ? (((( NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ( ((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1 ) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "sizeof((((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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_exec.c", 6579, __func__ , "(((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"sizeof((((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6579, __func__, \\\"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)+1)) == 1) || !(((U64)(( *(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)( (*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8*) locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "(((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))\")), ((U8) ((*(((U8*) locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579 , __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !( ((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) (( (((((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 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_exec.c", 6579 , __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*) locinput)) == 1) || !(((U64 )((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U8)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U32)) ? (((( NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ( ((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1 ) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "sizeof((((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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_exec.c", 6579, __func__ , "(((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"sizeof((((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6579, __func__, \\\"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)+1)) == 1) || !(((U64)(( *(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)( (*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8*) locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "(((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))\")), ((U8) ((*(((U8*) locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579 , __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !( ((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (0))) ? (_Bool )1 : (_Bool)0) : (((isalnum( (U8) (( (((((( (sizeof(*((U8*) locinput )) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 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_exec.c", 6579 , __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*) locinput)) == 1) || !(((U64 )((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U8)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U32)) ? (((( NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ( ((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1 ) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "sizeof((((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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_exec.c", 6579, __func__ , "(((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"sizeof((((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6579, __func__, \\\"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)+1)) == 1) || !(((U64)(( *(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)( (*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8*) locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "(((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))\")), ((U8) ((*(((U8*) locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579 , __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !( ((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))) || (char)(( (((((( (sizeof(*( (U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 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_exec.c", 6579 , __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*) locinput)) == 1) || !(((U64 )((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U8)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U32)) ? (((( NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ( ((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1 ) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "sizeof((((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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_exec.c", 6579, __func__ , "(((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"sizeof((((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6579, __func__, \\\"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)+1)) == 1) || !(((U64)(( *(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)( (*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8*) locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "(((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))\")), ((U8) ((*(((U8*) locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579 , __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !( ((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == '_')) ? (_Bool)1 : (_Bool)0 )) : (Perl__force_out_malformed_utf8_message( (U8 *) ((U8*) locinput ),(U8 *) ((U8*) reginfo->strend),0,1), 0)) : Perl__is_utf8_FOO ( 0,(U8*) locinput,(U8*) reginfo->strend))) |
6579 | (U8*) reginfo->strend)((((((U8*) reginfo->strend) > ((U8*) locinput))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "(((U8*) reginfo->strend) > ((U8*) locinput))" )), (((((U64)(((UV) (((*((U8*) locinput)) | 0) | 0)))) < ( ((U8) (0xFF << 6)) & 0xB0)))) ? (! ( (sizeof(*((U8* ) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) ( *((U8*) locinput))] & (1U << (0))) ? (_Bool)1 : (_Bool )0) : (((isalnum( (U8) (*((U8*) locinput))) || (char)(*((U8*) locinput)) == '_')) ? (_Bool)1 : (_Bool)0)) : ((((( (sizeof( *((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0) ) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__ , "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 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_exec.c", 6579 , __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*) locinput)) == 1) || !(((U64 )((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U8)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U32)) ? (((( NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ( ((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1 ) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "sizeof((((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) reginfo->strend ) - ((U8*) locinput) > 1 && (((( (sizeof(*(((U8*) locinput )+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~ 0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)( (*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8*) locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : (_Bool)0),(1))) ? (! ( (sizeof(( (((((( (sizeof(*((U8*) locinput )) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 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_exec.c", 6579 , __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*) locinput)) == 1) || !(((U64 )((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U8)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U32)) ? (((( NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ( ((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1 ) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "sizeof((((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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_exec.c", 6579, __func__ , "(((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"sizeof((((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6579, __func__, \\\"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)+1)) == 1) || !(((U64)(( *(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)( (*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8*) locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "(((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))\")), ((U8) ((*(((U8*) locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579 , __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !( ((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof (*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__ , "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 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_exec.c", 6579 , __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*) locinput)) == 1) || !(((U64 )((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U8)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U32)) ? (((( NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ( ((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1 ) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "sizeof((((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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_exec.c", 6579, __func__ , "(((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"sizeof((((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6579, __func__, \\\"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)+1)) == 1) || !(((U64)(( *(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)( (*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8*) locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "(((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))\")), ((U8) ((*(((U8*) locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579 , __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !( ((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) (( (((((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 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_exec.c", 6579 , __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*) locinput)) == 1) || !(((U64 )((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U8)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U32)) ? (((( NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ( ((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1 ) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "sizeof((((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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_exec.c", 6579, __func__ , "(((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"sizeof((((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6579, __func__, \\\"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)+1)) == 1) || !(((U64)(( *(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)( (*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8*) locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "(((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))\")), ((U8) ((*(((U8*) locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579 , __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !( ((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (0))) ? (_Bool )1 : (_Bool)0) : (((isalnum( (U8) (( (((((( (sizeof(*((U8*) locinput )) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 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_exec.c", 6579 , __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*) locinput)) == 1) || !(((U64 )((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U8)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U32)) ? (((( NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ( ((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1 ) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "sizeof((((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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_exec.c", 6579, __func__ , "(((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"sizeof((((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6579, __func__, \\\"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)+1)) == 1) || !(((U64)(( *(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)( (*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8*) locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "(((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))\")), ((U8) ((*(((U8*) locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579 , __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !( ((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))) || (char)(( (((((( (sizeof(*( (U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 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_exec.c", 6579 , __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*) locinput)) == 1) || !(((U64 )((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U8)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U32)) ? (((( NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ( ((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1 ) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "sizeof((((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6579, __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_exec.c" , 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 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_exec.c", 6579, __func__ , "(((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"sizeof((((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6579, __func__, \\\"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8*) locinput)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6579, __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_exec.c\", 6579, __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*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 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*) locinput)+1)) == 1) || !(((U64)(( *(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)( (*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8*) locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "(((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*(((U8*) locinput)+1)) == 1) || !(((U64)((*(((U8*) locinput)+1)) | 0)) & ~0xFF))\")), ((U8) ((*(((U8*) locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579 , __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6579, __func__, "( (sizeof((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6579, __func__, \"( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8*) locinput)+1))) == 1) || !( ((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*( (U8*) locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6579, __func__, "( (sizeof(*((U8*) locinput)) == 1) || !(((U64)((*((U8*) locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*) locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput) +1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6579, __func__, "( (sizeof((*(((U8*) locinput)+1))) == 1) || !(((U64)(((*(((U8*) locinput)+1))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*) locinput)+1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == '_')) ? (_Bool)1 : (_Bool)0 )) : (Perl__force_out_malformed_utf8_message( (U8 *) ((U8*) locinput ),(U8 *) ((U8*) reginfo->strend),0,1), 0)) : Perl__is_utf8_FOO ( 0,(U8*) locinput,(U8*) reginfo->strend))); |
6580 | } |
6581 | else { /* Here the string isn't utf8 */ |
6582 | b1 = (locinput == reginfo->strbeg) |
6583 | ? isWORDCHAR_LC('\n')(! ( (sizeof('\n') == 1) || !(((U64)(('\n') | 0)) & ~0xFF )) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) ('\n') ] & (1U << (0))) ? (_Bool)1 : (_Bool)0) : (((isalnum ( (U8) ('\n')) || (char)('\n') == '_')) ? (_Bool)1 : (_Bool)0 )) |
6584 | : isWORDCHAR_LC(UCHARAT(locinput - 1))(! ( (sizeof(((int)*(const U8*)(locinput - 1))) == 1) || !((( U64)((((int)*(const U8*)(locinput - 1))) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) (((int)*(const U8*)(locinput - 1)))] & (1U << (0))) ? (_Bool)1 : ( _Bool)0) : (((isalnum( (U8) (((int)*(const U8*)(locinput - 1) ))) || (char)(((int)*(const U8*)(locinput - 1))) == '_')) ? ( _Bool)1 : (_Bool)0)); |
6585 | b2 = (NEXTCHR_IS_EOS(nextchr < 0)) |
6586 | ? isWORDCHAR_LC('\n')(! ( (sizeof('\n') == 1) || !(((U64)(('\n') | 0)) & ~0xFF )) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) ('\n') ] & (1U << (0))) ? (_Bool)1 : (_Bool)0) : (((isalnum ( (U8) ('\n')) || (char)('\n') == '_')) ? (_Bool)1 : (_Bool)0 )) |
6587 | : isWORDCHAR_LC(nextchr)(! ( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF)) ? 0 : PL_in_utf8_CTYPE_locale ? ((PL_charclass[(U8) ( nextchr)] & (1U << (0))) ? (_Bool)1 : (_Bool)0) : ( ((isalnum( (U8) (nextchr)) || (char)(nextchr) == '_')) ? (_Bool )1 : (_Bool)0)); |
6588 | } |
6589 | if (to_complement ^ (b1 == b2)) { |
6590 | sayNOgoto no; |
6591 | } |
6592 | break; |
6593 | } |
6594 | |
6595 | case NBOUND12: /* /\B/ */ |
6596 | to_complement = 1; |
6597 | /* FALLTHROUGH */ |
6598 | |
6599 | case BOUND8: /* /\b/ */ |
6600 | if (utf8_target) { |
6601 | goto bound_utf8; |
6602 | } |
6603 | goto bound_ascii_match_only; |
6604 | |
6605 | case NBOUNDA15: /* /\B/a */ |
6606 | to_complement = 1; |
6607 | /* FALLTHROUGH */ |
6608 | |
6609 | case BOUNDA11: /* /\b/a */ |
6610 | { |
6611 | bool_Bool b1, b2; |
6612 | |
6613 | bound_ascii_match_only: |
6614 | /* Here the string isn't utf8, or is utf8 and only ascii characters |
6615 | * are to match \w. In the latter case looking at the byte just |
6616 | * prior to the current one may be just the final byte of a |
6617 | * multi-byte character. This is ok. There are two cases: |
6618 | * 1) it is a single byte character, and then the test is doing |
6619 | * just what it's supposed to. |
6620 | * 2) it is a multi-byte character, in which case the final byte is |
6621 | * never mistakable for ASCII, and so the test will say it is |
6622 | * not a word character, which is the correct answer. */ |
6623 | b1 = (locinput == reginfo->strbeg) |
6624 | ? isWORDCHAR_A('\n')(( (sizeof('\n') == 1) || !(((U64)(('\n') | 0)) & ~0xFF)) && ((PL_charclass[(U8) ('\n')] & ((1U << ( 0)) | (1U << (14)))) == ((1U << (0)) | (1U << (14))))) |
6625 | : isWORDCHAR_A(UCHARAT(locinput - 1))(( (sizeof(((int)*(const U8*)(locinput - 1))) == 1) || !(((U64 )((((int)*(const U8*)(locinput - 1))) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (((int)*(const U8*)(locinput - 1)))] & ((1U << (0)) | (1U << (14)))) == ((1U << ( 0)) | (1U << (14))))); |
6626 | b2 = (NEXTCHR_IS_EOS(nextchr < 0)) |
6627 | ? isWORDCHAR_A('\n')(( (sizeof('\n') == 1) || !(((U64)(('\n') | 0)) & ~0xFF)) && ((PL_charclass[(U8) ('\n')] & ((1U << ( 0)) | (1U << (14)))) == ((1U << (0)) | (1U << (14))))) |
6628 | : isWORDCHAR_A(nextchr)(( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~ 0xFF)) && ((PL_charclass[(U8) (nextchr)] & ((1U << (0)) | (1U << (14)))) == ((1U << (0)) | (1U << (14))))); |
6629 | if (to_complement ^ (b1 == b2)) { |
6630 | sayNOgoto no; |
6631 | } |
6632 | break; |
6633 | } |
6634 | |
6635 | case NBOUNDU14: /* /\B/u */ |
6636 | to_complement = 1; |
6637 | /* FALLTHROUGH */ |
6638 | |
6639 | case BOUNDU10: /* /\b/u */ |
6640 | |
6641 | boundu: |
6642 | if (UNLIKELY(reginfo->strbeg >= reginfo->strend)__builtin_expect(((reginfo->strbeg >= reginfo->strend ) ? (_Bool)1 : (_Bool)0),(0))) { |
6643 | match = FALSE(0); |
6644 | } |
6645 | else if (utf8_target) { |
6646 | bound_utf8: |
6647 | switch((bound_type) FLAGS(scan)((scan)->flags)) { |
6648 | case TRADITIONAL_BOUND: |
6649 | { |
6650 | bool_Bool b1, b2; |
6651 | if (locinput == reginfo->strbeg) { |
6652 | b1 = 0 /* isWORDCHAR_L1('\n') */; |
6653 | } |
6654 | else { |
6655 | U8 *p = reghop3S_reghop3((U8*)locinput, -1, |
6656 | (U8*)(reginfo->strbeg)); |
6657 | |
6658 | b1 = isWORDCHAR_utf8_safe(p, (U8*) reginfo->strend)((! (((U8*) reginfo->strend) > (p))) ? (Perl__force_out_malformed_utf8_message ( (U8 *) (p),(U8 *) ((U8*) reginfo->strend),0,1), 0) : ((( ((U64)(((UV) (((*(p)) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? ((( (sizeof(*(p)) == 1) || !(((U64)((*( p)) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*(p))] & (1U << (0)))) ? (_Bool)1 : (_Bool)0) : ((((( (sizeof (*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void) 0 : __assert2("re_exec.c", 6658, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 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_exec.c", 6658 , __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(*(p)) == 1) || !(((U64)((*(p)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__ , "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6658, __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_exec.c" , 6658, __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(*(p)) == 1) || !(((U64)((* (p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6658, __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_exec.c" , 6658, __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(*(p)) == 1) || !(((U64)(( *(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 6658, __func__, "sizeof((((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6658, __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_exec.c" , 6658, __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(*(p)) == 1) || !(((U64)(( *(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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*) reginfo->strend) - (p) > 1 && (((( (sizeof(*((p)+1)) == 1) || !((( U64)((*((p)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6658, __func__, "( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__ , "( (sizeof(*((p)+1)) == 1) || !(((U64)((*((p)+1)) | 0)) & ~0xFF))" )), ((U8) ((*((p)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : (_Bool )0),(1))) ? ((( (sizeof(( (((((( (sizeof(*(p)) == 1) || !(((U64 )((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6658, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 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_exec.c", 6658 , __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(*(p)) == 1) || !(((U64)((*(p)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__ , "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6658, __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_exec.c" , 6658, __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(*(p)) == 1) || !(((U64)((* (p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6658, __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_exec.c" , 6658, __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(*(p)) == 1) || !(((U64)(( *(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 6658, __func__, "sizeof((((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6658, __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_exec.c" , 6658, __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(*(p)) == 1) || !(((U64)(( *(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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_exec.c", 6658, __func__ , "(((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 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_exec.c\", 6658, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6658, __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_exec.c\", 6658, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6658, __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_exec.c\", 6658, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"sizeof((((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6658, __func__, \\\"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\\\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6658, __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_exec.c\", 6658, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 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(*((p)+1 )) == 1) || !(((U64)((*((p)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__ , "( (sizeof(*((p)+1 )) == 1) || !(((U64)((*((p)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((p)+1 )) == 1) || !(((U64)((*((p)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__ , "( (sizeof(*((p)+1 )) == 1) || !(((U64)((*((p)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((p)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 6658, __func__, "(((( (sizeof(*((p)+1 )) == 1) || !(((U64)((*((p)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*((p)+1 )) == 1) || !(((U64)((*((p)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((p)+1 )) == 1) || !(((U64)((*((p)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*((p)+1 )) == 1) || !(((U64)((*((p)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((p)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)( ((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6658, __func__, "( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6658, __func__, "( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((p)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6658, __func__, "( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6658, __func__, "( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((p)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6658, __func__, "( (sizeof((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((p)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((p)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*(( p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6658, __func__, "( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6658, __func__, "( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((p)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6658, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 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_exec.c", 6658 , __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(*(p)) == 1) || !(((U64)((*(p)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__ , "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6658, __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_exec.c" , 6658, __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(*(p)) == 1) || !(((U64)((* (p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6658, __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_exec.c" , 6658, __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(*(p)) == 1) || !(((U64)(( *(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 6658, __func__, "sizeof((((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6658, __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_exec.c" , 6658, __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(*(p)) == 1) || !(((U64)(( *(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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_exec.c", 6658, __func__ , "(((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 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_exec.c\", 6658, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6658, __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_exec.c\", 6658, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6658, __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_exec.c\", 6658, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"sizeof((((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6658, __func__, \\\"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\\\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6658, __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_exec.c\", 6658, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 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(*((p)+1 )) == 1) || !(((U64)((*((p)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__ , "( (sizeof(*((p)+1 )) == 1) || !(((U64)((*((p)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((p)+1 )) == 1) || !(((U64)((*((p)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__ , "( (sizeof(*((p)+1 )) == 1) || !(((U64)((*((p)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((p)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 6658, __func__, "(((( (sizeof(*((p)+1 )) == 1) || !(((U64)((*((p)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*((p)+1 )) == 1) || !(((U64)((*((p)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((p)+1 )) == 1) || !(((U64)((*((p)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*((p)+1 )) == 1) || !(((U64)((*((p)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((p)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)( ((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6658, __func__, "( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6658, __func__, "( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((p)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6658, __func__, "( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6658, __func__, "( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((p)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6658, __func__, "( (sizeof((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((p)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((p)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*(( p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6658, __func__, "( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6658, __func__, "( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((p)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) && (PL_charclass [(U8) (( (((((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 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_exec.c", 6658 , __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(*(p)) == 1) || !(((U64)((*(p)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__ , "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6658, __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_exec.c" , 6658, __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(*(p)) == 1) || !(((U64)((* (p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8 ) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2("re_exec.c", 6658, __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_exec.c" , 6658, __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(*(p)) == 1) || !(((U64)(( *(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658 , __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 6658, __func__, "sizeof((((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6658, __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_exec.c" , 6658, __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(*(p)) == 1) || !(((U64)(( *(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 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_exec.c", 6658, __func__ , "(((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 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_exec.c\", 6658, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6658, __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_exec.c\", 6658, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6658, __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_exec.c\", 6658, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"sizeof((((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6658, __func__, \\\"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\\\")), ((U8) ((*(p)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6658, __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_exec.c\", 6658, __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(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 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(*((p)+1 )) == 1) || !(((U64)((*((p)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__ , "( (sizeof(*((p)+1 )) == 1) || !(((U64)((*((p)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((p)+1 )) == 1) || !(((U64)((*((p)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__ , "( (sizeof(*((p)+1 )) == 1) || !(((U64)((*((p)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((p)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 6658, __func__, "(((( (sizeof(*((p)+1 )) == 1) || !(((U64)((*((p)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*((p)+1 )) == 1) || !(((U64)((*((p)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((p)+1 )) == 1) || !(((U64)((*((p)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*((p)+1 )) == 1) || !(((U64)((*((p)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((p)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)( ((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6658, __func__, "( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6658, __func__, "( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((p)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6658, __func__, "( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6658, __func__, "( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((p)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6658, __func__, "( (sizeof((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((p)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))\")), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6658, __func__, \"( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((p)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*(( p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6658, __func__, "( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6658, __func__, "( (sizeof(*(p)) == 1) || !(((U64)((*(p)) | 0)) & ~0xFF))" )), ((U8) ((*(p)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6658, __func__, "( (sizeof((*((p)+1 ))) == 1) || !(((U64)(((*((p)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((p)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (0)))) ? (_Bool)1 : (_Bool )0) : (Perl__force_out_malformed_utf8_message( (U8 *) (p),(U8 *) ((U8*) reginfo->strend),0,1), 0)) : Perl__is_utf8_FOO( 0,p,(U8*) reginfo->strend))); |
6659 | } |
6660 | b2 = (NEXTCHR_IS_EOS(nextchr < 0)) |
6661 | ? 0 /* isWORDCHAR_L1('\n') */ |
6662 | : isWORDCHAR_utf8_safe((U8*)locinput,((! (((U8*) reginfo->strend) > ((U8*)locinput))) ? (Perl__force_out_malformed_utf8_message ( (U8 *) ((U8*)locinput),(U8 *) ((U8*) reginfo->strend),0, 1), 0) : (((((U64)(((UV) (((*((U8*)locinput)) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? ((( (sizeof(*((U8 *)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*((U8*)locinput))] & (1U << (0)))) ? (_Bool)1 : (_Bool)0) : ((((( (sizeof(* ((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 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_exec.c", 6663 , __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*)locinput)) == 1) || !(((U64 )((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U8)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6663, __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_exec.c" , 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || !(( (U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U32)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6663, __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_exec.c" , 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || ! (((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)) ? (void )0 : __assert2("re_exec.c", 6663, __func__, "sizeof((((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6663, __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_exec.c" , 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 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*) reginfo->strend) - ((U8*)locinput) > 1 && (((( (sizeof(*(((U8*)locinput )+1)) == 1) || !(((U64)((*(((U8*)locinput)+1)) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*(((U8*)locinput)+1)) == 1) || !(((U64)((*(((U8*)locinput)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8*)locinput)+1)) == 1) || !(((U64)(( *(((U8*)locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*(((U8*)locinput)+1)) == 1) || !(((U64)((*(((U8*)locinput)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8*)locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : (_Bool)0),(1))) ? ((( (sizeof(( (((((( (sizeof(*((U8*)locinput )) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 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_exec.c", 6663 , __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*)locinput)) == 1) || !(((U64 )((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U8)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6663, __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_exec.c" , 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || !(( (U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U32)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6663, __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_exec.c" , 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || ! (((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)) ? (void )0 : __assert2("re_exec.c", 6663, __func__, "sizeof((((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6663, __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_exec.c" , 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 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_exec.c", 6663, __func__ , "(((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 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_exec.c\", 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6663, __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_exec.c\", 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6663, __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_exec.c\", 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"sizeof((((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6663, __func__, \\\"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6663, __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_exec.c\", 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 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*)locinput)+1 )) == 1) || !(((U64)(( *(((U8*)locinput)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)( (*(((U8*)locinput)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*(((U8*)locinput)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "(((( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*(((U8*)locinput)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*(( U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+ 1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663 , __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*(( U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+ 1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !( ((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*(( U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+ 1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof (*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__ , "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 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_exec.c", 6663 , __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*)locinput)) == 1) || !(((U64 )((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U8)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6663, __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_exec.c" , 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || !(( (U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U32)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6663, __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_exec.c" , 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || ! (((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)) ? (void )0 : __assert2("re_exec.c", 6663, __func__, "sizeof((((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6663, __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_exec.c" , 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 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_exec.c", 6663, __func__ , "(((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 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_exec.c\", 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6663, __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_exec.c\", 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6663, __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_exec.c\", 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"sizeof((((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6663, __func__, \\\"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6663, __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_exec.c\", 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 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*)locinput)+1 )) == 1) || !(((U64)(( *(((U8*)locinput)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)( (*(((U8*)locinput)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*(((U8*)locinput)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "(((( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*(((U8*)locinput)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*(( U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+ 1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663 , __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*(( U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+ 1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !( ((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*(( U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+ 1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) && (PL_charclass[(U8) (( (((((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void) 0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 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_exec.c", 6663 , __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*)locinput)) == 1) || !(((U64 )((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U8)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6663, __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_exec.c" , 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || !(( (U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U32)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6663, __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_exec.c" , 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || ! (((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)) ? (void )0 : __assert2("re_exec.c", 6663, __func__, "sizeof((((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6663, __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_exec.c" , 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 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_exec.c", 6663, __func__ , "(((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 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_exec.c\", 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6663, __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_exec.c\", 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6663, __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_exec.c\", 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"sizeof((((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6663, __func__, \\\"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6663, __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_exec.c\", 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 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*)locinput)+1 )) == 1) || !(((U64)(( *(((U8*)locinput)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)( (*(((U8*)locinput)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*(((U8*)locinput)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "(((( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*(((U8*)locinput)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*(( U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+ 1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663 , __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*(( U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+ 1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !( ((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*(( U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+ 1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (0)))) ? ( _Bool)1 : (_Bool)0) : (Perl__force_out_malformed_utf8_message ( (U8 *) ((U8*)locinput),(U8 *) ((U8*) reginfo->strend),0, 1), 0)) : Perl__is_utf8_FOO( 0,(U8*)locinput,(U8*) reginfo-> strend))) |
6663 | (U8*) reginfo->strend)((! (((U8*) reginfo->strend) > ((U8*)locinput))) ? (Perl__force_out_malformed_utf8_message ( (U8 *) ((U8*)locinput),(U8 *) ((U8*) reginfo->strend),0, 1), 0) : (((((U64)(((UV) (((*((U8*)locinput)) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? ((( (sizeof(*((U8 *)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*((U8*)locinput))] & (1U << (0)))) ? (_Bool)1 : (_Bool)0) : ((((( (sizeof(* ((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 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_exec.c", 6663 , __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*)locinput)) == 1) || !(((U64 )((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U8)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6663, __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_exec.c" , 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || !(( (U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U32)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6663, __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_exec.c" , 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || ! (((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)) ? (void )0 : __assert2("re_exec.c", 6663, __func__, "sizeof((((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6663, __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_exec.c" , 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 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*) reginfo->strend) - ((U8*)locinput) > 1 && (((( (sizeof(*(((U8*)locinput )+1)) == 1) || !(((U64)((*(((U8*)locinput)+1)) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*(((U8*)locinput)+1)) == 1) || !(((U64)((*(((U8*)locinput)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8*)locinput)+1)) == 1) || !(((U64)(( *(((U8*)locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*(((U8*)locinput)+1)) == 1) || !(((U64)((*(((U8*)locinput)+1)) | 0)) & ~0xFF))" )), ((U8) ((*(((U8*)locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : (_Bool)0),(1))) ? ((( (sizeof(( (((((( (sizeof(*((U8*)locinput )) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 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_exec.c", 6663 , __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*)locinput)) == 1) || !(((U64 )((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U8)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6663, __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_exec.c" , 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || !(( (U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U32)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6663, __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_exec.c" , 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || ! (((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)) ? (void )0 : __assert2("re_exec.c", 6663, __func__, "sizeof((((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6663, __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_exec.c" , 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 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_exec.c", 6663, __func__ , "(((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 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_exec.c\", 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6663, __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_exec.c\", 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6663, __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_exec.c\", 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"sizeof((((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6663, __func__, \\\"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6663, __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_exec.c\", 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 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*)locinput)+1 )) == 1) || !(((U64)(( *(((U8*)locinput)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)( (*(((U8*)locinput)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*(((U8*)locinput)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "(((( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*(((U8*)locinput)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*(( U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+ 1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663 , __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*(( U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+ 1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !( ((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*(( U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+ 1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof (*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__ , "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 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_exec.c", 6663 , __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*)locinput)) == 1) || !(((U64 )((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U8)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6663, __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_exec.c" , 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || !(( (U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U32)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6663, __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_exec.c" , 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || ! (((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)) ? (void )0 : __assert2("re_exec.c", 6663, __func__, "sizeof((((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6663, __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_exec.c" , 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 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_exec.c", 6663, __func__ , "(((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 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_exec.c\", 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6663, __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_exec.c\", 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6663, __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_exec.c\", 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"sizeof((((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6663, __func__, \\\"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6663, __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_exec.c\", 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 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*)locinput)+1 )) == 1) || !(((U64)(( *(((U8*)locinput)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)( (*(((U8*)locinput)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*(((U8*)locinput)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "(((( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*(((U8*)locinput)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*(( U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+ 1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663 , __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*(( U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+ 1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !( ((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*(( U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+ 1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) && (PL_charclass[(U8) (( (((((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void) 0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 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_exec.c", 6663 , __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*)locinput)) == 1) || !(((U64 )((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U8)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6663, __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_exec.c" , 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || !(( (U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U32)) ? ((((NV ) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | ((( 2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0 ) ? (void)0 : __assert2("re_exec.c", 6663, __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_exec.c" , 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || ! (((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)) ? (void )0 : __assert2("re_exec.c", 6663, __func__, "sizeof((((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 6663, __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_exec.c" , 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 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_exec.c", 6663, __func__ , "(((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 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_exec.c\", 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6663, __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_exec.c\", 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6663, __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_exec.c\", 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"sizeof((((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 6663, __func__, \\\"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\\\")), ((U8) ((*((U8*)locinput)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 6663, __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_exec.c\", 6663, __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*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 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*)locinput)+1 )) == 1) || !(((U64)(( *(((U8*)locinput)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)( (*(((U8*)locinput)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*(((U8*)locinput)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "(((( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*(((U8*)locinput)+1 )) == 1) || !(((U64)((*(((U8*)locinput)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*(((U8*)locinput)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*(( U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+ 1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8 *)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663 , __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*(( U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+ 1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6663, __func__, "( (sizeof((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))\")), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6663, __func__, \"( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !( ((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*(( U8*)locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6663, __func__, "( (sizeof(*((U8*)locinput)) == 1) || !(((U64)((*((U8*)locinput)) | 0)) & ~0xFF))" )), ((U8) ((*((U8*)locinput)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((* (((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+ 1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6663, __func__, "( (sizeof((*(((U8*)locinput)+1 ))) == 1) || !(((U64)(((*(((U8*)locinput)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*(((U8*)locinput)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (0)))) ? ( _Bool)1 : (_Bool)0) : (Perl__force_out_malformed_utf8_message ( (U8 *) ((U8*)locinput),(U8 *) ((U8*) reginfo->strend),0, 1), 0)) : Perl__is_utf8_FOO( 0,(U8*)locinput,(U8*) reginfo-> strend))); |
6664 | match = cBOOL(b1 != b2)((b1 != b2) ? (_Bool)1 : (_Bool)0); |
6665 | break; |
6666 | } |
6667 | case GCB_BOUND: |
6668 | if (locinput == reginfo->strbeg || NEXTCHR_IS_EOS(nextchr < 0)) { |
6669 | match = TRUE(1); /* GCB always matches at begin and |
6670 | end */ |
6671 | } |
6672 | else { |
6673 | /* Find the gcb values of previous and current |
6674 | * chars, then see if is a break point */ |
6675 | match = isGCB(getGCB_VAL_UTF8(S_isGCB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6679, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6681, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,utf8_target) |
6676 | reghop3((U8*)locinput,S_isGCB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6679, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6681, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,utf8_target) |
6677 | -1,S_isGCB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6679, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6681, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,utf8_target) |
6678 | (U8*)(reginfo->strbeg)),S_isGCB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6679, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6681, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,utf8_target) |
6679 | (U8*) reginfo->strend),S_isGCB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6679, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6681, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,utf8_target) |
6680 | getGCB_VAL_UTF8((U8*) locinput,S_isGCB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6679, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6681, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,utf8_target) |
6681 | (U8*) reginfo->strend),S_isGCB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6679, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6681, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,utf8_target) |
6682 | (U8*) reginfo->strbeg,S_isGCB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6679, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6681, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,utf8_target) |
6683 | (U8*) locinput,S_isGCB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6679, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6681, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,utf8_target) |
6684 | utf8_target)S_isGCB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6679, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6681, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,utf8_target); |
6685 | } |
6686 | break; |
6687 | |
6688 | case LB_BOUND: |
6689 | if (locinput == reginfo->strbeg) { |
6690 | match = FALSE(0); |
6691 | } |
6692 | else if (NEXTCHR_IS_EOS(nextchr < 0)) { |
6693 | match = TRUE(1); |
6694 | } |
6695 | else { |
6696 | match = isLB(getLB_VAL_UTF8(S_isLB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6700, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6702, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6697 | reghop3((U8*)locinput,S_isLB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6700, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6702, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6698 | -1,S_isLB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6700, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6702, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6699 | (U8*)(reginfo->strbeg)),S_isLB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6700, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6702, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6700 | (U8*) reginfo->strend),S_isLB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6700, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6702, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6701 | getLB_VAL_UTF8((U8*) locinput,S_isLB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6700, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6702, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6702 | (U8*) reginfo->strend),S_isLB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6700, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6702, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6703 | (U8*) reginfo->strbeg,S_isLB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6700, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6702, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6704 | (U8*) locinput,S_isLB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6700, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6702, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6705 | (U8*) reginfo->strend,S_isLB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6700, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6702, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6706 | utf8_target)S_isLB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6700, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6702, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target); |
6707 | } |
6708 | break; |
6709 | |
6710 | case SB_BOUND: /* Always matches at begin and end */ |
6711 | if (locinput == reginfo->strbeg || NEXTCHR_IS_EOS(nextchr < 0)) { |
6712 | match = TRUE(1); |
6713 | } |
6714 | else { |
6715 | match = isSB(getSB_VAL_UTF8(S_isSB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6719, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6721, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6716 | reghop3((U8*)locinput,S_isSB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6719, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6721, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6717 | -1,S_isSB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6719, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6721, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6718 | (U8*)(reginfo->strbeg)),S_isSB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6719, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6721, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6719 | (U8*) reginfo->strend),S_isSB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6719, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6721, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6720 | getSB_VAL_UTF8((U8*) locinput,S_isSB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6719, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6721, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6721 | (U8*) reginfo->strend),S_isSB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6719, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6721, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6722 | (U8*) reginfo->strbeg,S_isSB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6719, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6721, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6723 | (U8*) locinput,S_isSB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6719, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6721, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6724 | (U8*) reginfo->strend,S_isSB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6719, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6721, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6725 | utf8_target)S_isSB( (((S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg )) < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c" , 6719, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6721, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target); |
6726 | } |
6727 | break; |
6728 | |
6729 | case WB_BOUND: |
6730 | if (locinput == reginfo->strbeg || NEXTCHR_IS_EOS(nextchr < 0)) { |
6731 | match = TRUE(1); |
6732 | } |
6733 | else { |
6734 | match = isWB(WB_UNKNOWN,S_isWB( WB_UNKNOWN,(((S_reghop3((U8*)locinput, -1, (U8*)(reginfo ->strbeg)) < (U8*) reginfo->strend) ? (void)0 : __assert2 ("re_exec.c", 6739, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6741, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6735 | getWB_VAL_UTF8(S_isWB( WB_UNKNOWN,(((S_reghop3((U8*)locinput, -1, (U8*)(reginfo ->strbeg)) < (U8*) reginfo->strend) ? (void)0 : __assert2 ("re_exec.c", 6739, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6741, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6736 | reghop3((U8*)locinput,S_isWB( WB_UNKNOWN,(((S_reghop3((U8*)locinput, -1, (U8*)(reginfo ->strbeg)) < (U8*) reginfo->strend) ? (void)0 : __assert2 ("re_exec.c", 6739, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6741, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6737 | -1,S_isWB( WB_UNKNOWN,(((S_reghop3((U8*)locinput, -1, (U8*)(reginfo ->strbeg)) < (U8*) reginfo->strend) ? (void)0 : __assert2 ("re_exec.c", 6739, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6741, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6738 | (U8*)(reginfo->strbeg)),S_isWB( WB_UNKNOWN,(((S_reghop3((U8*)locinput, -1, (U8*)(reginfo ->strbeg)) < (U8*) reginfo->strend) ? (void)0 : __assert2 ("re_exec.c", 6739, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6741, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6739 | (U8*) reginfo->strend),S_isWB( WB_UNKNOWN,(((S_reghop3((U8*)locinput, -1, (U8*)(reginfo ->strbeg)) < (U8*) reginfo->strend) ? (void)0 : __assert2 ("re_exec.c", 6739, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6741, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6740 | getWB_VAL_UTF8((U8*) locinput,S_isWB( WB_UNKNOWN,(((S_reghop3((U8*)locinput, -1, (U8*)(reginfo ->strbeg)) < (U8*) reginfo->strend) ? (void)0 : __assert2 ("re_exec.c", 6739, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6741, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6741 | (U8*) reginfo->strend),S_isWB( WB_UNKNOWN,(((S_reghop3((U8*)locinput, -1, (U8*)(reginfo ->strbeg)) < (U8*) reginfo->strend) ? (void)0 : __assert2 ("re_exec.c", 6739, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6741, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6742 | (U8*) reginfo->strbeg,S_isWB( WB_UNKNOWN,(((S_reghop3((U8*)locinput, -1, (U8*)(reginfo ->strbeg)) < (U8*) reginfo->strend) ? (void)0 : __assert2 ("re_exec.c", 6739, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6741, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6743 | (U8*) locinput,S_isWB( WB_UNKNOWN,(((S_reghop3((U8*)locinput, -1, (U8*)(reginfo ->strbeg)) < (U8*) reginfo->strend) ? (void)0 : __assert2 ("re_exec.c", 6739, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6741, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6744 | (U8*) reginfo->strend,S_isWB( WB_UNKNOWN,(((S_reghop3((U8*)locinput, -1, (U8*)(reginfo ->strbeg)) < (U8*) reginfo->strend) ? (void)0 : __assert2 ("re_exec.c", 6739, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6741, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target) |
6745 | utf8_target)S_isWB( WB_UNKNOWN,(((S_reghop3((U8*)locinput, -1, (U8*)(reginfo ->strbeg)) < (U8*) reginfo->strend) ? (void)0 : __assert2 ("re_exec.c", 6739, __func__, "S_reghop3((U8*)locinput, -1, (U8*)(reginfo->strbeg)) < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((S_reghop3((U8 *)locinput, -1, (U8*)(reginfo->strbeg)))),(const U8 *) ((U8 *) reginfo->strend),((void*)0))))])),((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2("re_exec.c", 6741, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_WB_invmap[S_get_break_val_cp_checked(PL_WB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])),( U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend ,utf8_target); |
6746 | } |
6747 | break; |
6748 | } |
6749 | } |
6750 | else { /* Not utf8 target */ |
6751 | switch((bound_type) FLAGS(scan)((scan)->flags)) { |
6752 | case TRADITIONAL_BOUND: |
6753 | { |
6754 | bool_Bool b1, b2; |
6755 | b1 = (locinput == reginfo->strbeg) |
6756 | ? 0 /* isWORDCHAR_L1('\n') */ |
6757 | : isWORDCHAR_L1(UCHARAT(locinput - 1))((( (sizeof(((int)*(const U8*)(locinput - 1))) == 1) || !(((U64 )((((int)*(const U8*)(locinput - 1))) | 0)) & ~0xFF)) && (PL_charclass[(U8) (((int)*(const U8*)(locinput - 1)))] & (1U << (0)))) ? (_Bool)1 : (_Bool)0); |
6758 | b2 = (NEXTCHR_IS_EOS(nextchr < 0)) |
6759 | ? 0 /* isWORDCHAR_L1('\n') */ |
6760 | : isWORDCHAR_L1(nextchr)((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~ 0xFF)) && (PL_charclass[(U8) (nextchr)] & (1U << (0)))) ? (_Bool)1 : (_Bool)0); |
6761 | match = cBOOL(b1 != b2)((b1 != b2) ? (_Bool)1 : (_Bool)0); |
6762 | break; |
6763 | } |
6764 | |
6765 | case GCB_BOUND: |
6766 | if (locinput == reginfo->strbeg || NEXTCHR_IS_EOS(nextchr < 0)) { |
6767 | match = TRUE(1); /* GCB always matches at begin and |
6768 | end */ |
6769 | } |
6770 | else { /* Only CR-LF combo isn't a GCB in 0-255 |
6771 | range */ |
6772 | match = UCHARAT(locinput - 1)((int)*(const U8*)(locinput - 1)) != '\r' |
6773 | || UCHARAT(locinput)((int)*(const U8*)(locinput)) != '\n'; |
6774 | } |
6775 | break; |
6776 | |
6777 | case LB_BOUND: |
6778 | if (locinput == reginfo->strbeg) { |
6779 | match = FALSE(0); |
6780 | } |
6781 | else if (NEXTCHR_IS_EOS(nextchr < 0)) { |
6782 | match = TRUE(1); |
6783 | } |
6784 | else { |
6785 | match = isLB(getLB_VAL_CP(UCHARAT(locinput -1)),S_isLB( _Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (((int)*(const U8*)(locinput -1))))],_Perl_LB_invmap[S_get_break_val_cp_checked (PL_LB_invlist, (((int)*(const U8*)(locinput))))],(U8*) reginfo ->strbeg,(U8*) locinput,(U8*) reginfo->strend,utf8_target ) |
6786 | getLB_VAL_CP(UCHARAT(locinput)),S_isLB( _Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (((int)*(const U8*)(locinput -1))))],_Perl_LB_invmap[S_get_break_val_cp_checked (PL_LB_invlist, (((int)*(const U8*)(locinput))))],(U8*) reginfo ->strbeg,(U8*) locinput,(U8*) reginfo->strend,utf8_target ) |
6787 | (U8*) reginfo->strbeg,S_isLB( _Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (((int)*(const U8*)(locinput -1))))],_Perl_LB_invmap[S_get_break_val_cp_checked (PL_LB_invlist, (((int)*(const U8*)(locinput))))],(U8*) reginfo ->strbeg,(U8*) locinput,(U8*) reginfo->strend,utf8_target ) |
6788 | (U8*) locinput,S_isLB( _Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (((int)*(const U8*)(locinput -1))))],_Perl_LB_invmap[S_get_break_val_cp_checked (PL_LB_invlist, (((int)*(const U8*)(locinput))))],(U8*) reginfo ->strbeg,(U8*) locinput,(U8*) reginfo->strend,utf8_target ) |
6789 | (U8*) reginfo->strend,S_isLB( _Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (((int)*(const U8*)(locinput -1))))],_Perl_LB_invmap[S_get_break_val_cp_checked (PL_LB_invlist, (((int)*(const U8*)(locinput))))],(U8*) reginfo ->strbeg,(U8*) locinput,(U8*) reginfo->strend,utf8_target ) |
6790 | utf8_target)S_isLB( _Perl_LB_invmap[S_get_break_val_cp_checked(PL_LB_invlist , (((int)*(const U8*)(locinput -1))))],_Perl_LB_invmap[S_get_break_val_cp_checked (PL_LB_invlist, (((int)*(const U8*)(locinput))))],(U8*) reginfo ->strbeg,(U8*) locinput,(U8*) reginfo->strend,utf8_target ); |
6791 | } |
6792 | break; |
6793 | |
6794 | case SB_BOUND: /* Always matches at begin and end */ |
6795 | if (locinput == reginfo->strbeg || NEXTCHR_IS_EOS(nextchr < 0)) { |
6796 | match = TRUE(1); |
6797 | } |
6798 | else { |
6799 | match = isSB(getSB_VAL_CP(UCHARAT(locinput -1)),S_isSB( _Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (((int)*(const U8*)(locinput -1))))],_Perl_SB_invmap[S_get_break_val_cp_checked (PL_SB_invlist, (((int)*(const U8*)(locinput))))],(U8*) reginfo ->strbeg,(U8*) locinput,(U8*) reginfo->strend,utf8_target ) |
6800 | getSB_VAL_CP(UCHARAT(locinput)),S_isSB( _Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (((int)*(const U8*)(locinput -1))))],_Perl_SB_invmap[S_get_break_val_cp_checked (PL_SB_invlist, (((int)*(const U8*)(locinput))))],(U8*) reginfo ->strbeg,(U8*) locinput,(U8*) reginfo->strend,utf8_target ) |
6801 | (U8*) reginfo->strbeg,S_isSB( _Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (((int)*(const U8*)(locinput -1))))],_Perl_SB_invmap[S_get_break_val_cp_checked (PL_SB_invlist, (((int)*(const U8*)(locinput))))],(U8*) reginfo ->strbeg,(U8*) locinput,(U8*) reginfo->strend,utf8_target ) |
6802 | (U8*) locinput,S_isSB( _Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (((int)*(const U8*)(locinput -1))))],_Perl_SB_invmap[S_get_break_val_cp_checked (PL_SB_invlist, (((int)*(const U8*)(locinput))))],(U8*) reginfo ->strbeg,(U8*) locinput,(U8*) reginfo->strend,utf8_target ) |
6803 | (U8*) reginfo->strend,S_isSB( _Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (((int)*(const U8*)(locinput -1))))],_Perl_SB_invmap[S_get_break_val_cp_checked (PL_SB_invlist, (((int)*(const U8*)(locinput))))],(U8*) reginfo ->strbeg,(U8*) locinput,(U8*) reginfo->strend,utf8_target ) |
6804 | utf8_target)S_isSB( _Perl_SB_invmap[S_get_break_val_cp_checked(PL_SB_invlist , (((int)*(const U8*)(locinput -1))))],_Perl_SB_invmap[S_get_break_val_cp_checked (PL_SB_invlist, (((int)*(const U8*)(locinput))))],(U8*) reginfo ->strbeg,(U8*) locinput,(U8*) reginfo->strend,utf8_target ); |
6805 | } |
6806 | break; |
6807 | |
6808 | case WB_BOUND: |
6809 | if (locinput == reginfo->strbeg || NEXTCHR_IS_EOS(nextchr < 0)) { |
6810 | match = TRUE(1); |
6811 | } |
6812 | else { |
6813 | match = isWB(WB_UNKNOWN,S_isWB( WB_UNKNOWN,_Perl_WB_invmap[S_get_break_val_cp_checked (PL_WB_invlist, (((int)*(const U8*)(locinput -1))))],_Perl_WB_invmap [S_get_break_val_cp_checked(PL_WB_invlist, (((int)*(const U8* )(locinput))))],(U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend,utf8_target) |
6814 | getWB_VAL_CP(UCHARAT(locinput -1)),S_isWB( WB_UNKNOWN,_Perl_WB_invmap[S_get_break_val_cp_checked (PL_WB_invlist, (((int)*(const U8*)(locinput -1))))],_Perl_WB_invmap [S_get_break_val_cp_checked(PL_WB_invlist, (((int)*(const U8* )(locinput))))],(U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend,utf8_target) |
6815 | getWB_VAL_CP(UCHARAT(locinput)),S_isWB( WB_UNKNOWN,_Perl_WB_invmap[S_get_break_val_cp_checked (PL_WB_invlist, (((int)*(const U8*)(locinput -1))))],_Perl_WB_invmap [S_get_break_val_cp_checked(PL_WB_invlist, (((int)*(const U8* )(locinput))))],(U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend,utf8_target) |
6816 | (U8*) reginfo->strbeg,S_isWB( WB_UNKNOWN,_Perl_WB_invmap[S_get_break_val_cp_checked (PL_WB_invlist, (((int)*(const U8*)(locinput -1))))],_Perl_WB_invmap [S_get_break_val_cp_checked(PL_WB_invlist, (((int)*(const U8* )(locinput))))],(U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend,utf8_target) |
6817 | (U8*) locinput,S_isWB( WB_UNKNOWN,_Perl_WB_invmap[S_get_break_val_cp_checked (PL_WB_invlist, (((int)*(const U8*)(locinput -1))))],_Perl_WB_invmap [S_get_break_val_cp_checked(PL_WB_invlist, (((int)*(const U8* )(locinput))))],(U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend,utf8_target) |
6818 | (U8*) reginfo->strend,S_isWB( WB_UNKNOWN,_Perl_WB_invmap[S_get_break_val_cp_checked (PL_WB_invlist, (((int)*(const U8*)(locinput -1))))],_Perl_WB_invmap [S_get_break_val_cp_checked(PL_WB_invlist, (((int)*(const U8* )(locinput))))],(U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend,utf8_target) |
6819 | utf8_target)S_isWB( WB_UNKNOWN,_Perl_WB_invmap[S_get_break_val_cp_checked (PL_WB_invlist, (((int)*(const U8*)(locinput -1))))],_Perl_WB_invmap [S_get_break_val_cp_checked(PL_WB_invlist, (((int)*(const U8* )(locinput))))],(U8*) reginfo->strbeg,(U8*) locinput,(U8*) reginfo->strend,utf8_target); |
6820 | } |
6821 | break; |
6822 | } |
6823 | } |
6824 | |
6825 | if (to_complement ^ ! match) { |
6826 | sayNOgoto no; |
6827 | } |
6828 | break; |
6829 | |
6830 | case ANYOFPOSIXL21: |
6831 | case ANYOFL20: /* /[abc]/l */ |
6832 | _CHECK_AND_WARN_PROBLEMATIC_LOCALEdo { if (__builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool )0),(0))) { Perl__warn_problematic_locale(); } } while (0); |
6833 | |
6834 | if (ANYOFL_UTF8_LOCALE_REQD(FLAGS(scan))((((scan)->flags) & ( 0x04 |0x08)) == 0x08) && ! IN_UTF8_CTYPE_LOCALEPL_in_utf8_CTYPE_locale) |
6835 | { |
6836 | Perl_ck_warner(aTHX_ packWARN(WARN_LOCALE)(63 ), utf8_locale_required); |
6837 | } |
6838 | /* FALLTHROUGH */ |
6839 | case ANYOFD19: /* /[abc]/d */ |
6840 | case ANYOF18: /* /[abc]/ */ |
6841 | if (NEXTCHR_IS_EOS(nextchr < 0) || locinput >= loceol) |
6842 | sayNOgoto no; |
6843 | if ( (! utf8_target || UTF8_IS_INVARIANT(*locinput)((((U64)(((UV) (((*locinput) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) |
6844 | && ! (ANYOF_FLAGS(scan)((scan)->flags) & ~ ANYOF_MATCHES_ALL_ABOVE_BITMAP0x20)) |
6845 | { |
6846 | if (! ANYOF_BITMAP_TEST(scan, * (U8 *) (locinput))(((( (U8*) ((regnode_charclass*)(scan))->bitmap) [ ( ( (UV ) (* (U8 *) (locinput))) >> 3) ] ) & (1U << ( (* (U8 *) (locinput)) & 7))) ? (_Bool)1 : (_Bool)0)) { |
6847 | sayNOgoto no; |
6848 | } |
6849 | locinput++; |
6850 | } |
6851 | else { |
6852 | if (!reginclass(rex, scan, (U8*)locinput, (U8*) loceol,S_reginclass( rex,scan,(U8*)locinput,(U8*) loceol,utf8_target ) |
6853 | utf8_target)S_reginclass( rex,scan,(U8*)locinput,(U8*) loceol,utf8_target )) |
6854 | { |
6855 | sayNOgoto no; |
6856 | } |
6857 | goto increment_locinput; |
6858 | } |
6859 | break; |
6860 | |
6861 | case ANYOFM28: |
6862 | if ( NEXTCHR_IS_EOS(nextchr < 0) |
6863 | || (UCHARAT(locinput)((int)*(const U8*)(locinput)) & FLAGS(scan)((scan)->flags)) != ARG(scan)((((struct regnode_1 *)scan)->arg1)) |
6864 | || locinput >= loceol) |
6865 | { |
6866 | sayNOgoto no; |
6867 | } |
6868 | locinput++; /* ANYOFM is always single byte */ |
6869 | break; |
6870 | |
6871 | case NANYOFM29: |
6872 | if ( NEXTCHR_IS_EOS(nextchr < 0) |
6873 | || (UCHARAT(locinput)((int)*(const U8*)(locinput)) & FLAGS(scan)((scan)->flags)) == ARG(scan)((((struct regnode_1 *)scan)->arg1)) |
6874 | || locinput >= loceol) |
6875 | { |
6876 | sayNOgoto no; |
6877 | } |
6878 | goto increment_locinput; |
6879 | break; |
6880 | |
6881 | case ANYOFH22: |
6882 | if ( ! utf8_target |
6883 | || NEXTCHR_IS_EOS(nextchr < 0) |
6884 | || ANYOF_FLAGS(scan)((scan)->flags) > NATIVE_UTF8_TO_I8(*locinput)(((( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6884, __func__, "( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))" )), ((U8) ((*locinput) | 0))) |
6885 | || ! reginclass(rex, scan, (U8*)locinput, (U8*) loceol,S_reginclass( rex,scan,(U8*)locinput,(U8*) loceol,utf8_target ) |
6886 | utf8_target)S_reginclass( rex,scan,(U8*)locinput,(U8*) loceol,utf8_target )) |
6887 | { |
6888 | sayNOgoto no; |
6889 | } |
6890 | goto increment_locinput; |
6891 | break; |
6892 | |
6893 | case ANYOFHb23: |
6894 | if ( ! utf8_target |
6895 | || NEXTCHR_IS_EOS(nextchr < 0) |
6896 | || ANYOF_FLAGS(scan)((scan)->flags) != (U8) *locinput |
6897 | || ! reginclass(rex, scan, (U8*)locinput, (U8*) loceol,S_reginclass( rex,scan,(U8*)locinput,(U8*) loceol,utf8_target ) |
6898 | utf8_target)S_reginclass( rex,scan,(U8*)locinput,(U8*) loceol,utf8_target )) |
6899 | { |
6900 | sayNOgoto no; |
6901 | } |
6902 | goto increment_locinput; |
6903 | break; |
6904 | |
6905 | case ANYOFHr24: |
6906 | if ( ! utf8_target |
6907 | || NEXTCHR_IS_EOS(nextchr < 0) |
6908 | || ! inRANGE((U8) NATIVE_UTF8_TO_I8(*locinput),((((((((((scan)->flags)) >> 2) + 0xC0) + ((0xEF - (( (((scan)->flags)) >> 2) + 0xC0)) >> ((((scan)-> flags)) & 3)))) >= ((((((scan)->flags)) >> 2) + 0xC0))) ? (void)0 : __assert2("re_exec.c", 6910, __func__, "(((((((scan)->flags)) >> 2) + 0xC0) + ((0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ((((scan)->flags)) & 3)))) >= ((((((scan)->flags)) >> 2) + 0xC0))" )), ( (sizeof((U8) (((( (sizeof(*locinput) == 1) || !(((U64)( (*locinput) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6908, __func__, "( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))" )), ((U8) ((*locinput) | 0)))) == sizeof(U8)) ? ((((NV) ((((( ((scan)->flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2("re_exec.c", 6910, __func__, "(NV) (((((((scan)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((scan)->flags)) >> 2) + 0xC0) + ( (0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ( (((scan)->flags)) & 3)))) - ((((((scan)->flags)) >> 2) + 0xC0)))) >= 0) ? (void)0 : __assert2("re_exec.c", 6910 , __func__, "(NV) (((((((((scan)->flags)) >> 2) + 0xC0) + ((0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ((((scan)->flags)) & 3)))) - ((((((scan)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U8) ((U8) (((( (sizeof(*locinput) == 1) || ! (((U64)((*locinput) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6908, __func__, "( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))" )), ((U8) ((*locinput) | 0))))))) - ((((((((scan)->flags)) >> 2) + 0xC0))) | 0))) <= (((U64) ((((((((((scan)-> flags)) >> 2) + 0xC0) + ((0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ((((scan)->flags)) & 3) ))) - ((((((scan)->flags)) >> 2) + 0xC0)))) | 0))))) : (sizeof((U8) (((( (sizeof(*locinput) == 1) || !(((U64)((*locinput ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6908 , __func__, "( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))" )), ((U8) ((*locinput) | 0)))) == sizeof(U32)) ? ((((NV) (((( (((scan)->flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2("re_exec.c", 6910, __func__, "(NV) (((((((scan)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((scan)->flags)) >> 2) + 0xC0) + ( (0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ( (((scan)->flags)) & 3)))) - ((((((scan)->flags)) >> 2) + 0xC0)))) >= 0) ? (void)0 : __assert2("re_exec.c", 6910 , __func__, "(NV) (((((((((scan)->flags)) >> 2) + 0xC0) + ((0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ((((scan)->flags)) & 3)))) - ((((((scan)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U32) ((U8) (((( (sizeof(*locinput) == 1) || ! (((U64)((*locinput) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6908, __func__, "( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))" )), ((U8) ((*locinput) | 0))))))) - ((((((((scan)->flags)) >> 2) + 0xC0))) | 0))) <= (((U64) ((((((((((scan)-> flags)) >> 2) + 0xC0) + ((0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ((((scan)->flags)) & 3) ))) - ((((((scan)->flags)) >> 2) + 0xC0)))) | 0))))) : (((sizeof((U8) (((( (sizeof(*locinput) == 1) || !(((U64)(( *locinput) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6908, __func__, "( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))" )), ((U8) ((*locinput) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 6910, __func__, "sizeof((U8) (((( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6908, __func__, \"( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))\")), ((U8) ((*locinput) | 0)))) == sizeof(U64)" )), ((((NV) (((((((scan)->flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2("re_exec.c", 6910, __func__, "(NV) (((((((scan)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((scan)->flags)) >> 2) + 0xC0) + ( (0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ( (((scan)->flags)) & 3)))) - ((((((scan)->flags)) >> 2) + 0xC0)))) >= 0) ? (void)0 : __assert2("re_exec.c", 6910 , __func__, "(NV) (((((((((scan)->flags)) >> 2) + 0xC0) + ((0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ((((scan)->flags)) & 3)))) - ((((((scan)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U64) ((U8) (((( (sizeof(*locinput) == 1) || ! (((U64)((*locinput) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6908, __func__, "( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))" )), ((U8) ((*locinput) | 0))))))) - ((((((((scan)->flags)) >> 2) + 0xC0))) | 0))) <= (((U64) ((((((((((scan)-> flags)) >> 2) + 0xC0) + ((0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ((((scan)->flags)) & 3) ))) - ((((((scan)->flags)) >> 2) + 0xC0)))) | 0))))) ))) |
6909 | LOWEST_ANYOF_HRx_BYTE(ANYOF_FLAGS(scan)),((((((((((scan)->flags)) >> 2) + 0xC0) + ((0xEF - (( (((scan)->flags)) >> 2) + 0xC0)) >> ((((scan)-> flags)) & 3)))) >= ((((((scan)->flags)) >> 2) + 0xC0))) ? (void)0 : __assert2("re_exec.c", 6910, __func__, "(((((((scan)->flags)) >> 2) + 0xC0) + ((0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ((((scan)->flags)) & 3)))) >= ((((((scan)->flags)) >> 2) + 0xC0))" )), ( (sizeof((U8) (((( (sizeof(*locinput) == 1) || !(((U64)( (*locinput) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6908, __func__, "( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))" )), ((U8) ((*locinput) | 0)))) == sizeof(U8)) ? ((((NV) ((((( ((scan)->flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2("re_exec.c", 6910, __func__, "(NV) (((((((scan)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((scan)->flags)) >> 2) + 0xC0) + ( (0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ( (((scan)->flags)) & 3)))) - ((((((scan)->flags)) >> 2) + 0xC0)))) >= 0) ? (void)0 : __assert2("re_exec.c", 6910 , __func__, "(NV) (((((((((scan)->flags)) >> 2) + 0xC0) + ((0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ((((scan)->flags)) & 3)))) - ((((((scan)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U8) ((U8) (((( (sizeof(*locinput) == 1) || ! (((U64)((*locinput) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6908, __func__, "( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))" )), ((U8) ((*locinput) | 0))))))) - ((((((((scan)->flags)) >> 2) + 0xC0))) | 0))) <= (((U64) ((((((((((scan)-> flags)) >> 2) + 0xC0) + ((0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ((((scan)->flags)) & 3) ))) - ((((((scan)->flags)) >> 2) + 0xC0)))) | 0))))) : (sizeof((U8) (((( (sizeof(*locinput) == 1) || !(((U64)((*locinput ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6908 , __func__, "( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))" )), ((U8) ((*locinput) | 0)))) == sizeof(U32)) ? ((((NV) (((( (((scan)->flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2("re_exec.c", 6910, __func__, "(NV) (((((((scan)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((scan)->flags)) >> 2) + 0xC0) + ( (0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ( (((scan)->flags)) & 3)))) - ((((((scan)->flags)) >> 2) + 0xC0)))) >= 0) ? (void)0 : __assert2("re_exec.c", 6910 , __func__, "(NV) (((((((((scan)->flags)) >> 2) + 0xC0) + ((0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ((((scan)->flags)) & 3)))) - ((((((scan)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U32) ((U8) (((( (sizeof(*locinput) == 1) || ! (((U64)((*locinput) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6908, __func__, "( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))" )), ((U8) ((*locinput) | 0))))))) - ((((((((scan)->flags)) >> 2) + 0xC0))) | 0))) <= (((U64) ((((((((((scan)-> flags)) >> 2) + 0xC0) + ((0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ((((scan)->flags)) & 3) ))) - ((((((scan)->flags)) >> 2) + 0xC0)))) | 0))))) : (((sizeof((U8) (((( (sizeof(*locinput) == 1) || !(((U64)(( *locinput) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6908, __func__, "( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))" )), ((U8) ((*locinput) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 6910, __func__, "sizeof((U8) (((( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6908, __func__, \"( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))\")), ((U8) ((*locinput) | 0)))) == sizeof(U64)" )), ((((NV) (((((((scan)->flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2("re_exec.c", 6910, __func__, "(NV) (((((((scan)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((scan)->flags)) >> 2) + 0xC0) + ( (0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ( (((scan)->flags)) & 3)))) - ((((((scan)->flags)) >> 2) + 0xC0)))) >= 0) ? (void)0 : __assert2("re_exec.c", 6910 , __func__, "(NV) (((((((((scan)->flags)) >> 2) + 0xC0) + ((0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ((((scan)->flags)) & 3)))) - ((((((scan)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U64) ((U8) (((( (sizeof(*locinput) == 1) || ! (((U64)((*locinput) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6908, __func__, "( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))" )), ((U8) ((*locinput) | 0))))))) - ((((((((scan)->flags)) >> 2) + 0xC0))) | 0))) <= (((U64) ((((((((((scan)-> flags)) >> 2) + 0xC0) + ((0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ((((scan)->flags)) & 3) ))) - ((((((scan)->flags)) >> 2) + 0xC0)))) | 0))))) ))) |
6910 | HIGHEST_ANYOF_HRx_BYTE(ANYOF_FLAGS(scan)))((((((((((scan)->flags)) >> 2) + 0xC0) + ((0xEF - (( (((scan)->flags)) >> 2) + 0xC0)) >> ((((scan)-> flags)) & 3)))) >= ((((((scan)->flags)) >> 2) + 0xC0))) ? (void)0 : __assert2("re_exec.c", 6910, __func__, "(((((((scan)->flags)) >> 2) + 0xC0) + ((0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ((((scan)->flags)) & 3)))) >= ((((((scan)->flags)) >> 2) + 0xC0))" )), ( (sizeof((U8) (((( (sizeof(*locinput) == 1) || !(((U64)( (*locinput) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6908, __func__, "( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))" )), ((U8) ((*locinput) | 0)))) == sizeof(U8)) ? ((((NV) ((((( ((scan)->flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2("re_exec.c", 6910, __func__, "(NV) (((((((scan)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((scan)->flags)) >> 2) + 0xC0) + ( (0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ( (((scan)->flags)) & 3)))) - ((((((scan)->flags)) >> 2) + 0xC0)))) >= 0) ? (void)0 : __assert2("re_exec.c", 6910 , __func__, "(NV) (((((((((scan)->flags)) >> 2) + 0xC0) + ((0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ((((scan)->flags)) & 3)))) - ((((((scan)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U8) ((U8) (((( (sizeof(*locinput) == 1) || ! (((U64)((*locinput) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6908, __func__, "( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))" )), ((U8) ((*locinput) | 0))))))) - ((((((((scan)->flags)) >> 2) + 0xC0))) | 0))) <= (((U64) ((((((((((scan)-> flags)) >> 2) + 0xC0) + ((0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ((((scan)->flags)) & 3) ))) - ((((((scan)->flags)) >> 2) + 0xC0)))) | 0))))) : (sizeof((U8) (((( (sizeof(*locinput) == 1) || !(((U64)((*locinput ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6908 , __func__, "( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))" )), ((U8) ((*locinput) | 0)))) == sizeof(U32)) ? ((((NV) (((( (((scan)->flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2("re_exec.c", 6910, __func__, "(NV) (((((((scan)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((scan)->flags)) >> 2) + 0xC0) + ( (0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ( (((scan)->flags)) & 3)))) - ((((((scan)->flags)) >> 2) + 0xC0)))) >= 0) ? (void)0 : __assert2("re_exec.c", 6910 , __func__, "(NV) (((((((((scan)->flags)) >> 2) + 0xC0) + ((0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ((((scan)->flags)) & 3)))) - ((((((scan)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U32) ((U8) (((( (sizeof(*locinput) == 1) || ! (((U64)((*locinput) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6908, __func__, "( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))" )), ((U8) ((*locinput) | 0))))))) - ((((((((scan)->flags)) >> 2) + 0xC0))) | 0))) <= (((U64) ((((((((((scan)-> flags)) >> 2) + 0xC0) + ((0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ((((scan)->flags)) & 3) ))) - ((((((scan)->flags)) >> 2) + 0xC0)))) | 0))))) : (((sizeof((U8) (((( (sizeof(*locinput) == 1) || !(((U64)(( *locinput) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 6908, __func__, "( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))" )), ((U8) ((*locinput) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 6910, __func__, "sizeof((U8) (((( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 6908, __func__, \"( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))\")), ((U8) ((*locinput) | 0)))) == sizeof(U64)" )), ((((NV) (((((((scan)->flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2("re_exec.c", 6910, __func__, "(NV) (((((((scan)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((scan)->flags)) >> 2) + 0xC0) + ( (0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ( (((scan)->flags)) & 3)))) - ((((((scan)->flags)) >> 2) + 0xC0)))) >= 0) ? (void)0 : __assert2("re_exec.c", 6910 , __func__, "(NV) (((((((((scan)->flags)) >> 2) + 0xC0) + ((0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ((((scan)->flags)) & 3)))) - ((((((scan)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U64) ((U8) (((( (sizeof(*locinput) == 1) || ! (((U64)((*locinput) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 6908, __func__, "( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))" )), ((U8) ((*locinput) | 0))))))) - ((((((((scan)->flags)) >> 2) + 0xC0))) | 0))) <= (((U64) ((((((((((scan)-> flags)) >> 2) + 0xC0) + ((0xEF - (((((scan)->flags)) >> 2) + 0xC0)) >> ((((scan)->flags)) & 3) ))) - ((((((scan)->flags)) >> 2) + 0xC0)))) | 0))))) ))) |
6911 | || ! reginclass(rex, scan, (U8*)locinput, (U8*) loceol,S_reginclass( rex,scan,(U8*)locinput,(U8*) loceol,utf8_target ) |
6912 | utf8_target)S_reginclass( rex,scan,(U8*)locinput,(U8*) loceol,utf8_target )) |
6913 | { |
6914 | sayNOgoto no; |
6915 | } |
6916 | goto increment_locinput; |
6917 | break; |
6918 | |
6919 | case ANYOFHs25: |
6920 | if ( ! utf8_target |
6921 | || NEXTCHR_IS_EOS(nextchr < 0) |
6922 | || loceol - locinput < FLAGS(scan)((scan)->flags) |
6923 | || memNE(locinput, ((struct regnode_anyofhs *) scan)->string, FLAGS(scan))(! (memcmp(((const void *) (locinput)), ((const void *) (((struct regnode_anyofhs *) scan)->string)), ((scan)->flags)) == 0)) |
6924 | || ! reginclass(rex, scan, (U8*)locinput, (U8*) loceol,S_reginclass( rex,scan,(U8*)locinput,(U8*) loceol,utf8_target ) |
6925 | utf8_target)S_reginclass( rex,scan,(U8*)locinput,(U8*) loceol,utf8_target )) |
6926 | { |
6927 | sayNOgoto no; |
6928 | } |
6929 | goto increment_locinput; |
6930 | break; |
6931 | |
6932 | case ANYOFR26: |
6933 | if (NEXTCHR_IS_EOS(nextchr < 0)) { |
6934 | sayNOgoto no; |
6935 | } |
6936 | |
6937 | if (utf8_target) { |
6938 | if ( ANYOF_FLAGS(scan)((scan)->flags) > NATIVE_UTF8_TO_I8(*locinput)(((( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 6938, __func__, "( (sizeof(*locinput) == 1) || !(((U64)((*locinput) | 0)) & ~0xFF))" )), ((U8) ((*locinput) | 0))) |
6939 | || ! withinCOUNT(utf8_to_uvchr_buf((U8 *) locinput,((((NV) ((((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 6942, __func__, "(NV) ((((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)scan)->arg1)) >> 20)) >= 0) ? (void)0 : __assert2("re_exec.c", 6942, __func__ , "(NV) ((((((struct regnode_1 *)scan)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) locinput),(const U8 *) (U8 *) reginfo->strend,((void *)0)))) - (((((((struct regnode_1 *)scan)->arg1)) & (( 1 << 20) - 1))) | 0))) <= (((U64) (((((((struct regnode_1 *)scan)->arg1)) >> 20)) | 0))))) |
6940 | (U8 *) reginfo->strend,((((NV) ((((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 6942, __func__, "(NV) ((((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)scan)->arg1)) >> 20)) >= 0) ? (void)0 : __assert2("re_exec.c", 6942, __func__ , "(NV) ((((((struct regnode_1 *)scan)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) locinput),(const U8 *) (U8 *) reginfo->strend,((void *)0)))) - (((((((struct regnode_1 *)scan)->arg1)) & (( 1 << 20) - 1))) | 0))) <= (((U64) (((((((struct regnode_1 *)scan)->arg1)) >> 20)) | 0))))) |
6941 | NULL),((((NV) ((((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 6942, __func__, "(NV) ((((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)scan)->arg1)) >> 20)) >= 0) ? (void)0 : __assert2("re_exec.c", 6942, __func__ , "(NV) ((((((struct regnode_1 *)scan)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) locinput),(const U8 *) (U8 *) reginfo->strend,((void *)0)))) - (((((((struct regnode_1 *)scan)->arg1)) & (( 1 << 20) - 1))) | 0))) <= (((U64) (((((((struct regnode_1 *)scan)->arg1)) >> 20)) | 0))))) |
6942 | ANYOFRbase(scan), ANYOFRdelta(scan))((((NV) ((((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 6942, __func__, "(NV) ((((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)scan)->arg1)) >> 20)) >= 0) ? (void)0 : __assert2("re_exec.c", 6942, __func__ , "(NV) ((((((struct regnode_1 *)scan)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) locinput),(const U8 *) (U8 *) reginfo->strend,((void *)0)))) - (((((((struct regnode_1 *)scan)->arg1)) & (( 1 << 20) - 1))) | 0))) <= (((U64) (((((((struct regnode_1 *)scan)->arg1)) >> 20)) | 0)))))) |
6943 | { |
6944 | sayNOgoto no; |
6945 | } |
6946 | } |
6947 | else { |
6948 | if (! withinCOUNT((U8) *locinput,((((NV) ((((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 6949, __func__, "(NV) ((((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)scan)->arg1)) >> 20)) >= 0) ? (void)0 : __assert2("re_exec.c", 6949, __func__ , "(NV) ((((((struct regnode_1 *)scan)->arg1)) >> 20)) >= 0" )), (((U64) ((((U8) *locinput)) - (((((((struct regnode_1 *)scan )->arg1)) & ((1 << 20) - 1))) | 0))) <= (((U64 ) (((((((struct regnode_1 *)scan)->arg1)) >> 20)) | 0 ))))) |
6949 | ANYOFRbase(scan), ANYOFRdelta(scan))((((NV) ((((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 6949, __func__, "(NV) ((((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)scan)->arg1)) >> 20)) >= 0) ? (void)0 : __assert2("re_exec.c", 6949, __func__ , "(NV) ((((((struct regnode_1 *)scan)->arg1)) >> 20)) >= 0" )), (((U64) ((((U8) *locinput)) - (((((((struct regnode_1 *)scan )->arg1)) & ((1 << 20) - 1))) | 0))) <= (((U64 ) (((((((struct regnode_1 *)scan)->arg1)) >> 20)) | 0 )))))) |
6950 | { |
6951 | sayNOgoto no; |
6952 | } |
6953 | } |
6954 | goto increment_locinput; |
6955 | break; |
6956 | |
6957 | case ANYOFRb27: |
6958 | if (NEXTCHR_IS_EOS(nextchr < 0)) { |
6959 | sayNOgoto no; |
6960 | } |
6961 | |
6962 | if (utf8_target) { |
6963 | if ( ANYOF_FLAGS(scan)((scan)->flags) != (U8) *locinput |
6964 | || ! withinCOUNT(utf8_to_uvchr_buf((U8 *) locinput,((((NV) ((((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 6967, __func__, "(NV) ((((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)scan)->arg1)) >> 20)) >= 0) ? (void)0 : __assert2("re_exec.c", 6967, __func__ , "(NV) ((((((struct regnode_1 *)scan)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) locinput),(const U8 *) (U8 *) reginfo->strend,((void *)0)))) - (((((((struct regnode_1 *)scan)->arg1)) & (( 1 << 20) - 1))) | 0))) <= (((U64) (((((((struct regnode_1 *)scan)->arg1)) >> 20)) | 0))))) |
6965 | (U8 *) reginfo->strend,((((NV) ((((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 6967, __func__, "(NV) ((((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)scan)->arg1)) >> 20)) >= 0) ? (void)0 : __assert2("re_exec.c", 6967, __func__ , "(NV) ((((((struct regnode_1 *)scan)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) locinput),(const U8 *) (U8 *) reginfo->strend,((void *)0)))) - (((((((struct regnode_1 *)scan)->arg1)) & (( 1 << 20) - 1))) | 0))) <= (((U64) (((((((struct regnode_1 *)scan)->arg1)) >> 20)) | 0))))) |
6966 | NULL),((((NV) ((((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 6967, __func__, "(NV) ((((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)scan)->arg1)) >> 20)) >= 0) ? (void)0 : __assert2("re_exec.c", 6967, __func__ , "(NV) ((((((struct regnode_1 *)scan)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) locinput),(const U8 *) (U8 *) reginfo->strend,((void *)0)))) - (((((((struct regnode_1 *)scan)->arg1)) & (( 1 << 20) - 1))) | 0))) <= (((U64) (((((((struct regnode_1 *)scan)->arg1)) >> 20)) | 0))))) |
6967 | ANYOFRbase(scan), ANYOFRdelta(scan))((((NV) ((((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 6967, __func__, "(NV) ((((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)scan)->arg1)) >> 20)) >= 0) ? (void)0 : __assert2("re_exec.c", 6967, __func__ , "(NV) ((((((struct regnode_1 *)scan)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) locinput),(const U8 *) (U8 *) reginfo->strend,((void *)0)))) - (((((((struct regnode_1 *)scan)->arg1)) & (( 1 << 20) - 1))) | 0))) <= (((U64) (((((((struct regnode_1 *)scan)->arg1)) >> 20)) | 0)))))) |
6968 | { |
6969 | sayNOgoto no; |
6970 | } |
6971 | } |
6972 | else { |
6973 | if (! withinCOUNT((U8) *locinput,((((NV) ((((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 6974, __func__, "(NV) ((((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)scan)->arg1)) >> 20)) >= 0) ? (void)0 : __assert2("re_exec.c", 6974, __func__ , "(NV) ((((((struct regnode_1 *)scan)->arg1)) >> 20)) >= 0" )), (((U64) ((((U8) *locinput)) - (((((((struct regnode_1 *)scan )->arg1)) & ((1 << 20) - 1))) | 0))) <= (((U64 ) (((((((struct regnode_1 *)scan)->arg1)) >> 20)) | 0 ))))) |
6974 | ANYOFRbase(scan), ANYOFRdelta(scan))((((NV) ((((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 6974, __func__, "(NV) ((((((struct regnode_1 *)scan)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)scan)->arg1)) >> 20)) >= 0) ? (void)0 : __assert2("re_exec.c", 6974, __func__ , "(NV) ((((((struct regnode_1 *)scan)->arg1)) >> 20)) >= 0" )), (((U64) ((((U8) *locinput)) - (((((((struct regnode_1 *)scan )->arg1)) & ((1 << 20) - 1))) | 0))) <= (((U64 ) (((((((struct regnode_1 *)scan)->arg1)) >> 20)) | 0 )))))) |
6975 | { |
6976 | sayNOgoto no; |
6977 | } |
6978 | } |
6979 | goto increment_locinput; |
6980 | break; |
6981 | |
6982 | /* The argument (FLAGS) to all the POSIX node types is the class number |
6983 | * */ |
6984 | |
6985 | case NPOSIXL35: /* \W or [:^punct:] etc. under /l */ |
6986 | to_complement = 1; |
6987 | /* FALLTHROUGH */ |
6988 | |
6989 | case POSIXL31: /* \w or [:punct:] etc. under /l */ |
6990 | _CHECK_AND_WARN_PROBLEMATIC_LOCALEdo { if (__builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool )0),(0))) { Perl__warn_problematic_locale(); } } while (0); |
6991 | if (NEXTCHR_IS_EOS(nextchr < 0) || locinput >= loceol) |
6992 | sayNOgoto no; |
6993 | |
6994 | /* Use isFOO_lc() for characters within Latin1. (Note that |
6995 | * UTF8_IS_INVARIANT works even on non-UTF-8 strings, or else |
6996 | * wouldn't be invariant) */ |
6997 | if (UTF8_IS_INVARIANT(nextchr)((((U64)(((UV) (((nextchr) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0))) || ! utf8_target) { |
6998 | if (! (to_complement ^ cBOOL(isFOO_lc(FLAGS(scan), (U8) nextchr))((Perl_isFOO_lc( ((scan)->flags),(U8) nextchr)) ? (_Bool)1 : (_Bool)0))) { |
6999 | sayNOgoto no; |
7000 | } |
7001 | |
7002 | locinput++; |
7003 | break; |
7004 | } |
7005 | |
7006 | if (! UTF8_IS_NEXT_CHAR_DOWNGRADEABLE(locinput, reginfo->strend)( (((( (sizeof(*(locinput)) == 1) || !(((U64)((*(locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7006, __func__ , "( (sizeof(*(locinput)) == 1) || !(((U64)((*(locinput)) | 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_exec.c", 7006 , __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(*(locinput)) == 1) || !(((U64)((*( locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7006, __func__, "( (sizeof(*(locinput)) == 1) || !(((U64)((*(locinput)) | 0)) & ~0xFF))" )), ((U8) ((*(locinput)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7006, __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_exec.c" , 7006, __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(*(locinput)) == 1) || !((( U64)((*(locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7006, __func__, "( (sizeof(*(locinput)) == 1) || !(((U64)((*(locinput)) | 0)) & ~0xFF))" )), ((U8) ((*(locinput)) | 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(*(locinput)) == 1) || !(((U64) ((*(locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7006, __func__, "( (sizeof(*(locinput)) == 1) || !(((U64)((*(locinput)) | 0)) & ~0xFF))" )), ((U8) ((*(locinput)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7006, __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_exec.c" , 7006, __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(*(locinput)) == 1) || !(( (U64)((*(locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7006, __func__, "( (sizeof(*(locinput)) == 1) || !(((U64)((*(locinput)) | 0)) & ~0xFF))" )), ((U8) ((*(locinput)) | 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(*(locinput)) == 1) || !(((U64 )((*(locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7006, __func__, "( (sizeof(*(locinput)) == 1) || !(((U64)((*(locinput)) | 0)) & ~0xFF))" )), ((U8) ((*(locinput)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 7006, __func__, "sizeof((((( (sizeof(*(locinput)) == 1) || !(((U64)((*(locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7006, __func__, \"( (sizeof(*(locinput)) == 1) || !(((U64)((*(locinput)) | 0)) & ~0xFF))\")), ((U8) ((*(locinput)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 7006, __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_exec.c" , 7006, __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(*(locinput)) == 1) || !(( (U64)((*(locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7006, __func__, "( (sizeof(*(locinput)) == 1) || !(((U64)((*(locinput)) | 0)) & ~0xFF))" )), ((U8) ((*(locinput)) | 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))))))))) && ( (reginfo->strend) - (locinput) > 1) && (((( (sizeof(*((locinput)+1)) == 1) || !(((U64 )((*((locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7006, __func__, "( (sizeof(*((locinput)+1)) == 1) || !(((U64)((*((locinput)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((locinput)+1)) == 1) || !(((U64)((*((locinput )+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7006, __func__, "( (sizeof(*((locinput)+1)) == 1) || !(((U64)((*((locinput)+1)) | 0)) & ~0xFF))" )), ((U8) ((*((locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0)))))) { |
7007 | /* An above Latin-1 code point, or malformed */ |
7008 | _CHECK_AND_OUTPUT_WIDE_LOCALE_UTF8_MSG(locinput,do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) (locinput)),(const U8 *) (U8 *) (reginfo->strend),(( void*)0)); Perl_warner( (63 ), "Wide character (U+%" "lX" ") in %s" , (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type])); } } while (0) |
7009 | reginfo->strend)do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) (locinput)),(const U8 *) (U8 *) (reginfo->strend),(( void*)0)); Perl_warner( (63 ), "Wide character (U+%" "lX" ") in %s" , (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type])); } } while (0); |
7010 | goto utf8_posix_above_latin1; |
7011 | } |
7012 | |
7013 | /* Here is a UTF-8 variant code point below 256 and the target is |
7014 | * UTF-8 */ |
7015 | if (! (to_complement ^ cBOOL(isFOO_lc(FLAGS(scan),((Perl_isFOO_lc( ((scan)->flags),( (((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7017, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 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_exec.c", 7017 , __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(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7017 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7017, __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_exec.c" , 7017, __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(nextchr) == 1) || !(((U64) ((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7017, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7017 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7017, __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_exec.c" , 7017, __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(nextchr) == 1) || !(((U64 )((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7017, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)(( nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7017, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 7017, __func__, "sizeof((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 7017, __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_exec.c" , 7017, __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(nextchr) == 1) || !(((U64 )((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7017, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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_exec.c", 7017, __func__ , "(((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 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_exec.c\", 7017, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7017, __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_exec.c\", 7017, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7017, __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_exec.c\", 7017, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"sizeof((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 7017, __func__, \\\"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\\\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7017, __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_exec.c\", 7017, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7017, __func__, "( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7017, __func__, "( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))" )), ((U8) ((*(locinput + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 7017, __func__, "(((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))\")), ((U8) ((*(locinput + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(locinput + 1))) == 1) || !(( (U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7017, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7017, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7017, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(locinput + 1) )) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7017, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7017, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7017, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7017, __func__, "( (sizeof((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64) (((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7017, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7017, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7017, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))) ? (_Bool)1 : (_Bool)0) |
7016 | EIGHT_BIT_UTF8_TO_NATIVE(nextchr,((Perl_isFOO_lc( ((scan)->flags),( (((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7017, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 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_exec.c", 7017 , __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(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7017 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7017, __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_exec.c" , 7017, __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(nextchr) == 1) || !(((U64) ((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7017, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7017 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7017, __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_exec.c" , 7017, __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(nextchr) == 1) || !(((U64 )((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7017, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)(( nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7017, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 7017, __func__, "sizeof((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 7017, __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_exec.c" , 7017, __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(nextchr) == 1) || !(((U64 )((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7017, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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_exec.c", 7017, __func__ , "(((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 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_exec.c\", 7017, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7017, __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_exec.c\", 7017, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7017, __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_exec.c\", 7017, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"sizeof((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 7017, __func__, \\\"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\\\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7017, __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_exec.c\", 7017, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7017, __func__, "( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7017, __func__, "( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))" )), ((U8) ((*(locinput + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 7017, __func__, "(((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))\")), ((U8) ((*(locinput + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(locinput + 1))) == 1) || !(( (U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7017, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7017, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7017, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(locinput + 1) )) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7017, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7017, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7017, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7017, __func__, "( (sizeof((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64) (((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7017, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7017, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7017, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))) ? (_Bool)1 : (_Bool)0) |
7017 | *(locinput + 1))))((Perl_isFOO_lc( ((scan)->flags),( (((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7017, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 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_exec.c", 7017 , __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(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7017 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7017, __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_exec.c" , 7017, __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(nextchr) == 1) || !(((U64) ((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7017, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7017 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7017, __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_exec.c" , 7017, __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(nextchr) == 1) || !(((U64 )((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7017, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)(( nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7017, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 7017, __func__, "sizeof((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 7017, __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_exec.c" , 7017, __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(nextchr) == 1) || !(((U64 )((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7017, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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_exec.c", 7017, __func__ , "(((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 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_exec.c\", 7017, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7017, __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_exec.c\", 7017, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7017, __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_exec.c\", 7017, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"sizeof((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 7017, __func__, \\\"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\\\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7017, __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_exec.c\", 7017, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7017, __func__, "( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7017, __func__, "( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))" )), ((U8) ((*(locinput + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 7017, __func__, "(((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))\")), ((U8) ((*(locinput + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(locinput + 1))) == 1) || !(( (U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7017, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7017, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7017, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(locinput + 1) )) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7017, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7017, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7017, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7017, __func__, "( (sizeof((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7017, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64) (((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7017, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7017, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7017, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))) ? (_Bool)1 : (_Bool)0))) |
7018 | { |
7019 | sayNOgoto no; |
7020 | } |
7021 | |
7022 | goto increment_locinput; |
7023 | |
7024 | case NPOSIXD34: /* \W or [:^punct:] etc. under /d */ |
7025 | to_complement = 1; |
7026 | /* FALLTHROUGH */ |
7027 | |
7028 | case POSIXD30: /* \w or [:punct:] etc. under /d */ |
7029 | if (utf8_target) { |
7030 | goto utf8_posix; |
7031 | } |
7032 | goto posixa; |
7033 | |
7034 | case NPOSIXA37: /* \W or [:^punct:] etc. under /a */ |
7035 | |
7036 | if (NEXTCHR_IS_EOS(nextchr < 0) || locinput >= loceol) { |
7037 | sayNOgoto no; |
7038 | } |
7039 | |
7040 | /* All UTF-8 variants match */ |
7041 | if (! UTF8_IS_INVARIANT(nextchr)((((U64)(((UV) (((nextchr) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) { |
7042 | goto increment_locinput; |
7043 | } |
7044 | |
7045 | to_complement = 1; |
7046 | goto join_nposixa; |
7047 | |
7048 | case POSIXA33: /* \w or [:punct:] etc. under /a */ |
7049 | |
7050 | posixa: |
7051 | /* We get here through POSIXD, NPOSIXD, and NPOSIXA when not in |
7052 | * UTF-8, and also from NPOSIXA even in UTF-8 when the current |
7053 | * character is a single byte */ |
7054 | |
7055 | if (NEXTCHR_IS_EOS(nextchr < 0) || locinput >= loceol) { |
7056 | sayNOgoto no; |
7057 | } |
7058 | |
7059 | join_nposixa: |
7060 | |
7061 | if (! (to_complement ^ cBOOL(_generic_isCC_A(nextchr,(((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (nextchr)] & ((1U << (((scan)->flags))) | (1U << (14)))) == ((1U << (((scan)->flags))) | (1U << (14)))))) ? (_Bool )1 : (_Bool)0) |
7062 | FLAGS(scan)))(((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF)) && ((PL_charclass[(U8) (nextchr)] & ((1U << (((scan)->flags))) | (1U << (14)))) == ((1U << (((scan)->flags))) | (1U << (14)))))) ? (_Bool )1 : (_Bool)0))) |
7063 | { |
7064 | sayNOgoto no; |
7065 | } |
7066 | |
7067 | /* Here we are either not in utf8, or we matched a utf8-invariant, |
7068 | * so the next char is the next byte */ |
7069 | locinput++; |
7070 | break; |
7071 | |
7072 | case NPOSIXU36: /* \W or [:^punct:] etc. under /u */ |
7073 | to_complement = 1; |
7074 | /* FALLTHROUGH */ |
7075 | |
7076 | case POSIXU32: /* \w or [:punct:] etc. under /u */ |
7077 | utf8_posix: |
7078 | if (NEXTCHR_IS_EOS(nextchr < 0) || locinput >= loceol) { |
7079 | sayNOgoto no; |
7080 | } |
7081 | |
7082 | /* Use _generic_isCC() for characters within Latin1. (Note that |
7083 | * UTF8_IS_INVARIANT works even on non-UTF-8 strings, or else |
7084 | * wouldn't be invariant) */ |
7085 | if (UTF8_IS_INVARIANT(nextchr)((((U64)(((UV) (((nextchr) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0))) || ! utf8_target) { |
7086 | if (! (to_complement ^ cBOOL(_generic_isCC(nextchr,((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF)) && (PL_charclass[(U8) (nextchr)] & (1U << (((scan)->flags))))) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0) |
7087 | FLAGS(scan)))((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF)) && (PL_charclass[(U8) (nextchr)] & (1U << (((scan)->flags))))) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0))) |
7088 | { |
7089 | sayNOgoto no; |
7090 | } |
7091 | locinput++; |
7092 | } |
7093 | else if (UTF8_IS_NEXT_CHAR_DOWNGRADEABLE(locinput, reginfo->strend)( (((( (sizeof(*(locinput)) == 1) || !(((U64)((*(locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7093, __func__ , "( (sizeof(*(locinput)) == 1) || !(((U64)((*(locinput)) | 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_exec.c", 7093 , __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(*(locinput)) == 1) || !(((U64)((*( locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7093, __func__, "( (sizeof(*(locinput)) == 1) || !(((U64)((*(locinput)) | 0)) & ~0xFF))" )), ((U8) ((*(locinput)) | 0)))) == sizeof(U8)) ? ((((NV) ((( ((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7093, __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_exec.c" , 7093, __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(*(locinput)) == 1) || !((( U64)((*(locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7093, __func__, "( (sizeof(*(locinput)) == 1) || !(((U64)((*(locinput)) | 0)) & ~0xFF))" )), ((U8) ((*(locinput)) | 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(*(locinput)) == 1) || !(((U64) ((*(locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7093, __func__, "( (sizeof(*(locinput)) == 1) || !(((U64)((*(locinput)) | 0)) & ~0xFF))" )), ((U8) ((*(locinput)) | 0)))) == sizeof(U32)) ? ((((NV) (( (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7093, __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_exec.c" , 7093, __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(*(locinput)) == 1) || !(( (U64)((*(locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7093, __func__, "( (sizeof(*(locinput)) == 1) || !(((U64)((*(locinput)) | 0)) & ~0xFF))" )), ((U8) ((*(locinput)) | 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(*(locinput)) == 1) || !(((U64 )((*(locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7093, __func__, "( (sizeof(*(locinput)) == 1) || !(((U64)((*(locinput)) | 0)) & ~0xFF))" )), ((U8) ((*(locinput)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 7093, __func__, "sizeof((((( (sizeof(*(locinput)) == 1) || !(((U64)((*(locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7093, __func__, \"( (sizeof(*(locinput)) == 1) || !(((U64)((*(locinput)) | 0)) & ~0xFF))\")), ((U8) ((*(locinput)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 7093, __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_exec.c" , 7093, __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(*(locinput)) == 1) || !(( (U64)((*(locinput)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7093, __func__, "( (sizeof(*(locinput)) == 1) || !(((U64)((*(locinput)) | 0)) & ~0xFF))" )), ((U8) ((*(locinput)) | 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))))))))) && ( (reginfo->strend) - (locinput) > 1) && (((( (sizeof(*((locinput)+1)) == 1) || !(((U64 )((*((locinput)+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7093, __func__, "( (sizeof(*((locinput)+1)) == 1) || !(((U64)((*((locinput)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((locinput)+1)) == 1) || !(((U64)((*((locinput )+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7093, __func__, "( (sizeof(*((locinput)+1)) == 1) || !(((U64)((*((locinput)+1)) | 0)) & ~0xFF))" )), ((U8) ((*((locinput)+1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0)))))) { |
7094 | if (! (to_complement |
7095 | ^ cBOOL(_generic_isCC(EIGHT_BIT_UTF8_TO_NATIVE(nextchr,((((( (sizeof(( (((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 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_exec.c", 7096 , __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(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64) ((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64 )((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)(( nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "sizeof((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64 )((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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_exec.c", 7096, __func__ , "(((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"sizeof((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 7096, __func__, \\\"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\\\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))" )), ((U8) ((*(locinput + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "(((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))\")), ((U8) ((*(locinput + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(locinput + 1))) == 1) || !(( (U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(locinput + 1) )) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64) (((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof(nextchr ) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 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_exec.c", 7096 , __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(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64) ((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64 )((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)(( nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "sizeof((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64 )((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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_exec.c", 7096, __func__ , "(((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"sizeof((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 7096, __func__, \\\"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\\\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))" )), ((U8) ((*(locinput + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "(((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))\")), ((U8) ((*(locinput + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(locinput + 1))) == 1) || !(( (U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(locinput + 1) )) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64) (((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) && (PL_charclass [(U8) (( (((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 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_exec.c", 7096 , __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(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64) ((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64 )((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)(( nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "sizeof((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64 )((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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_exec.c", 7096, __func__ , "(((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"sizeof((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 7096, __func__, \\\"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\\\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))" )), ((U8) ((*(locinput + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "(((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))\")), ((U8) ((*(locinput + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(locinput + 1))) == 1) || !(( (U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(locinput + 1) )) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64) (((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (((scan)->flags) )))) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0) |
7096 | *(locinput + 1)),((((( (sizeof(( (((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 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_exec.c", 7096 , __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(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64) ((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64 )((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)(( nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "sizeof((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64 )((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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_exec.c", 7096, __func__ , "(((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"sizeof((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 7096, __func__, \\\"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\\\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))" )), ((U8) ((*(locinput + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "(((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))\")), ((U8) ((*(locinput + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(locinput + 1))) == 1) || !(( (U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(locinput + 1) )) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64) (((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof(nextchr ) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 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_exec.c", 7096 , __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(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64) ((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64 )((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)(( nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "sizeof((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64 )((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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_exec.c", 7096, __func__ , "(((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"sizeof((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 7096, __func__, \\\"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\\\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))" )), ((U8) ((*(locinput + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "(((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))\")), ((U8) ((*(locinput + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(locinput + 1))) == 1) || !(( (U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(locinput + 1) )) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64) (((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) && (PL_charclass [(U8) (( (((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 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_exec.c", 7096 , __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(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64) ((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64 )((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)(( nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "sizeof((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64 )((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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_exec.c", 7096, __func__ , "(((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"sizeof((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 7096, __func__, \\\"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\\\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))" )), ((U8) ((*(locinput + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "(((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))\")), ((U8) ((*(locinput + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(locinput + 1))) == 1) || !(( (U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(locinput + 1) )) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64) (((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (((scan)->flags) )))) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0) |
7097 | FLAGS(scan)))((((( (sizeof(( (((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 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_exec.c", 7096 , __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(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64) ((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64 )((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)(( nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "sizeof((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64 )((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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_exec.c", 7096, __func__ , "(((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"sizeof((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 7096, __func__, \\\"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\\\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))" )), ((U8) ((*(locinput + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "(((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))\")), ((U8) ((*(locinput + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(locinput + 1))) == 1) || !(( (U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(locinput + 1) )) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64) (((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof(nextchr ) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 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_exec.c", 7096 , __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(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64) ((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64 )((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)(( nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "sizeof((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64 )((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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_exec.c", 7096, __func__ , "(((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"sizeof((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 7096, __func__, \\\"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\\\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))" )), ((U8) ((*(locinput + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "(((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))\")), ((U8) ((*(locinput + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(locinput + 1))) == 1) || !(( (U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(locinput + 1) )) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64) (((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) && (PL_charclass [(U8) (( (((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 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_exec.c", 7096 , __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(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64) ((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096 , __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64 )((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)(( nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "sizeof((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 7096, __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_exec.c" , 7096, __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(nextchr) == 1) || !(((U64 )((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 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_exec.c", 7096, __func__ , "(((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"sizeof((((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 7096, __func__, \\\"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\\\")), ((U8) ((nextchr) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 7096, __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_exec.c\", 7096, __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(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 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(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))" )), ((U8) ((*(locinput + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "(((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(*(locinput + 1)) == 1) || !(((U64)((*(locinput + 1)) | 0)) & ~0xFF))\")), ((U8) ((*(locinput + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(locinput + 1))) == 1) || !(( (U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(locinput + 1) )) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 7096, __func__, "( (sizeof((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))\")), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 7096, __func__, \"( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64) (((*(locinput + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 7096, __func__ , "( (sizeof(nextchr) == 1) || !(((U64)((nextchr) | 0)) & ~0xFF))" )), ((U8) ((nextchr) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 7096, __func__, "( (sizeof((*(locinput + 1))) == 1) || !(((U64)(((*(locinput + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(locinput + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (((scan)->flags) )))) ? (_Bool)1 : (_Bool)0)) ? (_Bool)1 : (_Bool)0))) |
7098 | { |
7099 | sayNOgoto no; |
7100 | } |
7101 | locinput += 2; |
7102 | } |
7103 | else { /* Handle above Latin-1 code points */ |
7104 | utf8_posix_above_latin1: |
7105 | classnum = (_char_class_number) FLAGS(scan)((scan)->flags); |
7106 | switch (classnum) { |
7107 | default: |
7108 | if (! (to_complement |
7109 | ^ cBOOL(_invlist_contains_cp(((S__invlist_contains_cp( PL_XPosix_ptrs[classnum], Perl_utf8_to_uvchr_buf_helper ( (const U8 *) ((U8 *) locinput),(const U8 *) (U8 *) reginfo-> strend,((void*)0)))) ? (_Bool)1 : (_Bool)0) |
7110 | PL_XPosix_ptrs[classnum],((S__invlist_contains_cp( PL_XPosix_ptrs[classnum], Perl_utf8_to_uvchr_buf_helper ( (const U8 *) ((U8 *) locinput),(const U8 *) (U8 *) reginfo-> strend,((void*)0)))) ? (_Bool)1 : (_Bool)0) |
7111 | utf8_to_uvchr_buf((U8 *) locinput,((S__invlist_contains_cp( PL_XPosix_ptrs[classnum], Perl_utf8_to_uvchr_buf_helper ( (const U8 *) ((U8 *) locinput),(const U8 *) (U8 *) reginfo-> strend,((void*)0)))) ? (_Bool)1 : (_Bool)0) |
7112 | (U8 *) reginfo->strend,((S__invlist_contains_cp( PL_XPosix_ptrs[classnum], Perl_utf8_to_uvchr_buf_helper ( (const U8 *) ((U8 *) locinput),(const U8 *) (U8 *) reginfo-> strend,((void*)0)))) ? (_Bool)1 : (_Bool)0) |
7113 | NULL)))((S__invlist_contains_cp( PL_XPosix_ptrs[classnum], Perl_utf8_to_uvchr_buf_helper ( (const U8 *) ((U8 *) locinput),(const U8 *) (U8 *) reginfo-> strend,((void*)0)))) ? (_Bool)1 : (_Bool)0))) |
7114 | { |
7115 | sayNOgoto no; |
7116 | } |
7117 | break; |
7118 | case _CC_ENUM_SPACE: |
7119 | if (! (to_complement |
7120 | ^ cBOOL(is_XPERLSPACE_high(locinput))((( ( 0xE1 == ((const U8*)locinput)[0] ) ? ( ( ( 0x9A == ((const U8*)locinput)[1] ) && ( 0x80 == ((const U8*)locinput )[2] ) ) ? 3 : 0 ): ( 0xE2 == ((const U8*)locinput)[0] ) ? ( ( 0x80 == ((const U8*)locinput)[1] ) ? ( ( ((((0x8A) >= (0x80 )) ? (void)0 : __assert2("re_exec.c", 7120, __func__, "(0x8A) >= (0x80)" )), ( (sizeof(((const U8*)locinput)[2]) == sizeof(U8)) ? (((( NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_exec.c", 7120 , __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x8A) - (0x80 ))) >= 0) ? (void)0 : __assert2("re_exec.c", 7120, __func__ , "(NV) (((0x8A) - (0x80))) >= 0")), (((U64) (((((U8) (((const U8*)locinput)[2])))) - (((0x80)) | 0))) <= (((U64) ((((0x8A ) - (0x80))) | 0))))) : (sizeof(((const U8*)locinput)[2]) == sizeof (U32)) ? ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_exec.c" , 7120, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c", 7120, __func__ , "(NV) (((0x8A) - (0x80))) >= 0")), (((U64) (((((U32) ((( const U8*)locinput)[2])))) - (((0x80)) | 0))) <= (((U64) ( (((0x8A) - (0x80))) | 0))))) : (((sizeof(((const U8*)locinput )[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c", 7120 , __func__, "sizeof(((const U8*)locinput)[2]) == sizeof(U64)" )), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_exec.c" , 7120, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c", 7120, __func__ , "(NV) (((0x8A) - (0x80))) >= 0")), (((U64) (((((U64) ((( const U8*)locinput)[2])))) - (((0x80)) | 0))) <= (((U64) ( (((0x8A) - (0x80))) | 0)))))))) || ((((0xA9) >= (0xA8)) ? ( void)0 : __assert2("re_exec.c", 7120, __func__, "(0xA9) >= (0xA8)" )), ( (sizeof(((const U8*)locinput)[2]) == sizeof(U8)) ? (((( NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_exec.c", 7120 , __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8 ))) >= 0) ? (void)0 : __assert2("re_exec.c", 7120, __func__ , "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) (((((U8) (((const U8*)locinput)[2])))) - (((0xA8)) | 0))) <= (((U64) ((((0xA9 ) - (0xA8))) | 0))))) : (sizeof(((const U8*)locinput)[2]) == sizeof (U32)) ? ((((NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_exec.c" , 7120, __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c", 7120, __func__ , "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) (((((U32) ((( const U8*)locinput)[2])))) - (((0xA8)) | 0))) <= (((U64) ( (((0xA9) - (0xA8))) | 0))))) : (((sizeof(((const U8*)locinput )[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c", 7120 , __func__, "sizeof(((const U8*)locinput)[2]) == sizeof(U64)" )), ((((NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_exec.c" , 7120, __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c", 7120, __func__ , "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) (((((U64) ((( const U8*)locinput)[2])))) - (((0xA8)) | 0))) <= (((U64) ( (((0xA9) - (0xA8))) | 0)))))))) || 0xAF == ((const U8*)locinput )[2] ) ? 3 : 0 ) : ( ( 0x81 == ((const U8*)locinput)[1] ) && ( 0x9F == ((const U8*)locinput)[2] ) ) ? 3 : 0 ): ( ( ( 0xE3 == ((const U8*)locinput)[0] ) && ( 0x80 == ((const U8 *)locinput)[1] ) ) && ( 0x80 == ((const U8*)locinput) [2] ) ) ? 3 : 0 )) ? (_Bool)1 : (_Bool)0))) |
7121 | { |
7122 | sayNOgoto no; |
7123 | } |
7124 | break; |
7125 | case _CC_ENUM_BLANK: |
7126 | if (! (to_complement |
7127 | ^ cBOOL(is_HORIZWS_high(locinput))((( ( 0xE1 == ((const U8*)locinput)[0] ) ? ( ( ( 0x9A == ((const U8*)locinput)[1] ) && ( 0x80 == ((const U8*)locinput )[2] ) ) ? 3 : 0 ): ( 0xE2 == ((const U8*)locinput)[0] ) ? ( ( 0x80 == ((const U8*)locinput)[1] ) ? ( ( ((((0x8A) >= (0x80 )) ? (void)0 : __assert2("re_exec.c", 7127, __func__, "(0x8A) >= (0x80)" )), ( (sizeof(((const U8*)locinput)[2]) == sizeof(U8)) ? (((( NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_exec.c", 7127 , __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x8A) - (0x80 ))) >= 0) ? (void)0 : __assert2("re_exec.c", 7127, __func__ , "(NV) (((0x8A) - (0x80))) >= 0")), (((U64) (((((U8) (((const U8*)locinput)[2])))) - (((0x80)) | 0))) <= (((U64) ((((0x8A ) - (0x80))) | 0))))) : (sizeof(((const U8*)locinput)[2]) == sizeof (U32)) ? ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_exec.c" , 7127, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c", 7127, __func__ , "(NV) (((0x8A) - (0x80))) >= 0")), (((U64) (((((U32) ((( const U8*)locinput)[2])))) - (((0x80)) | 0))) <= (((U64) ( (((0x8A) - (0x80))) | 0))))) : (((sizeof(((const U8*)locinput )[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c", 7127 , __func__, "sizeof(((const U8*)locinput)[2]) == sizeof(U64)" )), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_exec.c" , 7127, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c", 7127, __func__ , "(NV) (((0x8A) - (0x80))) >= 0")), (((U64) (((((U64) ((( const U8*)locinput)[2])))) - (((0x80)) | 0))) <= (((U64) ( (((0x8A) - (0x80))) | 0)))))))) || 0xAF == ((const U8*)locinput )[2] ) ? 3 : 0 ) : ( ( 0x81 == ((const U8*)locinput)[1] ) && ( 0x9F == ((const U8*)locinput)[2] ) ) ? 3 : 0 ): ( ( ( 0xE3 == ((const U8*)locinput)[0] ) && ( 0x80 == ((const U8 *)locinput)[1] ) ) && ( 0x80 == ((const U8*)locinput) [2] ) ) ? 3 : 0 )) ? (_Bool)1 : (_Bool)0))) |
7128 | { |
7129 | sayNOgoto no; |
7130 | } |
7131 | break; |
7132 | case _CC_ENUM_XDIGIT: |
7133 | if (! (to_complement |
7134 | ^ cBOOL(is_XDIGIT_high(locinput))((( ( 0xEF == ((const U8*)locinput)[0] ) ? ( ( 0xBC == ((const U8*)locinput)[1] ) ? ( ( ((((0x99) >= (0x90)) ? (void)0 : __assert2("re_exec.c", 7134, __func__, "(0x99) >= (0x90)" )), ( (sizeof(((const U8*)locinput)[2]) == sizeof(U8)) ? (((( NV) ((0x90)) >= 0) ? (void)0 : __assert2("re_exec.c", 7134 , __func__, "(NV) ((0x90)) >= 0")), (((NV) (((0x99) - (0x90 ))) >= 0) ? (void)0 : __assert2("re_exec.c", 7134, __func__ , "(NV) (((0x99) - (0x90))) >= 0")), (((U64) (((((U8) (((const U8*)locinput)[2])))) - (((0x90)) | 0))) <= (((U64) ((((0x99 ) - (0x90))) | 0))))) : (sizeof(((const U8*)locinput)[2]) == sizeof (U32)) ? ((((NV) ((0x90)) >= 0) ? (void)0 : __assert2("re_exec.c" , 7134, __func__, "(NV) ((0x90)) >= 0")), (((NV) (((0x99) - (0x90))) >= 0) ? (void)0 : __assert2("re_exec.c", 7134, __func__ , "(NV) (((0x99) - (0x90))) >= 0")), (((U64) (((((U32) ((( const U8*)locinput)[2])))) - (((0x90)) | 0))) <= (((U64) ( (((0x99) - (0x90))) | 0))))) : (((sizeof(((const U8*)locinput )[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c", 7134 , __func__, "sizeof(((const U8*)locinput)[2]) == sizeof(U64)" )), ((((NV) ((0x90)) >= 0) ? (void)0 : __assert2("re_exec.c" , 7134, __func__, "(NV) ((0x90)) >= 0")), (((NV) (((0x99) - (0x90))) >= 0) ? (void)0 : __assert2("re_exec.c", 7134, __func__ , "(NV) (((0x99) - (0x90))) >= 0")), (((U64) (((((U64) ((( const U8*)locinput)[2])))) - (((0x90)) | 0))) <= (((U64) ( (((0x99) - (0x90))) | 0)))))))) || ((((0xA6) >= (0xA1)) ? ( void)0 : __assert2("re_exec.c", 7134, __func__, "(0xA6) >= (0xA1)" )), ( (sizeof(((const U8*)locinput)[2]) == sizeof(U8)) ? (((( NV) ((0xA1)) >= 0) ? (void)0 : __assert2("re_exec.c", 7134 , __func__, "(NV) ((0xA1)) >= 0")), (((NV) (((0xA6) - (0xA1 ))) >= 0) ? (void)0 : __assert2("re_exec.c", 7134, __func__ , "(NV) (((0xA6) - (0xA1))) >= 0")), (((U64) (((((U8) (((const U8*)locinput)[2])))) - (((0xA1)) | 0))) <= (((U64) ((((0xA6 ) - (0xA1))) | 0))))) : (sizeof(((const U8*)locinput)[2]) == sizeof (U32)) ? ((((NV) ((0xA1)) >= 0) ? (void)0 : __assert2("re_exec.c" , 7134, __func__, "(NV) ((0xA1)) >= 0")), (((NV) (((0xA6) - (0xA1))) >= 0) ? (void)0 : __assert2("re_exec.c", 7134, __func__ , "(NV) (((0xA6) - (0xA1))) >= 0")), (((U64) (((((U32) ((( const U8*)locinput)[2])))) - (((0xA1)) | 0))) <= (((U64) ( (((0xA6) - (0xA1))) | 0))))) : (((sizeof(((const U8*)locinput )[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c", 7134 , __func__, "sizeof(((const U8*)locinput)[2]) == sizeof(U64)" )), ((((NV) ((0xA1)) >= 0) ? (void)0 : __assert2("re_exec.c" , 7134, __func__, "(NV) ((0xA1)) >= 0")), (((NV) (((0xA6) - (0xA1))) >= 0) ? (void)0 : __assert2("re_exec.c", 7134, __func__ , "(NV) (((0xA6) - (0xA1))) >= 0")), (((U64) (((((U64) ((( const U8*)locinput)[2])))) - (((0xA1)) | 0))) <= (((U64) ( (((0xA6) - (0xA1))) | 0)))))))) ) ? 3 : 0 ) : ( ( 0xBD == ((const U8*)locinput)[1] ) && ( ((((0x86) >= (0x81)) ? (void )0 : __assert2("re_exec.c", 7134, __func__, "(0x86) >= (0x81)" )), ( (sizeof(((const U8*)locinput)[2]) == sizeof(U8)) ? (((( NV) ((0x81)) >= 0) ? (void)0 : __assert2("re_exec.c", 7134 , __func__, "(NV) ((0x81)) >= 0")), (((NV) (((0x86) - (0x81 ))) >= 0) ? (void)0 : __assert2("re_exec.c", 7134, __func__ , "(NV) (((0x86) - (0x81))) >= 0")), (((U64) (((((U8) (((const U8*)locinput)[2])))) - (((0x81)) | 0))) <= (((U64) ((((0x86 ) - (0x81))) | 0))))) : (sizeof(((const U8*)locinput)[2]) == sizeof (U32)) ? ((((NV) ((0x81)) >= 0) ? (void)0 : __assert2("re_exec.c" , 7134, __func__, "(NV) ((0x81)) >= 0")), (((NV) (((0x86) - (0x81))) >= 0) ? (void)0 : __assert2("re_exec.c", 7134, __func__ , "(NV) (((0x86) - (0x81))) >= 0")), (((U64) (((((U32) ((( const U8*)locinput)[2])))) - (((0x81)) | 0))) <= (((U64) ( (((0x86) - (0x81))) | 0))))) : (((sizeof(((const U8*)locinput )[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c", 7134 , __func__, "sizeof(((const U8*)locinput)[2]) == sizeof(U64)" )), ((((NV) ((0x81)) >= 0) ? (void)0 : __assert2("re_exec.c" , 7134, __func__, "(NV) ((0x81)) >= 0")), (((NV) (((0x86) - (0x81))) >= 0) ? (void)0 : __assert2("re_exec.c", 7134, __func__ , "(NV) (((0x86) - (0x81))) >= 0")), (((U64) (((((U64) ((( const U8*)locinput)[2])))) - (((0x81)) | 0))) <= (((U64) ( (((0x86) - (0x81))) | 0)))))))) ) ) ? 3 : 0 ): 0 )) ? (_Bool) 1 : (_Bool)0))) |
7135 | { |
7136 | sayNOgoto no; |
7137 | } |
7138 | break; |
7139 | case _CC_ENUM_VERTSPACE: |
7140 | if (! (to_complement |
7141 | ^ cBOOL(is_VERTWS_high(locinput))((( ( ( ( 0xE2 == ((const U8*)locinput)[0] ) && ( 0x80 == ((const U8*)locinput)[1] ) ) && ( ((((0xA9) >= (0xA8)) ? (void)0 : __assert2("re_exec.c", 7141, __func__, "(0xA9) >= (0xA8)" )), ( (sizeof(((const U8*)locinput)[2]) == sizeof(U8)) ? (((( NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_exec.c", 7141 , __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8 ))) >= 0) ? (void)0 : __assert2("re_exec.c", 7141, __func__ , "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) (((((U8) (((const U8*)locinput)[2])))) - (((0xA8)) | 0))) <= (((U64) ((((0xA9 ) - (0xA8))) | 0))))) : (sizeof(((const U8*)locinput)[2]) == sizeof (U32)) ? ((((NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_exec.c" , 7141, __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c", 7141, __func__ , "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) (((((U32) ((( const U8*)locinput)[2])))) - (((0xA8)) | 0))) <= (((U64) ( (((0xA9) - (0xA8))) | 0))))) : (((sizeof(((const U8*)locinput )[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c", 7141 , __func__, "sizeof(((const U8*)locinput)[2]) == sizeof(U64)" )), ((((NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_exec.c" , 7141, __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c", 7141, __func__ , "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) (((((U64) ((( const U8*)locinput)[2])))) - (((0xA8)) | 0))) <= (((U64) ( (((0xA9) - (0xA8))) | 0)))))))) ) ) ? 3 : 0 )) ? (_Bool)1 : ( _Bool)0))) |
7142 | { |
7143 | sayNOgoto no; |
7144 | } |
7145 | break; |
7146 | case _CC_ENUM_CNTRL: /* These can't match above Latin1 */ |
7147 | case _CC_ENUM_ASCII: |
7148 | if (! to_complement) { |
7149 | sayNOgoto no; |
7150 | } |
7151 | break; |
7152 | } |
7153 | locinput += UTF8_SAFE_SKIP(locinput, reginfo->strend)((((reginfo->strend) >= (locinput)) ? (void)0 : __assert2 ("re_exec.c", 7153, __func__, "(reginfo->strend) >= (locinput)" )), ((reginfo->strend) - (locinput)) <= 0 ? 0 : (((((reginfo ->strend) - (locinput)))<(PL_utf8skip[*(const U8*)(locinput )]))?(((reginfo->strend) - (locinput))):(PL_utf8skip[*(const U8*)(locinput)]))); |
7154 | } |
7155 | break; |
7156 | |
7157 | case CLUMP38: /* Match \X: logical Unicode character. This is defined as |
7158 | a Unicode extended Grapheme Cluster */ |
7159 | if (NEXTCHR_IS_EOS(nextchr < 0) || locinput >= loceol) |
7160 | sayNOgoto no; |
7161 | if (! utf8_target) { |
7162 | |
7163 | /* Match either CR LF or '.', as all the other possibilities |
7164 | * require utf8 */ |
7165 | locinput++; /* Match the . or CR */ |
7166 | if (nextchr == '\r' /* And if it was CR, and the next is LF, |
7167 | match the LF */ |
7168 | && locinput < loceol |
7169 | && UCHARAT(locinput)((int)*(const U8*)(locinput)) == '\n') |
7170 | { |
7171 | locinput++; |
7172 | } |
7173 | } |
7174 | else { |
7175 | |
7176 | /* Get the gcb type for the current character */ |
7177 | GCB_enum prev_gcb = getGCB_VAL_UTF8((U8*) locinput,((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2 ("re_exec.c", 7178, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])) |
7178 | (U8*) reginfo->strend)((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2 ("re_exec.c", 7178, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])); |
7179 | |
7180 | /* Then scan through the input until we get to the first |
7181 | * character whose type is supposed to be a gcb with the |
7182 | * current character. (There is always a break at the |
7183 | * end-of-input) */ |
7184 | locinput += UTF8SKIP(locinput)PL_utf8skip[*(const U8*)(locinput)]; |
7185 | while (locinput < loceol) { |
7186 | GCB_enum cur_gcb = getGCB_VAL_UTF8((U8*) locinput,((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2 ("re_exec.c", 7187, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])) |
7187 | (U8*) reginfo->strend)((((U8*) locinput < (U8*) reginfo->strend) ? (void)0 : __assert2 ("re_exec.c", 7187, __func__, "(U8*) locinput < (U8*) reginfo->strend" )), (_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist , (Perl_utf8_to_uvchr_buf_helper( (const U8 *) (((U8*) locinput )),(const U8 *) ((U8*) reginfo->strend),((void*)0))))])); |
7188 | if (isGCB(prev_gcb, cur_gcb,S_isGCB( prev_gcb,cur_gcb,(U8*) reginfo->strbeg,(U8*) locinput ,utf8_target) |
7189 | (U8*) reginfo->strbeg, (U8*) locinput,S_isGCB( prev_gcb,cur_gcb,(U8*) reginfo->strbeg,(U8*) locinput ,utf8_target) |
7190 | utf8_target)S_isGCB( prev_gcb,cur_gcb,(U8*) reginfo->strbeg,(U8*) locinput ,utf8_target)) |
7191 | { |
7192 | break; |
7193 | } |
7194 | |
7195 | prev_gcb = cur_gcb; |
7196 | locinput += UTF8SKIP(locinput)PL_utf8skip[*(const U8*)(locinput)]; |
7197 | } |
7198 | |
7199 | |
7200 | } |
7201 | break; |
7202 | |
7203 | case REFFLN74: /* /\g{name}/il */ |
7204 | { /* The capture buffer cases. The ones beginning with N for the |
7205 | named buffers just convert to the equivalent numbered and |
7206 | pretend they were called as the corresponding numbered buffer |
7207 | op. */ |
7208 | /* don't initialize these in the declaration, it makes C++ |
7209 | unhappy */ |
7210 | const char *s; |
7211 | char type; |
7212 | re_fold_t folder; |
7213 | const U8 *fold_array; |
7214 | UV utf8_fold_flags; |
7215 | |
7216 | _CHECK_AND_WARN_PROBLEMATIC_LOCALEdo { if (__builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool )0),(0))) { Perl__warn_problematic_locale(); } } while (0); |
7217 | folder = foldEQ_localePerl_foldEQ_locale; |
7218 | fold_array = PL_fold_locale; |
7219 | type = REFFL69; |
7220 | utf8_fold_flags = FOLDEQ_LOCALE(1 << 1); |
7221 | goto do_nref; |
7222 | |
7223 | case REFFAN76: /* /\g{name}/iaa */ |
7224 | folder = foldEQ_latin1Perl_foldEQ_latin1; |
7225 | fold_array = PL_fold_latin1; |
7226 | type = REFFA71; |
7227 | utf8_fold_flags = FOLDEQ_UTF8_NOMIX_ASCII(1 << 0); |
7228 | goto do_nref; |
7229 | |
7230 | case REFFUN75: /* /\g{name}/iu */ |
7231 | folder = foldEQ_latin1Perl_foldEQ_latin1; |
7232 | fold_array = PL_fold_latin1; |
7233 | type = REFFU70; |
7234 | utf8_fold_flags = 0; |
7235 | goto do_nref; |
7236 | |
7237 | case REFFN73: /* /\g{name}/i */ |
7238 | folder = foldEQPerl_foldEQ; |
7239 | fold_array = PL_fold; |
7240 | type = REFF68; |
7241 | utf8_fold_flags = 0; |
7242 | goto do_nref; |
7243 | |
7244 | case REFN72: /* /\g{name}/ */ |
7245 | type = REF67; |
7246 | folder = NULL((void*)0); |
7247 | fold_array = NULL((void*)0); |
7248 | utf8_fold_flags = 0; |
7249 | do_nref: |
7250 | |
7251 | /* For the named back references, find the corresponding buffer |
7252 | * number */ |
7253 | n = reg_check_named_buff_matchedS_reg_check_named_buff_matched(rex,scan); |
7254 | |
7255 | if ( ! n ) { |
7256 | sayNOgoto no; |
7257 | } |
7258 | goto do_nref_ref_common; |
7259 | |
7260 | case REFFL69: /* /\1/il */ |
7261 | _CHECK_AND_WARN_PROBLEMATIC_LOCALEdo { if (__builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool )0),(0))) { Perl__warn_problematic_locale(); } } while (0); |
7262 | folder = foldEQ_localePerl_foldEQ_locale; |
7263 | fold_array = PL_fold_locale; |
7264 | utf8_fold_flags = FOLDEQ_LOCALE(1 << 1); |
7265 | goto do_ref; |
7266 | |
7267 | case REFFA71: /* /\1/iaa */ |
7268 | folder = foldEQ_latin1Perl_foldEQ_latin1; |
7269 | fold_array = PL_fold_latin1; |
7270 | utf8_fold_flags = FOLDEQ_UTF8_NOMIX_ASCII(1 << 0); |
7271 | goto do_ref; |
7272 | |
7273 | case REFFU70: /* /\1/iu */ |
7274 | folder = foldEQ_latin1Perl_foldEQ_latin1; |
7275 | fold_array = PL_fold_latin1; |
7276 | utf8_fold_flags = 0; |
7277 | goto do_ref; |
7278 | |
7279 | case REFF68: /* /\1/i */ |
7280 | folder = foldEQPerl_foldEQ; |
7281 | fold_array = PL_fold; |
7282 | utf8_fold_flags = 0; |
7283 | goto do_ref; |
7284 | |
7285 | case REF67: /* /\1/ */ |
7286 | folder = NULL((void*)0); |
7287 | fold_array = NULL((void*)0); |
7288 | utf8_fold_flags = 0; |
7289 | |
7290 | do_ref: |
7291 | type = OP(scan)((scan)->type); |
7292 | n = ARG(scan)((((struct regnode_1 *)scan)->arg1)); /* which paren pair */ |
7293 | |
7294 | do_nref_ref_common: |
7295 | ln = rex->offs[n].start; |
7296 | endref = rex->offs[n].end; |
7297 | reginfo->poscache_iter = reginfo->poscache_maxiter; /* Void cache */ |
7298 | if (rex->lastparen < n || ln == -1 || endref == -1) |
7299 | sayNOgoto no; /* Do not match unless seen CLOSEn. */ |
7300 | if (ln == endref) |
7301 | break; |
7302 | |
7303 | s = reginfo->strbeg + ln; |
7304 | if (type != REF67 /* REF can do byte comparison */ |
7305 | && (utf8_target || type == REFFU70 || type == REFFL69)) |
7306 | { |
7307 | char * limit = loceol; |
7308 | |
7309 | /* This call case insensitively compares the entire buffer |
7310 | * at s, with the current input starting at locinput, but |
7311 | * not going off the end given by loceol, and |
7312 | * returns in <limit> upon success, how much of the |
7313 | * current input was matched */ |
7314 | if (! foldEQ_utf8_flags(s, NULL, endref - ln, utf8_target,Perl_foldEQ_utf8_flags( s,((void*)0),endref - ln,utf8_target, locinput,&limit,0,utf8_target,utf8_fold_flags) |
7315 | locinput, &limit, 0, utf8_target, utf8_fold_flags)Perl_foldEQ_utf8_flags( s,((void*)0),endref - ln,utf8_target, locinput,&limit,0,utf8_target,utf8_fold_flags)) |
7316 | { |
7317 | sayNOgoto no; |
7318 | } |
7319 | locinput = limit; |
7320 | break; |
7321 | } |
7322 | |
7323 | /* Not utf8: Inline the first character, for speed. */ |
7324 | if ( ! NEXTCHR_IS_EOS(nextchr < 0) |
7325 | && locinput < loceol |
7326 | && UCHARAT(s)((int)*(const U8*)(s)) != nextchr |
7327 | && ( type == REF67 |
7328 | || UCHARAT(s)((int)*(const U8*)(s)) != fold_array[nextchr])) |
7329 | { |
7330 | sayNOgoto no; |
7331 | } |
7332 | ln = endref - ln; |
7333 | if (locinput + ln > loceol) |
7334 | sayNOgoto no; |
7335 | if (ln > 1 && (type == REF67 |
7336 | ? memNE(s, locinput, ln)(! (memcmp(((const void *) (s)), ((const void *) (locinput)), ln) == 0)) |
7337 | : ! folder(locinput, s, ln))) |
7338 | sayNOgoto no; |
7339 | locinput += ln; |
7340 | break; |
7341 | } |
7342 | |
7343 | case NOTHING54: /* null op; e.g. the 'nothing' following |
7344 | * the '*' in m{(a+|b)*}' */ |
7345 | break; |
7346 | case TAIL55: /* placeholder while compiling (A|B|C) */ |
7347 | break; |
7348 | |
7349 | #undef ST |
7350 | #define ST st->u.eval |
7351 | #define CUR_EVALcur_eval->u.eval cur_eval->u.eval |
7352 | |
7353 | { |
7354 | SV *ret; |
7355 | REGEXP *re_sv; |
7356 | regexp *re; |
7357 | regexp_internal *rei; |
7358 | regnode *startpoint; |
7359 | U32 arg; |
7360 | |
7361 | case GOSUB92: /* /(...(?1))/ /(...(?&foo))/ */ |
7362 | arg= (U32)ARG(scan)((((struct regnode_1 *)scan)->arg1)); |
7363 | if (cur_eval && cur_eval->locinput == locinput) { |
7364 | if ( ++nochange_depth > max_nochange_depth ) |
7365 | Perl_croak(aTHX_ |
7366 | "Pattern subroutine nesting without pos change" |
7367 | " exceeded limit in regex"); |
7368 | } else { |
7369 | nochange_depth = 0; |
7370 | } |
7371 | re_sv = rex_sv; |
7372 | re = rex; |
7373 | rei = rexi; |
7374 | startpoint = scan + ARG2L(scan)((((struct regnode_2L *)scan)->arg2)); |
7375 | EVAL_CLOSE_PAREN_SET( st, arg )(st)->u.eval.close_paren = ( (arg) + 1 ); |
7376 | /* Detect infinite recursion |
7377 | * |
7378 | * A pattern like /(?R)foo/ or /(?<x>(?&y)foo)(?<y>(?&x)bar)/ |
7379 | * or "a"=~/(.(?2))((?<=(?=(?1)).))/ could recurse forever. |
7380 | * So we track the position in the string we are at each time |
7381 | * we recurse and if we try to enter the same routine twice from |
7382 | * the same position we throw an error. |
7383 | */ |
7384 | if ( rex->recurse_locinput[arg] == locinput ) { |
7385 | /* FIXME: we should show the regop that is failing as part |
7386 | * of the error message. */ |
7387 | Perl_croak(aTHX_ "Infinite recursion in regex"); |
7388 | } else { |
7389 | ST.prev_recurse_locinput= rex->recurse_locinput[arg]; |
7390 | rex->recurse_locinput[arg]= locinput; |
7391 | |
7392 | DEBUG_r({do {{ 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_exec.c", 7393, __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_exec.c", 7393, __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); do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf( "entering GOSUB, prev_recurse_locinput=%p recurse_locinput[%d]=%p\n" , depth, ST.prev_recurse_locinput, arg, rex->recurse_locinput [arg] ); };} while (0); };} while (0) |
7393 | DECLARE_AND_GET_RE_DEBUG_FLAGS;do {{ 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_exec.c", 7393, __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_exec.c", 7393, __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); do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf( "entering GOSUB, prev_recurse_locinput=%p recurse_locinput[%d]=%p\n" , depth, ST.prev_recurse_locinput, arg, rex->recurse_locinput [arg] ); };} while (0); };} while (0) |
7394 | DEBUG_STACK_r({do {{ 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_exec.c", 7393, __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_exec.c", 7393, __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); do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf( "entering GOSUB, prev_recurse_locinput=%p recurse_locinput[%d]=%p\n" , depth, ST.prev_recurse_locinput, arg, rex->recurse_locinput [arg] ); };} while (0); };} while (0) |
7395 | Perl_re_exec_indentf( aTHX_do {{ 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_exec.c", 7393, __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_exec.c", 7393, __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); do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf( "entering GOSUB, prev_recurse_locinput=%p recurse_locinput[%d]=%p\n" , depth, ST.prev_recurse_locinput, arg, rex->recurse_locinput [arg] ); };} while (0); };} while (0) |
7396 | "entering GOSUB, prev_recurse_locinput=%p recurse_locinput[%d]=%p\n",do {{ 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_exec.c", 7393, __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_exec.c", 7393, __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); do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf( "entering GOSUB, prev_recurse_locinput=%p recurse_locinput[%d]=%p\n" , depth, ST.prev_recurse_locinput, arg, rex->recurse_locinput [arg] ); };} while (0); };} while (0) |
7397 | depth, ST.prev_recurse_locinput, arg, rex->recurse_locinput[arg]do {{ 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_exec.c", 7393, __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_exec.c", 7393, __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); do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf( "entering GOSUB, prev_recurse_locinput=%p recurse_locinput[%d]=%p\n" , depth, ST.prev_recurse_locinput, arg, rex->recurse_locinput [arg] ); };} while (0); };} while (0) |
7398 | );do {{ 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_exec.c", 7393, __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_exec.c", 7393, __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); do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf( "entering GOSUB, prev_recurse_locinput=%p recurse_locinput[%d]=%p\n" , depth, ST.prev_recurse_locinput, arg, rex->recurse_locinput [arg] ); };} while (0); };} while (0) |
7399 | });do {{ 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_exec.c", 7393, __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_exec.c", 7393, __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); do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf( "entering GOSUB, prev_recurse_locinput=%p recurse_locinput[%d]=%p\n" , depth, ST.prev_recurse_locinput, arg, rex->recurse_locinput [arg] ); };} while (0); };} while (0) |
7400 | })do {{ 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_exec.c", 7393, __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_exec.c", 7393, __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); do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf( "entering GOSUB, prev_recurse_locinput=%p recurse_locinput[%d]=%p\n" , depth, ST.prev_recurse_locinput, arg, rex->recurse_locinput [arg] ); };} while (0); };} while (0); |
7401 | } |
7402 | |
7403 | /* Save all the positions seen so far. */ |
7404 | ST.cp = regcppush(rex, 0, maxopenparen)S_regcppush( rex,0,maxopenparen ,depth); |
7405 | REGCP_SET(ST.lastcp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) Perl_re_exec_indentf ( "Setting an EVAL scope, savestack=%" "ld" ",\n", depth, (IV )PL_savestack_ix );} while (0); ST.lastcp = PL_savestack_ix; |
7406 | |
7407 | /* and then jump to the code we share with EVAL */ |
7408 | goto eval_recurse_doit; |
7409 | /* NOTREACHED */ |
7410 | |
7411 | case EVAL84: /* /(?{...})B/ /(??{A})B/ and /(?(?{...})X|Y)B/ */ |
7412 | if (logical == 2 && cur_eval && cur_eval->locinput==locinput) { |
7413 | if ( ++nochange_depth > max_nochange_depth ) |
7414 | Perl_croak(aTHX_ "EVAL without pos change exceeded limit in regex"); |
7415 | } else { |
7416 | nochange_depth = 0; |
7417 | } |
7418 | { |
7419 | /* execute the code in the {...} */ |
7420 | |
7421 | dSPSV **sp = PL_stack_sp; |
7422 | IV before; |
7423 | OP * const oop = PL_op; |
7424 | COP * const ocurcop = PL_curcop; |
7425 | OP *nop; |
7426 | CV *newcv; |
7427 | |
7428 | /* save *all* paren positions */ |
7429 | regcppush(rex, 0, maxopenparen)S_regcppush( rex,0,maxopenparen ,depth); |
7430 | REGCP_SET(ST.lastcp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) Perl_re_exec_indentf ( "Setting an EVAL scope, savestack=%" "ld" ",\n", depth, (IV )PL_savestack_ix );} while (0); ST.lastcp = PL_savestack_ix; |
7431 | |
7432 | if (!caller_cv) |
7433 | caller_cv = find_runcv(NULL)Perl_find_runcv( ((void*)0)); |
7434 | |
7435 | n = ARG(scan)((((struct regnode_1 *)scan)->arg1)); |
7436 | |
7437 | if (rexi->data->what[n] == 'r') { /* code from an external qr */ |
7438 | newcv = (ReANY(Perl_ReANY((const REGEXP *)((REGEXP*)(rexi->data->data[ n]))) |
7439 | (REGEXP*)(rexi->data->data[n])Perl_ReANY((const REGEXP *)((REGEXP*)(rexi->data->data[ n]))) |
7440 | )Perl_ReANY((const REGEXP *)((REGEXP*)(rexi->data->data[ n]))))->qr_anoncv; |
7441 | nop = (OP*)rexi->data->data[n+1]; |
7442 | } |
7443 | else if (rexi->data->what[n] == 'l') { /* literal code */ |
7444 | newcv = caller_cv; |
7445 | nop = (OP*)rexi->data->data[n]; |
7446 | assert(CvDEPTH(newcv))(((*Perl_CvDEPTH((const CV *)newcv))) ? (void)0 : __assert2("re_exec.c" , 7446, __func__, "CvDEPTH(newcv)")); |
7447 | } |
7448 | else { |
7449 | /* literal with own CV */ |
7450 | assert(rexi->data->what[n] == 'L')((rexi->data->what[n] == 'L') ? (void)0 : __assert2("re_exec.c" , 7450, __func__, "rexi->data->what[n] == 'L'")); |
7451 | newcv = rex->qr_anoncv; |
7452 | nop = (OP*)rexi->data->data[n]; |
7453 | } |
7454 | |
7455 | /* Some notes about MULTICALL and the context and save stacks. |
7456 | * |
7457 | * In something like |
7458 | * /...(?{ my $x)}...(?{ my $y)}...(?{ my $z)}.../ |
7459 | * since codeblocks don't introduce a new scope (so that |
7460 | * local() etc accumulate), at the end of a successful |
7461 | * match there will be a SAVEt_CLEARSV on the savestack |
7462 | * for each of $x, $y, $z. If the three code blocks above |
7463 | * happen to have come from different CVs (e.g. via |
7464 | * embedded qr//s), then we must ensure that during any |
7465 | * savestack unwinding, PL_comppad always points to the |
7466 | * right pad at each moment. We achieve this by |
7467 | * interleaving SAVEt_COMPPAD's on the savestack whenever |
7468 | * there is a change of pad. |
7469 | * In theory whenever we call a code block, we should |
7470 | * push a CXt_SUB context, then pop it on return from |
7471 | * that code block. This causes a bit of an issue in that |
7472 | * normally popping a context also clears the savestack |
7473 | * back to cx->blk_oldsaveix, but here we specifically |
7474 | * don't want to clear the save stack on exit from the |
7475 | * code block. |
7476 | * Also for efficiency we don't want to keep pushing and |
7477 | * popping the single SUB context as we backtrack etc. |
7478 | * So instead, we push a single context the first time |
7479 | * we need, it, then hang onto it until the end of this |
7480 | * function. Whenever we encounter a new code block, we |
7481 | * update the CV etc if that's changed. During the times |
7482 | * in this function where we're not executing a code |
7483 | * block, having the SUB context still there is a bit |
7484 | * naughty - but we hope that no-one notices. |
7485 | * When the SUB context is initially pushed, we fake up |
7486 | * cx->blk_oldsaveix to be as if we'd pushed this context |
7487 | * on first entry to S_regmatch rather than at some random |
7488 | * point during the regexe execution. That way if we |
7489 | * croak, popping the context stack will ensure that |
7490 | * *everything* SAVEd by this function is undone and then |
7491 | * the context popped, rather than e.g., popping the |
7492 | * context (and restoring the original PL_comppad) then |
7493 | * popping more of the savestack and restoring a bad |
7494 | * PL_comppad. |
7495 | */ |
7496 | |
7497 | /* If this is the first EVAL, push a MULTICALL. On |
7498 | * subsequent calls, if we're executing a different CV, or |
7499 | * if PL_comppad has got messed up from backtracking |
7500 | * through SAVECOMPPADs, then refresh the context. |
7501 | */ |
7502 | if (newcv != last_pushed_cv || PL_comppad != last_pad) |
7503 | { |
7504 | U8 flags = (CXp_SUB_RE0x40 | |
7505 | ((newcv == caller_cv) ? CXp_SUB_RE_FAKE0x80 : 0)); |
7506 | SAVECOMPPAD()Perl_save_pushptr( ((SV *)({ void *_p = (PL_comppad); _p; })) ,7); |
7507 | if (last_pushed_cv) { |
7508 | CHANGE_MULTICALL_FLAGS(newcv, flags)do { CV * const _nOnclAshIngNamE_ = newcv; CV * const cv = _nOnclAshIngNamE_ ; PADLIST * const padlist = (*(((!(((XPVCV*)({ void *_p = ((( CV*)(cv))->sv_any); _p; }))->xcv_flags & 0x0008)) ? (void)0 : __assert2("re_exec.c", 7508, __func__, "!(((XPVCV*)({ void *_p = (((CV*)(cv))->sv_any); _p; }))->xcv_flags & 0x0008)" )), &(((XPVCV*)({ void *_p = ((cv)->sv_any); _p; }))-> xcv_padlist_u.xcv_padlist))); PERL_CONTEXT *cx = (&(PL_curstackinfo ->si_cxstack)[(PL_curstackinfo->si_cxix)]); ((((cx)-> cx_u.cx_subst.sbu_type & 0x10)) ? (void)0 : __assert2("re_exec.c" , 7508, __func__, "CxMULTICALL(cx)")); Perl_cx_popsub_common( cx); cx->cx_u.cx_subst.sbu_type = (9|0x10|flags); Perl_cx_pushsub ( cx,cv,((void*)0),0); if (!(flags & 0x80)) (*Perl_CvDEPTH ((const CV *)cv))++; if ((*Perl_CvDEPTH((const CV *)cv)) >= 2) Perl_pad_push( padlist, (*Perl_CvDEPTH((const CV *)cv))); PL_comppad = (PAD*) ((padlist)->xpadl_arr.xpadlarr_alloc[ (*Perl_CvDEPTH((const CV *)cv))]); PL_curpad = ((PL_comppad)-> sv_u.svu_array); do { if ((__builtin_expect(((PL_debug & 0x00004000 ) ? (_Bool)1 : (_Bool)0),(0)) && __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)))) do {PerlIO_printf (Perl_PerlIO_stderr(), "Pad 0x%" "lx" "[0x%" "lx" "] set_cur depth=%d\n" , (UV)(PL_comppad), (UV)(PL_curpad), (int)((*Perl_CvDEPTH((const CV *)cv))));} while (0); } while (0);; multicall_cop = ((XPVCV *)({ void *_p = ((cv)->sv_any); _p; }))->xcv_start_u.xcv_start ; } while (0); |
7509 | } |
7510 | else { |
7511 | PUSH_MULTICALL_FLAGS(newcv, flags)do { PERL_CONTEXT *cx; CV * const _nOnclAshIngNamE_ = newcv; CV * const cv = _nOnclAshIngNamE_; PADLIST * const padlist = (* (((!(((XPVCV*)({ void *_p = (((CV*)(cv))->sv_any); _p; })) ->xcv_flags & 0x0008)) ? (void)0 : __assert2("re_exec.c" , 7511, __func__, "!(((XPVCV*)({ void *_p = (((CV*)(cv))->sv_any); _p; }))->xcv_flags & 0x0008)" )), &(((XPVCV*)({ void *_p = ((cv)->sv_any); _p; }))-> xcv_padlist_u.xcv_padlist))); multicall_oldcatch = (PL_top_env ->je_mustcatch); do { if (__builtin_expect(((PL_debug & 0x00000004) ? (_Bool)1 : (_Bool)0),(0))) Perl_deb( "JUMPLEVEL set catch %d => %d (for %p) at %s:%d\n" , PL_top_env->je_mustcatch, (1), (void*)PL_top_env, "re_exec.c" , 7511); PL_top_env->je_mustcatch = ((1)); } while (0); 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_exec.c" , 7511);} 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 = 10; 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); cx = Perl_cx_pushblock ( (9|0x10|flags),(U8)gimme,PL_stack_sp,PL_savestack_ix); Perl_cx_pushsub ( cx,cv,((void*)0),0); Perl_save_pushptr( (void *)(PL_op),18) ; if (!(flags & 0x80)) (*Perl_CvDEPTH((const CV *)cv))++; if ((*Perl_CvDEPTH((const CV *)cv)) >= 2) Perl_pad_push( padlist , (*Perl_CvDEPTH((const CV *)cv))); PL_comppad = (PAD*) ((padlist )->xpadl_arr.xpadlarr_alloc[(*Perl_CvDEPTH((const CV *)cv) )]); PL_curpad = ((PL_comppad)->sv_u.svu_array); do { if ( (__builtin_expect(((PL_debug & 0x00004000) ? (_Bool)1 : ( _Bool)0),(0)) && __builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)))) do {PerlIO_printf(Perl_PerlIO_stderr (), "Pad 0x%" "lx" "[0x%" "lx" "] set_cur depth=%d\n", (UV )(PL_comppad), (UV)(PL_curpad), (int)((*Perl_CvDEPTH((const CV *)cv))));} while (0); } while (0);; multicall_cop = ((XPVCV* )({ void *_p = ((cv)->sv_any); _p; }))->xcv_start_u.xcv_start ; } while (0); |
7512 | } |
7513 | /* see notes above */ |
7514 | CX_CUR()(&(PL_curstackinfo->si_cxstack)[(PL_curstackinfo->si_cxix )])->blk_oldsaveixcx_u.cx_blk.blku_oldsaveix = orig_savestack_ix; |
7515 | |
7516 | last_pushed_cv = newcv; |
7517 | } |
7518 | else { |
7519 | /* these assignments are just to silence compiler |
7520 | * warnings */ |
7521 | multicall_cop = NULL((void*)0); |
7522 | } |
7523 | last_pad = PL_comppad; |
7524 | |
7525 | /* the initial nextstate you would normally execute |
7526 | * at the start of an eval (which would cause error |
7527 | * messages to come from the eval), may be optimised |
7528 | * away from the execution path in the regex code blocks; |
7529 | * so manually set PL_curcop to it initially */ |
7530 | { |
7531 | OP *o = cUNOPx(nop)((UNOP*)(nop))->op_first; |
7532 | assert(o->op_type == OP_NULL)((o->op_type == OP_NULL) ? (void)0 : __assert2("re_exec.c" , 7532, __func__, "o->op_type == OP_NULL")); |
7533 | if (o->op_targ == OP_SCOPE) { |
7534 | o = cUNOPo((UNOP*)(o))->op_first; |
7535 | } |
7536 | else { |
7537 | assert(o->op_targ == OP_LEAVE)((o->op_targ == OP_LEAVE) ? (void)0 : __assert2("re_exec.c" , 7537, __func__, "o->op_targ == OP_LEAVE")); |
7538 | o = cUNOPo((UNOP*)(o))->op_first; |
7539 | assert(o->op_type == OP_ENTER)((o->op_type == OP_ENTER) ? (void)0 : __assert2("re_exec.c" , 7539, __func__, "o->op_type == OP_ENTER")); |
7540 | o = OpSIBLING(o)(0 + (o)->op_moresib ? (o)->op_sibparent : ((void*)0)); |
7541 | } |
7542 | |
7543 | if (o->op_type != OP_STUB) { |
7544 | assert( o->op_type == OP_NEXTSTATE((o->op_type == OP_NEXTSTATE || o->op_type == OP_DBSTATE || (o->op_type == OP_NULL && ( o->op_targ == OP_NEXTSTATE || o->op_targ == OP_DBSTATE ) )) ? (void)0 : __assert2("re_exec.c" , 7551, __func__, "o->op_type == OP_NEXTSTATE || o->op_type == OP_DBSTATE || (o->op_type == OP_NULL && ( o->op_targ == OP_NEXTSTATE || o->op_targ == OP_DBSTATE ) )" )) |
7545 | || o->op_type == OP_DBSTATE((o->op_type == OP_NEXTSTATE || o->op_type == OP_DBSTATE || (o->op_type == OP_NULL && ( o->op_targ == OP_NEXTSTATE || o->op_targ == OP_DBSTATE ) )) ? (void)0 : __assert2("re_exec.c" , 7551, __func__, "o->op_type == OP_NEXTSTATE || o->op_type == OP_DBSTATE || (o->op_type == OP_NULL && ( o->op_targ == OP_NEXTSTATE || o->op_targ == OP_DBSTATE ) )" )) |
7546 | || (o->op_type == OP_NULL((o->op_type == OP_NEXTSTATE || o->op_type == OP_DBSTATE || (o->op_type == OP_NULL && ( o->op_targ == OP_NEXTSTATE || o->op_targ == OP_DBSTATE ) )) ? (void)0 : __assert2("re_exec.c" , 7551, __func__, "o->op_type == OP_NEXTSTATE || o->op_type == OP_DBSTATE || (o->op_type == OP_NULL && ( o->op_targ == OP_NEXTSTATE || o->op_targ == OP_DBSTATE ) )" )) |
7547 | && ( o->op_targ == OP_NEXTSTATE((o->op_type == OP_NEXTSTATE || o->op_type == OP_DBSTATE || (o->op_type == OP_NULL && ( o->op_targ == OP_NEXTSTATE || o->op_targ == OP_DBSTATE ) )) ? (void)0 : __assert2("re_exec.c" , 7551, __func__, "o->op_type == OP_NEXTSTATE || o->op_type == OP_DBSTATE || (o->op_type == OP_NULL && ( o->op_targ == OP_NEXTSTATE || o->op_targ == OP_DBSTATE ) )" )) |
7548 | || o->op_targ == OP_DBSTATE((o->op_type == OP_NEXTSTATE || o->op_type == OP_DBSTATE || (o->op_type == OP_NULL && ( o->op_targ == OP_NEXTSTATE || o->op_targ == OP_DBSTATE ) )) ? (void)0 : __assert2("re_exec.c" , 7551, __func__, "o->op_type == OP_NEXTSTATE || o->op_type == OP_DBSTATE || (o->op_type == OP_NULL && ( o->op_targ == OP_NEXTSTATE || o->op_targ == OP_DBSTATE ) )" )) |
7549 | )((o->op_type == OP_NEXTSTATE || o->op_type == OP_DBSTATE || (o->op_type == OP_NULL && ( o->op_targ == OP_NEXTSTATE || o->op_targ == OP_DBSTATE ) )) ? (void)0 : __assert2("re_exec.c" , 7551, __func__, "o->op_type == OP_NEXTSTATE || o->op_type == OP_DBSTATE || (o->op_type == OP_NULL && ( o->op_targ == OP_NEXTSTATE || o->op_targ == OP_DBSTATE ) )" )) |
7550 | )((o->op_type == OP_NEXTSTATE || o->op_type == OP_DBSTATE || (o->op_type == OP_NULL && ( o->op_targ == OP_NEXTSTATE || o->op_targ == OP_DBSTATE ) )) ? (void)0 : __assert2("re_exec.c" , 7551, __func__, "o->op_type == OP_NEXTSTATE || o->op_type == OP_DBSTATE || (o->op_type == OP_NULL && ( o->op_targ == OP_NEXTSTATE || o->op_targ == OP_DBSTATE ) )" )) |
7551 | )((o->op_type == OP_NEXTSTATE || o->op_type == OP_DBSTATE || (o->op_type == OP_NULL && ( o->op_targ == OP_NEXTSTATE || o->op_targ == OP_DBSTATE ) )) ? (void)0 : __assert2("re_exec.c" , 7551, __func__, "o->op_type == OP_NEXTSTATE || o->op_type == OP_DBSTATE || (o->op_type == OP_NULL && ( o->op_targ == OP_NEXTSTATE || o->op_targ == OP_DBSTATE ) )" )); |
7552 | PL_curcop = (COP*)o; |
7553 | } |
7554 | } |
7555 | nop = nop->op_next; |
7556 | |
7557 | DEBUG_STATE_r( Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) Perl_re_printf ( " re EVAL PL_op=0x%" "lx" "\n", (UV)(nop));} while (0) |
7558 | " re EVAL PL_op=0x%" UVxf "\n", PTR2UV(nop)) )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) Perl_re_printf ( " re EVAL PL_op=0x%" "lx" "\n", (UV)(nop));} while (0); |
7559 | |
7560 | rex->offs[0].end = locinput - reginfo->strbeg; |
7561 | if (reginfo->info_aux_eval->pos_magic) |
7562 | MgBYTEPOS_set(reginfo->info_aux_eval->pos_magic,( (((reginfo->info_aux_eval->pos_magic)->mg_type == 'g' ) ? (void)0 : __assert2("re_exec.c", 7564, __func__, "(reginfo->info_aux_eval->pos_magic)->mg_type == 'g'" )), ((reginfo->sv)->sv_flags & 0x00000400) && (!((reginfo->sv)->sv_flags & 0x00200000) || Perl_sv_only_taint_gmagic (reginfo->sv)) ? (reginfo->info_aux_eval->pos_magic) ->mg_len = (locinput - reginfo->strbeg), (reginfo->info_aux_eval ->pos_magic)->mg_flags |= 0x40 : ((reginfo->info_aux_eval ->pos_magic)->mg_len = (((reginfo->sv)->sv_flags & 0x20000000) && !__builtin_expect(((((PL_curcop)-> cop_hints + 0) & 0x00000008) ? (_Bool)1 : (_Bool)0),(0))) ? (ssize_t)Perl_utf8_length( (U8 *)(reginfo->strbeg),(U8 * )(reginfo->strbeg)+(locinput - reginfo->strbeg)) : (ssize_t )(locinput - reginfo->strbeg), (reginfo->info_aux_eval-> pos_magic)->mg_flags &= ~0x40)) |
7563 | reginfo->sv, reginfo->strbeg,( (((reginfo->info_aux_eval->pos_magic)->mg_type == 'g' ) ? (void)0 : __assert2("re_exec.c", 7564, __func__, "(reginfo->info_aux_eval->pos_magic)->mg_type == 'g'" )), ((reginfo->sv)->sv_flags & 0x00000400) && (!((reginfo->sv)->sv_flags & 0x00200000) || Perl_sv_only_taint_gmagic (reginfo->sv)) ? (reginfo->info_aux_eval->pos_magic) ->mg_len = (locinput - reginfo->strbeg), (reginfo->info_aux_eval ->pos_magic)->mg_flags |= 0x40 : ((reginfo->info_aux_eval ->pos_magic)->mg_len = (((reginfo->sv)->sv_flags & 0x20000000) && !__builtin_expect(((((PL_curcop)-> cop_hints + 0) & 0x00000008) ? (_Bool)1 : (_Bool)0),(0))) ? (ssize_t)Perl_utf8_length( (U8 *)(reginfo->strbeg),(U8 * )(reginfo->strbeg)+(locinput - reginfo->strbeg)) : (ssize_t )(locinput - reginfo->strbeg), (reginfo->info_aux_eval-> pos_magic)->mg_flags &= ~0x40)) |
7564 | locinput - reginfo->strbeg)( (((reginfo->info_aux_eval->pos_magic)->mg_type == 'g' ) ? (void)0 : __assert2("re_exec.c", 7564, __func__, "(reginfo->info_aux_eval->pos_magic)->mg_type == 'g'" )), ((reginfo->sv)->sv_flags & 0x00000400) && (!((reginfo->sv)->sv_flags & 0x00200000) || Perl_sv_only_taint_gmagic (reginfo->sv)) ? (reginfo->info_aux_eval->pos_magic) ->mg_len = (locinput - reginfo->strbeg), (reginfo->info_aux_eval ->pos_magic)->mg_flags |= 0x40 : ((reginfo->info_aux_eval ->pos_magic)->mg_len = (((reginfo->sv)->sv_flags & 0x20000000) && !__builtin_expect(((((PL_curcop)-> cop_hints + 0) & 0x00000008) ? (_Bool)1 : (_Bool)0),(0))) ? (ssize_t)Perl_utf8_length( (U8 *)(reginfo->strbeg),(U8 * )(reginfo->strbeg)+(locinput - reginfo->strbeg)) : (ssize_t )(locinput - reginfo->strbeg), (reginfo->info_aux_eval-> pos_magic)->mg_flags &= ~0x40)); |
7565 | |
7566 | if (sv_yes_mark) { |
7567 | SV *sv_mrk = get_sv("REGMARK", 1)Perl_get_sv( "REGMARK",1); |
7568 | sv_setsv(sv_mrk, sv_yes_mark)Perl_sv_setsv_flags( sv_mrk,sv_yes_mark,2|0); |
7569 | } |
7570 | |
7571 | /* we don't use MULTICALL here as we want to call the |
7572 | * first op of the block of interest, rather than the |
7573 | * first op of the sub. Also, we don't want to free |
7574 | * the savestack frame */ |
7575 | before = (IV)(SPsp-PL_stack_base); |
7576 | PL_op = nop; |
7577 | CALLRUNOPSPL_runops(aTHX); /* Scalar context. */ |
7578 | SPAGAINsp = PL_stack_sp; |
7579 | if ((IV)(SPsp-PL_stack_base) == before) |
7580 | ret = &PL_sv_undef(PL_sv_immortals[1]); /* protect against empty (?{}) blocks. */ |
7581 | else { |
7582 | ret = POPs(*sp--); |
7583 | PUTBACKPL_stack_sp = sp; |
7584 | } |
7585 | |
7586 | /* before restoring everything, evaluate the returned |
7587 | * value, so that 'uninit' warnings don't use the wrong |
7588 | * PL_op or pad. Also need to process any magic vars |
7589 | * (e.g. $1) *before* parentheses are restored */ |
7590 | |
7591 | PL_op = NULL((void*)0); |
7592 | |
7593 | re_sv = NULL((void*)0); |
7594 | if (logical == 0) { /* (?{})/ */ |
7595 | SV *replsv = save_scalar(PL_replgv)Perl_save_scalar( PL_replgv); |
7596 | sv_setsv(replsv, ret)Perl_sv_setsv_flags( replsv,ret,2|0); /* $^R */ |
7597 | SvSETMAGIC(replsv)do { if (__builtin_expect(((((replsv)->sv_flags & 0x00400000 )) ? (_Bool)1 : (_Bool)0),(0))) Perl_mg_set( replsv); } while (0); |
7598 | } |
7599 | else if (logical == 1) { /* /(?(?{...})X|Y)/ */ |
7600 | sw = cBOOL(SvTRUE_NN(ret))(((((void)(__builtin_expect(((((ret)->sv_flags & 0x00200000 )) ? (_Bool)1 : (_Bool)0),(0)) && Perl_mg_get( ret))) , (( ((size_t)((ret) - &(PL_sv_immortals[0])) < 4) ? ( (ret) == &(PL_sv_immortals[0])) : !((ret)->sv_flags & (0x00000100|0x00000200|0x00000400|0x00000800| 0x00001000|0x00002000 |0x00004000|0x00008000)) ? 0 : ((ret)->sv_flags & 0x00000400 ) ? ( ((XPV*)((ret))->sv_any) && ( ((XPV*)((ret))-> sv_any)->xpv_cur > 1 || ( ((XPV*)((ret))->sv_any)-> xpv_cur && *(ret)->sv_u.svu_pv != '0' ) ) ) : ((ret )->sv_flags & 0x00000100) ? ((*({ const SV *const _svivx = (const SV *)(ret); ((PL_valid_types_IVX[((svtype)((_svivx) ->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_exec.c", 7600, __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_exec.c", 7600, __func__ , "!isGV_with_GP(_svivx)")); &(((XPVIV*) ({ void *_p = (( _svivx)->sv_any); _p; }))->xiv_u.xivu_iv); })) != 0 ) : (((ret)->sv_flags & 0x00000800) && !( (((*({ SV *const _svrv = ((SV *)({ void *_p = (ret); _p; })); ((PL_valid_types_RV [((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 7600, __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_exec.c", 7600, __func__ , "!isGV_with_GP(_svrv)")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 7600, __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 = (ret); _p; })); (( PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 7600, __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_exec.c", 7600, __func__, "!isGV_with_GP(_svrv)" )); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 7600, __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_exec.c", 7600, __func__, "SvTYPE(_svstash) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svstash)->sv_any); _p ; }))->xmg_stash); })))->sv_flags & 0x10000000))) ? (1) : (Perl_sv_2bool_flags( ret,0)))))) ? (_Bool)1 : (_Bool) 0); |
7601 | logical = 0; |
7602 | } |
7603 | else { /* /(??{}) */ |
7604 | /* if its overloaded, let the regex compiler handle |
7605 | * it; otherwise extract regex, or stringify */ |
7606 | if (SvGMAGICAL(ret)((ret)->sv_flags & 0x00200000)) |
7607 | ret = sv_mortalcopy(ret)Perl_sv_mortalcopy_flags( ret, 2|0); |
7608 | if (!SvAMAGIC(ret)(((ret)->sv_flags & 0x00000800) && (((*({ SV * const _svrv = ((SV *)({ void *_p = (ret); _p; })); ((PL_valid_types_RV [((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 7608, __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_exec.c", 7608, __func__ , "!isGV_with_GP(_svrv)")); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 7608, __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 = (ret); _p; })); (( PL_valid_types_RV[((svtype)((_svrv)->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 7608, __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_exec.c", 7608, __func__, "!isGV_with_GP(_svrv)" )); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 7608, __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_exec.c", 7608, __func__, "SvTYPE(_svstash) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svstash)->sv_any); _p ; }))->xmg_stash); })))->sv_flags & 0x10000000))) { |
7609 | SV *sv = ret; |
7610 | if (SvROK(sv)((sv)->sv_flags & 0x00000800)) |
7611 | 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_exec.c", 7611, __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_exec.c", 7611, __func__, "!isGV_with_GP(_svrv)" )); ((!(((svtype)((_svrv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svrv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 7611, __func__, "!(SvTYPE(_svrv) == SVt_PVIO && !(IoFLAGS(_svrv) & IOf_FAKE_DIRP))" )); &((_svrv)->sv_u.svu_rv); })); |
7612 | if (SvTYPE(sv)((svtype)((sv)->sv_flags & 0xff)) == SVt_REGEXP) |
7613 | re_sv = (REGEXP*) sv; |
7614 | else if (SvSMAGICAL(ret)((ret)->sv_flags & 0x00400000)) { |
7615 | MAGIC *mg = mg_findPerl_mg_find(ret, PERL_MAGIC_qr'r'); |
7616 | if (mg) |
7617 | re_sv = (REGEXP *) mg->mg_obj; |
7618 | } |
7619 | |
7620 | /* force any undef warnings here */ |
7621 | if (!re_sv && !SvPOK(ret)((ret)->sv_flags & 0x00000400) && !SvNIOK(ret)((ret)->sv_flags & (0x00000100|0x00000200))) { |
7622 | ret = sv_mortalcopy(ret)Perl_sv_mortalcopy_flags( ret, 2|0); |
7623 | (void) SvPV_force_nolen(ret)((((ret)->sv_flags & (0x00000400|0x00000100|0x00000200 |0x00000800|0x00008000|(0x08000000|0x00010000|0x00000800|0x01000000 |0x00800000|0x10000000)|0x00200000)) == 0x00000400) ? (*({ SV *const _svpvx = ((SV *)({ void *_p = (ret); _p; })); ((PL_valid_types_PVX [((svtype)((_svpvx)->sv_flags & 0xff)) & 0x1f]) ? ( void)0 : __assert2("re_exec.c", 7623, __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_exec.c", 7623, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 7623, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); })) : Perl_sv_pvn_force_flags ( ret,0,2)); |
7624 | } |
7625 | } |
7626 | |
7627 | } |
7628 | |
7629 | /* *** Note that at this point we don't restore |
7630 | * PL_comppad, (or pop the CxSUB) on the assumption it may |
7631 | * be used again soon. This is safe as long as nothing |
7632 | * in the regexp code uses the pad ! */ |
7633 | PL_op = oop; |
7634 | PL_curcop = ocurcop; |
7635 | regcp_restore(rex, ST.lastcp, &maxopenparen)S_regcp_restore( rex,ST.lastcp,&maxopenparen ,depth); |
7636 | PL_curpm_under = PL_curpm; |
7637 | PL_curpm = PL_reg_curpm; |
7638 | |
7639 | if (logical != 2) { |
7640 | PUSH_STATE_GOTO(EVAL_B, next, locinput, loceol,pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = next; st->resume_state = (109 + 3); goto push_state ; |
7641 | script_run_begin)pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = next; st->resume_state = (109 + 3); goto push_state ;; |
7642 | /* NOTREACHED */ |
7643 | } |
7644 | } |
7645 | |
7646 | /* only /(??{})/ from now on */ |
7647 | logical = 0; |
7648 | { |
7649 | /* extract RE object from returned value; compiling if |
7650 | * necessary */ |
7651 | |
7652 | if (re_sv) { |
7653 | re_sv = reg_temp_copy(NULL, re_sv)Perl_reg_temp_copy( ((void*)0),re_sv); |
7654 | } |
7655 | else { |
7656 | U32 pm_flags = 0; |
7657 | |
7658 | if (SvUTF8(ret)((ret)->sv_flags & 0x20000000) && IN_BYTES__builtin_expect(((((PL_curcop)->cop_hints + 0) & 0x00000008 ) ? (_Bool)1 : (_Bool)0),(0))) { |
7659 | /* In use 'bytes': make a copy of the octet |
7660 | * sequence, but without the flag on */ |
7661 | STRLEN len; |
7662 | const char *const p = SvPV(ret, len)((((ret)->sv_flags & (0x00000400|0x00200000)) == 0x00000400 ) ? ((len = (*({ const SV *const _svcur = (const SV *)(ret); ( (PL_valid_types_PVX[((svtype)((_svcur)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 7662, __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_exec.c", 7662, __func__, "!isGV_with_GP(_svcur)" )); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c", 7662, __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 = (ret); _p; })); ((PL_valid_types_PVX[((svtype)((_svpvx)-> sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2("re_exec.c" , 7662, __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_exec.c", 7662, __func__ , "!isGV_with_GP(_svpvx)")); ((!(((svtype)((_svpvx)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svpvx)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 7662, __func__, "!(SvTYPE(_svpvx) == SVt_PVIO && !(IoFLAGS(_svpvx) & IOf_FAKE_DIRP))" )); &((_svpvx)->sv_u.svu_pv); }))) : Perl_sv_2pv_flags ( ret,&len,2)); |
7663 | ret = newSVpvn_flags(p, len, SVs_TEMP)Perl_newSVpvn_flags( p,len,0x00080000); |
7664 | } |
7665 | if (rex->intflags & PREGf_USE_RE_EVAL0x00000020) |
7666 | pm_flags |= PMf_USE_RE_EVAL(1U<<(((0 +12)+2)+16)); |
7667 | |
7668 | /* if we got here, it should be an engine which |
7669 | * supports compiling code blocks and stuff */ |
7670 | assert(rex->engine && rex->engine->op_comp)((rex->engine && rex->engine->op_comp) ? (void )0 : __assert2("re_exec.c", 7670, __func__, "rex->engine && rex->engine->op_comp" )); |
7671 | assert(!(scan->flags & ~RXf_PMf_COMPILETIME))((!(scan->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))))) ? (void)0 : __assert2("re_exec.c" , 7671, __func__, "!(scan->flags & ~RXf_PMf_COMPILETIME)" )); |
7672 | re_sv = rex->engine->op_comp(aTHX_ &ret, 1, NULL((void*)0), |
7673 | rex->engine, NULL((void*)0), NULL((void*)0), |
7674 | /* copy /msixn etc to inner pattern */ |
7675 | ARG2L(scan)((((struct regnode_2L *)scan)->arg2)), |
7676 | pm_flags); |
7677 | |
7678 | if (!(SvFLAGS(ret)(ret)->sv_flags |
7679 | & (SVs_TEMP0x00080000 | SVs_GMG0x00200000 | SVf_ROK0x00000800)) |
7680 | && (!SvPADTMP(ret)((ret)->sv_flags & (0x00020000)) || SvREADONLY(ret)((ret)->sv_flags & (0x08000000|0x00010000)))) { |
7681 | /* This isn't a first class regexp. Instead, it's |
7682 | caching a regexp onto an existing, Perl visible |
7683 | scalar. */ |
7684 | sv_magic(ret, MUTABLE_SV(re_sv), PERL_MAGIC_qr, 0, 0)Perl_sv_magic( ret,((SV *)({ void *_p = (re_sv); _p; })),'r', 0,0); |
7685 | } |
7686 | } |
7687 | SAVEFREESV(re_sv)Perl_save_pushptr( (void *)(((SV *)({ void *_p = (re_sv); _p; }))),11); |
7688 | re = ReANY(re_sv)Perl_ReANY((const REGEXP *)(re_sv)); |
7689 | } |
7690 | RXp_MATCH_COPIED_off(re)(((re)->extflags) &= ~(1U<<(((0 +12) + 2)+11))); |
7691 | re->subbeg = rex->subbeg; |
7692 | re->sublen = rex->sublen; |
7693 | re->suboffset = rex->suboffset; |
7694 | re->subcoffset = rex->subcoffset; |
7695 | re->lastparen = 0; |
7696 | re->lastcloseparen = 0; |
7697 | rei = RXi_GET(re)((regexp_internal *)((re)->pprivate)); |
7698 | DEBUG_EXECUTE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) S_debug_start_match ( re_sv,utf8_target,locinput,reginfo->strend,"EVAL/GOSUB: Matching embedded" );;} while (0) |
7699 | debug_start_match(re_sv, utf8_target, locinput,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) S_debug_start_match ( re_sv,utf8_target,locinput,reginfo->strend,"EVAL/GOSUB: Matching embedded" );;} while (0) |
7700 | reginfo->strend, "EVAL/GOSUB: Matching embedded");do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) S_debug_start_match ( re_sv,utf8_target,locinput,reginfo->strend,"EVAL/GOSUB: Matching embedded" );;} while (0) |
7701 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) S_debug_start_match ( re_sv,utf8_target,locinput,reginfo->strend,"EVAL/GOSUB: Matching embedded" );;} while (0); |
7702 | startpoint = rei->program + 1; |
7703 | EVAL_CLOSE_PAREN_CLEAR(st)(st)->u.eval.close_paren = 0; /* ST.close_paren = 0; |
7704 | * close_paren only for GOSUB */ |
7705 | ST.prev_recurse_locinput= NULL((void*)0); /* only used for GOSUB */ |
7706 | /* Save all the seen positions so far. */ |
7707 | ST.cp = regcppush(rex, 0, maxopenparen)S_regcppush( rex,0,maxopenparen ,depth); |
7708 | REGCP_SET(ST.lastcp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) Perl_re_exec_indentf ( "Setting an EVAL scope, savestack=%" "ld" ",\n", depth, (IV )PL_savestack_ix );} while (0); ST.lastcp = PL_savestack_ix; |
7709 | /* and set maxopenparen to 0, since we are starting a "fresh" match */ |
7710 | maxopenparen = 0; |
7711 | /* run the pattern returned from (??{...}) */ |
7712 | |
7713 | eval_recurse_doit: /* Share code with GOSUB below this line |
7714 | * At this point we expect the stack context to be |
7715 | * set up correctly */ |
7716 | |
7717 | /* invalidate the S-L poscache. We're now executing a |
7718 | * different set of WHILEM ops (and their associated |
7719 | * indexes) against the same string, so the bits in the |
7720 | * cache are meaningless. Setting maxiter to zero forces |
7721 | * the cache to be invalidated and zeroed before reuse. |
7722 | * XXX This is too dramatic a measure. Ideally we should |
7723 | * save the old cache and restore when running the outer |
7724 | * pattern again */ |
7725 | reginfo->poscache_maxiter = 0; |
7726 | |
7727 | /* the new regexp might have a different is_utf8_pat than we do */ |
7728 | is_utf8_pat = reginfo->is_utf8_pat = cBOOL(RX_UTF8(re_sv))((((re_sv)->sv_flags & 0x20000000)) ? (_Bool)1 : (_Bool )0); |
7729 | |
7730 | ST.prev_rex = rex_sv; |
7731 | ST.prev_curlyx = cur_curlyx; |
7732 | rex_sv = re_sv; |
7733 | SET_reg_curpm(rex_sv)if (reginfo->info_aux_eval) { (void)({ REGEXP *const _rerefcnt_inc = (rex_sv); ((((svtype)((_rerefcnt_inc)->sv_flags & 0xff )) == SVt_REGEXP) ? (void)0 : __assert2("re_exec.c", 7733, __func__ , "SvTYPE(_rerefcnt_inc) == SVt_REGEXP")); Perl_SvREFCNT_inc( ((SV *)({ void *_p = (_rerefcnt_inc); _p; }))); _rerefcnt_inc ; }); ({ REGEXP *const _rerefcnt_dec = (((PL_reg_curpm)->op_pmregexp )); Perl_SvREFCNT_dec( ((SV *)({ void *_p = (_rerefcnt_dec); _p ; }))); }); (((PL_reg_curpm))->op_pmregexp = ((rex_sv))); }; |
7734 | rex = re; |
7735 | rexi = rei; |
7736 | cur_curlyx = NULL((void*)0); |
7737 | ST.B = next; |
7738 | ST.prev_eval = cur_eval; |
7739 | cur_eval = st; |
7740 | /* now continue from first node in postoned RE */ |
7741 | PUSH_YES_STATE_GOTO(EVAL_postponed_AB, startpoint, locinput,pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = startpoint; st->resume_state = (109 + 5); goto push_yes_state ; |
7742 | loceol, script_run_begin)pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = startpoint; st->resume_state = (109 + 5); goto push_yes_state ;; |
7743 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 7743 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
7744 | } |
7745 | |
7746 | case EVAL_postponed_AB(109 + 5): /* cleanup after a successful (??{A})B */ |
7747 | /* note: this is called twice; first after popping B, then A */ |
7748 | DEBUG_STACK_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf ( "EVAL_AB cur_eval=%p prev_eval=%p\n", depth, cur_eval, ST.prev_eval ); };} while (0) |
7749 | Perl_re_exec_indentf( aTHX_ "EVAL_AB cur_eval=%p prev_eval=%p\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf ( "EVAL_AB cur_eval=%p prev_eval=%p\n", depth, cur_eval, ST.prev_eval ); };} while (0) |
7750 | depth, cur_eval, ST.prev_eval);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf ( "EVAL_AB cur_eval=%p prev_eval=%p\n", depth, cur_eval, ST.prev_eval ); };} while (0) |
7751 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf ( "EVAL_AB cur_eval=%p prev_eval=%p\n", depth, cur_eval, ST.prev_eval ); };} while (0); |
7752 | |
7753 | #define SET_RECURSE_LOCINPUT(STR,VAL)if ( cur_eval && cur_eval->u.eval.close_paren ) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf ( STR " GOSUB%d ce=%p recurse_locinput=%p\n", depth, cur_eval ->u.eval.close_paren - 1, cur_eval, VAL); };} while (0); rex ->recurse_locinput[cur_eval->u.eval.close_paren - 1] = VAL ; }\ |
7754 | if ( cur_eval && CUR_EVALcur_eval->u.eval.close_paren ) {\ |
7755 | DEBUG_STACK_r({ \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf ( STR " GOSUB%d ce=%p recurse_locinput=%p\n", depth, cur_eval ->u.eval.close_paren - 1, cur_eval, VAL); };} while (0) |
7756 | Perl_re_exec_indentf( aTHX_ STR " GOSUB%d ce=%p recurse_locinput=%p\n",\do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf ( STR " GOSUB%d ce=%p recurse_locinput=%p\n", depth, cur_eval ->u.eval.close_paren - 1, cur_eval, VAL); };} while (0) |
7757 | depth, \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf ( STR " GOSUB%d ce=%p recurse_locinput=%p\n", depth, cur_eval ->u.eval.close_paren - 1, cur_eval, VAL); };} while (0) |
7758 | CUR_EVAL.close_paren - 1,\do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf ( STR " GOSUB%d ce=%p recurse_locinput=%p\n", depth, cur_eval ->u.eval.close_paren - 1, cur_eval, VAL); };} while (0) |
7759 | cur_eval, \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf ( STR " GOSUB%d ce=%p recurse_locinput=%p\n", depth, cur_eval ->u.eval.close_paren - 1, cur_eval, VAL); };} while (0) |
7760 | VAL); \do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf ( STR " GOSUB%d ce=%p recurse_locinput=%p\n", depth, cur_eval ->u.eval.close_paren - 1, cur_eval, VAL); };} while (0) |
7761 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf ( STR " GOSUB%d ce=%p recurse_locinput=%p\n", depth, cur_eval ->u.eval.close_paren - 1, cur_eval, VAL); };} while (0); \ |
7762 | rex->recurse_locinput[CUR_EVALcur_eval->u.eval.close_paren - 1] = VAL;\ |
7763 | } |
7764 | |
7765 | SET_RECURSE_LOCINPUT("EVAL_AB[before]", CUR_EVAL.prev_recurse_locinput)if ( cur_eval && cur_eval->u.eval.close_paren ) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf ( "EVAL_AB[before]" " GOSUB%d ce=%p recurse_locinput=%p\n", depth , cur_eval->u.eval.close_paren - 1, cur_eval, cur_eval-> u.eval.prev_recurse_locinput); };} while (0); rex->recurse_locinput [cur_eval->u.eval.close_paren - 1] = cur_eval->u.eval.prev_recurse_locinput ; }; |
7766 | |
7767 | rex_sv = ST.prev_rex; |
7768 | is_utf8_pat = reginfo->is_utf8_pat = cBOOL(RX_UTF8(rex_sv))((((rex_sv)->sv_flags & 0x20000000)) ? (_Bool)1 : (_Bool )0); |
7769 | SET_reg_curpm(rex_sv)if (reginfo->info_aux_eval) { (void)({ REGEXP *const _rerefcnt_inc = (rex_sv); ((((svtype)((_rerefcnt_inc)->sv_flags & 0xff )) == SVt_REGEXP) ? (void)0 : __assert2("re_exec.c", 7769, __func__ , "SvTYPE(_rerefcnt_inc) == SVt_REGEXP")); Perl_SvREFCNT_inc( ((SV *)({ void *_p = (_rerefcnt_inc); _p; }))); _rerefcnt_inc ; }); ({ REGEXP *const _rerefcnt_dec = (((PL_reg_curpm)->op_pmregexp )); Perl_SvREFCNT_dec( ((SV *)({ void *_p = (_rerefcnt_dec); _p ; }))); }); (((PL_reg_curpm))->op_pmregexp = ((rex_sv))); }; |
7770 | rex = ReANY(rex_sv)Perl_ReANY((const REGEXP *)(rex_sv)); |
7771 | rexi = RXi_GET(rex)((regexp_internal *)((rex)->pprivate)); |
7772 | { |
7773 | /* preserve $^R across LEAVE's. See Bug 121070. */ |
7774 | SV *save_sv= GvSV(PL_replgv)((0+(*({GV *const _gvgp = (GV *) (PL_replgv); ((((svtype)((_gvgp )->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)-> sv_flags & 0xff)) == SVt_PVLV) ? (void)0 : __assert2("re_exec.c" , 7774, __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_exec.c", 7774, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_sv); |
7775 | SV *replsv; |
7776 | SvREFCNT_inc(save_sv)Perl_SvREFCNT_inc(((SV *)({ void *_p = (save_sv); _p; }))); |
7777 | regcpblow(ST.cp)do { if (PL_savestack_ix > ST.cp) Perl_leave_scope( ST.cp) ; } while (0); /* LEAVE in disguise */ |
7778 | /* don't move this initialization up */ |
7779 | replsv = GvSV(PL_replgv)((0+(*({GV *const _gvgp = (GV *) (PL_replgv); ((((svtype)((_gvgp )->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)-> sv_flags & 0xff)) == SVt_PVLV) ? (void)0 : __assert2("re_exec.c" , 7779, __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_exec.c", 7779, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_sv); |
7780 | sv_setsv(replsv, save_sv)Perl_sv_setsv_flags( replsv,save_sv,2|0); |
7781 | SvSETMAGIC(replsv)do { if (__builtin_expect(((((replsv)->sv_flags & 0x00400000 )) ? (_Bool)1 : (_Bool)0),(0))) Perl_mg_set( replsv); } while (0); |
7782 | SvREFCNT_dec(save_sv)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (save_sv); _p; }))); |
7783 | } |
7784 | cur_eval = ST.prev_eval; |
7785 | cur_curlyx = ST.prev_curlyx; |
7786 | |
7787 | /* Invalidate cache. See "invalidate" comment above. */ |
7788 | reginfo->poscache_maxiter = 0; |
7789 | if ( nochange_depth ) |
7790 | nochange_depth--; |
7791 | |
7792 | SET_RECURSE_LOCINPUT("EVAL_AB[after]", cur_eval->locinput)if ( cur_eval && cur_eval->u.eval.close_paren ) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf ( "EVAL_AB[after]" " GOSUB%d ce=%p recurse_locinput=%p\n", depth , cur_eval->u.eval.close_paren - 1, cur_eval, cur_eval-> locinput); };} while (0); rex->recurse_locinput[cur_eval-> u.eval.close_paren - 1] = cur_eval->locinput; }; |
7793 | sayYESgoto yes; |
7794 | |
7795 | |
7796 | case EVAL_B_fail(109 + 4): /* unsuccessful B in (?{...})B */ |
7797 | REGCP_UNWIND(ST.lastcp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) if (ST.lastcp != PL_savestack_ix) Perl_re_exec_indentf( "Clearing an EVAL scope, savestack=%" "ld" "..%" "ld" "\n", depth, (IV)(ST.lastcp), (IV)PL_savestack_ix );} while (0); do { if (PL_savestack_ix > ST.lastcp) Perl_leave_scope ( ST.lastcp); } while (0); |
7798 | sayNOgoto no; |
7799 | |
7800 | case EVAL_postponed_AB_fail(109 + 6): /* unsuccessfully ran A or B in (??{A})B */ |
7801 | /* note: this is called twice; first after popping B, then A */ |
7802 | DEBUG_STACK_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf ( "EVAL_AB_fail cur_eval=%p prev_eval=%p\n", depth, cur_eval, ST.prev_eval); };} while (0) |
7803 | Perl_re_exec_indentf( aTHX_ "EVAL_AB_fail cur_eval=%p prev_eval=%p\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf ( "EVAL_AB_fail cur_eval=%p prev_eval=%p\n", depth, cur_eval, ST.prev_eval); };} while (0) |
7804 | depth, cur_eval, ST.prev_eval);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf ( "EVAL_AB_fail cur_eval=%p prev_eval=%p\n", depth, cur_eval, ST.prev_eval); };} while (0) |
7805 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf ( "EVAL_AB_fail cur_eval=%p prev_eval=%p\n", depth, cur_eval, ST.prev_eval); };} while (0); |
7806 | |
7807 | SET_RECURSE_LOCINPUT("EVAL_AB_fail[before]", CUR_EVAL.prev_recurse_locinput)if ( cur_eval && cur_eval->u.eval.close_paren ) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf ( "EVAL_AB_fail[before]" " GOSUB%d ce=%p recurse_locinput=%p\n" , depth, cur_eval->u.eval.close_paren - 1, cur_eval, cur_eval ->u.eval.prev_recurse_locinput); };} while (0); rex->recurse_locinput [cur_eval->u.eval.close_paren - 1] = cur_eval->u.eval.prev_recurse_locinput ; }; |
7808 | |
7809 | rex_sv = ST.prev_rex; |
7810 | is_utf8_pat = reginfo->is_utf8_pat = cBOOL(RX_UTF8(rex_sv))((((rex_sv)->sv_flags & 0x20000000)) ? (_Bool)1 : (_Bool )0); |
7811 | SET_reg_curpm(rex_sv)if (reginfo->info_aux_eval) { (void)({ REGEXP *const _rerefcnt_inc = (rex_sv); ((((svtype)((_rerefcnt_inc)->sv_flags & 0xff )) == SVt_REGEXP) ? (void)0 : __assert2("re_exec.c", 7811, __func__ , "SvTYPE(_rerefcnt_inc) == SVt_REGEXP")); Perl_SvREFCNT_inc( ((SV *)({ void *_p = (_rerefcnt_inc); _p; }))); _rerefcnt_inc ; }); ({ REGEXP *const _rerefcnt_dec = (((PL_reg_curpm)->op_pmregexp )); Perl_SvREFCNT_dec( ((SV *)({ void *_p = (_rerefcnt_dec); _p ; }))); }); (((PL_reg_curpm))->op_pmregexp = ((rex_sv))); }; |
7812 | rex = ReANY(rex_sv)Perl_ReANY((const REGEXP *)(rex_sv)); |
7813 | rexi = RXi_GET(rex)((regexp_internal *)((rex)->pprivate)); |
7814 | |
7815 | REGCP_UNWIND(ST.lastcp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) if (ST.lastcp != PL_savestack_ix) Perl_re_exec_indentf( "Clearing an EVAL scope, savestack=%" "ld" "..%" "ld" "\n", depth, (IV)(ST.lastcp), (IV)PL_savestack_ix );} while (0); do { if (PL_savestack_ix > ST.lastcp) Perl_leave_scope ( ST.lastcp); } while (0); |
7816 | regcppop(rex, &maxopenparen)S_regcppop( rex,&maxopenparen ,depth); |
7817 | cur_eval = ST.prev_eval; |
7818 | cur_curlyx = ST.prev_curlyx; |
7819 | |
7820 | /* Invalidate cache. See "invalidate" comment above. */ |
7821 | reginfo->poscache_maxiter = 0; |
7822 | if ( nochange_depth ) |
7823 | nochange_depth--; |
7824 | |
7825 | SET_RECURSE_LOCINPUT("EVAL_AB_fail[after]", cur_eval->locinput)if ( cur_eval && cur_eval->u.eval.close_paren ) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf ( "EVAL_AB_fail[after]" " GOSUB%d ce=%p recurse_locinput=%p\n" , depth, cur_eval->u.eval.close_paren - 1, cur_eval, cur_eval ->locinput); };} while (0); rex->recurse_locinput[cur_eval ->u.eval.close_paren - 1] = cur_eval->locinput; }; |
7826 | sayNO_SILENTgoto no_silent; |
7827 | #undef ST |
7828 | |
7829 | case OPEN63: /* ( */ |
7830 | n = ARG(scan)((((struct regnode_1 *)scan)->arg1)); /* which paren pair */ |
7831 | rex->offs[n].start_tmp = locinput - reginfo->strbeg; |
7832 | if (n > maxopenparen) |
7833 | maxopenparen = n; |
7834 | DEBUG_BUFFERS_r(Perl_re_exec_indentf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "OPEN: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" " tmp; maxopenparen=%" "lu" "\n", depth, (UV)(rex), (UV )(rex->offs), (UV)n, (IV)rex->offs[n].start_tmp, (UV)maxopenparen );} while (0) |
7835 | "OPEN: rex=0x%" UVxf " offs=0x%" UVxf ": \\%" UVuf ": set %" IVdf " tmp; maxopenparen=%" UVuf "\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "OPEN: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" " tmp; maxopenparen=%" "lu" "\n", depth, (UV)(rex), (UV )(rex->offs), (UV)n, (IV)rex->offs[n].start_tmp, (UV)maxopenparen );} while (0) |
7836 | depth,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "OPEN: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" " tmp; maxopenparen=%" "lu" "\n", depth, (UV)(rex), (UV )(rex->offs), (UV)n, (IV)rex->offs[n].start_tmp, (UV)maxopenparen );} while (0) |
7837 | PTR2UV(rex),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "OPEN: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" " tmp; maxopenparen=%" "lu" "\n", depth, (UV)(rex), (UV )(rex->offs), (UV)n, (IV)rex->offs[n].start_tmp, (UV)maxopenparen );} while (0) |
7838 | PTR2UV(rex->offs),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "OPEN: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" " tmp; maxopenparen=%" "lu" "\n", depth, (UV)(rex), (UV )(rex->offs), (UV)n, (IV)rex->offs[n].start_tmp, (UV)maxopenparen );} while (0) |
7839 | (UV)n,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "OPEN: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" " tmp; maxopenparen=%" "lu" "\n", depth, (UV)(rex), (UV )(rex->offs), (UV)n, (IV)rex->offs[n].start_tmp, (UV)maxopenparen );} while (0) |
7840 | (IV)rex->offs[n].start_tmp,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "OPEN: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" " tmp; maxopenparen=%" "lu" "\n", depth, (UV)(rex), (UV )(rex->offs), (UV)n, (IV)rex->offs[n].start_tmp, (UV)maxopenparen );} while (0) |
7841 | (UV)maxopenparendo {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "OPEN: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" " tmp; maxopenparen=%" "lu" "\n", depth, (UV)(rex), (UV )(rex->offs), (UV)n, (IV)rex->offs[n].start_tmp, (UV)maxopenparen );} while (0) |
7842 | ))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "OPEN: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" " tmp; maxopenparen=%" "lu" "\n", depth, (UV)(rex), (UV )(rex->offs), (UV)n, (IV)rex->offs[n].start_tmp, (UV)maxopenparen );} while (0); |
7843 | lastopen = n; |
7844 | break; |
7845 | |
7846 | case SROPEN65: /* (*SCRIPT_RUN: */ |
7847 | script_run_begin = (U8 *) locinput; |
7848 | break; |
7849 | |
7850 | |
7851 | case CLOSE64: /* ) */ |
7852 | n = ARG(scan)((((struct regnode_1 *)scan)->arg1)); /* which paren pair */ |
7853 | CLOSE_CAPTURE(n, rex->offs[n].start_tmp,rex->offs[n].start = rex->offs[n].start_tmp; rex->offs [n].end = locinput - reginfo->strbeg; if (n > rex->lastparen ) rex->lastparen = n; rex->lastcloseparen = n; do {if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "CLOSE: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" "..%" "ld" " max: %" "lu" "\n", depth, (UV)(rex), (UV)( rex->offs), (UV)n, (IV)rex->offs[n].start, (IV)rex-> offs[n].end, (UV)rex->lastparen );} while (0) |
7854 | locinput - reginfo->strbeg)rex->offs[n].start = rex->offs[n].start_tmp; rex->offs [n].end = locinput - reginfo->strbeg; if (n > rex->lastparen ) rex->lastparen = n; rex->lastcloseparen = n; do {if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "CLOSE: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" "..%" "ld" " max: %" "lu" "\n", depth, (UV)(rex), (UV)( rex->offs), (UV)n, (IV)rex->offs[n].start, (IV)rex-> offs[n].end, (UV)rex->lastparen );} while (0); |
7855 | if ( EVAL_CLOSE_PAREN_IS( cur_eval, n )( ( ( cur_eval ) ) && ( ( cur_eval )->u.eval.close_paren ) && ( ( ( cur_eval )->u.eval.close_paren ) == ( ( n) + 1 ) ) ) ) |
7856 | goto fake_end; |
7857 | |
7858 | break; |
7859 | |
7860 | case SRCLOSE66: /* (*SCRIPT_RUN: ... ) */ |
7861 | |
7862 | if (! isSCRIPT_RUN(script_run_begin, (U8 *) locinput, utf8_target)Perl_isSCRIPT_RUN( script_run_begin,(U8 *) locinput,utf8_target )) |
7863 | { |
7864 | sayNOgoto no; |
7865 | } |
7866 | |
7867 | break; |
7868 | |
7869 | |
7870 | case ACCEPT98: /* (*ACCEPT) */ |
7871 | if (scan->flags) |
7872 | sv_yes_mark = MUTABLE_SV(rexi->data->data[ ARG( scan ) ])((SV *)({ void *_p = (rexi->data->data[ ((((struct regnode_1 *)scan)->arg1)) ]); _p; })); |
7873 | if (ARG2L(scan)((((struct regnode_2L *)scan)->arg2))){ |
7874 | regnode *cursor; |
7875 | for (cursor=scan; |
7876 | cursor && OP(cursor)((cursor)->type)!=END0; |
7877 | cursor=regnext(cursor)Perl_regnext( cursor)) |
7878 | { |
7879 | if ( OP(cursor)((cursor)->type)==CLOSE64 ){ |
7880 | n = ARG(cursor)((((struct regnode_1 *)cursor)->arg1)); |
7881 | if ( n <= lastopen ) { |
7882 | CLOSE_CAPTURE(n, rex->offs[n].start_tmp,rex->offs[n].start = rex->offs[n].start_tmp; rex->offs [n].end = locinput - reginfo->strbeg; if (n > rex->lastparen ) rex->lastparen = n; rex->lastcloseparen = n; do {if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "CLOSE: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" "..%" "ld" " max: %" "lu" "\n", depth, (UV)(rex), (UV)( rex->offs), (UV)n, (IV)rex->offs[n].start, (IV)rex-> offs[n].end, (UV)rex->lastparen );} while (0) |
7883 | locinput - reginfo->strbeg)rex->offs[n].start = rex->offs[n].start_tmp; rex->offs [n].end = locinput - reginfo->strbeg; if (n > rex->lastparen ) rex->lastparen = n; rex->lastcloseparen = n; do {if ( __builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool )0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "CLOSE: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" "..%" "ld" " max: %" "lu" "\n", depth, (UV)(rex), (UV)( rex->offs), (UV)n, (IV)rex->offs[n].start, (IV)rex-> offs[n].end, (UV)rex->lastparen );} while (0); |
7884 | if ( n == ARG(scan)((((struct regnode_1 *)scan)->arg1)) || EVAL_CLOSE_PAREN_IS(cur_eval, n)( ( ( cur_eval ) ) && ( ( cur_eval )->u.eval.close_paren ) && ( ( ( cur_eval )->u.eval.close_paren ) == ( ( n) + 1 ) ) ) ) |
7885 | break; |
7886 | } |
7887 | } |
7888 | } |
7889 | } |
7890 | goto fake_end; |
7891 | /* NOTREACHED */ |
7892 | |
7893 | case GROUPP83: /* (?(1)) */ |
7894 | n = ARG(scan)((((struct regnode_1 *)scan)->arg1)); /* which paren pair */ |
7895 | sw = cBOOL(rex->lastparen >= n && rex->offs[n].end != -1)((rex->lastparen >= n && rex->offs[n].end != -1) ? (_Bool)1 : (_Bool)0); |
7896 | break; |
7897 | |
7898 | case GROUPPN93: /* (?(<name>)) */ |
7899 | /* reg_check_named_buff_matched returns 0 for no match */ |
7900 | sw = cBOOL(0 < reg_check_named_buff_matched(rex,scan))((0 < S_reg_check_named_buff_matched(rex,scan)) ? (_Bool)1 : (_Bool)0); |
7901 | break; |
7902 | |
7903 | case INSUBP94: /* (?(R)) */ |
7904 | n = ARG(scan)((((struct regnode_1 *)scan)->arg1)); |
7905 | /* this does not need to use EVAL_CLOSE_PAREN macros, as the arg |
7906 | * of SCAN is already set up as matches a eval.close_paren */ |
7907 | sw = cur_eval && (n == 0 || CUR_EVALcur_eval->u.eval.close_paren == n); |
7908 | break; |
7909 | |
7910 | case DEFINEP95: /* (?(DEFINE)) */ |
7911 | sw = 0; |
7912 | break; |
7913 | |
7914 | case IFTHEN82: /* (?(cond)A|B) */ |
7915 | reginfo->poscache_iter = reginfo->poscache_maxiter; /* Void cache */ |
7916 | if (sw) |
7917 | next = NEXTOPER(NEXTOPER(scan))((((scan) + 1)) + 1); |
7918 | else { |
7919 | next = scan + ARG(scan)((((struct regnode_1 *)scan)->arg1)); |
7920 | if (OP(next)((next)->type) == IFTHEN82) /* Fake one. */ |
7921 | next = NEXTOPER(NEXTOPER(next))((((next) + 1)) + 1); |
7922 | } |
7923 | break; |
7924 | |
7925 | case LOGICAL86: /* modifier for EVAL and IFMATCH */ |
7926 | logical = scan->flags; |
7927 | break; |
7928 | |
7929 | /******************************************************************* |
7930 | |
7931 | The CURLYX/WHILEM pair of ops handle the most generic case of the /A*B/ |
7932 | pattern, where A and B are subpatterns. (For simple A, CURLYM or |
7933 | STAR/PLUS/CURLY/CURLYN are used instead.) |
7934 | |
7935 | A*B is compiled as <CURLYX><A><WHILEM><B> |
7936 | |
7937 | On entry to the subpattern, CURLYX is called. This pushes a CURLYX |
7938 | state, which contains the current count, initialised to -1. It also sets |
7939 | cur_curlyx to point to this state, with any previous value saved in the |
7940 | state block. |
7941 | |
7942 | CURLYX then jumps straight to the WHILEM op, rather than executing A, |
7943 | since the pattern may possibly match zero times (i.e. it's a while {} loop |
7944 | rather than a do {} while loop). |
7945 | |
7946 | Each entry to WHILEM represents a successful match of A. The count in the |
7947 | CURLYX block is incremented, another WHILEM state is pushed, and execution |
7948 | passes to A or B depending on greediness and the current count. |
7949 | |
7950 | For example, if matching against the string a1a2a3b (where the aN are |
7951 | substrings that match /A/), then the match progresses as follows: (the |
7952 | pushed states are interspersed with the bits of strings matched so far): |
7953 | |
7954 | <CURLYX cnt=-1> |
7955 | <CURLYX cnt=0><WHILEM> |
7956 | <CURLYX cnt=1><WHILEM> a1 <WHILEM> |
7957 | <CURLYX cnt=2><WHILEM> a1 <WHILEM> a2 <WHILEM> |
7958 | <CURLYX cnt=3><WHILEM> a1 <WHILEM> a2 <WHILEM> a3 <WHILEM> |
7959 | <CURLYX cnt=3><WHILEM> a1 <WHILEM> a2 <WHILEM> a3 <WHILEM> b |
7960 | |
7961 | (Contrast this with something like CURLYM, which maintains only a single |
7962 | backtrack state: |
7963 | |
7964 | <CURLYM cnt=0> a1 |
7965 | a1 <CURLYM cnt=1> a2 |
7966 | a1 a2 <CURLYM cnt=2> a3 |
7967 | a1 a2 a3 <CURLYM cnt=3> b |
7968 | ) |
7969 | |
7970 | Each WHILEM state block marks a point to backtrack to upon partial failure |
7971 | of A or B, and also contains some minor state data related to that |
7972 | iteration. The CURLYX block, pointed to by cur_curlyx, contains the |
7973 | overall state, such as the count, and pointers to the A and B ops. |
7974 | |
7975 | This is complicated slightly by nested CURLYX/WHILEM's. Since cur_curlyx |
7976 | must always point to the *current* CURLYX block, the rules are: |
7977 | |
7978 | When executing CURLYX, save the old cur_curlyx in the CURLYX state block, |
7979 | and set cur_curlyx to point the new block. |
7980 | |
7981 | When popping the CURLYX block after a successful or unsuccessful match, |
7982 | restore the previous cur_curlyx. |
7983 | |
7984 | When WHILEM is about to execute B, save the current cur_curlyx, and set it |
7985 | to the outer one saved in the CURLYX block. |
7986 | |
7987 | When popping the WHILEM block after a successful or unsuccessful B match, |
7988 | restore the previous cur_curlyx. |
7989 | |
7990 | Here's an example for the pattern (AI* BI)*BO |
7991 | I and O refer to inner and outer, C and W refer to CURLYX and WHILEM: |
7992 | |
7993 | cur_ |
7994 | curlyx backtrack stack |
7995 | ------ --------------- |
7996 | NULL |
7997 | CO <CO prev=NULL> <WO> |
7998 | CI <CO prev=NULL> <WO> <CI prev=CO> <WI> ai |
7999 | CO <CO prev=NULL> <WO> <CI prev=CO> <WI> ai <WI prev=CI> bi |
8000 | NULL <CO prev=NULL> <WO> <CI prev=CO> <WI> ai <WI prev=CI> bi <WO prev=CO> bo |
8001 | |
8002 | At this point the pattern succeeds, and we work back down the stack to |
8003 | clean up, restoring as we go: |
8004 | |
8005 | CO <CO prev=NULL> <WO> <CI prev=CO> <WI> ai <WI prev=CI> bi |
8006 | CI <CO prev=NULL> <WO> <CI prev=CO> <WI> ai |
8007 | CO <CO prev=NULL> <WO> |
8008 | NULL |
8009 | |
8010 | *******************************************************************/ |
8011 | |
8012 | #define ST st->u.curlyx |
8013 | |
8014 | case CURLYX61: /* start of /A*B/ (for complex A) */ |
8015 | { |
8016 | /* No need to save/restore up to this paren */ |
8017 | I32 parenfloor = scan->flags; |
8018 | |
8019 | assert(next)((next) ? (void)0 : __assert2("re_exec.c", 8019, __func__, "next" )); /* keep Coverity happy */ |
8020 | if (OP(PREVOPER(next))((((next) - 1))->type) == NOTHING54) /* LONGJMP */ |
8021 | next += ARG(next)((((struct regnode_1 *)next)->arg1)); |
8022 | |
8023 | /* XXXX Probably it is better to teach regpush to support |
8024 | parenfloor > maxopenparen ... */ |
8025 | if (parenfloor > (I32)rex->lastparen) |
8026 | parenfloor = rex->lastparen; /* Pessimization... */ |
8027 | |
8028 | ST.prev_curlyx= cur_curlyx; |
8029 | cur_curlyx = st; |
8030 | ST.cp = PL_savestack_ix; |
8031 | |
8032 | /* these fields contain the state of the current curly. |
8033 | * they are accessed by subsequent WHILEMs */ |
8034 | ST.parenfloor = parenfloor; |
8035 | ST.me = scan; |
8036 | ST.B = next; |
8037 | ST.minmod = minmod; |
8038 | minmod = 0; |
8039 | ST.count = -1; /* this will be updated by WHILEM */ |
8040 | ST.lastloc = NULL((void*)0); /* this will be updated by WHILEM */ |
8041 | |
8042 | PUSH_YES_STATE_GOTO(CURLYX_end, PREVOPER(next), locinput, loceol,pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = ((next) - 1); st->resume_state = (109 + 7); goto push_yes_state ; |
8043 | script_run_begin)pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = ((next) - 1); st->resume_state = (109 + 7); goto push_yes_state ;; |
8044 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 8044 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
8045 | } |
8046 | |
8047 | case CURLYX_end(109 + 7): /* just finished matching all of A*B */ |
8048 | cur_curlyx = ST.prev_curlyx; |
8049 | sayYESgoto yes; |
8050 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 8050 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
8051 | |
8052 | case CURLYX_end_fail(109 + 8): /* just failed to match all of A*B */ |
8053 | regcpblow(ST.cp)do { if (PL_savestack_ix > ST.cp) Perl_leave_scope( ST.cp) ; } while (0); |
8054 | cur_curlyx = ST.prev_curlyx; |
8055 | sayNOgoto no; |
8056 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 8056 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
8057 | |
8058 | |
8059 | #undef ST |
8060 | #define ST st->u.whilem |
8061 | |
8062 | case WHILEM62: /* just matched an A in /A*B/ (for complex A) */ |
8063 | { |
8064 | /* see the discussion above about CURLYX/WHILEM */ |
8065 | I32 n; |
8066 | int min, max; |
8067 | regnode *A; |
8068 | |
8069 | assert(cur_curlyx)((cur_curlyx) ? (void)0 : __assert2("re_exec.c", 8069, __func__ , "cur_curlyx")); /* keep Coverity happy */ |
8070 | |
8071 | min = ARG1(cur_curlyx->u.curlyx.me)((((struct regnode_2 *)cur_curlyx->u.curlyx.me)->arg1)); |
8072 | max = ARG2(cur_curlyx->u.curlyx.me)((((struct regnode_2 *)cur_curlyx->u.curlyx.me)->arg2)); |
8073 | A = NEXTOPER(cur_curlyx->u.curlyx.me)((cur_curlyx->u.curlyx.me) + 1) + EXTRA_STEP_2ARGS((sizeof(struct regnode_2)-1)/sizeof(struct regnode)); |
8074 | n = ++cur_curlyx->u.curlyx.count; /* how many A's matched */ |
8075 | ST.save_lastloc = cur_curlyx->u.curlyx.lastloc; |
8076 | ST.cache_offset = 0; |
8077 | ST.cache_mask = 0; |
8078 | |
8079 | |
8080 | DEBUG_EXECUTE_r( Perl_re_exec_indentf( aTHX_ "WHILEM: matched %ld out of %d..%d\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "WHILEM: matched %ld out of %d..%d\n", depth, (long)n, min, max);} while (0) |
8081 | depth, (long)n, min, max)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "WHILEM: matched %ld out of %d..%d\n", depth, (long)n, min, max);} while (0) |
8082 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "WHILEM: matched %ld out of %d..%d\n", depth, (long)n, min, max);} while (0); |
8083 | |
8084 | /* First just match a string of min A's. */ |
8085 | |
8086 | if (n < min) { |
8087 | ST.cp = regcppush(rex, cur_curlyx->u.curlyx.parenfloor, maxopenparen)S_regcppush( rex,cur_curlyx->u.curlyx.parenfloor,maxopenparen ,depth); |
8088 | cur_curlyx->u.curlyx.lastloc = locinput; |
8089 | REGCP_SET(ST.lastcp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) Perl_re_exec_indentf ( "Setting an EVAL scope, savestack=%" "ld" ",\n", depth, (IV )PL_savestack_ix );} while (0); ST.lastcp = PL_savestack_ix; |
8090 | |
8091 | PUSH_STATE_GOTO(WHILEM_A_pre, A, locinput, loceol,pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = A; st->resume_state = (109 + 9); goto push_state; |
8092 | script_run_begin)pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = A; st->resume_state = (109 + 9); goto push_state;; |
8093 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 8093 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
8094 | } |
8095 | |
8096 | /* If degenerate A matches "", assume A done. */ |
8097 | |
8098 | if (locinput == cur_curlyx->u.curlyx.lastloc) { |
8099 | DEBUG_EXECUTE_r( Perl_re_exec_indentf( aTHX_ "WHILEM: empty match detected, trying continuation...\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "WHILEM: empty match detected, trying continuation...\n", depth );} while (0) |
8100 | depth)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "WHILEM: empty match detected, trying continuation...\n", depth );} while (0) |
8101 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "WHILEM: empty match detected, trying continuation...\n", depth );} while (0); |
8102 | goto do_whilem_B_max; |
8103 | } |
8104 | |
8105 | /* super-linear cache processing. |
8106 | * |
8107 | * The idea here is that for certain types of CURLYX/WHILEM - |
8108 | * principally those whose upper bound is infinity (and |
8109 | * excluding regexes that have things like \1 and other very |
8110 | * non-regular expresssiony things), then if a pattern like |
8111 | * /....A*.../ fails and we backtrack to the WHILEM, then we |
8112 | * make a note that this particular WHILEM op was at string |
8113 | * position 47 (say) when the rest of pattern failed. Then, if |
8114 | * we ever find ourselves back at that WHILEM, and at string |
8115 | * position 47 again, we can just fail immediately rather than |
8116 | * running the rest of the pattern again. |
8117 | * |
8118 | * This is very handy when patterns start to go |
8119 | * 'super-linear', like in (a+)*(a+)*(a+)*, where you end up |
8120 | * with a combinatorial explosion of backtracking. |
8121 | * |
8122 | * The cache is implemented as a bit array, with one bit per |
8123 | * string byte position per WHILEM op (up to 16) - so its |
8124 | * between 0.25 and 2x the string size. |
8125 | * |
8126 | * To avoid allocating a poscache buffer every time, we do an |
8127 | * initially countdown; only after we have executed a WHILEM |
8128 | * op (string-length x #WHILEMs) times do we allocate the |
8129 | * cache. |
8130 | * |
8131 | * The top 4 bits of scan->flags byte say how many different |
8132 | * relevant CURLLYX/WHILEM op pairs there are, while the |
8133 | * bottom 4-bits is the identifying index number of this |
8134 | * WHILEM. |
8135 | */ |
8136 | |
8137 | if (scan->flags) { |
8138 | |
8139 | if (!reginfo->poscache_maxiter) { |
8140 | /* start the countdown: Postpone detection until we |
8141 | * know the match is not *that* much linear. */ |
8142 | reginfo->poscache_maxiter |
8143 | = (reginfo->strend - reginfo->strbeg + 1) |
8144 | * (scan->flags>>4); |
8145 | /* possible overflow for long strings and many CURLYX's */ |
8146 | if (reginfo->poscache_maxiter < 0) |
8147 | reginfo->poscache_maxiter = I32_MAX0x7fffffff; |
8148 | reginfo->poscache_iter = reginfo->poscache_maxiter; |
8149 | } |
8150 | |
8151 | if (reginfo->poscache_iter-- == 0) { |
8152 | /* initialise cache */ |
8153 | const SSize_tssize_t size = (reginfo->poscache_maxiter + 7)/8; |
8154 | regmatch_info_aux *const aux = reginfo->info_aux; |
8155 | if (aux->poscache) { |
8156 | if ((SSize_tssize_t)reginfo->poscache_size < size) { |
8157 | Renew(aux->poscache, size, char)(aux->poscache = ((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_safesysrealloc((void *)(aux->poscache),(size_t )((size)*sizeof(char)))))); |
8158 | reginfo->poscache_size = size; |
8159 | } |
8160 | Zero(aux->poscache, size, char)((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)), ((((void*)(aux-> poscache)) != 0) ? (void)0 : __assert2("re_exec.c", 8160, __func__ , "((void*)(aux->poscache)) != 0")), (void)memset((char*)( aux->poscache),0,(size) * sizeof(char))); |
8161 | } |
8162 | else { |
8163 | reginfo->poscache_size = size; |
8164 | Newxz(aux->poscache, size, char)(aux->poscache = ((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))))); |
8165 | } |
8166 | DEBUG_EXECUTE_r( Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sWHILEM: Detected a super-linear match, switching on caching%s...\n" , PL_colors[4], PL_colors[5]);} while (0) |
8167 | "%sWHILEM: Detected a super-linear match, switching on caching%s...\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sWHILEM: Detected a super-linear match, switching on caching%s...\n" , PL_colors[4], PL_colors[5]);} while (0) |
8168 | PL_colors[4], PL_colors[5])do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sWHILEM: Detected a super-linear match, switching on caching%s...\n" , PL_colors[4], PL_colors[5]);} while (0) |
8169 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sWHILEM: Detected a super-linear match, switching on caching%s...\n" , PL_colors[4], PL_colors[5]);} while (0); |
8170 | } |
8171 | |
8172 | if (reginfo->poscache_iter < 0) { |
8173 | /* have we already failed at this position? */ |
8174 | SSize_tssize_t offset, mask; |
8175 | |
8176 | reginfo->poscache_iter = -1; /* stop eventual underflow */ |
8177 | offset = (scan->flags & 0xf) - 1 |
8178 | + (locinput - reginfo->strbeg) |
8179 | * (scan->flags>>4); |
8180 | mask = 1 << (offset % 8); |
8181 | offset /= 8; |
8182 | if (reginfo->info_aux->poscache[offset] & mask) { |
8183 | DEBUG_EXECUTE_r( Perl_re_exec_indentf( aTHX_ "WHILEM: (cache) already tried at this position...\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "WHILEM: (cache) already tried at this position...\n", depth );} while (0) |
8184 | depth)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "WHILEM: (cache) already tried at this position...\n", depth );} while (0) |
8185 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "WHILEM: (cache) already tried at this position...\n", depth );} while (0); |
8186 | cur_curlyx->u.curlyx.count--; |
8187 | sayNOgoto no; /* cache records failure */ |
8188 | } |
8189 | ST.cache_offset = offset; |
8190 | ST.cache_mask = mask; |
8191 | } |
8192 | } |
8193 | |
8194 | /* Prefer B over A for minimal matching. */ |
8195 | |
8196 | if (cur_curlyx->u.curlyx.minmod) { |
8197 | ST.save_curlyx = cur_curlyx; |
8198 | cur_curlyx = cur_curlyx->u.curlyx.prev_curlyx; |
8199 | PUSH_YES_STATE_GOTO(WHILEM_B_min, ST.save_curlyx->u.curlyx.B,pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = ST.save_curlyx->u.curlyx.B; st->resume_state = (109 + 15); goto push_yes_state; |
8200 | locinput, loceol, script_run_begin)pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = ST.save_curlyx->u.curlyx.B; st->resume_state = (109 + 15); goto push_yes_state;; |
8201 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 8201 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
8202 | } |
8203 | |
8204 | /* Prefer A over B for maximal matching. */ |
8205 | |
8206 | if (n < max) { /* More greed allowed? */ |
8207 | ST.cp = regcppush(rex, cur_curlyx->u.curlyx.parenfloor,S_regcppush( rex,cur_curlyx->u.curlyx.parenfloor,maxopenparen ,depth) |
8208 | maxopenparen)S_regcppush( rex,cur_curlyx->u.curlyx.parenfloor,maxopenparen ,depth); |
8209 | cur_curlyx->u.curlyx.lastloc = locinput; |
8210 | REGCP_SET(ST.lastcp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) Perl_re_exec_indentf ( "Setting an EVAL scope, savestack=%" "ld" ",\n", depth, (IV )PL_savestack_ix );} while (0); ST.lastcp = PL_savestack_ix; |
8211 | PUSH_STATE_GOTO(WHILEM_A_max, A, locinput, loceol,pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = A; st->resume_state = (109 + 13); goto push_state ; |
8212 | script_run_begin)pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = A; st->resume_state = (109 + 13); goto push_state ;; |
8213 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 8213 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
8214 | } |
8215 | goto do_whilem_B_max; |
8216 | } |
8217 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 8217 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
8218 | |
8219 | case WHILEM_B_min(109 + 15): /* just matched B in a minimal match */ |
8220 | case WHILEM_B_max(109 + 17): /* just matched B in a maximal match */ |
8221 | cur_curlyx = ST.save_curlyx; |
8222 | sayYESgoto yes; |
8223 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 8223 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
8224 | |
8225 | case WHILEM_B_max_fail(109 + 18): /* just failed to match B in a maximal match */ |
8226 | cur_curlyx = ST.save_curlyx; |
8227 | cur_curlyx->u.curlyx.lastloc = ST.save_lastloc; |
8228 | cur_curlyx->u.curlyx.count--; |
8229 | CACHEsayNOif (ST.cache_mask) reginfo->info_aux->poscache[ST.cache_offset ] |= ST.cache_mask; goto no; |
8230 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 8230 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
8231 | |
8232 | case WHILEM_A_min_fail(109 + 12): /* just failed to match A in a minimal match */ |
8233 | /* FALLTHROUGH */ |
8234 | case WHILEM_A_pre_fail(109 + 10): /* just failed to match even minimal A */ |
8235 | REGCP_UNWIND(ST.lastcp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) if (ST.lastcp != PL_savestack_ix) Perl_re_exec_indentf( "Clearing an EVAL scope, savestack=%" "ld" "..%" "ld" "\n", depth, (IV)(ST.lastcp), (IV)PL_savestack_ix );} while (0); do { if (PL_savestack_ix > ST.lastcp) Perl_leave_scope ( ST.lastcp); } while (0); |
8236 | regcppop(rex, &maxopenparen)S_regcppop( rex,&maxopenparen ,depth); |
8237 | cur_curlyx->u.curlyx.lastloc = ST.save_lastloc; |
8238 | cur_curlyx->u.curlyx.count--; |
8239 | CACHEsayNOif (ST.cache_mask) reginfo->info_aux->poscache[ST.cache_offset ] |= ST.cache_mask; goto no; |
8240 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 8240 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
8241 | |
8242 | case WHILEM_A_max_fail(109 + 14): /* just failed to match A in a maximal match */ |
8243 | REGCP_UNWIND(ST.lastcp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) if (ST.lastcp != PL_savestack_ix) Perl_re_exec_indentf( "Clearing an EVAL scope, savestack=%" "ld" "..%" "ld" "\n", depth, (IV)(ST.lastcp), (IV)PL_savestack_ix );} while (0); do { if (PL_savestack_ix > ST.lastcp) Perl_leave_scope ( ST.lastcp); } while (0); |
8244 | regcppop(rex, &maxopenparen)S_regcppop( rex,&maxopenparen ,depth); /* Restore some previous $<digit>s? */ |
8245 | DEBUG_EXECUTE_r(Perl_re_exec_indentf( aTHX_ "WHILEM: failed, trying continuation...\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "WHILEM: failed, trying continuation...\n", depth);} while ( 0) |
8246 | depth)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "WHILEM: failed, trying continuation...\n", depth);} while ( 0) |
8247 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "WHILEM: failed, trying continuation...\n", depth);} while ( 0); |
8248 | do_whilem_B_max: |
8249 | if (cur_curlyx->u.curlyx.count >= REG_INFTY0xffff |
8250 | && ckWARN(WARN_REGEXP)Perl_ckwarn( (20 )) |
8251 | && !reginfo->warned) |
8252 | { |
8253 | reginfo->warned = TRUE(1); |
8254 | Perl_warner(aTHX_ packWARN(WARN_REGEXP)(20 ), |
8255 | "Complex regular subexpression recursion limit (%d) " |
8256 | "exceeded", |
8257 | REG_INFTY0xffff - 1); |
8258 | } |
8259 | |
8260 | /* now try B */ |
8261 | ST.save_curlyx = cur_curlyx; |
8262 | cur_curlyx = cur_curlyx->u.curlyx.prev_curlyx; |
8263 | PUSH_YES_STATE_GOTO(WHILEM_B_max, ST.save_curlyx->u.curlyx.B,pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = ST.save_curlyx->u.curlyx.B; st->resume_state = (109 + 17); goto push_yes_state; |
8264 | locinput, loceol, script_run_begin)pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = ST.save_curlyx->u.curlyx.B; st->resume_state = (109 + 17); goto push_yes_state;; |
8265 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 8265 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
8266 | |
8267 | case WHILEM_B_min_fail(109 + 16): /* just failed to match B in a minimal match */ |
8268 | cur_curlyx = ST.save_curlyx; |
8269 | |
8270 | if (cur_curlyx->u.curlyx.count >= /*max*/ARG2(cur_curlyx->u.curlyx.me)((((struct regnode_2 *)cur_curlyx->u.curlyx.me)->arg2))) { |
8271 | /* Maximum greed exceeded */ |
8272 | if (cur_curlyx->u.curlyx.count >= REG_INFTY0xffff |
8273 | && ckWARN(WARN_REGEXP)Perl_ckwarn( (20 )) |
8274 | && !reginfo->warned) |
8275 | { |
8276 | reginfo->warned = TRUE(1); |
8277 | Perl_warner(aTHX_ packWARN(WARN_REGEXP)(20 ), |
8278 | "Complex regular subexpression recursion " |
8279 | "limit (%d) exceeded", |
8280 | REG_INFTY0xffff - 1); |
8281 | } |
8282 | cur_curlyx->u.curlyx.count--; |
8283 | CACHEsayNOif (ST.cache_mask) reginfo->info_aux->poscache[ST.cache_offset ] |= ST.cache_mask; goto no; |
8284 | } |
8285 | |
8286 | DEBUG_EXECUTE_r(Perl_re_exec_indentf( aTHX_ "WHILEM: B min fail: trying longer...\n", depth)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "WHILEM: B min fail: trying longer...\n", depth);} while (0 ) |
8287 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "WHILEM: B min fail: trying longer...\n", depth);} while (0 ); |
8288 | /* Try grabbing another A and see if it helps. */ |
8289 | cur_curlyx->u.curlyx.lastloc = locinput; |
8290 | ST.cp = regcppush(rex, cur_curlyx->u.curlyx.parenfloor,S_regcppush( rex,cur_curlyx->u.curlyx.parenfloor,maxopenparen ,depth) |
8291 | maxopenparen)S_regcppush( rex,cur_curlyx->u.curlyx.parenfloor,maxopenparen ,depth); |
8292 | REGCP_SET(ST.lastcp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) Perl_re_exec_indentf ( "Setting an EVAL scope, savestack=%" "ld" ",\n", depth, (IV )PL_savestack_ix );} while (0); ST.lastcp = PL_savestack_ix; |
8293 | PUSH_STATE_GOTO(WHILEM_A_min,pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = ((ST.save_curlyx->u.curlyx.me) + 1) + ((sizeof(struct regnode_2)-1)/sizeof(struct regnode)); st->resume_state = (109 + 11); goto push_state; |
8294 | /*A*/ NEXTOPER(ST.save_curlyx->u.curlyx.me) + EXTRA_STEP_2ARGS,pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = ((ST.save_curlyx->u.curlyx.me) + 1) + ((sizeof(struct regnode_2)-1)/sizeof(struct regnode)); st->resume_state = (109 + 11); goto push_state; |
8295 | locinput, loceol, script_run_begin)pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = ((ST.save_curlyx->u.curlyx.me) + 1) + ((sizeof(struct regnode_2)-1)/sizeof(struct regnode)); st->resume_state = (109 + 11); goto push_state;; |
8296 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 8296 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
8297 | |
8298 | #undef ST |
8299 | #define ST st->u.branch |
8300 | |
8301 | case BRANCHJ78: /* /(...|A|...)/ with long next pointer */ |
8302 | next = scan + ARG(scan)((((struct regnode_1 *)scan)->arg1)); |
8303 | if (next == scan) |
8304 | next = NULL((void*)0); |
8305 | scan = NEXTOPER(scan)((scan) + 1); |
8306 | /* FALLTHROUGH */ |
8307 | |
8308 | case BRANCH39: /* /(...|A|...)/ */ |
8309 | scan = NEXTOPER(scan)((scan) + 1); /* scan now points to inner node */ |
8310 | ST.lastparen = rex->lastparen; |
8311 | ST.lastcloseparen = rex->lastcloseparen; |
8312 | ST.next_branch = next; |
8313 | REGCP_SET(ST.cp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) Perl_re_exec_indentf ( "Setting an EVAL scope, savestack=%" "ld" ",\n", depth, (IV )PL_savestack_ix );} while (0); ST.cp = PL_savestack_ix; |
8314 | |
8315 | /* Now go into the branch */ |
8316 | if (has_cutgroup) { |
8317 | PUSH_YES_STATE_GOTO(BRANCH_next, scan, locinput, loceol,pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = scan; st->resume_state = (109 + 19); goto push_yes_state ; |
8318 | script_run_begin)pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = scan; st->resume_state = (109 + 19); goto push_yes_state ;; |
8319 | } else { |
8320 | PUSH_STATE_GOTO(BRANCH_next, scan, locinput, loceol,pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = scan; st->resume_state = (109 + 19); goto push_state ; |
8321 | script_run_begin)pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = scan; st->resume_state = (109 + 19); goto push_state ;; |
8322 | } |
8323 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 8323 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
8324 | |
8325 | case CUTGROUP104: /* /(*THEN)/ */ |
8326 | sv_yes_mark = st->u.mark.mark_name = scan->flags |
8327 | ? MUTABLE_SV(rexi->data->data[ ARG( scan ) ])((SV *)({ void *_p = (rexi->data->data[ ((((struct regnode_1 *)scan)->arg1)) ]); _p; })) |
8328 | : NULL((void*)0); |
8329 | PUSH_STATE_GOTO(CUTGROUP_next, next, locinput, loceol,pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = next; st->resume_state = (109 + 37); goto push_state ; |
8330 | script_run_begin)pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = next; st->resume_state = (109 + 37); goto push_state ;; |
8331 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 8331 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
8332 | |
8333 | case CUTGROUP_next_fail(109 + 38): |
8334 | do_cutgroup = 1; |
8335 | no_final = 1; |
8336 | if (st->u.mark.mark_name) |
8337 | sv_commit = st->u.mark.mark_name; |
8338 | sayNOgoto no; |
8339 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 8339 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
8340 | |
8341 | case BRANCH_next(109 + 19): |
8342 | sayYESgoto yes; |
8343 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 8343 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
8344 | |
8345 | case BRANCH_next_fail(109 + 20): /* that branch failed; try the next, if any */ |
8346 | if (do_cutgroup) { |
8347 | do_cutgroup = 0; |
8348 | no_final = 0; |
8349 | } |
8350 | REGCP_UNWIND(ST.cp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) if (ST.cp != PL_savestack_ix) Perl_re_exec_indentf( "Clearing an EVAL scope, savestack=%" "ld" "..%" "ld" "\n", depth, (IV)(ST.cp), (IV)PL_savestack_ix );} while (0); do { if (PL_savestack_ix > ST.cp) Perl_leave_scope ( ST.cp); } while (0); |
8351 | UNWIND_PAREN(ST.lastparen, ST.lastcloseparen)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "UNWIND_PAREN: rex=0x%" "lx" " offs=0x%" "lx" ": invalidate (%" "lu" "..%" "lu" "] set lcp: %" "lu" "\n", depth, (UV)(rex), ( UV)(rex->offs), (UV)(ST.lastparen), (UV)(rex->lastparen ), (UV)(ST.lastcloseparen) );} while (0); for (n = rex->lastparen ; n > ST.lastparen; n--) rex->offs[n].end = -1; rex-> lastparen = n; rex->lastcloseparen = ST.lastcloseparen;; |
8352 | scan = ST.next_branch; |
8353 | /* no more branches? */ |
8354 | if (!scan || (OP(scan)((scan)->type) != BRANCH39 && OP(scan)((scan)->type) != BRANCHJ78)) { |
8355 | DEBUG_EXECUTE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { Perl_re_exec_indentf ( "%sBRANCH failed...%s\n", depth, PL_colors[4], PL_colors[5] ); };} while (0) |
8356 | Perl_re_exec_indentf( aTHX_ "%sBRANCH failed...%s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { Perl_re_exec_indentf ( "%sBRANCH failed...%s\n", depth, PL_colors[4], PL_colors[5] ); };} while (0) |
8357 | depth,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { Perl_re_exec_indentf ( "%sBRANCH failed...%s\n", depth, PL_colors[4], PL_colors[5] ); };} while (0) |
8358 | PL_colors[4],do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { Perl_re_exec_indentf ( "%sBRANCH failed...%s\n", depth, PL_colors[4], PL_colors[5] ); };} while (0) |
8359 | PL_colors[5] );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { Perl_re_exec_indentf ( "%sBRANCH failed...%s\n", depth, PL_colors[4], PL_colors[5] ); };} while (0) |
8360 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { Perl_re_exec_indentf ( "%sBRANCH failed...%s\n", depth, PL_colors[4], PL_colors[5] ); };} while (0); |
8361 | sayNO_SILENTgoto no_silent; |
8362 | } |
8363 | continue; /* execute next BRANCH[J] op */ |
8364 | /* NOTREACHED */ |
8365 | |
8366 | case MINMOD85: /* next op will be non-greedy, e.g. A*? */ |
8367 | minmod = 1; |
8368 | break; |
8369 | |
8370 | #undef ST |
8371 | #define ST st->u.curlym |
8372 | |
8373 | case CURLYM60: /* /A{m,n}B/ where A is fixed-length */ |
8374 | |
8375 | /* This is an optimisation of CURLYX that enables us to push |
8376 | * only a single backtracking state, no matter how many matches |
8377 | * there are in {m,n}. It relies on the pattern being constant |
8378 | * length, with no parens to influence future backrefs |
8379 | */ |
8380 | |
8381 | ST.me = scan; |
8382 | scan = NEXTOPER(scan)((scan) + 1) + NODE_STEP_REGNODE1; |
8383 | |
8384 | ST.lastparen = rex->lastparen; |
8385 | ST.lastcloseparen = rex->lastcloseparen; |
8386 | |
8387 | /* if paren positive, emulate an OPEN/CLOSE around A */ |
8388 | if (ST.me->flags) { |
8389 | U32 paren = ST.me->flags; |
8390 | if (paren > maxopenparen) |
8391 | maxopenparen = paren; |
8392 | scan += NEXT_OFF(scan)((scan)->next_off); /* Skip former OPEN. */ |
8393 | } |
8394 | ST.A = scan; |
8395 | ST.B = next; |
8396 | ST.alen = 0; |
8397 | ST.count = 0; |
8398 | ST.minmod = minmod; |
8399 | minmod = 0; |
8400 | ST.c1 = CHRTEST_UNINIT-1001; |
8401 | REGCP_SET(ST.cp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) Perl_re_exec_indentf ( "Setting an EVAL scope, savestack=%" "ld" ",\n", depth, (IV )PL_savestack_ix );} while (0); ST.cp = PL_savestack_ix; |
8402 | |
8403 | if (!(ST.minmod ? ARG1(ST.me)((((struct regnode_2 *)ST.me)->arg1)) : ARG2(ST.me)((((struct regnode_2 *)ST.me)->arg2)))) /* min/max */ |
8404 | goto curlym_do_B; |
8405 | |
8406 | curlym_do_A: /* execute the A in /A{m,n}B/ */ |
8407 | PUSH_YES_STATE_GOTO(CURLYM_A, ST.A, locinput, loceol, /* match A */pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = ST.A; st->resume_state = (109 + 21); goto push_yes_state ; |
8408 | script_run_begin)pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = ST.A; st->resume_state = (109 + 21); goto push_yes_state ;; |
8409 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 8409 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
8410 | |
8411 | case CURLYM_A(109 + 21): /* we've just matched an A */ |
8412 | ST.count++; |
8413 | /* after first match, determine A's length: u.curlym.alen */ |
8414 | if (ST.count == 1) { |
8415 | if (reginfo->is_utf8_target) { |
8416 | char *s = st->locinput; |
8417 | while (s < locinput) { |
8418 | ST.alen++; |
8419 | s += UTF8SKIP(s)PL_utf8skip[*(const U8*)(s)]; |
8420 | } |
8421 | } |
8422 | else { |
8423 | ST.alen = locinput - st->locinput; |
8424 | } |
8425 | if (ST.alen == 0) |
8426 | ST.count = ST.minmod ? ARG1(ST.me)((((struct regnode_2 *)ST.me)->arg1)) : ARG2(ST.me)((((struct regnode_2 *)ST.me)->arg2)); |
8427 | } |
8428 | DEBUG_EXECUTE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "CURLYM now matched %" "ld" " times, len=%" "ld" "...\n", depth , (IV) ST.count, (IV)ST.alen);} while (0) |
8429 | Perl_re_exec_indentf( aTHX_ "CURLYM now matched %" IVdf " times, len=%" IVdf "...\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "CURLYM now matched %" "ld" " times, len=%" "ld" "...\n", depth , (IV) ST.count, (IV)ST.alen);} while (0) |
8430 | depth, (IV) ST.count, (IV)ST.alen)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "CURLYM now matched %" "ld" " times, len=%" "ld" "...\n", depth , (IV) ST.count, (IV)ST.alen);} while (0) |
8431 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "CURLYM now matched %" "ld" " times, len=%" "ld" "...\n", depth , (IV) ST.count, (IV)ST.alen);} while (0); |
8432 | |
8433 | if (EVAL_CLOSE_PAREN_IS_TRUE(cur_eval,(U32)ST.me->flags)( ( ( cur_eval ) ) && ( ( cur_eval )->u.eval.close_paren ) && ( ( (U32)ST.me->flags ) ) && ( ( ( cur_eval )->u.eval.close_paren ) == ( ((U32)ST.me->flags) + 1 ) ) )) |
8434 | goto fake_end; |
8435 | |
8436 | { |
8437 | I32 max = (ST.minmod ? ARG1(ST.me)((((struct regnode_2 *)ST.me)->arg1)) : ARG2(ST.me)((((struct regnode_2 *)ST.me)->arg2))); |
8438 | if ( max == REG_INFTY0xffff || ST.count < max ) |
8439 | goto curlym_do_A; /* try to match another A */ |
8440 | } |
8441 | goto curlym_do_B; /* try to match B */ |
8442 | |
8443 | case CURLYM_A_fail(109 + 22): /* just failed to match an A */ |
8444 | REGCP_UNWIND(ST.cp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) if (ST.cp != PL_savestack_ix) Perl_re_exec_indentf( "Clearing an EVAL scope, savestack=%" "ld" "..%" "ld" "\n", depth, (IV)(ST.cp), (IV)PL_savestack_ix );} while (0); do { if (PL_savestack_ix > ST.cp) Perl_leave_scope ( ST.cp); } while (0); |
8445 | |
8446 | |
8447 | if (ST.minmod || ST.count < ARG1(ST.me)((((struct regnode_2 *)ST.me)->arg1)) /* min*/ |
8448 | || EVAL_CLOSE_PAREN_IS_TRUE(cur_eval,(U32)ST.me->flags)( ( ( cur_eval ) ) && ( ( cur_eval )->u.eval.close_paren ) && ( ( (U32)ST.me->flags ) ) && ( ( ( cur_eval )->u.eval.close_paren ) == ( ((U32)ST.me->flags) + 1 ) ) )) |
8449 | sayNOgoto no; |
8450 | |
8451 | curlym_do_B: /* execute the B in /A{m,n}B/ */ |
8452 | if (ST.c1 == CHRTEST_UNINIT-1001) { |
8453 | /* calculate c1 and c2 for possible match of 1st char |
8454 | * following curly */ |
8455 | ST.c1 = ST.c2 = CHRTEST_VOID-1000; |
8456 | assert(ST.B)((ST.B) ? (void)0 : __assert2("re_exec.c", 8456, __func__, "ST.B" )); |
8457 | if (HAS_TEXT(ST.B)( (PL_regkind[((ST.B)->type)] == 40) || PL_regkind[((ST.B) ->type)] == 67 ) || JUMPABLE(ST.B)( ((ST.B)->type) == 63 || (((ST.B)->type) == 64 && !( ( ( cur_eval ) ) && ( ( cur_eval )->u.eval.close_paren ) && ( ( ( cur_eval )->u.eval.close_paren ) == ( ( ((((struct regnode_1 *)ST.B)->arg1))) + 1 ) ) ) ) || ((ST. B)->type) == 84 || ((ST.B)->type) == 81 || ((ST.B)-> type) == 79 || ((ST.B)->type) == 57 || ((ST.B)->type) == 85 || ((ST.B)->type) == 105 || (PL_regkind[((ST.B)->type )] == 58 && ((((struct regnode_2 *)ST.B)->arg1)) > 0) )) { |
8458 | regnode *text_node = ST.B; |
8459 | if (! HAS_TEXT(text_node)( (PL_regkind[((text_node)->type)] == 40) || PL_regkind[(( text_node)->type)] == 67 )) |
8460 | FIND_NEXT_IMPT(text_node)do { while (( ((text_node)->type) == 63 || (((text_node)-> type) == 64 && !( ( ( cur_eval ) ) && ( ( cur_eval )->u.eval.close_paren ) && ( ( ( cur_eval )->u .eval.close_paren ) == ( (((((struct regnode_1 *)text_node)-> arg1))) + 1 ) ) ) ) || ((text_node)->type) == 84 || ((text_node )->type) == 81 || ((text_node)->type) == 79 || ((text_node )->type) == 57 || ((text_node)->type) == 85 || ((text_node )->type) == 105 || (PL_regkind[((text_node)->type)] == 58 && ((((struct regnode_2 *)text_node)->arg1)) > 0) )) { const U16 type = ((text_node)->type); if (type == 81 || PL_regkind[type] == 58) text_node = ((((text_node) + 1 )) + 1); else if (type == 57) text_node = ((text_node) + 1); else if (type == 79) text_node = (text_node->flags == 0) ? ((( (text_node) + 1)) + 1) : text_node + ((((struct regnode_1 *)text_node )->arg1)); else text_node += ((text_node)->next_off); } } while (0); |
8461 | if (PL_regkind[OP(text_node)((text_node)->type)] == EXACT40) { |
8462 | if (! S_setup_EXACTISH_ST_c1_c2(aTHX_ |
8463 | text_node, &ST.c1, ST.c1_utf8, &ST.c2, ST.c2_utf8, |
8464 | reginfo)) |
8465 | { |
8466 | sayNOgoto no; |
8467 | } |
8468 | } |
8469 | } |
8470 | } |
8471 | |
8472 | DEBUG_EXECUTE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "CURLYM trying tail with matches=%" "ld" "...\n", depth, (IV )ST.count);} while (0) |
8473 | Perl_re_exec_indentf( aTHX_ "CURLYM trying tail with matches=%" IVdf "...\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "CURLYM trying tail with matches=%" "ld" "...\n", depth, (IV )ST.count);} while (0) |
8474 | depth, (IV)ST.count)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "CURLYM trying tail with matches=%" "ld" "...\n", depth, (IV )ST.count);} while (0) |
8475 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "CURLYM trying tail with matches=%" "ld" "...\n", depth, (IV )ST.count);} while (0); |
8476 | if (! NEXTCHR_IS_EOS(nextchr < 0) && ST.c1 != CHRTEST_VOID-1000) { |
8477 | if (! UTF8_IS_INVARIANT(nextchr)((((U64)(((UV) (((nextchr) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0))) && utf8_target) { |
8478 | |
8479 | /* (We can use memEQ and memNE in this file without |
8480 | * having to worry about one being shorter than the |
8481 | * other, since the first byte of each gives the |
8482 | * length of the character) */ |
8483 | if ( memNE(locinput, ST.c1_utf8, UTF8_SAFE_SKIP(locinput,(! (memcmp(((const void *) (locinput)), ((const void *) (ST.c1_utf8 )), ((((reginfo->strend) >= (locinput)) ? (void)0 : __assert2 ("re_exec.c", 8484, __func__, "(reginfo->strend) >= (locinput)" )), ((reginfo->strend) - (locinput)) <= 0 ? 0 : (((((reginfo ->strend) - (locinput)))<(PL_utf8skip[*(const U8*)(locinput )]))?(((reginfo->strend) - (locinput))):(PL_utf8skip[*(const U8*)(locinput)])))) == 0)) |
8484 | reginfo->strend))(! (memcmp(((const void *) (locinput)), ((const void *) (ST.c1_utf8 )), ((((reginfo->strend) >= (locinput)) ? (void)0 : __assert2 ("re_exec.c", 8484, __func__, "(reginfo->strend) >= (locinput)" )), ((reginfo->strend) - (locinput)) <= 0 ? 0 : (((((reginfo ->strend) - (locinput)))<(PL_utf8skip[*(const U8*)(locinput )]))?(((reginfo->strend) - (locinput))):(PL_utf8skip[*(const U8*)(locinput)])))) == 0)) |
8485 | && memNE(locinput, ST.c2_utf8, UTF8_SAFE_SKIP(locinput,(! (memcmp(((const void *) (locinput)), ((const void *) (ST.c2_utf8 )), ((((reginfo->strend) >= (locinput)) ? (void)0 : __assert2 ("re_exec.c", 8486, __func__, "(reginfo->strend) >= (locinput)" )), ((reginfo->strend) - (locinput)) <= 0 ? 0 : (((((reginfo ->strend) - (locinput)))<(PL_utf8skip[*(const U8*)(locinput )]))?(((reginfo->strend) - (locinput))):(PL_utf8skip[*(const U8*)(locinput)])))) == 0)) |
8486 | reginfo->strend))(! (memcmp(((const void *) (locinput)), ((const void *) (ST.c2_utf8 )), ((((reginfo->strend) >= (locinput)) ? (void)0 : __assert2 ("re_exec.c", 8486, __func__, "(reginfo->strend) >= (locinput)" )), ((reginfo->strend) - (locinput)) <= 0 ? 0 : (((((reginfo ->strend) - (locinput)))<(PL_utf8skip[*(const U8*)(locinput )]))?(((reginfo->strend) - (locinput))):(PL_utf8skip[*(const U8*)(locinput)])))) == 0))) |
8487 | { |
8488 | /* simulate B failing */ |
8489 | DEBUG_OPTIMISE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_exec_indentf ( "CURLYM Fast bail next target=0x%" "lX" " c1=0x%" "lX" " c2=0x%" "lX" "\n", depth, Perl_valid_utf8_to_uvchr((U8 *) locinput, ( (void*)0)), Perl_valid_utf8_to_uvchr(ST.c1_utf8, ((void*)0)), Perl_valid_utf8_to_uvchr(ST.c2_utf8, ((void*)0)));} while (0 ) |
8490 | Perl_re_exec_indentf( aTHX_ "CURLYM Fast bail next target=0x%" UVXf " c1=0x%" UVXf " c2=0x%" UVXf "\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_exec_indentf ( "CURLYM Fast bail next target=0x%" "lX" " c1=0x%" "lX" " c2=0x%" "lX" "\n", depth, Perl_valid_utf8_to_uvchr((U8 *) locinput, ( (void*)0)), Perl_valid_utf8_to_uvchr(ST.c1_utf8, ((void*)0)), Perl_valid_utf8_to_uvchr(ST.c2_utf8, ((void*)0)));} while (0 ) |
8491 | depth,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_exec_indentf ( "CURLYM Fast bail next target=0x%" "lX" " c1=0x%" "lX" " c2=0x%" "lX" "\n", depth, Perl_valid_utf8_to_uvchr((U8 *) locinput, ( (void*)0)), Perl_valid_utf8_to_uvchr(ST.c1_utf8, ((void*)0)), Perl_valid_utf8_to_uvchr(ST.c2_utf8, ((void*)0)));} while (0 ) |
8492 | valid_utf8_to_uvchr((U8 *) locinput, NULL),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_exec_indentf ( "CURLYM Fast bail next target=0x%" "lX" " c1=0x%" "lX" " c2=0x%" "lX" "\n", depth, Perl_valid_utf8_to_uvchr((U8 *) locinput, ( (void*)0)), Perl_valid_utf8_to_uvchr(ST.c1_utf8, ((void*)0)), Perl_valid_utf8_to_uvchr(ST.c2_utf8, ((void*)0)));} while (0 ) |
8493 | valid_utf8_to_uvchr(ST.c1_utf8, NULL),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_exec_indentf ( "CURLYM Fast bail next target=0x%" "lX" " c1=0x%" "lX" " c2=0x%" "lX" "\n", depth, Perl_valid_utf8_to_uvchr((U8 *) locinput, ( (void*)0)), Perl_valid_utf8_to_uvchr(ST.c1_utf8, ((void*)0)), Perl_valid_utf8_to_uvchr(ST.c2_utf8, ((void*)0)));} while (0 ) |
8494 | valid_utf8_to_uvchr(ST.c2_utf8, NULL))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_exec_indentf ( "CURLYM Fast bail next target=0x%" "lX" " c1=0x%" "lX" " c2=0x%" "lX" "\n", depth, Perl_valid_utf8_to_uvchr((U8 *) locinput, ( (void*)0)), Perl_valid_utf8_to_uvchr(ST.c1_utf8, ((void*)0)), Perl_valid_utf8_to_uvchr(ST.c2_utf8, ((void*)0)));} while (0 ) |
8495 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_exec_indentf ( "CURLYM Fast bail next target=0x%" "lX" " c1=0x%" "lX" " c2=0x%" "lX" "\n", depth, Perl_valid_utf8_to_uvchr((U8 *) locinput, ( (void*)0)), Perl_valid_utf8_to_uvchr(ST.c1_utf8, ((void*)0)), Perl_valid_utf8_to_uvchr(ST.c2_utf8, ((void*)0)));} while (0 ); |
8496 | state_num = CURLYM_B_fail(109 + 24); |
8497 | goto reenter_switch; |
8498 | } |
8499 | } |
8500 | else if (nextchr != ST.c1 && nextchr != ST.c2) { |
8501 | /* simulate B failing */ |
8502 | DEBUG_OPTIMISE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_exec_indentf ( "CURLYM Fast bail next target=0x%X c1=0x%X c2=0x%X\n", depth , (int) nextchr, ST.c1, ST.c2);} while (0) |
8503 | Perl_re_exec_indentf( aTHX_ "CURLYM Fast bail next target=0x%X c1=0x%X c2=0x%X\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_exec_indentf ( "CURLYM Fast bail next target=0x%X c1=0x%X c2=0x%X\n", depth , (int) nextchr, ST.c1, ST.c2);} while (0) |
8504 | depth,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_exec_indentf ( "CURLYM Fast bail next target=0x%X c1=0x%X c2=0x%X\n", depth , (int) nextchr, ST.c1, ST.c2);} while (0) |
8505 | (int) nextchr, ST.c1, ST.c2)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_exec_indentf ( "CURLYM Fast bail next target=0x%X c1=0x%X c2=0x%X\n", depth , (int) nextchr, ST.c1, ST.c2);} while (0) |
8506 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x000002))) Perl_re_exec_indentf ( "CURLYM Fast bail next target=0x%X c1=0x%X c2=0x%X\n", depth , (int) nextchr, ST.c1, ST.c2);} while (0); |
8507 | state_num = CURLYM_B_fail(109 + 24); |
8508 | goto reenter_switch; |
8509 | } |
8510 | } |
8511 | |
8512 | if (ST.me->flags) { |
8513 | /* emulate CLOSE: mark current A as captured */ |
8514 | U32 paren = (U32)ST.me->flags; |
8515 | if (ST.count) { |
8516 | CLOSE_CAPTURE(paren,rex->offs[paren].start = (char *)(reginfo->is_utf8_target ? S_reghop3((U8*)locinput, -ST.alen, (U8*)(-ST.alen >= 0 ? reginfo->strend : reginfo->strbeg)) : (U8*)(locinput + -ST.alen)) - reginfo->strbeg; rex->offs[paren].end = locinput - reginfo->strbeg; if (paren > rex->lastparen) rex-> lastparen = paren; rex->lastcloseparen = paren; do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0400000))) Perl_re_exec_indentf( "CLOSE: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" "..%" "ld" " max: %" "lu" "\n", depth, (UV)(rex), (UV)(rex->offs), ( UV)paren, (IV)rex->offs[paren].start, (IV)rex->offs[paren ].end, (UV)rex->lastparen );} while (0) |
8517 | HOPc(locinput, -ST.alen) - reginfo->strbeg,rex->offs[paren].start = (char *)(reginfo->is_utf8_target ? S_reghop3((U8*)locinput, -ST.alen, (U8*)(-ST.alen >= 0 ? reginfo->strend : reginfo->strbeg)) : (U8*)(locinput + -ST.alen)) - reginfo->strbeg; rex->offs[paren].end = locinput - reginfo->strbeg; if (paren > rex->lastparen) rex-> lastparen = paren; rex->lastcloseparen = paren; do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0400000))) Perl_re_exec_indentf( "CLOSE: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" "..%" "ld" " max: %" "lu" "\n", depth, (UV)(rex), (UV)(rex->offs), ( UV)paren, (IV)rex->offs[paren].start, (IV)rex->offs[paren ].end, (UV)rex->lastparen );} while (0) |
8518 | locinput - reginfo->strbeg)rex->offs[paren].start = (char *)(reginfo->is_utf8_target ? S_reghop3((U8*)locinput, -ST.alen, (U8*)(-ST.alen >= 0 ? reginfo->strend : reginfo->strbeg)) : (U8*)(locinput + -ST.alen)) - reginfo->strbeg; rex->offs[paren].end = locinput - reginfo->strbeg; if (paren > rex->lastparen) rex-> lastparen = paren; rex->lastcloseparen = paren; do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0400000))) Perl_re_exec_indentf( "CLOSE: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" "..%" "ld" " max: %" "lu" "\n", depth, (UV)(rex), (UV)(rex->offs), ( UV)paren, (IV)rex->offs[paren].start, (IV)rex->offs[paren ].end, (UV)rex->lastparen );} while (0); |
8519 | } |
8520 | else |
8521 | rex->offs[paren].end = -1; |
8522 | |
8523 | if (EVAL_CLOSE_PAREN_IS_TRUE(cur_eval,(U32)ST.me->flags)( ( ( cur_eval ) ) && ( ( cur_eval )->u.eval.close_paren ) && ( ( (U32)ST.me->flags ) ) && ( ( ( cur_eval )->u.eval.close_paren ) == ( ((U32)ST.me->flags) + 1 ) ) )) |
8524 | { |
8525 | if (ST.count) |
8526 | goto fake_end; |
8527 | else |
8528 | sayNOgoto no; |
8529 | } |
8530 | } |
8531 | |
8532 | PUSH_STATE_GOTO(CURLYM_B, ST.B, locinput, loceol, /* match B */pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = ST.B; st->resume_state = (109 + 23); goto push_state ; |
8533 | script_run_begin)pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = ST.B; st->resume_state = (109 + 23); goto push_state ;; |
8534 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 8534 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
8535 | |
8536 | case CURLYM_B_fail(109 + 24): /* just failed to match a B */ |
8537 | REGCP_UNWIND(ST.cp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) if (ST.cp != PL_savestack_ix) Perl_re_exec_indentf( "Clearing an EVAL scope, savestack=%" "ld" "..%" "ld" "\n", depth, (IV)(ST.cp), (IV)PL_savestack_ix );} while (0); do { if (PL_savestack_ix > ST.cp) Perl_leave_scope ( ST.cp); } while (0); |
8538 | UNWIND_PAREN(ST.lastparen, ST.lastcloseparen)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "UNWIND_PAREN: rex=0x%" "lx" " offs=0x%" "lx" ": invalidate (%" "lu" "..%" "lu" "] set lcp: %" "lu" "\n", depth, (UV)(rex), ( UV)(rex->offs), (UV)(ST.lastparen), (UV)(rex->lastparen ), (UV)(ST.lastcloseparen) );} while (0); for (n = rex->lastparen ; n > ST.lastparen; n--) rex->offs[n].end = -1; rex-> lastparen = n; rex->lastcloseparen = ST.lastcloseparen;; |
8539 | if (ST.minmod) { |
8540 | I32 max = ARG2(ST.me)((((struct regnode_2 *)ST.me)->arg2)); |
8541 | if (max != REG_INFTY0xffff && ST.count == max) |
8542 | sayNOgoto no; |
8543 | goto curlym_do_A; /* try to match a further A */ |
8544 | } |
8545 | /* backtrack one A */ |
8546 | if (ST.count == ARG1(ST.me)((((struct regnode_2 *)ST.me)->arg1)) /* min */) |
8547 | sayNOgoto no; |
8548 | ST.count--; |
8549 | SET_locinput(HOPc(locinput, -ST.alen))locinput = ((char *)(reginfo->is_utf8_target ? S_reghop3(( U8*)locinput, -ST.alen, (U8*)(-ST.alen >= 0 ? reginfo-> strend : reginfo->strbeg)) : (U8*)(locinput + -ST.alen))); nextchr = ((locinput < reginfo->strend) ? ((int)*(const U8*)(locinput)) : -10); |
8550 | goto curlym_do_B; /* try to match B */ |
8551 | |
8552 | #undef ST |
8553 | #define ST st->u.curly |
8554 | |
8555 | #define CURLY_SETPAREN(paren, success)if (paren) { if (success) { rex->offs[paren].start = (char *)(reginfo->is_utf8_target ? S_reghop3((U8*)locinput, -1, (U8*)(-1 >= 0 ? reginfo->strend : reginfo->strbeg)) : (U8*)(locinput + -1)) - reginfo->strbeg; rex->offs[paren ].end = locinput - reginfo->strbeg; if (paren > rex-> lastparen) rex->lastparen = paren; rex->lastcloseparen = paren; do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000 ))) Perl_re_exec_indentf( "CLOSE: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" "..%" "ld" " max: %" "lu" "\n", depth , (UV)(rex), (UV)(rex->offs), (UV)paren, (IV)rex->offs[ paren].start, (IV)rex->offs[paren].end, (UV)rex->lastparen );} while (0); } else { rex->offs[paren].end = -1; rex-> lastparen = ST.lastparen; rex->lastcloseparen = ST.lastcloseparen ; } } \ |
8556 | if (paren) { \ |
8557 | if (success) { \ |
8558 | CLOSE_CAPTURE(paren, HOPc(locinput, -1) - reginfo->strbeg, \rex->offs[paren].start = (char *)(reginfo->is_utf8_target ? S_reghop3((U8*)locinput, -1, (U8*)(-1 >= 0 ? reginfo-> strend : reginfo->strbeg)) : (U8*)(locinput + -1)) - reginfo ->strbeg; rex->offs[paren].end = locinput - reginfo-> strbeg; if (paren > rex->lastparen) rex->lastparen = paren; rex->lastcloseparen = paren; do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0400000))) Perl_re_exec_indentf( "CLOSE: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" "..%" "ld" " max: %" "lu" "\n", depth, (UV)(rex), (UV)(rex->offs), ( UV)paren, (IV)rex->offs[paren].start, (IV)rex->offs[paren ].end, (UV)rex->lastparen );} while (0) |
8559 | locinput - reginfo->strbeg)rex->offs[paren].start = (char *)(reginfo->is_utf8_target ? S_reghop3((U8*)locinput, -1, (U8*)(-1 >= 0 ? reginfo-> strend : reginfo->strbeg)) : (U8*)(locinput + -1)) - reginfo ->strbeg; rex->offs[paren].end = locinput - reginfo-> strbeg; if (paren > rex->lastparen) rex->lastparen = paren; rex->lastcloseparen = paren; do {if (__builtin_expect (((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || ( re_debug_flags & (0x0400000))) Perl_re_exec_indentf( "CLOSE: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" "..%" "ld" " max: %" "lu" "\n", depth, (UV)(rex), (UV)(rex->offs), ( UV)paren, (IV)rex->offs[paren].start, (IV)rex->offs[paren ].end, (UV)rex->lastparen );} while (0); \ |
8560 | } \ |
8561 | else { \ |
8562 | rex->offs[paren].end = -1; \ |
8563 | rex->lastparen = ST.lastparen; \ |
8564 | rex->lastcloseparen = ST.lastcloseparen; \ |
8565 | } \ |
8566 | } |
8567 | |
8568 | case STAR56: /* /A*B/ where A is width 1 char */ |
8569 | ST.paren = 0; |
8570 | ST.min = 0; |
8571 | ST.max = REG_INFTY0xffff; |
8572 | scan = NEXTOPER(scan)((scan) + 1); |
8573 | goto repeat; |
8574 | |
8575 | case PLUS57: /* /A+B/ where A is width 1 char */ |
8576 | ST.paren = 0; |
8577 | ST.min = 1; |
8578 | ST.max = REG_INFTY0xffff; |
8579 | scan = NEXTOPER(scan)((scan) + 1); |
8580 | goto repeat; |
8581 | |
8582 | case CURLYN59: /* /(A){m,n}B/ where A is width 1 char */ |
8583 | ST.paren = scan->flags; /* Which paren to set */ |
8584 | ST.lastparen = rex->lastparen; |
8585 | ST.lastcloseparen = rex->lastcloseparen; |
8586 | if (ST.paren > maxopenparen) |
8587 | maxopenparen = ST.paren; |
8588 | ST.min = ARG1(scan)((((struct regnode_2 *)scan)->arg1)); /* min to match */ |
8589 | ST.max = ARG2(scan)((((struct regnode_2 *)scan)->arg2)); /* max to match */ |
8590 | scan = regnext(NEXTOPER(scan) + NODE_STEP_REGNODE)Perl_regnext( ((scan) + 1) + 1); |
8591 | |
8592 | /* handle the single-char capture called as a GOSUB etc */ |
8593 | if (EVAL_CLOSE_PAREN_IS_TRUE(cur_eval,(U32)ST.paren)( ( ( cur_eval ) ) && ( ( cur_eval )->u.eval.close_paren ) && ( ( (U32)ST.paren ) ) && ( ( ( cur_eval )->u.eval.close_paren ) == ( ((U32)ST.paren) + 1 ) ) )) |
8594 | { |
8595 | char *li = locinput; |
8596 | if (!regrepeat(rex, &li, scan, loceol, reginfo, 1)S_regrepeat( rex,&li,scan,loceol,reginfo,1 ,depth)) |
8597 | sayNOgoto no; |
8598 | SET_locinput(li)locinput = (li); nextchr = ((locinput < reginfo->strend ) ? ((int)*(const U8*)(locinput)) : -10); |
8599 | goto fake_end; |
8600 | } |
8601 | |
8602 | goto repeat; |
8603 | |
8604 | case CURLY58: /* /A{m,n}B/ where A is width 1 char */ |
8605 | ST.paren = 0; |
8606 | ST.min = ARG1(scan)((((struct regnode_2 *)scan)->arg1)); /* min to match */ |
8607 | ST.max = ARG2(scan)((((struct regnode_2 *)scan)->arg2)); /* max to match */ |
8608 | scan = NEXTOPER(scan)((scan) + 1) + NODE_STEP_REGNODE1; |
8609 | repeat: |
8610 | /* |
8611 | * Lookahead to avoid useless match attempts |
8612 | * when we know what character comes next. |
8613 | * |
8614 | * Used to only do .*x and .*?x, but now it allows |
8615 | * for )'s, ('s and (?{ ... })'s to be in the way |
8616 | * of the quantifier and the EXACT-like node. -- japhy |
8617 | */ |
8618 | |
8619 | assert(ST.min <= ST.max)((ST.min <= ST.max) ? (void)0 : __assert2("re_exec.c", 8619 , __func__, "ST.min <= ST.max")); |
8620 | if (! HAS_TEXT(next)( (PL_regkind[((next)->type)] == 40) || PL_regkind[((next) ->type)] == 67 ) && ! JUMPABLE(next)( ((next)->type) == 63 || (((next)->type) == 64 && !( ( ( cur_eval ) ) && ( ( cur_eval )->u.eval.close_paren ) && ( ( ( cur_eval )->u.eval.close_paren ) == ( ( ((((struct regnode_1 *)next)->arg1))) + 1 ) ) ) ) || ((next )->type) == 84 || ((next)->type) == 81 || ((next)->type ) == 79 || ((next)->type) == 57 || ((next)->type) == 85 || ((next)->type) == 105 || (PL_regkind[((next)->type) ] == 58 && ((((struct regnode_2 *)next)->arg1)) > 0) )) { |
8621 | ST.c1 = ST.c2 = CHRTEST_VOID-1000; |
8622 | } |
8623 | else { |
8624 | regnode *text_node = next; |
8625 | |
8626 | if (! HAS_TEXT(text_node)( (PL_regkind[((text_node)->type)] == 40) || PL_regkind[(( text_node)->type)] == 67 )) |
8627 | FIND_NEXT_IMPT(text_node)do { while (( ((text_node)->type) == 63 || (((text_node)-> type) == 64 && !( ( ( cur_eval ) ) && ( ( cur_eval )->u.eval.close_paren ) && ( ( ( cur_eval )->u .eval.close_paren ) == ( (((((struct regnode_1 *)text_node)-> arg1))) + 1 ) ) ) ) || ((text_node)->type) == 84 || ((text_node )->type) == 81 || ((text_node)->type) == 79 || ((text_node )->type) == 57 || ((text_node)->type) == 85 || ((text_node )->type) == 105 || (PL_regkind[((text_node)->type)] == 58 && ((((struct regnode_2 *)text_node)->arg1)) > 0) )) { const U16 type = ((text_node)->type); if (type == 81 || PL_regkind[type] == 58) text_node = ((((text_node) + 1 )) + 1); else if (type == 57) text_node = ((text_node) + 1); else if (type == 79) text_node = (text_node->flags == 0) ? ((( (text_node) + 1)) + 1) : text_node + ((((struct regnode_1 *)text_node )->arg1)); else text_node += ((text_node)->next_off); } } while (0); |
8628 | |
8629 | if (! HAS_TEXT(text_node)( (PL_regkind[((text_node)->type)] == 40) || PL_regkind[(( text_node)->type)] == 67 )) |
8630 | ST.c1 = ST.c2 = CHRTEST_VOID-1000; |
8631 | else { |
8632 | if ( PL_regkind[OP(text_node)((text_node)->type)] != EXACT40 ) { |
8633 | ST.c1 = ST.c2 = CHRTEST_VOID-1000; |
8634 | } |
8635 | else { |
8636 | if (! S_setup_EXACTISH_ST_c1_c2(aTHX_ |
8637 | text_node, &ST.c1, ST.c1_utf8, &ST.c2, ST.c2_utf8, |
8638 | reginfo)) |
8639 | { |
8640 | sayNOgoto no; |
8641 | } |
8642 | } |
8643 | } |
8644 | } |
8645 | |
8646 | ST.A = scan; |
8647 | ST.B = next; |
8648 | if (minmod) { |
8649 | char *li = locinput; |
8650 | minmod = 0; |
8651 | if (ST.min && |
8652 | regrepeat(rex, &li, ST.A, loceol, reginfo, ST.min)S_regrepeat( rex,&li,ST.A,loceol,reginfo,ST.min ,depth) |
8653 | < ST.min) |
8654 | sayNOgoto no; |
8655 | SET_locinput(li)locinput = (li); nextchr = ((locinput < reginfo->strend ) ? ((int)*(const U8*)(locinput)) : -10); |
8656 | ST.count = ST.min; |
8657 | REGCP_SET(ST.cp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) Perl_re_exec_indentf ( "Setting an EVAL scope, savestack=%" "ld" ",\n", depth, (IV )PL_savestack_ix );} while (0); ST.cp = PL_savestack_ix; |
8658 | if (ST.c1 == CHRTEST_VOID-1000) |
8659 | goto curly_try_B_min; |
8660 | |
8661 | ST.oldloc = locinput; |
8662 | |
8663 | /* set ST.maxpos to the furthest point along the |
8664 | * string that could possibly match */ |
8665 | if (ST.max == REG_INFTY0xffff) { |
8666 | ST.maxpos = loceol - 1; |
8667 | if (utf8_target) |
8668 | while (UTF8_IS_CONTINUATION(*(U8*)ST.maxpos)(((( (sizeof(*(U8*)ST.maxpos) == 1) || !(((U64)((*(U8*)ST.maxpos ) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 8668 , __func__, "( (sizeof(*(U8*)ST.maxpos) == 1) || !(((U64)((*(U8*)ST.maxpos) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(U8*)ST.maxpos) == 1) || !(((U64)((*(U8* )ST.maxpos) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 8668, __func__, "( (sizeof(*(U8*)ST.maxpos) == 1) || !(((U64)((*(U8*)ST.maxpos) | 0)) & ~0xFF))" )), ((U8) ((*(U8*)ST.maxpos) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))) |
8669 | ST.maxpos--; |
8670 | } |
8671 | else if (utf8_target) { |
8672 | int m = ST.max - ST.min; |
8673 | for (ST.maxpos = locinput; |
8674 | m >0 && ST.maxpos < loceol; m--) |
8675 | ST.maxpos += UTF8SKIP(ST.maxpos)PL_utf8skip[*(const U8*)(ST.maxpos)]; |
8676 | } |
8677 | else { |
8678 | ST.maxpos = locinput + ST.max - ST.min; |
8679 | if (ST.maxpos >= loceol) |
8680 | ST.maxpos = loceol - 1; |
8681 | } |
8682 | goto curly_try_B_min_known; |
8683 | |
8684 | } |
8685 | else { |
8686 | /* avoid taking address of locinput, so it can remain |
8687 | * a register var */ |
8688 | char *li = locinput; |
8689 | ST.count = regrepeat(rex, &li, ST.A, loceol, reginfo, ST.max)S_regrepeat( rex,&li,ST.A,loceol,reginfo,ST.max ,depth); |
8690 | if (ST.count < ST.min) |
8691 | sayNOgoto no; |
8692 | SET_locinput(li)locinput = (li); nextchr = ((locinput < reginfo->strend ) ? ((int)*(const U8*)(locinput)) : -10); |
8693 | if ((ST.count > ST.min) |
8694 | && (PL_regkind[OP(ST.B)((ST.B)->type)] == EOL4) && (OP(ST.B)((ST.B)->type) != MEOL5)) |
8695 | { |
8696 | /* A{m,n} must come at the end of the string, there's |
8697 | * no point in backing off ... */ |
8698 | ST.min = ST.count; |
8699 | /* ...except that $ and \Z can match before *and* after |
8700 | newline at the end. Consider "\n\n" =~ /\n+\Z\n/. |
8701 | We may back off by one in this case. */ |
8702 | if (UCHARAT(locinput - 1)((int)*(const U8*)(locinput - 1)) == '\n' && OP(ST.B)((ST.B)->type) != EOS6) |
8703 | ST.min--; |
8704 | } |
8705 | REGCP_SET(ST.cp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) Perl_re_exec_indentf ( "Setting an EVAL scope, savestack=%" "ld" ",\n", depth, (IV )PL_savestack_ix );} while (0); ST.cp = PL_savestack_ix; |
8706 | goto curly_try_B_max; |
8707 | } |
8708 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 8708 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
8709 | |
8710 | case CURLY_B_min_fail(109 + 28): |
8711 | /* failed to find B in a non-greedy match. |
8712 | * Handles both cases where c1,c2 valid or not */ |
8713 | |
8714 | REGCP_UNWIND(ST.cp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) if (ST.cp != PL_savestack_ix) Perl_re_exec_indentf( "Clearing an EVAL scope, savestack=%" "ld" "..%" "ld" "\n", depth, (IV)(ST.cp), (IV)PL_savestack_ix );} while (0); do { if (PL_savestack_ix > ST.cp) Perl_leave_scope ( ST.cp); } while (0); |
8715 | if (ST.paren) { |
8716 | UNWIND_PAREN(ST.lastparen, ST.lastcloseparen)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "UNWIND_PAREN: rex=0x%" "lx" " offs=0x%" "lx" ": invalidate (%" "lu" "..%" "lu" "] set lcp: %" "lu" "\n", depth, (UV)(rex), ( UV)(rex->offs), (UV)(ST.lastparen), (UV)(rex->lastparen ), (UV)(ST.lastcloseparen) );} while (0); for (n = rex->lastparen ; n > ST.lastparen; n--) rex->offs[n].end = -1; rex-> lastparen = n; rex->lastcloseparen = ST.lastcloseparen;; |
8717 | } |
8718 | |
8719 | if (ST.c1 == CHRTEST_VOID-1000) { |
8720 | /* failed -- move forward one */ |
8721 | char *li = locinput; |
8722 | if (!regrepeat(rex, &li, ST.A, loceol, reginfo, 1)S_regrepeat( rex,&li,ST.A,loceol,reginfo,1 ,depth)) { |
8723 | sayNOgoto no; |
8724 | } |
8725 | locinput = li; |
8726 | ST.count++; |
8727 | if (!( ST.count <= ST.max |
8728 | /* count overflow ? */ |
8729 | || (ST.max == REG_INFTY0xffff && ST.count > 0)) |
8730 | ) |
8731 | sayNOgoto no; |
8732 | } |
8733 | else { |
8734 | int n; |
8735 | /* Couldn't or didn't -- move forward. */ |
8736 | ST.oldloc = locinput; |
8737 | if (utf8_target) |
8738 | locinput += UTF8SKIP(locinput)PL_utf8skip[*(const U8*)(locinput)]; |
8739 | else |
8740 | locinput++; |
8741 | ST.count++; |
8742 | |
8743 | curly_try_B_min_known: |
8744 | /* find the next place where 'B' could work, then call B */ |
8745 | if (utf8_target) { |
8746 | n = (ST.oldloc == locinput) ? 0 : 1; |
8747 | if (ST.c1 == ST.c2) { |
8748 | /* set n to utf8_distance(oldloc, locinput) */ |
8749 | while ( locinput <= ST.maxpos |
8750 | && locinput < loceol |
8751 | && memNE(locinput, ST.c1_utf8,(! (memcmp(((const void *) (locinput)), ((const void *) (ST.c1_utf8 )), ((((reginfo->strend) >= (locinput)) ? (void)0 : __assert2 ("re_exec.c", 8752, __func__, "(reginfo->strend) >= (locinput)" )), ((reginfo->strend) - (locinput)) <= 0 ? 0 : (((((reginfo ->strend) - (locinput)))<(PL_utf8skip[*(const U8*)(locinput )]))?(((reginfo->strend) - (locinput))):(PL_utf8skip[*(const U8*)(locinput)])))) == 0)) |
8752 | UTF8_SAFE_SKIP(locinput, reginfo->strend))(! (memcmp(((const void *) (locinput)), ((const void *) (ST.c1_utf8 )), ((((reginfo->strend) >= (locinput)) ? (void)0 : __assert2 ("re_exec.c", 8752, __func__, "(reginfo->strend) >= (locinput)" )), ((reginfo->strend) - (locinput)) <= 0 ? 0 : (((((reginfo ->strend) - (locinput)))<(PL_utf8skip[*(const U8*)(locinput )]))?(((reginfo->strend) - (locinput))):(PL_utf8skip[*(const U8*)(locinput)])))) == 0))) |
8753 | { |
8754 | locinput += UTF8_SAFE_SKIP(locinput,((((reginfo->strend) >= (locinput)) ? (void)0 : __assert2 ("re_exec.c", 8755, __func__, "(reginfo->strend) >= (locinput)" )), ((reginfo->strend) - (locinput)) <= 0 ? 0 : (((((reginfo ->strend) - (locinput)))<(PL_utf8skip[*(const U8*)(locinput )]))?(((reginfo->strend) - (locinput))):(PL_utf8skip[*(const U8*)(locinput)]))) |
8755 | reginfo->strend)((((reginfo->strend) >= (locinput)) ? (void)0 : __assert2 ("re_exec.c", 8755, __func__, "(reginfo->strend) >= (locinput)" )), ((reginfo->strend) - (locinput)) <= 0 ? 0 : (((((reginfo ->strend) - (locinput)))<(PL_utf8skip[*(const U8*)(locinput )]))?(((reginfo->strend) - (locinput))):(PL_utf8skip[*(const U8*)(locinput)]))); |
8756 | n++; |
8757 | } |
8758 | } |
8759 | else { |
8760 | /* set n to utf8_distance(oldloc, locinput) */ |
8761 | while ( locinput <= ST.maxpos |
8762 | && locinput < loceol |
8763 | && memNE(locinput, ST.c1_utf8,(! (memcmp(((const void *) (locinput)), ((const void *) (ST.c1_utf8 )), ((((reginfo->strend) >= (locinput)) ? (void)0 : __assert2 ("re_exec.c", 8764, __func__, "(reginfo->strend) >= (locinput)" )), ((reginfo->strend) - (locinput)) <= 0 ? 0 : (((((reginfo ->strend) - (locinput)))<(PL_utf8skip[*(const U8*)(locinput )]))?(((reginfo->strend) - (locinput))):(PL_utf8skip[*(const U8*)(locinput)])))) == 0)) |
8764 | UTF8_SAFE_SKIP(locinput, reginfo->strend))(! (memcmp(((const void *) (locinput)), ((const void *) (ST.c1_utf8 )), ((((reginfo->strend) >= (locinput)) ? (void)0 : __assert2 ("re_exec.c", 8764, __func__, "(reginfo->strend) >= (locinput)" )), ((reginfo->strend) - (locinput)) <= 0 ? 0 : (((((reginfo ->strend) - (locinput)))<(PL_utf8skip[*(const U8*)(locinput )]))?(((reginfo->strend) - (locinput))):(PL_utf8skip[*(const U8*)(locinput)])))) == 0)) |
8765 | && memNE(locinput, ST.c2_utf8,(! (memcmp(((const void *) (locinput)), ((const void *) (ST.c2_utf8 )), ((((reginfo->strend) >= (locinput)) ? (void)0 : __assert2 ("re_exec.c", 8766, __func__, "(reginfo->strend) >= (locinput)" )), ((reginfo->strend) - (locinput)) <= 0 ? 0 : (((((reginfo ->strend) - (locinput)))<(PL_utf8skip[*(const U8*)(locinput )]))?(((reginfo->strend) - (locinput))):(PL_utf8skip[*(const U8*)(locinput)])))) == 0)) |
8766 | UTF8_SAFE_SKIP(locinput, reginfo->strend))(! (memcmp(((const void *) (locinput)), ((const void *) (ST.c2_utf8 )), ((((reginfo->strend) >= (locinput)) ? (void)0 : __assert2 ("re_exec.c", 8766, __func__, "(reginfo->strend) >= (locinput)" )), ((reginfo->strend) - (locinput)) <= 0 ? 0 : (((((reginfo ->strend) - (locinput)))<(PL_utf8skip[*(const U8*)(locinput )]))?(((reginfo->strend) - (locinput))):(PL_utf8skip[*(const U8*)(locinput)])))) == 0))) |
8767 | { |
8768 | locinput += UTF8_SAFE_SKIP(locinput, reginfo->strend)((((reginfo->strend) >= (locinput)) ? (void)0 : __assert2 ("re_exec.c", 8768, __func__, "(reginfo->strend) >= (locinput)" )), ((reginfo->strend) - (locinput)) <= 0 ? 0 : (((((reginfo ->strend) - (locinput)))<(PL_utf8skip[*(const U8*)(locinput )]))?(((reginfo->strend) - (locinput))):(PL_utf8skip[*(const U8*)(locinput)]))); |
8769 | n++; |
8770 | } |
8771 | } |
8772 | } |
8773 | else { /* Not utf8_target */ |
8774 | if (ST.c1 == ST.c2) { |
8775 | locinput = (char *) memchr(locinput, |
8776 | ST.c1, |
8777 | ST.maxpos + 1 - locinput); |
8778 | if (! locinput) { |
8779 | locinput = ST.maxpos + 1; |
8780 | } |
8781 | } |
8782 | else { |
8783 | U8 c1_c2_bits_differing = ST.c1 ^ ST.c2; |
8784 | |
8785 | if (! isPOWER_OF_2(c1_c2_bits_differing)((c1_c2_bits_differing) && ((c1_c2_bits_differing) & ((c1_c2_bits_differing)-1)) == 0)) { |
8786 | while ( locinput <= ST.maxpos |
8787 | && UCHARAT(locinput)((int)*(const U8*)(locinput)) != ST.c1 |
8788 | && UCHARAT(locinput)((int)*(const U8*)(locinput)) != ST.c2) |
8789 | { |
8790 | locinput++; |
8791 | } |
8792 | } |
8793 | else { |
8794 | /* If c1 and c2 only differ by a single bit, we can |
8795 | * avoid a conditional each time through the loop, |
8796 | * at the expense of a little preliminary setup and |
8797 | * an extra mask each iteration. By masking out |
8798 | * that bit, we match exactly two characters, c1 |
8799 | * and c2, and so we don't have to test for both. |
8800 | * On both ASCII and EBCDIC platforms, most of the |
8801 | * ASCII-range and Latin1-range folded equivalents |
8802 | * differ only in a single bit, so this is actually |
8803 | * the most common case. (e.g. 'A' 0x41 vs 'a' |
8804 | * 0x61). */ |
8805 | U8 c1_masked = ST.c1 &~ c1_c2_bits_differing; |
8806 | U8 c1_c2_mask = ~ c1_c2_bits_differing; |
8807 | while ( locinput <= ST.maxpos |
8808 | && (UCHARAT(locinput)((int)*(const U8*)(locinput)) & c1_c2_mask) |
8809 | != c1_masked) |
8810 | { |
8811 | locinput++; |
8812 | } |
8813 | } |
8814 | } |
8815 | n = locinput - ST.oldloc; |
8816 | } |
8817 | if (locinput > ST.maxpos) |
8818 | sayNOgoto no; |
8819 | if (n) { |
8820 | /* In /a{m,n}b/, ST.oldloc is at "a" x m, locinput is |
8821 | * at b; check that everything between oldloc and |
8822 | * locinput matches */ |
8823 | char *li = ST.oldloc; |
8824 | ST.count += n; |
8825 | if (regrepeat(rex, &li, ST.A, loceol, reginfo, n)S_regrepeat( rex,&li,ST.A,loceol,reginfo,n ,depth) < n) |
8826 | sayNOgoto no; |
8827 | assert(n == REG_INFTY || locinput == li)((n == 0xffff || locinput == li) ? (void)0 : __assert2("re_exec.c" , 8827, __func__, "n == REG_INFTY || locinput == li")); |
8828 | } |
8829 | } |
8830 | |
8831 | curly_try_B_min: |
8832 | CURLY_SETPAREN(ST.paren, ST.count)if (ST.paren) { if (ST.count) { rex->offs[ST.paren].start = (char *)(reginfo->is_utf8_target ? S_reghop3((U8*)locinput , -1, (U8*)(-1 >= 0 ? reginfo->strend : reginfo->strbeg )) : (U8*)(locinput + -1)) - reginfo->strbeg; rex->offs [ST.paren].end = locinput - reginfo->strbeg; if (ST.paren > rex->lastparen) rex->lastparen = ST.paren; rex->lastcloseparen = ST.paren; do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000 ))) Perl_re_exec_indentf( "CLOSE: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" "..%" "ld" " max: %" "lu" "\n", depth , (UV)(rex), (UV)(rex->offs), (UV)ST.paren, (IV)rex->offs [ST.paren].start, (IV)rex->offs[ST.paren].end, (UV)rex-> lastparen );} while (0); } else { rex->offs[ST.paren].end = -1; rex->lastparen = ST.lastparen; rex->lastcloseparen = ST.lastcloseparen; } }; |
8833 | PUSH_STATE_GOTO(CURLY_B_min, ST.B, locinput, loceol,pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = ST.B; st->resume_state = (109 + 27); goto push_state ; |
8834 | script_run_begin)pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = ST.B; st->resume_state = (109 + 27); goto push_state ;; |
8835 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 8835 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
8836 | |
8837 | |
8838 | curly_try_B_max: |
8839 | /* a successful greedy match: now try to match B */ |
8840 | { |
8841 | bool_Bool could_match = locinput < loceol; |
8842 | |
8843 | /* If it could work, try it. */ |
8844 | if (ST.c1 != CHRTEST_VOID-1000 && could_match) { |
8845 | if (! UTF8_IS_INVARIANT(UCHARAT(locinput))((((U64)(((UV) (((((int)*(const U8*)(locinput))) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0))) && utf8_target) |
8846 | { |
8847 | could_match = memEQ(locinput, ST.c1_utf8,(memcmp(((const void *) (locinput)), ((const void *) (ST.c1_utf8 )), ((((reginfo->strend) >= (locinput)) ? (void)0 : __assert2 ("re_exec.c", 8849, __func__, "(reginfo->strend) >= (locinput)" )), ((reginfo->strend) - (locinput)) <= 0 ? 0 : (((((reginfo ->strend) - (locinput)))<(PL_utf8skip[*(const U8*)(locinput )]))?(((reginfo->strend) - (locinput))):(PL_utf8skip[*(const U8*)(locinput)])))) == 0) |
8848 | UTF8_SAFE_SKIP(locinput,(memcmp(((const void *) (locinput)), ((const void *) (ST.c1_utf8 )), ((((reginfo->strend) >= (locinput)) ? (void)0 : __assert2 ("re_exec.c", 8849, __func__, "(reginfo->strend) >= (locinput)" )), ((reginfo->strend) - (locinput)) <= 0 ? 0 : (((((reginfo ->strend) - (locinput)))<(PL_utf8skip[*(const U8*)(locinput )]))?(((reginfo->strend) - (locinput))):(PL_utf8skip[*(const U8*)(locinput)])))) == 0) |
8849 | reginfo->strend))(memcmp(((const void *) (locinput)), ((const void *) (ST.c1_utf8 )), ((((reginfo->strend) >= (locinput)) ? (void)0 : __assert2 ("re_exec.c", 8849, __func__, "(reginfo->strend) >= (locinput)" )), ((reginfo->strend) - (locinput)) <= 0 ? 0 : (((((reginfo ->strend) - (locinput)))<(PL_utf8skip[*(const U8*)(locinput )]))?(((reginfo->strend) - (locinput))):(PL_utf8skip[*(const U8*)(locinput)])))) == 0) |
8850 | || memEQ(locinput, ST.c2_utf8,(memcmp(((const void *) (locinput)), ((const void *) (ST.c2_utf8 )), ((((reginfo->strend) >= (locinput)) ? (void)0 : __assert2 ("re_exec.c", 8852, __func__, "(reginfo->strend) >= (locinput)" )), ((reginfo->strend) - (locinput)) <= 0 ? 0 : (((((reginfo ->strend) - (locinput)))<(PL_utf8skip[*(const U8*)(locinput )]))?(((reginfo->strend) - (locinput))):(PL_utf8skip[*(const U8*)(locinput)])))) == 0) |
8851 | UTF8_SAFE_SKIP(locinput,(memcmp(((const void *) (locinput)), ((const void *) (ST.c2_utf8 )), ((((reginfo->strend) >= (locinput)) ? (void)0 : __assert2 ("re_exec.c", 8852, __func__, "(reginfo->strend) >= (locinput)" )), ((reginfo->strend) - (locinput)) <= 0 ? 0 : (((((reginfo ->strend) - (locinput)))<(PL_utf8skip[*(const U8*)(locinput )]))?(((reginfo->strend) - (locinput))):(PL_utf8skip[*(const U8*)(locinput)])))) == 0) |
8852 | reginfo->strend))(memcmp(((const void *) (locinput)), ((const void *) (ST.c2_utf8 )), ((((reginfo->strend) >= (locinput)) ? (void)0 : __assert2 ("re_exec.c", 8852, __func__, "(reginfo->strend) >= (locinput)" )), ((reginfo->strend) - (locinput)) <= 0 ? 0 : (((((reginfo ->strend) - (locinput)))<(PL_utf8skip[*(const U8*)(locinput )]))?(((reginfo->strend) - (locinput))):(PL_utf8skip[*(const U8*)(locinput)])))) == 0); |
8853 | } |
8854 | else { |
8855 | could_match = UCHARAT(locinput)((int)*(const U8*)(locinput)) == ST.c1 |
8856 | || UCHARAT(locinput)((int)*(const U8*)(locinput)) == ST.c2; |
8857 | } |
8858 | } |
8859 | if (ST.c1 == CHRTEST_VOID-1000 || could_match) { |
8860 | CURLY_SETPAREN(ST.paren, ST.count)if (ST.paren) { if (ST.count) { rex->offs[ST.paren].start = (char *)(reginfo->is_utf8_target ? S_reghop3((U8*)locinput , -1, (U8*)(-1 >= 0 ? reginfo->strend : reginfo->strbeg )) : (U8*)(locinput + -1)) - reginfo->strbeg; rex->offs [ST.paren].end = locinput - reginfo->strbeg; if (ST.paren > rex->lastparen) rex->lastparen = ST.paren; rex->lastcloseparen = ST.paren; do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000 ))) Perl_re_exec_indentf( "CLOSE: rex=0x%" "lx" " offs=0x%" "lx" ": \\%" "lu" ": set %" "ld" "..%" "ld" " max: %" "lu" "\n", depth , (UV)(rex), (UV)(rex->offs), (UV)ST.paren, (IV)rex->offs [ST.paren].start, (IV)rex->offs[ST.paren].end, (UV)rex-> lastparen );} while (0); } else { rex->offs[ST.paren].end = -1; rex->lastparen = ST.lastparen; rex->lastcloseparen = ST.lastcloseparen; } }; |
8861 | PUSH_STATE_GOTO(CURLY_B_max, ST.B, locinput, loceol,pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = ST.B; st->resume_state = (109 + 29); goto push_state ; |
8862 | script_run_begin)pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = ST.B; st->resume_state = (109 + 29); goto push_state ;; |
8863 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 8863 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
8864 | } |
8865 | } |
8866 | /* FALLTHROUGH */ |
8867 | |
8868 | case CURLY_B_max_fail(109 + 30): |
8869 | /* failed to find B in a greedy match */ |
8870 | |
8871 | REGCP_UNWIND(ST.cp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) if (ST.cp != PL_savestack_ix) Perl_re_exec_indentf( "Clearing an EVAL scope, savestack=%" "ld" "..%" "ld" "\n", depth, (IV)(ST.cp), (IV)PL_savestack_ix );} while (0); do { if (PL_savestack_ix > ST.cp) Perl_leave_scope ( ST.cp); } while (0); |
8872 | if (ST.paren) { |
8873 | UNWIND_PAREN(ST.lastparen, ST.lastcloseparen)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0400000))) Perl_re_exec_indentf ( "UNWIND_PAREN: rex=0x%" "lx" " offs=0x%" "lx" ": invalidate (%" "lu" "..%" "lu" "] set lcp: %" "lu" "\n", depth, (UV)(rex), ( UV)(rex->offs), (UV)(ST.lastparen), (UV)(rex->lastparen ), (UV)(ST.lastcloseparen) );} while (0); for (n = rex->lastparen ; n > ST.lastparen; n--) rex->offs[n].end = -1; rex-> lastparen = n; rex->lastcloseparen = ST.lastcloseparen;; |
8874 | } |
8875 | /* back up. */ |
8876 | if (--ST.count < ST.min) |
8877 | sayNOgoto no; |
8878 | locinput = HOPc(locinput, -1)(char *)(reginfo->is_utf8_target ? S_reghop3((U8*)locinput , -1, (U8*)(-1 >= 0 ? reginfo->strend : reginfo->strbeg )) : (U8*)(locinput + -1)); |
8879 | goto curly_try_B_max; |
8880 | |
8881 | #undef ST |
8882 | |
8883 | case END0: /* last op of main pattern */ |
8884 | fake_end: |
8885 | if (cur_eval) { |
8886 | /* we've just finished A in /(??{A})B/; now continue with B */ |
8887 | SET_RECURSE_LOCINPUT("FAKE-END[before]", CUR_EVAL.prev_recurse_locinput)if ( cur_eval && cur_eval->u.eval.close_paren ) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf ( "FAKE-END[before]" " GOSUB%d ce=%p recurse_locinput=%p\n", depth , cur_eval->u.eval.close_paren - 1, cur_eval, cur_eval-> u.eval.prev_recurse_locinput); };} while (0); rex->recurse_locinput [cur_eval->u.eval.close_paren - 1] = cur_eval->u.eval.prev_recurse_locinput ; }; |
8888 | st->u.eval.prev_rex = rex_sv; /* inner */ |
8889 | |
8890 | /* Save *all* the positions. */ |
8891 | st->u.eval.cp = regcppush(rex, 0, maxopenparen)S_regcppush( rex,0,maxopenparen ,depth); |
8892 | rex_sv = CUR_EVALcur_eval->u.eval.prev_rex; |
8893 | is_utf8_pat = reginfo->is_utf8_pat = cBOOL(RX_UTF8(rex_sv))((((rex_sv)->sv_flags & 0x20000000)) ? (_Bool)1 : (_Bool )0); |
8894 | SET_reg_curpm(rex_sv)if (reginfo->info_aux_eval) { (void)({ REGEXP *const _rerefcnt_inc = (rex_sv); ((((svtype)((_rerefcnt_inc)->sv_flags & 0xff )) == SVt_REGEXP) ? (void)0 : __assert2("re_exec.c", 8894, __func__ , "SvTYPE(_rerefcnt_inc) == SVt_REGEXP")); Perl_SvREFCNT_inc( ((SV *)({ void *_p = (_rerefcnt_inc); _p; }))); _rerefcnt_inc ; }); ({ REGEXP *const _rerefcnt_dec = (((PL_reg_curpm)->op_pmregexp )); Perl_SvREFCNT_dec( ((SV *)({ void *_p = (_rerefcnt_dec); _p ; }))); }); (((PL_reg_curpm))->op_pmregexp = ((rex_sv))); }; |
8895 | rex = ReANY(rex_sv)Perl_ReANY((const REGEXP *)(rex_sv)); |
8896 | rexi = RXi_GET(rex)((regexp_internal *)((rex)->pprivate)); |
8897 | |
8898 | st->u.eval.prev_curlyx = cur_curlyx; |
8899 | cur_curlyx = CUR_EVALcur_eval->u.eval.prev_curlyx; |
8900 | |
8901 | REGCP_SET(st->u.eval.lastcp)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) Perl_re_exec_indentf ( "Setting an EVAL scope, savestack=%" "ld" ",\n", depth, (IV )PL_savestack_ix );} while (0); st->u.eval.lastcp = PL_savestack_ix; |
8902 | |
8903 | /* Restore parens of the outer rex without popping the |
8904 | * savestack */ |
8905 | regcp_restore(rex, CUR_EVAL.lastcp, &maxopenparen)S_regcp_restore( rex,cur_eval->u.eval.lastcp,&maxopenparen ,depth); |
8906 | |
8907 | st->u.eval.prev_eval = cur_eval; |
8908 | cur_eval = CUR_EVALcur_eval->u.eval.prev_eval; |
8909 | DEBUG_EXECUTE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "END: EVAL trying tail ... (cur_eval=%p)\n", depth, cur_eval );;} while (0) |
8910 | Perl_re_exec_indentf( aTHX_ "END: EVAL trying tail ... (cur_eval=%p)\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "END: EVAL trying tail ... (cur_eval=%p)\n", depth, cur_eval );;} while (0) |
8911 | depth, cur_eval);)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "END: EVAL trying tail ... (cur_eval=%p)\n", depth, cur_eval );;} while (0); |
8912 | if ( nochange_depth ) |
8913 | nochange_depth--; |
8914 | |
8915 | SET_RECURSE_LOCINPUT("FAKE-END[after]", cur_eval->locinput)if ( cur_eval && cur_eval->u.eval.close_paren ) { do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool) 1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { Perl_re_exec_indentf ( "FAKE-END[after]" " GOSUB%d ce=%p recurse_locinput=%p\n", depth , cur_eval->u.eval.close_paren - 1, cur_eval, cur_eval-> locinput); };} while (0); rex->recurse_locinput[cur_eval-> u.eval.close_paren - 1] = cur_eval->locinput; }; |
8916 | |
8917 | PUSH_YES_STATE_GOTO(EVAL_postponed_AB, /* match B */pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = st->u.eval.prev_eval->u.eval.B; st->resume_state = (109 + 5); goto push_yes_state; |
8918 | st->u.eval.prev_eval->u.eval.B,pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = st->u.eval.prev_eval->u.eval.B; st->resume_state = (109 + 5); goto push_yes_state; |
8919 | locinput, loceol, script_run_begin)pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = st->u.eval.prev_eval->u.eval.B; st->resume_state = (109 + 5); goto push_yes_state;; |
8920 | } |
8921 | |
8922 | if (locinput < reginfo->till) { |
8923 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sEND: Match possible, but length=%ld is smaller than requested=%ld, failing!%s\n" , PL_colors[4], (long)(locinput - startpos), (long)(reginfo-> till - startpos), PL_colors[5]);} while (0) |
8924 | "%sEND: Match possible, but length=%ld is smaller than requested=%ld, failing!%s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sEND: Match possible, but length=%ld is smaller than requested=%ld, failing!%s\n" , PL_colors[4], (long)(locinput - startpos), (long)(reginfo-> till - startpos), PL_colors[5]);} while (0) |
8925 | PL_colors[4],do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sEND: Match possible, but length=%ld is smaller than requested=%ld, failing!%s\n" , PL_colors[4], (long)(locinput - startpos), (long)(reginfo-> till - startpos), PL_colors[5]);} while (0) |
8926 | (long)(locinput - startpos),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sEND: Match possible, but length=%ld is smaller than requested=%ld, failing!%s\n" , PL_colors[4], (long)(locinput - startpos), (long)(reginfo-> till - startpos), PL_colors[5]);} while (0) |
8927 | (long)(reginfo->till - startpos),do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sEND: Match possible, but length=%ld is smaller than requested=%ld, failing!%s\n" , PL_colors[4], (long)(locinput - startpos), (long)(reginfo-> till - startpos), PL_colors[5]);} while (0) |
8928 | PL_colors[5]))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sEND: Match possible, but length=%ld is smaller than requested=%ld, failing!%s\n" , PL_colors[4], (long)(locinput - startpos), (long)(reginfo-> till - startpos), PL_colors[5]);} while (0); |
8929 | |
8930 | sayNO_SILENTgoto no_silent; /* Cannot match: too short. */ |
8931 | } |
8932 | sayYESgoto yes; /* Success! */ |
8933 | |
8934 | case SUCCEED1: /* successful SUSPEND/UNLESSM/IFMATCH/CURLYM */ |
8935 | DEBUG_EXECUTE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "%sSUCCEED: subpattern success...%s\n", depth, PL_colors[4] , PL_colors[5]);} while (0) |
8936 | Perl_re_exec_indentf( aTHX_ "%sSUCCEED: subpattern success...%s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "%sSUCCEED: subpattern success...%s\n", depth, PL_colors[4] , PL_colors[5]);} while (0) |
8937 | depth, PL_colors[4], PL_colors[5]))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "%sSUCCEED: subpattern success...%s\n", depth, PL_colors[4] , PL_colors[5]);} while (0); |
8938 | sayYESgoto yes; /* Success! */ |
8939 | |
8940 | #undef ST |
8941 | #define ST st->u.ifmatch |
8942 | |
8943 | case SUSPEND81: /* (?>A) */ |
8944 | ST.wanted = 1; |
8945 | ST.start = locinput; |
8946 | ST.end = loceol; |
8947 | ST.count = 1; |
8948 | goto do_ifmatch; |
8949 | |
8950 | case UNLESSM80: /* -ve lookaround: (?!A), or with 'flags', (?<!A) */ |
8951 | ST.wanted = 0; |
8952 | goto ifmatch_trivial_fail_test; |
8953 | |
8954 | case IFMATCH79: /* +ve lookaround: (?=A), or with 'flags', (?<=A) */ |
8955 | ST.wanted = 1; |
8956 | ifmatch_trivial_fail_test: |
8957 | ST.count = scan->next_off + 1; /* next_off repurposed to be |
8958 | lookbehind count, requires |
8959 | non-zero flags */ |
8960 | if (! scan->flags) { /* 'flags' zero means lookahed */ |
8961 | |
8962 | /* Lookahead starts here and ends at the normal place */ |
8963 | ST.start = locinput; |
8964 | ST.end = loceol; |
8965 | } |
8966 | else { |
8967 | PERL_UINT_FAST8_T back_count = scan->flags; |
8968 | char * s; |
8969 | |
8970 | /* Lookbehind can look beyond the current position */ |
8971 | ST.end = loceol; |
8972 | |
8973 | /* ... and starts at the first place in the input that is in |
8974 | * the range of the possible start positions */ |
8975 | for (; ST.count > 0; ST.count--, back_count--) { |
8976 | s = HOPBACKc(locinput, back_count)((char*)(reginfo->is_utf8_target ? S_reghopmaybe3((U8*)locinput , (ssize_t)0-back_count, (U8*)(reginfo->strbeg)) : (locinput - back_count >= reginfo->strbeg) ? (U8*)locinput - back_count : ((void*)0))); |
8977 | if (s) { |
8978 | ST.start = s; |
8979 | goto do_ifmatch; |
8980 | } |
8981 | } |
8982 | |
8983 | /* If the lookbehind doesn't start in the actual string, is a |
8984 | * trivial match failure */ |
8985 | if (logical) { |
8986 | logical = 0; |
8987 | sw = 1 - cBOOL(ST.wanted)((ST.wanted) ? (_Bool)1 : (_Bool)0); |
8988 | } |
8989 | else if (ST.wanted) |
8990 | sayNOgoto no; |
8991 | |
8992 | /* Here, we didn't want it to match, so is actually success */ |
8993 | next = scan + ARG(scan)((((struct regnode_1 *)scan)->arg1)); |
8994 | if (next == scan) |
8995 | next = NULL((void*)0); |
8996 | break; |
8997 | } |
8998 | |
8999 | do_ifmatch: |
9000 | ST.me = scan; |
9001 | ST.logical = logical; |
9002 | logical = 0; /* XXX: reset state of logical once it has been saved into ST */ |
9003 | |
9004 | /* execute body of (?...A) */ |
9005 | PUSH_YES_STATE_GOTO(IFMATCH_A, NEXTOPER(NEXTOPER(scan)), ST.start,pushinput = ST.start; pusheol = ST.end; pushsr0 = script_run_begin ; scan = ((((scan) + 1)) + 1); st->resume_state = (109 + 25 ); goto push_yes_state; |
9006 | ST.end, script_run_begin)pushinput = ST.start; pusheol = ST.end; pushsr0 = script_run_begin ; scan = ((((scan) + 1)) + 1); st->resume_state = (109 + 25 ); goto push_yes_state;; |
9007 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 9007 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
9008 | |
9009 | { |
9010 | bool_Bool matched; |
9011 | |
9012 | case IFMATCH_A_fail(109 + 26): /* body of (?...A) failed */ |
9013 | if (! ST.logical && ST.count > 1) { |
9014 | |
9015 | /* It isn't a real failure until we've tried all starting |
9016 | * positions. Move to the next starting position and retry */ |
9017 | ST.count--; |
9018 | ST.start = HOPc(ST.start, 1)(char *)(reginfo->is_utf8_target ? S_reghop3((U8*)ST.start , 1, (U8*)(1 >= 0 ? reginfo->strend : reginfo->strbeg )) : (U8*)(ST.start + 1)); |
9019 | scan = ST.me; |
9020 | logical = ST.logical; |
9021 | goto do_ifmatch; |
9022 | } |
9023 | |
9024 | /* Here, all starting positions have been tried. */ |
9025 | matched = FALSE(0); |
9026 | goto ifmatch_done; |
9027 | |
9028 | case IFMATCH_A(109 + 25): /* body of (?...A) succeeded */ |
9029 | matched = TRUE(1); |
9030 | ifmatch_done: |
9031 | sw = matched == ST.wanted; |
9032 | if (! ST.logical && !sw) { |
9033 | sayNOgoto no; |
9034 | } |
9035 | |
9036 | if (OP(ST.me)((ST.me)->type) != SUSPEND81) { |
9037 | /* restore old position except for (?>...) */ |
9038 | locinput = st->locinput; |
9039 | loceol = st->loceol; |
9040 | script_run_begin = st->sr0; |
9041 | } |
9042 | scan = ST.me + ARG(ST.me)((((struct regnode_1 *)ST.me)->arg1)); |
9043 | if (scan == ST.me) |
9044 | scan = NULL((void*)0); |
9045 | continue; /* execute B */ |
9046 | } |
9047 | |
9048 | #undef ST |
9049 | |
9050 | case LONGJMP77: /* alternative with many branches compiles to |
9051 | * (BRANCHJ; EXACT ...; LONGJMP ) x N */ |
9052 | next = scan + ARG(scan)((((struct regnode_1 *)scan)->arg1)); |
9053 | if (next == scan) |
9054 | next = NULL((void*)0); |
9055 | break; |
9056 | |
9057 | case COMMIT103: /* (*COMMIT) */ |
9058 | reginfo->cutpoint = loceol; |
9059 | /* FALLTHROUGH */ |
9060 | |
9061 | case PRUNE100: /* (*PRUNE) */ |
9062 | if (scan->flags) |
9063 | sv_yes_mark = sv_commit = MUTABLE_SV(rexi->data->data[ ARG( scan ) ])((SV *)({ void *_p = (rexi->data->data[ ((((struct regnode_1 *)scan)->arg1)) ]); _p; })); |
9064 | PUSH_STATE_GOTO(COMMIT_next, next, locinput, loceol,pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = next; st->resume_state = (109 + 31); goto push_state ; |
9065 | script_run_begin)pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = next; st->resume_state = (109 + 31); goto push_state ;; |
9066 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 9066 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
9067 | |
9068 | case COMMIT_next_fail(109 + 32): |
9069 | no_final = 1; |
9070 | /* FALLTHROUGH */ |
9071 | sayNOgoto no; |
9072 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 9072 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
9073 | |
9074 | case OPFAIL97: /* (*FAIL) */ |
9075 | if (scan->flags) |
9076 | sv_commit = MUTABLE_SV(rexi->data->data[ ARG( scan ) ])((SV *)({ void *_p = (rexi->data->data[ ((((struct regnode_1 *)scan)->arg1)) ]); _p; })); |
9077 | if (logical) { |
9078 | /* deal with (?(?!)X|Y) properly, |
9079 | * make sure we trigger the no branch |
9080 | * of the trailing IFTHEN structure*/ |
9081 | sw= 0; |
9082 | break; |
9083 | } else { |
9084 | sayNOgoto no; |
9085 | } |
9086 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 9086 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
9087 | |
9088 | #define ST st->u.mark |
9089 | case MARKPOINT101: /* (*MARK:foo) */ |
9090 | ST.prev_mark = mark_state; |
9091 | ST.mark_name = sv_commit = sv_yes_mark |
9092 | = MUTABLE_SV(rexi->data->data[ ARG( scan ) ])((SV *)({ void *_p = (rexi->data->data[ ((((struct regnode_1 *)scan)->arg1)) ]); _p; })); |
9093 | mark_state = st; |
9094 | ST.mark_loc = locinput; |
9095 | PUSH_YES_STATE_GOTO(MARKPOINT_next, next, locinput, loceol,pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = next; st->resume_state = (109 + 33); goto push_yes_state ; |
9096 | script_run_begin)pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = next; st->resume_state = (109 + 33); goto push_yes_state ;; |
9097 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 9097 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
9098 | |
9099 | case MARKPOINT_next(109 + 33): |
9100 | mark_state = ST.prev_mark; |
9101 | sayYESgoto yes; |
9102 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 9102 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
9103 | |
9104 | case MARKPOINT_next_fail(109 + 34): |
9105 | if (popmark && sv_eq(ST.mark_name,popmark)Perl_sv_eq_flags( ST.mark_name,popmark,2)) |
9106 | { |
9107 | if (ST.mark_loc > startpoint) |
9108 | reginfo->cutpoint = HOPBACKc(ST.mark_loc, 1)((char*)(reginfo->is_utf8_target ? S_reghopmaybe3((U8*)ST. mark_loc, (ssize_t)0-1, (U8*)(reginfo->strbeg)) : (ST.mark_loc - 1 >= reginfo->strbeg) ? (U8*)ST.mark_loc - 1 : ((void *)0))); |
9109 | popmark = NULL((void*)0); /* we found our mark */ |
9110 | sv_commit = ST.mark_name; |
9111 | |
9112 | DEBUG_EXECUTE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { Perl_re_exec_indentf ( "%sMARKPOINT: next fail: setting cutpoint to mark:%" "-p" "...%s\n" , depth, PL_colors[4], ((void*)(sv_commit)), PL_colors[5]); } ;} while (0) |
9113 | Perl_re_exec_indentf( aTHX_ "%sMARKPOINT: next fail: setting cutpoint to mark:%" SVf "...%s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { Perl_re_exec_indentf ( "%sMARKPOINT: next fail: setting cutpoint to mark:%" "-p" "...%s\n" , depth, PL_colors[4], ((void*)(sv_commit)), PL_colors[5]); } ;} while (0) |
9114 | depth,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { Perl_re_exec_indentf ( "%sMARKPOINT: next fail: setting cutpoint to mark:%" "-p" "...%s\n" , depth, PL_colors[4], ((void*)(sv_commit)), PL_colors[5]); } ;} while (0) |
9115 | PL_colors[4], SVfARG(sv_commit), PL_colors[5]);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { Perl_re_exec_indentf ( "%sMARKPOINT: next fail: setting cutpoint to mark:%" "-p" "...%s\n" , depth, PL_colors[4], ((void*)(sv_commit)), PL_colors[5]); } ;} while (0) |
9116 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { Perl_re_exec_indentf ( "%sMARKPOINT: next fail: setting cutpoint to mark:%" "-p" "...%s\n" , depth, PL_colors[4], ((void*)(sv_commit)), PL_colors[5]); } ;} while (0); |
9117 | } |
9118 | mark_state = ST.prev_mark; |
9119 | sv_yes_mark = mark_state ? |
9120 | mark_state->u.mark.mark_name : NULL((void*)0); |
9121 | sayNOgoto no; |
9122 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 9122 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
9123 | |
9124 | case SKIP102: /* (*SKIP) */ |
9125 | if (!scan->flags) { |
9126 | /* (*SKIP) : if we fail we cut here*/ |
9127 | ST.mark_name = NULL((void*)0); |
9128 | ST.mark_loc = locinput; |
9129 | PUSH_STATE_GOTO(SKIP_next,next, locinput, loceol,pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = next; st->resume_state = (109 + 35); goto push_state ; |
9130 | script_run_begin)pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = next; st->resume_state = (109 + 35); goto push_state ;; |
9131 | } else { |
9132 | /* (*SKIP:NAME) : if there is a (*MARK:NAME) fail where it was, |
9133 | otherwise do nothing. Meaning we need to scan |
9134 | */ |
9135 | regmatch_state *cur = mark_state; |
9136 | SV *find = MUTABLE_SV(rexi->data->data[ ARG( scan ) ])((SV *)({ void *_p = (rexi->data->data[ ((((struct regnode_1 *)scan)->arg1)) ]); _p; })); |
9137 | |
9138 | while (cur) { |
9139 | if ( sv_eq( cur->u.mark.mark_name,Perl_sv_eq_flags( cur->u.mark.mark_name,find,2) |
9140 | find )Perl_sv_eq_flags( cur->u.mark.mark_name,find,2) ) |
9141 | { |
9142 | ST.mark_name = find; |
9143 | PUSH_STATE_GOTO( SKIP_next, next, locinput, loceol,pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = next; st->resume_state = (109 + 35); goto push_state ; |
9144 | script_run_begin)pushinput = locinput; pusheol = loceol; pushsr0 = script_run_begin ; scan = next; st->resume_state = (109 + 35); goto push_state ;; |
9145 | } |
9146 | cur = cur->u.mark.prev_mark; |
9147 | } |
9148 | } |
9149 | /* Didn't find our (*MARK:NAME) so ignore this (*SKIP:NAME) */ |
9150 | break; |
9151 | |
9152 | case SKIP_next_fail(109 + 36): |
9153 | if (ST.mark_name) { |
9154 | /* (*CUT:NAME) - Set up to search for the name as we |
9155 | collapse the stack*/ |
9156 | popmark = ST.mark_name; |
9157 | } else { |
9158 | /* (*CUT) - No name, we cut here.*/ |
9159 | if (ST.mark_loc > startpoint) |
9160 | reginfo->cutpoint = HOPBACKc(ST.mark_loc, 1)((char*)(reginfo->is_utf8_target ? S_reghopmaybe3((U8*)ST. mark_loc, (ssize_t)0-1, (U8*)(reginfo->strbeg)) : (ST.mark_loc - 1 >= reginfo->strbeg) ? (U8*)ST.mark_loc - 1 : ((void *)0))); |
9161 | /* but we set sv_commit to latest mark_name if there |
9162 | is one so they can test to see how things lead to this |
9163 | cut */ |
9164 | if (mark_state) |
9165 | sv_commit=mark_state->u.mark.mark_name; |
9166 | } |
9167 | no_final = 1; |
9168 | sayNOgoto no; |
9169 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 9169 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
9170 | #undef ST |
9171 | |
9172 | case LNBREAK106: /* \R */ |
9173 | if ((n=is_LNBREAK_safe(locinput, loceol, utf8_target)( ((loceol)-(locinput) > 2) ? ( ( ((((0x0C) >= (0x0A)) ? (void)0 : __assert2("re_exec.c", 9173, __func__, "(0x0C) >= (0x0A)" )), ( (sizeof(((const U8*)locinput)[0]) == sizeof(U8)) ? (((( NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c", 9173 , __func__, "(NV) ((0x0A)) >= 0")), (((NV) (((0x0C) - (0x0A ))) >= 0) ? (void)0 : __assert2("re_exec.c", 9173, __func__ , "(NV) (((0x0C) - (0x0A))) >= 0")), (((U64) (((((U8) (((const U8*)locinput)[0])))) - (((0x0A)) | 0))) <= (((U64) ((((0x0C ) - (0x0A))) | 0))))) : (sizeof(((const U8*)locinput)[0]) == sizeof (U32)) ? ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c" , 9173, __func__, "(NV) ((0x0A)) >= 0")), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 9173, __func__ , "(NV) (((0x0C) - (0x0A))) >= 0")), (((U64) (((((U32) ((( const U8*)locinput)[0])))) - (((0x0A)) | 0))) <= (((U64) ( (((0x0C) - (0x0A))) | 0))))) : (((sizeof(((const U8*)locinput )[0]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c", 9173 , __func__, "sizeof(((const U8*)locinput)[0]) == sizeof(U64)" )), ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c" , 9173, __func__, "(NV) ((0x0A)) >= 0")), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 9173, __func__ , "(NV) (((0x0C) - (0x0A))) >= 0")), (((U64) (((((U64) ((( const U8*)locinput)[0])))) - (((0x0A)) | 0))) <= (((U64) ( (((0x0C) - (0x0A))) | 0)))))))) ) ? 1 : ( 0x0D == ((const U8* )locinput)[0] ) ? ( ( 0x0A == ((const U8*)locinput)[1] ) ? 2 : 1 ) : ( utf8_target ) ? ( ( 0xC2 == ((const U8*)locinput)[0] ) ? ( ( 0x85 == ((const U8*)locinput)[1] ) ? 2 : 0 ) : ( ( ( 0xE2 == ((const U8*)locinput)[0] ) && ( 0x80 == ((const U8*)locinput)[1] ) ) && ( ((((0xA9) >= (0xA8)) ? ( void)0 : __assert2("re_exec.c", 9173, __func__, "(0xA9) >= (0xA8)" )), ( (sizeof(((const U8*)locinput)[2]) == sizeof(U8)) ? (((( NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_exec.c", 9173 , __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8 ))) >= 0) ? (void)0 : __assert2("re_exec.c", 9173, __func__ , "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) (((((U8) (((const U8*)locinput)[2])))) - (((0xA8)) | 0))) <= (((U64) ((((0xA9 ) - (0xA8))) | 0))))) : (sizeof(((const U8*)locinput)[2]) == sizeof (U32)) ? ((((NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_exec.c" , 9173, __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c", 9173, __func__ , "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) (((((U32) ((( const U8*)locinput)[2])))) - (((0xA8)) | 0))) <= (((U64) ( (((0xA9) - (0xA8))) | 0))))) : (((sizeof(((const U8*)locinput )[2]) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c", 9173 , __func__, "sizeof(((const U8*)locinput)[2]) == sizeof(U64)" )), ((((NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_exec.c" , 9173, __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c", 9173, __func__ , "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) (((((U64) ((( const U8*)locinput)[2])))) - (((0xA8)) | 0))) <= (((U64) ( (((0xA9) - (0xA8))) | 0)))))))) ) ) ? 3 : 0 ) : ( 0x85 == ((const U8*)locinput)[0] ) ) : ((loceol)-(locinput) > 1) ? ( ( (( ((0x0C) >= (0x0A)) ? (void)0 : __assert2("re_exec.c", 9173 , __func__, "(0x0C) >= (0x0A)")), ( (sizeof(((const U8*)locinput )[0]) == sizeof(U8)) ? ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2 ("re_exec.c", 9173, __func__, "(NV) ((0x0A)) >= 0")), (((NV ) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c" , 9173, __func__, "(NV) (((0x0C) - (0x0A))) >= 0")), (((U64 ) (((((U8) (((const U8*)locinput)[0])))) - (((0x0A)) | 0))) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (sizeof(((const U8*) locinput)[0]) == sizeof(U32)) ? ((((NV) ((0x0A)) >= 0) ? ( void)0 : __assert2("re_exec.c", 9173, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 9173, __func__, "(NV) (((0x0C) - (0x0A))) >= 0" )), (((U64) (((((U32) (((const U8*)locinput)[0])))) - (((0x0A )) | 0))) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (((sizeof (((const U8*)locinput)[0]) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 9173, __func__, "sizeof(((const U8*)locinput)[0]) == sizeof(U64)" )), ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c" , 9173, __func__, "(NV) ((0x0A)) >= 0")), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 9173, __func__ , "(NV) (((0x0C) - (0x0A))) >= 0")), (((U64) (((((U64) ((( const U8*)locinput)[0])))) - (((0x0A)) | 0))) <= (((U64) ( (((0x0C) - (0x0A))) | 0)))))))) ) ? 1 : ( 0x0D == ((const U8* )locinput)[0] ) ? ( ( 0x0A == ((const U8*)locinput)[1] ) ? 2 : 1 ) : ( utf8_target ) ? ( ( ( 0xC2 == ((const U8*)locinput)[ 0] ) && ( 0x85 == ((const U8*)locinput)[1] ) ) ? 2 : 0 ) : ( 0x85 == ((const U8*)locinput)[0] ) ) : ((loceol)-(locinput ) > 0) ? ( ( ((((0x0D) >= (0x0A)) ? (void)0 : __assert2 ("re_exec.c", 9173, __func__, "(0x0D) >= (0x0A)")), ( (sizeof (((const U8*)locinput)[0]) == sizeof(U8)) ? ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c", 9173, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 9173, __func__, "(NV) (((0x0D) - (0x0A))) >= 0" )), (((U64) (((((U8) (((const U8*)locinput)[0])))) - (((0x0A) ) | 0))) <= (((U64) ((((0x0D) - (0x0A))) | 0))))) : (sizeof (((const U8*)locinput)[0]) == sizeof(U32)) ? ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c", 9173, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 9173, __func__, "(NV) (((0x0D) - (0x0A))) >= 0" )), (((U64) (((((U32) (((const U8*)locinput)[0])))) - (((0x0A )) | 0))) <= (((U64) ((((0x0D) - (0x0A))) | 0))))) : (((sizeof (((const U8*)locinput)[0]) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 9173, __func__, "sizeof(((const U8*)locinput)[0]) == sizeof(U64)" )), ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c" , 9173, __func__, "(NV) ((0x0A)) >= 0")), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 9173, __func__ , "(NV) (((0x0D) - (0x0A))) >= 0")), (((U64) (((((U64) ((( const U8*)locinput)[0])))) - (((0x0A)) | 0))) <= (((U64) ( (((0x0D) - (0x0A))) | 0)))))))) ) ? 1 : ( !( utf8_target ) ) ? ( 0x85 == ((const U8*)locinput)[0] ) : 0 ) : 0 ))) { |
9174 | locinput += n; |
9175 | } else |
9176 | sayNOgoto no; |
9177 | break; |
9178 | |
9179 | default: |
9180 | PerlIO_printf(Perl_error_log(PL_stderrgv && (((svtype)((PL_stderrgv)->sv_flags & 0xff)) == SVt_PVGV) && ((0+(*({GV *const _gvgp = (GV *) (PL_stderrgv); ((((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff )) == SVt_PVLV) ? (void)0 : __assert2("re_exec.c", 9180, __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_exec.c", 9180, __func__, "isGV_with_GP(_gvgp)" )); &((_gvgp)->sv_u.svu_gp);})))->gp_io) && ((XPVIO*) (((0+(*({GV *const _gvgp = (GV *) (PL_stderrgv); ( (((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ( (svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVLV) ? (void )0 : __assert2("re_exec.c", 9180, __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_exec.c", 9180, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_io))->sv_any)->xio_ofp ? ((XPVIO*) (((0+(*({GV *const _gvgp = (GV *) (PL_stderrgv); ((((svtype)((_gvgp)-> sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVLV) ? (void)0 : __assert2("re_exec.c", 9180, __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_exec.c", 9180, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_io))->sv_any)->xio_ofp : Perl_PerlIO_stderr()), "%" UVxf"lx" " %d\n", |
9181 | PTR2UV(scan)(UV)(scan), OP(scan)((scan)->type)); |
9182 | Perl_croak(aTHX_ "regexp memory corruption"); |
9183 | |
9184 | /* this is a point to jump to in order to increment |
9185 | * locinput by one character */ |
9186 | increment_locinput: |
9187 | assert(!NEXTCHR_IS_EOS)((!(nextchr < 0)) ? (void)0 : __assert2("re_exec.c", 9187, __func__, "!NEXTCHR_IS_EOS")); |
9188 | if (utf8_target) { |
9189 | locinput += PL_utf8skip[nextchr]; |
9190 | /* locinput is allowed to go 1 char off the end (signifying |
9191 | * EOS), but not 2+ */ |
9192 | if (locinput > loceol) |
9193 | sayNOgoto no; |
9194 | } |
9195 | else |
9196 | locinput++; |
9197 | break; |
9198 | |
9199 | } /* end switch */ |
9200 | |
9201 | /* switch break jumps here */ |
9202 | scan = next; /* prepare to execute the next op and ... */ |
9203 | continue; /* ... jump back to the top, reusing st */ |
9204 | /* NOTREACHED */ |
9205 | |
9206 | push_yes_state: |
9207 | /* push a state that backtracks on success */ |
9208 | st->u.yes.prev_yes_state = yes_state; |
9209 | yes_state = st; |
9210 | /* FALLTHROUGH */ |
9211 | push_state: |
9212 | /* push a new regex state, then continue at scan */ |
9213 | { |
9214 | regmatch_state *newst; |
9215 | 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_exec.c", 9215, __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_exec.c", 9215, __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); |
9216 | |
9217 | DEBUG_r( /* DEBUG_STACK_r */do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { regmatch_state *cur = st; regmatch_state *curyes = yes_state; U32 i; regmatch_slab *slab = PL_regmatch_slab; for (i = 0; i < 3 && i <= depth; cur--,i++) { if (cur < (&(slab)->states[0]) ) { slab = slab->prev; cur = (&(slab)->states[((4096 - 3 * sizeof (void*)) / sizeof(regmatch_state))-1]); } Perl_re_exec_indentf ( "%4s #%-3d %-10s %s\n", depth, i ? " " : "push", depth - i, PL_reg_name[cur->resume_state], (curyes == cur) ? "yes" : "" ); if (curyes == cur) curyes = cur->u.yes.prev_yes_state ; } } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "push" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0); };} while (0) |
9218 | if (DEBUG_v_TEST || RE_DEBUG_FLAG(RE_DEBUG_EXTRA_STACK)) {do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { regmatch_state *cur = st; regmatch_state *curyes = yes_state; U32 i; regmatch_slab *slab = PL_regmatch_slab; for (i = 0; i < 3 && i <= depth; cur--,i++) { if (cur < (&(slab)->states[0]) ) { slab = slab->prev; cur = (&(slab)->states[((4096 - 3 * sizeof (void*)) / sizeof(regmatch_state))-1]); } Perl_re_exec_indentf ( "%4s #%-3d %-10s %s\n", depth, i ? " " : "push", depth - i, PL_reg_name[cur->resume_state], (curyes == cur) ? "yes" : "" ); if (curyes == cur) curyes = cur->u.yes.prev_yes_state ; } } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "push" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0); };} while (0) |
9219 | regmatch_state *cur = st;do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { regmatch_state *cur = st; regmatch_state *curyes = yes_state; U32 i; regmatch_slab *slab = PL_regmatch_slab; for (i = 0; i < 3 && i <= depth; cur--,i++) { if (cur < (&(slab)->states[0]) ) { slab = slab->prev; cur = (&(slab)->states[((4096 - 3 * sizeof (void*)) / sizeof(regmatch_state))-1]); } Perl_re_exec_indentf ( "%4s #%-3d %-10s %s\n", depth, i ? " " : "push", depth - i, PL_reg_name[cur->resume_state], (curyes == cur) ? "yes" : "" ); if (curyes == cur) curyes = cur->u.yes.prev_yes_state ; } } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "push" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0); };} while (0) |
9220 | regmatch_state *curyes = yes_state;do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { regmatch_state *cur = st; regmatch_state *curyes = yes_state; U32 i; regmatch_slab *slab = PL_regmatch_slab; for (i = 0; i < 3 && i <= depth; cur--,i++) { if (cur < (&(slab)->states[0]) ) { slab = slab->prev; cur = (&(slab)->states[((4096 - 3 * sizeof (void*)) / sizeof(regmatch_state))-1]); } Perl_re_exec_indentf ( "%4s #%-3d %-10s %s\n", depth, i ? " " : "push", depth - i, PL_reg_name[cur->resume_state], (curyes == cur) ? "yes" : "" ); if (curyes == cur) curyes = cur->u.yes.prev_yes_state ; } } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "push" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0); };} while (0) |
9221 | U32 i;do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { regmatch_state *cur = st; regmatch_state *curyes = yes_state; U32 i; regmatch_slab *slab = PL_regmatch_slab; for (i = 0; i < 3 && i <= depth; cur--,i++) { if (cur < (&(slab)->states[0]) ) { slab = slab->prev; cur = (&(slab)->states[((4096 - 3 * sizeof (void*)) / sizeof(regmatch_state))-1]); } Perl_re_exec_indentf ( "%4s #%-3d %-10s %s\n", depth, i ? " " : "push", depth - i, PL_reg_name[cur->resume_state], (curyes == cur) ? "yes" : "" ); if (curyes == cur) curyes = cur->u.yes.prev_yes_state ; } } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "push" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0); };} while (0) |
9222 | regmatch_slab *slab = PL_regmatch_slab;do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { regmatch_state *cur = st; regmatch_state *curyes = yes_state; U32 i; regmatch_slab *slab = PL_regmatch_slab; for (i = 0; i < 3 && i <= depth; cur--,i++) { if (cur < (&(slab)->states[0]) ) { slab = slab->prev; cur = (&(slab)->states[((4096 - 3 * sizeof (void*)) / sizeof(regmatch_state))-1]); } Perl_re_exec_indentf ( "%4s #%-3d %-10s %s\n", depth, i ? " " : "push", depth - i, PL_reg_name[cur->resume_state], (curyes == cur) ? "yes" : "" ); if (curyes == cur) curyes = cur->u.yes.prev_yes_state ; } } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "push" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0); };} while (0) |
9223 | for (i = 0; i < 3 && i <= depth; cur--,i++) {do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { regmatch_state *cur = st; regmatch_state *curyes = yes_state; U32 i; regmatch_slab *slab = PL_regmatch_slab; for (i = 0; i < 3 && i <= depth; cur--,i++) { if (cur < (&(slab)->states[0]) ) { slab = slab->prev; cur = (&(slab)->states[((4096 - 3 * sizeof (void*)) / sizeof(regmatch_state))-1]); } Perl_re_exec_indentf ( "%4s #%-3d %-10s %s\n", depth, i ? " " : "push", depth - i, PL_reg_name[cur->resume_state], (curyes == cur) ? "yes" : "" ); if (curyes == cur) curyes = cur->u.yes.prev_yes_state ; } } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "push" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0); };} while (0) |
9224 | if (cur < SLAB_FIRST(slab)) {do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { regmatch_state *cur = st; regmatch_state *curyes = yes_state; U32 i; regmatch_slab *slab = PL_regmatch_slab; for (i = 0; i < 3 && i <= depth; cur--,i++) { if (cur < (&(slab)->states[0]) ) { slab = slab->prev; cur = (&(slab)->states[((4096 - 3 * sizeof (void*)) / sizeof(regmatch_state))-1]); } Perl_re_exec_indentf ( "%4s #%-3d %-10s %s\n", depth, i ? " " : "push", depth - i, PL_reg_name[cur->resume_state], (curyes == cur) ? "yes" : "" ); if (curyes == cur) curyes = cur->u.yes.prev_yes_state ; } } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "push" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0); };} while (0) |
9225 | slab = slab->prev;do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { regmatch_state *cur = st; regmatch_state *curyes = yes_state; U32 i; regmatch_slab *slab = PL_regmatch_slab; for (i = 0; i < 3 && i <= depth; cur--,i++) { if (cur < (&(slab)->states[0]) ) { slab = slab->prev; cur = (&(slab)->states[((4096 - 3 * sizeof (void*)) / sizeof(regmatch_state))-1]); } Perl_re_exec_indentf ( "%4s #%-3d %-10s %s\n", depth, i ? " " : "push", depth - i, PL_reg_name[cur->resume_state], (curyes == cur) ? "yes" : "" ); if (curyes == cur) curyes = cur->u.yes.prev_yes_state ; } } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "push" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0); };} while (0) |
9226 | cur = SLAB_LAST(slab);do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { regmatch_state *cur = st; regmatch_state *curyes = yes_state; U32 i; regmatch_slab *slab = PL_regmatch_slab; for (i = 0; i < 3 && i <= depth; cur--,i++) { if (cur < (&(slab)->states[0]) ) { slab = slab->prev; cur = (&(slab)->states[((4096 - 3 * sizeof (void*)) / sizeof(regmatch_state))-1]); } Perl_re_exec_indentf ( "%4s #%-3d %-10s %s\n", depth, i ? " " : "push", depth - i, PL_reg_name[cur->resume_state], (curyes == cur) ? "yes" : "" ); if (curyes == cur) curyes = cur->u.yes.prev_yes_state ; } } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "push" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0); };} while (0) |
9227 | }do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { regmatch_state *cur = st; regmatch_state *curyes = yes_state; U32 i; regmatch_slab *slab = PL_regmatch_slab; for (i = 0; i < 3 && i <= depth; cur--,i++) { if (cur < (&(slab)->states[0]) ) { slab = slab->prev; cur = (&(slab)->states[((4096 - 3 * sizeof (void*)) / sizeof(regmatch_state))-1]); } Perl_re_exec_indentf ( "%4s #%-3d %-10s %s\n", depth, i ? " " : "push", depth - i, PL_reg_name[cur->resume_state], (curyes == cur) ? "yes" : "" ); if (curyes == cur) curyes = cur->u.yes.prev_yes_state ; } } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "push" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0); };} while (0) |
9228 | Perl_re_exec_indentf( aTHX_ "%4s #%-3d %-10s %s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { regmatch_state *cur = st; regmatch_state *curyes = yes_state; U32 i; regmatch_slab *slab = PL_regmatch_slab; for (i = 0; i < 3 && i <= depth; cur--,i++) { if (cur < (&(slab)->states[0]) ) { slab = slab->prev; cur = (&(slab)->states[((4096 - 3 * sizeof (void*)) / sizeof(regmatch_state))-1]); } Perl_re_exec_indentf ( "%4s #%-3d %-10s %s\n", depth, i ? " " : "push", depth - i, PL_reg_name[cur->resume_state], (curyes == cur) ? "yes" : "" ); if (curyes == cur) curyes = cur->u.yes.prev_yes_state ; } } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "push" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0); };} while (0) |
9229 | depth,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { regmatch_state *cur = st; regmatch_state *curyes = yes_state; U32 i; regmatch_slab *slab = PL_regmatch_slab; for (i = 0; i < 3 && i <= depth; cur--,i++) { if (cur < (&(slab)->states[0]) ) { slab = slab->prev; cur = (&(slab)->states[((4096 - 3 * sizeof (void*)) / sizeof(regmatch_state))-1]); } Perl_re_exec_indentf ( "%4s #%-3d %-10s %s\n", depth, i ? " " : "push", depth - i, PL_reg_name[cur->resume_state], (curyes == cur) ? "yes" : "" ); if (curyes == cur) curyes = cur->u.yes.prev_yes_state ; } } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "push" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0); };} while (0) |
9230 | i ? " " : "push",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { regmatch_state *cur = st; regmatch_state *curyes = yes_state; U32 i; regmatch_slab *slab = PL_regmatch_slab; for (i = 0; i < 3 && i <= depth; cur--,i++) { if (cur < (&(slab)->states[0]) ) { slab = slab->prev; cur = (&(slab)->states[((4096 - 3 * sizeof (void*)) / sizeof(regmatch_state))-1]); } Perl_re_exec_indentf ( "%4s #%-3d %-10s %s\n", depth, i ? " " : "push", depth - i, PL_reg_name[cur->resume_state], (curyes == cur) ? "yes" : "" ); if (curyes == cur) curyes = cur->u.yes.prev_yes_state ; } } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "push" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0); };} while (0) |
9231 | depth - i, PL_reg_name[cur->resume_state],do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { regmatch_state *cur = st; regmatch_state *curyes = yes_state; U32 i; regmatch_slab *slab = PL_regmatch_slab; for (i = 0; i < 3 && i <= depth; cur--,i++) { if (cur < (&(slab)->states[0]) ) { slab = slab->prev; cur = (&(slab)->states[((4096 - 3 * sizeof (void*)) / sizeof(regmatch_state))-1]); } Perl_re_exec_indentf ( "%4s #%-3d %-10s %s\n", depth, i ? " " : "push", depth - i, PL_reg_name[cur->resume_state], (curyes == cur) ? "yes" : "" ); if (curyes == cur) curyes = cur->u.yes.prev_yes_state ; } } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "push" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0); };} while (0) |
9232 | (curyes == cur) ? "yes" : ""do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { regmatch_state *cur = st; regmatch_state *curyes = yes_state; U32 i; regmatch_slab *slab = PL_regmatch_slab; for (i = 0; i < 3 && i <= depth; cur--,i++) { if (cur < (&(slab)->states[0]) ) { slab = slab->prev; cur = (&(slab)->states[((4096 - 3 * sizeof (void*)) / sizeof(regmatch_state))-1]); } Perl_re_exec_indentf ( "%4s #%-3d %-10s %s\n", depth, i ? " " : "push", depth - i, PL_reg_name[cur->resume_state], (curyes == cur) ? "yes" : "" ); if (curyes == cur) curyes = cur->u.yes.prev_yes_state ; } } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "push" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0); };} while (0) |
9233 | );do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { regmatch_state *cur = st; regmatch_state *curyes = yes_state; U32 i; regmatch_slab *slab = PL_regmatch_slab; for (i = 0; i < 3 && i <= depth; cur--,i++) { if (cur < (&(slab)->states[0]) ) { slab = slab->prev; cur = (&(slab)->states[((4096 - 3 * sizeof (void*)) / sizeof(regmatch_state))-1]); } Perl_re_exec_indentf ( "%4s #%-3d %-10s %s\n", depth, i ? " " : "push", depth - i, PL_reg_name[cur->resume_state], (curyes == cur) ? "yes" : "" ); if (curyes == cur) curyes = cur->u.yes.prev_yes_state ; } } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "push" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0); };} while (0) |
9234 | if (curyes == cur)do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { regmatch_state *cur = st; regmatch_state *curyes = yes_state; U32 i; regmatch_slab *slab = PL_regmatch_slab; for (i = 0; i < 3 && i <= depth; cur--,i++) { if (cur < (&(slab)->states[0]) ) { slab = slab->prev; cur = (&(slab)->states[((4096 - 3 * sizeof (void*)) / sizeof(regmatch_state))-1]); } Perl_re_exec_indentf ( "%4s #%-3d %-10s %s\n", depth, i ? " " : "push", depth - i, PL_reg_name[cur->resume_state], (curyes == cur) ? "yes" : "" ); if (curyes == cur) curyes = cur->u.yes.prev_yes_state ; } } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "push" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0); };} while (0) |
9235 | curyes = cur->u.yes.prev_yes_state;do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { regmatch_state *cur = st; regmatch_state *curyes = yes_state; U32 i; regmatch_slab *slab = PL_regmatch_slab; for (i = 0; i < 3 && i <= depth; cur--,i++) { if (cur < (&(slab)->states[0]) ) { slab = slab->prev; cur = (&(slab)->states[((4096 - 3 * sizeof (void*)) / sizeof(regmatch_state))-1]); } Perl_re_exec_indentf ( "%4s #%-3d %-10s %s\n", depth, i ? " " : "push", depth - i, PL_reg_name[cur->resume_state], (curyes == cur) ? "yes" : "" ); if (curyes == cur) curyes = cur->u.yes.prev_yes_state ; } } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "push" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0); };} while (0) |
9236 | }do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { regmatch_state *cur = st; regmatch_state *curyes = yes_state; U32 i; regmatch_slab *slab = PL_regmatch_slab; for (i = 0; i < 3 && i <= depth; cur--,i++) { if (cur < (&(slab)->states[0]) ) { slab = slab->prev; cur = (&(slab)->states[((4096 - 3 * sizeof (void*)) / sizeof(regmatch_state))-1]); } Perl_re_exec_indentf ( "%4s #%-3d %-10s %s\n", depth, i ? " " : "push", depth - i, PL_reg_name[cur->resume_state], (curyes == cur) ? "yes" : "" ); if (curyes == cur) curyes = cur->u.yes.prev_yes_state ; } } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "push" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0); };} while (0) |
9237 | } else {do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { regmatch_state *cur = st; regmatch_state *curyes = yes_state; U32 i; regmatch_slab *slab = PL_regmatch_slab; for (i = 0; i < 3 && i <= depth; cur--,i++) { if (cur < (&(slab)->states[0]) ) { slab = slab->prev; cur = (&(slab)->states[((4096 - 3 * sizeof (void*)) / sizeof(regmatch_state))-1]); } Perl_re_exec_indentf ( "%4s #%-3d %-10s %s\n", depth, i ? " " : "push", depth - i, PL_reg_name[cur->resume_state], (curyes == cur) ? "yes" : "" ); if (curyes == cur) curyes = cur->u.yes.prev_yes_state ; } } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "push" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0); };} while (0) |
9238 | DEBUG_STATE_pp("push")do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { regmatch_state *cur = st; regmatch_state *curyes = yes_state; U32 i; regmatch_slab *slab = PL_regmatch_slab; for (i = 0; i < 3 && i <= depth; cur--,i++) { if (cur < (&(slab)->states[0]) ) { slab = slab->prev; cur = (&(slab)->states[((4096 - 3 * sizeof (void*)) / sizeof(regmatch_state))-1]); } Perl_re_exec_indentf ( "%4s #%-3d %-10s %s\n", depth, i ? " " : "push", depth - i, PL_reg_name[cur->resume_state], (curyes == cur) ? "yes" : "" ); if (curyes == cur) curyes = cur->u.yes.prev_yes_state ; } } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "push" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0); };} while (0) |
9239 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0280000))) { regmatch_state *cur = st; regmatch_state *curyes = yes_state; U32 i; regmatch_slab *slab = PL_regmatch_slab; for (i = 0; i < 3 && i <= depth; cur--,i++) { if (cur < (&(slab)->states[0]) ) { slab = slab->prev; cur = (&(slab)->states[((4096 - 3 * sizeof (void*)) / sizeof(regmatch_state))-1]); } Perl_re_exec_indentf ( "%4s #%-3d %-10s %s\n", depth, i ? " " : "push", depth - i, PL_reg_name[cur->resume_state], (curyes == cur) ? "yes" : "" ); if (curyes == cur) curyes = cur->u.yes.prev_yes_state ; } } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "push" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0); };} while (0); |
9240 | depth++; |
9241 | st->locinput = locinput; |
9242 | st->loceol = loceol; |
9243 | st->sr0 = script_run_begin; |
9244 | newst = st+1; |
9245 | if (newst > SLAB_LAST(PL_regmatch_slab)(&(PL_regmatch_slab)->states[((4096 - 3 * sizeof (void *)) / sizeof(regmatch_state))-1])) |
9246 | newst = S_push_slab(aTHX); |
9247 | PL_regmatch_state = newst; |
9248 | |
9249 | locinput = pushinput; |
9250 | loceol = pusheol; |
9251 | script_run_begin = pushsr0; |
9252 | st = newst; |
9253 | continue; |
9254 | /* NOTREACHED */ |
9255 | } |
9256 | } |
9257 | #ifdef SOLARIS_BAD_OPTIMIZER |
9258 | # undef PL_charclass |
9259 | #endif |
9260 | |
9261 | /* |
9262 | * We get here only if there's trouble -- normally "case END" is |
9263 | * the terminating point. |
9264 | */ |
9265 | Perl_croak(aTHX_ "corrupted regexp pointers"); |
9266 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 9266 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
9267 | |
9268 | yes: |
9269 | if (yes_state) { |
9270 | /* we have successfully completed a subexpression, but we must now |
9271 | * pop to the state marked by yes_state and continue from there */ |
9272 | assert(st != yes_state)((st != yes_state) ? (void)0 : __assert2("re_exec.c", 9272, __func__ , "st != yes_state")); |
9273 | #ifdef DEBUGGING |
9274 | while (st != yes_state) { |
9275 | st--; |
9276 | if (st < SLAB_FIRST(PL_regmatch_slab)(&(PL_regmatch_slab)->states[0])) { |
9277 | PL_regmatch_slab = PL_regmatch_slab->prev; |
9278 | st = SLAB_LAST(PL_regmatch_slab)(&(PL_regmatch_slab)->states[((4096 - 3 * sizeof (void *)) / sizeof(regmatch_state))-1]); |
9279 | } |
9280 | DEBUG_STATE_r({do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) { if (no_final) { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "pop (no final)" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0);; } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "pop (yes)" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0);; } };} while (0) |
9281 | if (no_final) {do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) { if (no_final) { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "pop (no final)" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0);; } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "pop (yes)" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0);; } };} while (0) |
9282 | DEBUG_STATE_pp("pop (no final)");do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) { if (no_final) { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "pop (no final)" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0);; } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "pop (yes)" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0);; } };} while (0) |
9283 | } else {do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) { if (no_final) { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "pop (no final)" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0);; } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "pop (yes)" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0);; } };} while (0) |
9284 | DEBUG_STATE_pp("pop (yes)");do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) { if (no_final) { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "pop (no final)" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0);; } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "pop (yes)" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0);; } };} while (0) |
9285 | }do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) { if (no_final) { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "pop (no final)" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0);; } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "pop (yes)" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0);; } };} while (0) |
9286 | })do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) { if (no_final) { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "pop (no final)" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0);; } else { do {if (__builtin_expect(((PL_debug & 0x00100000 ) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000 ))) { S_dump_exec_pos( locinput,scan,(reginfo->strend),(reginfo ->strbeg),startpos,utf8_target,depth); Perl_re_printf( "%*s" "pop (yes)" " %s%s%s%s%s\n", ((int)(depth) % 20), "", PL_reg_name [st->resume_state], ((st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state||st==mark_state) ? "]" : "") ); };} while (0);; } };} while (0); |
9287 | depth--; |
9288 | } |
9289 | #else |
9290 | while (yes_state < SLAB_FIRST(PL_regmatch_slab)(&(PL_regmatch_slab)->states[0]) |
9291 | || yes_state > SLAB_LAST(PL_regmatch_slab)(&(PL_regmatch_slab)->states[((4096 - 3 * sizeof (void *)) / sizeof(regmatch_state))-1])) |
9292 | { |
9293 | /* not in this slab, pop slab */ |
9294 | depth -= (st - SLAB_FIRST(PL_regmatch_slab)(&(PL_regmatch_slab)->states[0]) + 1); |
9295 | PL_regmatch_slab = PL_regmatch_slab->prev; |
9296 | st = SLAB_LAST(PL_regmatch_slab)(&(PL_regmatch_slab)->states[((4096 - 3 * sizeof (void *)) / sizeof(regmatch_state))-1]); |
9297 | } |
9298 | depth -= (st - yes_state); |
9299 | #endif |
9300 | st = yes_state; |
9301 | yes_state = st->u.yes.prev_yes_state; |
9302 | PL_regmatch_state = st; |
9303 | |
9304 | if (no_final) { |
9305 | locinput= st->locinput; |
9306 | loceol= st->loceol; |
9307 | script_run_begin = st->sr0; |
9308 | } |
9309 | state_num = st->resume_state + no_final; |
9310 | goto reenter_switch; |
9311 | } |
9312 | |
9313 | DEBUG_EXECUTE_r(Perl_re_printf( aTHX_ "%sMatch successful!%s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sMatch successful!%s\n", PL_colors[4], PL_colors[5]);} while (0) |
9314 | PL_colors[4], PL_colors[5]))do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_printf ( "%sMatch successful!%s\n", PL_colors[4], PL_colors[5]);} while (0); |
9315 | |
9316 | if (reginfo->info_aux_eval) { |
9317 | /* each successfully executed (?{...}) block does the equivalent of |
9318 | * local $^R = do {...} |
9319 | * When popping the save stack, all these locals would be undone; |
9320 | * bypass this by setting the outermost saved $^R to the latest |
9321 | * value */ |
9322 | /* I dont know if this is needed or works properly now. |
9323 | * see code related to PL_replgv elsewhere in this file. |
9324 | * Yves |
9325 | */ |
9326 | if (oreplsv != GvSV(PL_replgv)((0+(*({GV *const _gvgp = (GV *) (PL_replgv); ((((svtype)((_gvgp )->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)-> sv_flags & 0xff)) == SVt_PVLV) ? (void)0 : __assert2("re_exec.c" , 9326, __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_exec.c", 9326, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_sv)) { |
9327 | sv_setsv(oreplsv, GvSV(PL_replgv))Perl_sv_setsv_flags( oreplsv,((0+(*({GV *const _gvgp = (GV *) (PL_replgv); ((((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVLV ) ? (void)0 : __assert2("re_exec.c", 9327, __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_exec.c", 9327, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_sv),2|0); |
9328 | SvSETMAGIC(oreplsv)do { if (__builtin_expect(((((oreplsv)->sv_flags & 0x00400000 )) ? (_Bool)1 : (_Bool)0),(0))) Perl_mg_set( oreplsv); } while (0); |
9329 | } |
9330 | } |
9331 | result = 1; |
9332 | goto final_exit; |
9333 | |
9334 | no: |
9335 | DEBUG_EXECUTE_r(do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "%sfailed...%s\n", depth, PL_colors[4], PL_colors[5]);} while (0) |
9336 | Perl_re_exec_indentf( aTHX_ "%sfailed...%s\n",do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "%sfailed...%s\n", depth, PL_colors[4], PL_colors[5]);} while (0) |
9337 | depth,do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "%sfailed...%s\n", depth, PL_colors[4], PL_colors[5]);} while (0) |
9338 | PL_colors[4], PL_colors[5])do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "%sfailed...%s\n", depth, PL_colors[4], PL_colors[5]);} while (0) |
9339 | )do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) Perl_re_exec_indentf ( "%sfailed...%s\n", depth, PL_colors[4], PL_colors[5]);} while (0); |
9340 | |
9341 | no_silent: |
9342 | if (no_final) { |
9343 | if (yes_state) { |
9344 | goto yes; |
9345 | } else { |
9346 | goto final_exit; |
9347 | } |
9348 | } |
9349 | if (depth) { |
9350 | /* there's a previous state to backtrack to */ |
9351 | st--; |
9352 | if (st < SLAB_FIRST(PL_regmatch_slab)(&(PL_regmatch_slab)->states[0])) { |
9353 | PL_regmatch_slab = PL_regmatch_slab->prev; |
9354 | st = SLAB_LAST(PL_regmatch_slab)(&(PL_regmatch_slab)->states[((4096 - 3 * sizeof (void *)) / sizeof(regmatch_state))-1]); |
9355 | } |
9356 | PL_regmatch_state = st; |
9357 | locinput= st->locinput; |
9358 | loceol= st->loceol; |
9359 | script_run_begin = st->sr0; |
9360 | |
9361 | DEBUG_STATE_pp("pop")do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool )1 : (_Bool)0),(0)) || (re_debug_flags & (0x0080000))) { S_dump_exec_pos ( locinput,scan,(reginfo->strend),(reginfo->strbeg),startpos ,utf8_target,depth); Perl_re_printf( "%*s" "pop" " %s%s%s%s%s\n" , ((int)(depth) % 20), "", PL_reg_name[st->resume_state], ( (st==yes_state||st==mark_state) ? "[" : ""), ((st==yes_state) ? "Y" : ""), ((st==mark_state) ? "M" : ""), ((st==yes_state|| st==mark_state) ? "]" : "") ); };} while (0);; |
9362 | depth--; |
9363 | if (yes_state == st) |
9364 | yes_state = st->u.yes.prev_yes_state; |
9365 | |
9366 | state_num = st->resume_state + 1; /* failure = success + 1 */ |
9367 | PERL_ASYNC_CHECK()if (__builtin_expect(((PL_sig_pending) ? (_Bool)1 : (_Bool)0) ,(0))) PL_signalhook(); |
9368 | goto reenter_switch; |
9369 | } |
9370 | result = 0; |
9371 | |
9372 | final_exit: |
9373 | if (rex->intflags & PREGf_VERBARG_SEEN0x00000008) { |
9374 | SV *sv_err = get_sv("REGERROR", 1)Perl_get_sv( "REGERROR",1); |
9375 | SV *sv_mrk = get_sv("REGMARK", 1)Perl_get_sv( "REGMARK",1); |
9376 | if (result) { |
9377 | sv_commit = &PL_sv_no(PL_sv_immortals[2]); |
9378 | if (!sv_yes_mark) |
9379 | sv_yes_mark = &PL_sv_yes(PL_sv_immortals[0]); |
9380 | } else { |
9381 | if (!sv_commit) |
9382 | sv_commit = &PL_sv_yes(PL_sv_immortals[0]); |
9383 | sv_yes_mark = &PL_sv_no(PL_sv_immortals[2]); |
9384 | } |
9385 | assert(sv_err)((sv_err) ? (void)0 : __assert2("re_exec.c", 9385, __func__, "sv_err" )); |
9386 | assert(sv_mrk)((sv_mrk) ? (void)0 : __assert2("re_exec.c", 9386, __func__, "sv_mrk" )); |
9387 | sv_setsv(sv_err, sv_commit)Perl_sv_setsv_flags( sv_err,sv_commit,2|0); |
9388 | sv_setsv(sv_mrk, sv_yes_mark)Perl_sv_setsv_flags( sv_mrk,sv_yes_mark,2|0); |
9389 | } |
9390 | |
9391 | |
9392 | if (last_pushed_cv) { |
9393 | dSPSV **sp = PL_stack_sp; |
9394 | /* see "Some notes about MULTICALL" above */ |
9395 | POP_MULTICALLdo { PERL_CONTEXT *cx; cx = (&(PL_curstackinfo->si_cxstack )[(PL_curstackinfo->si_cxix)]); do { if (PL_savestack_ix > cx->cx_u.cx_blk.blku_oldsaveix) Perl_leave_scope( cx-> cx_u.cx_blk.blku_oldsaveix); } while (0); Perl_cx_popsub_common ( cx); gimme = cx->cx_u.cx_blk.blku_gimme; ((void)sizeof(gimme )); Perl_cx_popblock( cx); (((&(PL_curstackinfo->si_cxstack )[(PL_curstackinfo->si_cxix)]) == cx) ? (void)0 : __assert2 ("re_exec.c", 9395, __func__, "CX_CUR() == cx")); (PL_curstackinfo ->si_cxix)--; cx = ((void*)0);; do { 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_exec.c" , 9395);} 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); do { if ( __builtin_expect(((PL_debug & 0x00000004) ? (_Bool)1 : (_Bool )0),(0))) Perl_deb( "JUMPLEVEL set catch %d => %d (for %p) at %s:%d\n" , PL_top_env->je_mustcatch, multicall_oldcatch, (void*)PL_top_env , "re_exec.c", 9395); PL_top_env->je_mustcatch = (multicall_oldcatch ); } while (0); sp = PL_stack_sp; } while (0); |
9396 | PERL_UNUSED_VAR(SP)((void)sizeof(sp)); |
9397 | } |
9398 | else |
9399 | LEAVE_SCOPE(orig_savestack_ix)do { if (PL_savestack_ix > orig_savestack_ix) Perl_leave_scope ( orig_savestack_ix); } while (0); |
9400 | |
9401 | assert(!result || locinput - reginfo->strbeg >= 0)((!result || locinput - reginfo->strbeg >= 0) ? (void)0 : __assert2("re_exec.c", 9401, __func__, "!result || locinput - reginfo->strbeg >= 0" )); |
9402 | return result ? locinput - reginfo->strbeg : -1; |
9403 | } |
9404 | |
9405 | /* |
9406 | - regrepeat - repeatedly match something simple, report how many |
9407 | * |
9408 | * What 'simple' means is a node which can be the operand of a quantifier like |
9409 | * '+', or {1,3} |
9410 | * |
9411 | * startposp - pointer to a pointer to the start position. This is updated |
9412 | * to point to the byte following the highest successful |
9413 | * match. |
9414 | * p - the regnode to be repeatedly matched against. |
9415 | * loceol - pointer to the end position beyond which we aren't supposed to |
9416 | * look. |
9417 | * reginfo - struct holding match state, such as utf8_target |
9418 | * max - maximum number of things to match. |
9419 | * depth - (for debugging) backtracking depth. |
9420 | */ |
9421 | STATICstatic I32 |
9422 | S_regrepeat(pTHX_ regexp *prog, char **startposp, const regnode *p, |
9423 | char * loceol, regmatch_info *const reginfo, I32 max _pDEPTH,U32 depth) |
9424 | { |
9425 | dVARstruct Perl___notused_struct; |
9426 | char *scan; /* Pointer to current position in target string */ |
9427 | I32 c; |
9428 | char *this_eol = loceol; /* potentially adjusted version. */ |
9429 | I32 hardcount = 0; /* How many matches so far */ |
9430 | bool_Bool utf8_target = reginfo->is_utf8_target; |
9431 | unsigned int to_complement = 0; /* Invert the result? */ |
9432 | UV utf8_flags = 0; |
9433 | _char_class_number classnum; |
9434 | |
9435 | PERL_ARGS_ASSERT_REGREPEAT((prog) ? (void)0 : __assert2("re_exec.c", 9435, __func__, "prog" )); ((startposp) ? (void)0 : __assert2("re_exec.c", 9435, __func__ , "startposp")); ((p) ? (void)0 : __assert2("re_exec.c", 9435 , __func__, "p")); ((loceol) ? (void)0 : __assert2("re_exec.c" , 9435, __func__, "loceol")); ((reginfo) ? (void)0 : __assert2 ("re_exec.c", 9435, __func__, "reginfo")); |
9436 | |
9437 | /* This routine is structured so that we switch on the input OP. Each OP |
9438 | * case: statement contains a loop to repeatedly apply the OP, advancing |
9439 | * the input until it fails, or reaches the end of the input, or until it |
9440 | * reaches the upper limit of matches. */ |
9441 | |
9442 | scan = *startposp; |
9443 | if (max == REG_INFTY0xffff) /* This is a special marker to go to the platform's |
9444 | max */ |
9445 | max = I32_MAX0x7fffffff; |
9446 | else if (! utf8_target && this_eol - scan > max) |
9447 | this_eol = scan + max; |
9448 | |
9449 | /* Here, for the case of a non-UTF-8 target we have adjusted <this_eol> down |
9450 | * to the maximum of how far we should go in it (leaving it set to the real |
9451 | * end, if the maximum permissible would take us beyond that). This allows |
9452 | * us to make the loop exit condition that we haven't gone past <this_eol> to |
9453 | * also mean that we haven't exceeded the max permissible count, saving a |
9454 | * test each time through the loops. But it assumes that the OP matches a |
9455 | * single byte, which is true for most of the OPs below when applied to a |
9456 | * non-UTF-8 target. Those relatively few OPs that don't have this |
9457 | * characteristic will have to compensate. |
9458 | * |
9459 | * There is no adjustment for UTF-8 targets, as the number of bytes per |
9460 | * character varies. OPs will have to test both that the count is less |
9461 | * than the max permissible (using <hardcount> to keep track), and that we |
9462 | * are still within the bounds of the string (using <this_eol>. A few OPs |
9463 | * match a single byte no matter what the encoding. They can omit the max |
9464 | * test if, for the UTF-8 case, they do the adjustment that was skipped |
9465 | * above. |
9466 | * |
9467 | * Thus, the code above sets things up for the common case; and exceptional |
9468 | * cases need extra work; the common case is to make sure <scan> doesn't |
9469 | * go past <this_eol>, and for UTF-8 to also use <hardcount> to make sure the |
9470 | * count doesn't exceed the maximum permissible */ |
9471 | |
9472 | switch (OP(p)((p)->type)) { |
9473 | case REG_ANY16: |
9474 | if (utf8_target) { |
9475 | while (scan < this_eol && hardcount < max && *scan != '\n') { |
9476 | scan += UTF8SKIP(scan)PL_utf8skip[*(const U8*)(scan)]; |
9477 | hardcount++; |
9478 | } |
9479 | } else { |
9480 | scan = (char *) memchr(scan, '\n', this_eol - scan); |
9481 | if (! scan) { |
9482 | scan = this_eol; |
9483 | } |
9484 | } |
9485 | break; |
9486 | case SANY17: |
9487 | if (utf8_target) { |
9488 | while (scan < this_eol && hardcount < max) { |
9489 | scan += UTF8SKIP(scan)PL_utf8skip[*(const U8*)(scan)]; |
9490 | hardcount++; |
9491 | } |
9492 | } |
9493 | else |
9494 | scan = this_eol; |
9495 | break; |
9496 | |
9497 | case LEXACT_REQ851: |
9498 | if (! utf8_target) { |
9499 | break; |
9500 | } |
9501 | /* FALLTHROUGH */ |
9502 | |
9503 | case LEXACT41: |
9504 | { |
9505 | U8 * string; |
9506 | Size_tsize_t str_len; |
9507 | |
9508 | string = (U8 *) STRINGl(p)(((((p)->type) == 41 || ((p)->type) == 51) ? (void)0 : __assert2 ("re_exec.c", 9508, __func__, "((p)->type) == 41 || ((p)->type) == 51" )), (((struct regnode_lstring *)p)->string)); |
9509 | str_len = STR_LENl(p)(((((p)->type) == 41 || ((p)->type) == 51) ? (void)0 : __assert2 ("re_exec.c", 9509, __func__, "((p)->type) == 41 || ((p)->type) == 51" )), (((struct regnode_lstring *)p)->str_len)); |
9510 | goto join_short_long_exact; |
9511 | |
9512 | case EXACTL42: |
9513 | _CHECK_AND_WARN_PROBLEMATIC_LOCALEdo { if (__builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool )0),(0))) { Perl__warn_problematic_locale(); } } while (0); |
9514 | if (utf8_target && UTF8_IS_ABOVE_LATIN1(*scan)(((( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 9514, __func__, "( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))" )), ((((( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9514, __func__, "( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))" )), ((U8) ((*scan) | 0))) >= ((0x100 >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { |
9515 | _CHECK_AND_OUTPUT_WIDE_LOCALE_UTF8_MSG(scan, loceol)do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { UV cp = Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) (scan)),(const U8 *) (U8 *) (loceol),((void*)0)); Perl_warner ( (63 ), "Wide character (U+%" "lX" ") in %s", (cp == 0) ? 0xFFFD : (UV) cp, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field ( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type ])); } } while (0); |
9516 | } |
9517 | goto do_exact; |
9518 | |
9519 | case EXACT_REQ850: |
9520 | if (! utf8_target) { |
9521 | break; |
9522 | } |
9523 | /* FALLTHROUGH */ |
9524 | case EXACT40: |
9525 | do_exact: |
9526 | string = (U8 *) STRINGs(p)(((((p)->type) != 41 && ((p)->type) != 51) ? (void )0 : __assert2("re_exec.c", 9526, __func__, "((p)->type) != 41 && ((p)->type) != 51" )), ((struct regnode_string *)p)->string); |
9527 | str_len = STR_LENs(p)(((((p)->type) != 41 && ((p)->type) != 51) ? (void )0 : __assert2("re_exec.c", 9527, __func__, "((p)->type) != 41 && ((p)->type) != 51" )), ((struct regnode_string *)p)->str_len); |
9528 | |
9529 | join_short_long_exact: |
9530 | assert(str_len == reginfo->is_utf8_pat ? UTF8SKIP(string) : 1)((str_len == reginfo->is_utf8_pat ? PL_utf8skip[*(const U8 *)(string)] : 1) ? (void)0 : __assert2("re_exec.c", 9530, __func__ , "str_len == reginfo->is_utf8_pat ? UTF8SKIP(string) : 1" )); |
9531 | |
9532 | c = *string; |
9533 | |
9534 | /* Can use a simple find if the pattern char to match on is invariant |
9535 | * under UTF-8, or both target and pattern aren't UTF-8. Note that we |
9536 | * can use UTF8_IS_INVARIANT() even if the pattern isn't UTF-8, as it's |
9537 | * true iff it doesn't matter if the argument is in UTF-8 or not */ |
9538 | if (UTF8_IS_INVARIANT(c)((((U64)(((UV) (((c) | 0) | 0)))) < (((U8) (0xFF << 6 )) & 0xB0))) || (! utf8_target && ! reginfo->is_utf8_pat)) { |
9539 | if (utf8_target && this_eol - scan > max) { |
9540 | /* We didn't adjust <this_eol> because is UTF-8, but ok to do so, |
9541 | * since here, to match at all, 1 char == 1 byte */ |
9542 | this_eol = scan + max; |
9543 | } |
9544 | scan = (char *) find_span_endS_find_span_end((U8 *) scan, (U8 *) this_eol, (U8) c); |
9545 | } |
9546 | else if (reginfo->is_utf8_pat) { |
9547 | if (utf8_target) { |
9548 | STRLEN scan_char_len; |
9549 | |
9550 | /* When both target and pattern are UTF-8, we have to do |
9551 | * string EQ */ |
9552 | while (hardcount < max |
9553 | && scan < this_eol |
9554 | && (scan_char_len = UTF8SKIP(scan)PL_utf8skip[*(const U8*)(scan)]) <= str_len |
9555 | && memEQ(scan, string, scan_char_len)(memcmp(((const void *) (scan)), ((const void *) (string)), scan_char_len ) == 0)) |
9556 | { |
9557 | scan += scan_char_len; |
9558 | hardcount++; |
9559 | } |
9560 | } |
9561 | else if (! UTF8_IS_ABOVE_LATIN1(c)(((( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))) ? ( void)0 : __assert2("re_exec.c", 9561, __func__, "( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))" )), ((((( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF) )) ? (void)0 : __assert2("re_exec.c", 9561, __func__, "( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))" )), ((U8) ((c) | 0))) >= ((0x100 >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { |
9562 | |
9563 | /* Target isn't utf8; convert the character in the UTF-8 |
9564 | * pattern to non-UTF8, and do a simple find */ |
9565 | c = EIGHT_BIT_UTF8_TO_NATIVE(c, *(string + 1))( (((((( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF)) ) ? (void)0 : __assert2("re_exec.c", 9565, __func__, "( (sizeof(c) == 1) || !(((U64)((c) | 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_exec.c", 9565 , __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(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9565, __func__, "( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))" )), ((U8) ((c) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 9565, __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_exec.c" , 9565, __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(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9565, __func__ , "( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))")), ((U8) ((c) | 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(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9565, __func__, "( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))" )), ((U8) ((c) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) ( 0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 9565, __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_exec.c" , 9565, __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(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9565, __func__ , "( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))")), ((U8) ((c) | 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(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9565, __func__, "( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))" )), ((U8) ((c) | 0)))) == sizeof(U64)) ? (void)0 : __assert2( "re_exec.c", 9565, __func__, "sizeof((((( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9565, __func__, \"( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))\")), ((U8) ((c) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 9565, __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_exec.c" , 9565, __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(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9565, __func__ , "( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))")), ((U8) ((c) | 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_exec.c", 9565, __func__, "(((( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9565, __func__, \"( (sizeof(c) == 1) || !(((U64)((c) | 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_exec.c\", 9565, __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(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9565, __func__, \"( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))\")), ((U8) ((c) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 9565, __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_exec.c\", 9565, __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(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9565, __func__, \"( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))\")), ((U8) ((c) | 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(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9565, __func__, \"( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))\")), ((U8) ((c) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 9565, __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_exec.c\", 9565, __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(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9565, __func__, \"( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))\")), ((U8) ((c) | 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(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9565, __func__, \"( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))\")), ((U8) ((c) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 9565, __func__, \"sizeof((((( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 9565, __func__, \\\"( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))\\\")), ((U8) ((c) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 9565, __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_exec.c\", 9565, __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(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9565, __func__, \"( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))\")), ((U8) ((c) | 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(*(string + 1)) == 1) || !(((U64)((*(string + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9565, __func__, "( (sizeof(*(string + 1)) == 1) || !(((U64)((*(string + 1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*(string + 1)) == 1) || !(((U64)((*(string + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9565, __func__, "( (sizeof(*(string + 1)) == 1) || !(((U64)((*(string + 1)) | 0)) & ~0xFF))" )), ((U8) ((*(string + 1)) | 0))) & ((U8) (0xFF << 6 ))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 9565, __func__, "(((( (sizeof(*(string + 1)) == 1) || !(((U64)((*(string + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9565, __func__, \"( (sizeof(*(string + 1)) == 1) || !(((U64)((*(string + 1)) | 0)) & ~0xFF))\")), ((((((( (sizeof(*(string + 1)) == 1) || !(((U64)((*(string + 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9565, __func__, \"( (sizeof(*(string + 1)) == 1) || !(((U64)((*(string + 1)) | 0)) & ~0xFF))\")), ((U8) ((*(string + 1)) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*(string + 1))) == 1) || !(((U64 )(((*(string + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 9565, __func__, "( (sizeof((*(string + 1))) == 1) || !(((U64)(((*(string + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 9565, __func__, "( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))" )), ((U8) ((c) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(string + 1))) == 1) || !(((U64)(((*(string + 1))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 9565, __func__, "( (sizeof((*(string + 1))) == 1) || !(((U64)(((*(string + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(string + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(string + 1))) == 1) || !(((U64)(((*(string + 1))) | 0)) & ~0xFF))) ? ( void)0 : __assert2("re_exec.c", 9565, __func__, "( (sizeof((*(string + 1))) == 1) || !(((U64)(((*(string + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 9565, __func__, "( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))" )), ((U8) ((c) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(string + 1))) == 1) || !(((U64)(((*(string + 1))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 9565, __func__, "( (sizeof((*(string + 1))) == 1) || !(((U64)(((*(string + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(string + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9565, __func__, "( (sizeof((((( (sizeof((*(string + 1))) == 1) || !(((U64)(((*(string + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9565, __func__, \"( (sizeof((*(string + 1))) == 1) || !(((U64)(((*(string + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9565, __func__, \"( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))\")), ((U8) ((c) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(string + 1))) == 1) || !(((U64)(((*(string + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9565, __func__, \"( (sizeof((*(string + 1))) == 1) || !(((U64)(((*(string + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(string + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*(string + 1))) == 1) || !(((U64)(((*(string + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9565, __func__, \"( (sizeof((*(string + 1))) == 1) || !(((U64)(((*(string + 1))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9565, __func__, \"( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))\")), ((U8) ((c) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(string + 1))) == 1) || !(((U64)(((*(string + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9565, __func__, \"( (sizeof((*(string + 1))) == 1) || !(((U64)(((*(string + 1))) | 0)) & ~0xFF))\")), ((U8) (((*(string + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*(string + 1))) == 1) || !(((U64)(( (*(string + 1))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9565, __func__, "( (sizeof((*(string + 1))) == 1) || !(((U64)(((*(string + 1))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 9565, __func__, "( (sizeof(c) == 1) || !(((U64)((c) | 0)) & ~0xFF))" )), ((U8) ((c) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*(string + 1))) == 1) || !(((U64)(((*(string + 1))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 9565, __func__, "( (sizeof((*(string + 1))) == 1) || !(((U64)(((*(string + 1))) | 0)) & ~0xFF))" )), ((U8) (((*(string + 1))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))); |
9566 | scan = (char *) find_span_endS_find_span_end((U8 *) scan, (U8 *) this_eol, (U8) c); |
9567 | } /* else pattern char is above Latin1, can't possibly match the |
9568 | non-UTF-8 target */ |
9569 | } |
9570 | else { |
9571 | |
9572 | /* Here, the string must be utf8; pattern isn't, and <c> is |
9573 | * different in utf8 than not, so can't compare them directly. |
9574 | * Outside the loop, find the two utf8 bytes that represent c, and |
9575 | * then look for those in sequence in the utf8 string */ |
9576 | U8 high = UTF8_TWO_BYTE_HI(c)((((sizeof(c) == 1) || !(((U64)(c)) & ~(32 * (1U << 6) - 1))) ? (void)0 : __assert2("re_exec.c", 9576, __func__, "(sizeof(c) == 1) || !(((U64)(c)) & ~(32 * (1U << 6) - 1))" )), ((((! ((((U64)(((UV) ((c) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? (void)0 : __assert2("re_exec.c", 9576, __func__ , "! ((((U64)(((UV) ((c) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))" )), (((( (sizeof((((UV) ((c) | 0)) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))) == 1) || !(((U64) (((((UV) ((c) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8 ) (0xFE << (7-(2)))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9576, __func__, "( (sizeof((((UV) ((c) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) == 1) || !(((U64)(((((UV) ((c) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) | 0)) & ~0xFF))" )), ((U8) (((((UV) ((c) | 0)) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) | 0)))))); |
9577 | U8 low = UTF8_TWO_BYTE_LO(c)((((sizeof(c) == 1) || !(((U64)(c)) & ~(32 * (1U << 6) - 1))) ? (void)0 : __assert2("re_exec.c", 9577, __func__, "(sizeof(c) == 1) || !(((U64)(c)) & ~(32 * (1U << 6) - 1))" )), ((((! ((((U64)(((UV) ((c) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? (void)0 : __assert2("re_exec.c", 9577, __func__ , "! ((((U64)(((UV) ((c) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))" )), (((( (sizeof((((UV) ((c) | 0)) & ((U8) ((1U << 6 ) - 1))) | (((U8) (0xFF << 6)) & 0xB0)) == 1) || !( ((U64)(((((UV) ((c) | 0)) & ((U8) ((1U << 6) - 1))) | (((U8) (0xFF << 6)) & 0xB0)) | 0)) & ~0xFF)) ) ? (void)0 : __assert2("re_exec.c", 9577, __func__, "( (sizeof((((UV) ((c) | 0)) & ((U8) ((1U << 6) - 1))) | (((U8) (0xFF << 6)) & 0xB0)) == 1) || !(((U64)(((((UV) ((c) | 0)) & ((U8) ((1U << 6) - 1))) | (((U8) (0xFF << 6)) & 0xB0)) | 0)) & ~0xFF))" )), ((U8) (((((UV) ((c) | 0)) & ((U8) ((1U << 6) - 1 ))) | (((U8) (0xFF << 6)) & 0xB0)) | 0)))))); |
9578 | |
9579 | while (hardcount < max |
9580 | && scan + 1 < this_eol |
9581 | && UCHARAT(scan)((int)*(const U8*)(scan)) == high |
9582 | && UCHARAT(scan + 1)((int)*(const U8*)(scan + 1)) == low) |
9583 | { |
9584 | scan += 2; |
9585 | hardcount++; |
9586 | } |
9587 | } |
9588 | break; |
9589 | } |
9590 | |
9591 | case EXACTFAA_NO_TRIE49: /* This node only generated for non-utf8 patterns */ |
9592 | assert(! reginfo->is_utf8_pat)((! reginfo->is_utf8_pat) ? (void)0 : __assert2("re_exec.c" , 9592, __func__, "! reginfo->is_utf8_pat")); |
9593 | /* FALLTHROUGH */ |
9594 | case EXACTFAA46: |
9595 | utf8_flags = FOLDEQ_UTF8_NOMIX_ASCII(1 << 0); |
9596 | if (reginfo->is_utf8_pat || ! utf8_target) { |
9597 | |
9598 | /* The possible presence of a MICRO SIGN in the pattern forbids us |
9599 | * to view a non-UTF-8 pattern as folded when there is a UTF-8 |
9600 | * target. */ |
9601 | utf8_flags |= FOLDEQ_S2_ALREADY_FOLDED(1 << 3)|FOLDEQ_S2_FOLDS_SANE(1 << 5); |
9602 | } |
9603 | goto do_exactf; |
9604 | |
9605 | case EXACTFL44: |
9606 | _CHECK_AND_WARN_PROBLEMATIC_LOCALEdo { if (__builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool )0),(0))) { Perl__warn_problematic_locale(); } } while (0); |
9607 | utf8_flags = FOLDEQ_LOCALE(1 << 1); |
9608 | goto do_exactf; |
9609 | |
9610 | case EXACTF43: /* This node only generated for non-utf8 patterns */ |
9611 | assert(! reginfo->is_utf8_pat)((! reginfo->is_utf8_pat) ? (void)0 : __assert2("re_exec.c" , 9611, __func__, "! reginfo->is_utf8_pat")); |
9612 | goto do_exactf; |
9613 | |
9614 | case EXACTFLU848: |
9615 | if (! utf8_target) { |
9616 | break; |
9617 | } |
9618 | utf8_flags = FOLDEQ_LOCALE(1 << 1) | FOLDEQ_S2_ALREADY_FOLDED(1 << 3) |
9619 | | FOLDEQ_S2_FOLDS_SANE(1 << 5); |
9620 | goto do_exactf; |
9621 | |
9622 | case EXACTFU_REQ852: |
9623 | if (! utf8_target) { |
9624 | break; |
9625 | } |
9626 | assert(reginfo->is_utf8_pat)((reginfo->is_utf8_pat) ? (void)0 : __assert2("re_exec.c", 9626, __func__, "reginfo->is_utf8_pat")); |
9627 | utf8_flags = FOLDEQ_S2_ALREADY_FOLDED(1 << 3); |
9628 | goto do_exactf; |
9629 | |
9630 | case EXACTFU45: |
9631 | utf8_flags = FOLDEQ_S2_ALREADY_FOLDED(1 << 3); |
9632 | /* FALLTHROUGH */ |
9633 | |
9634 | case EXACTFUP47: |
9635 | |
9636 | do_exactf: { |
9637 | int c1, c2; |
9638 | U8 c1_utf8[UTF8_MAXBYTES13+1], c2_utf8[UTF8_MAXBYTES13+1]; |
9639 | |
9640 | assert(STR_LENs(p) == reginfo->is_utf8_pat ? UTF8SKIP(STRINGs(p)) : 1)(((((((p)->type) != 41 && ((p)->type) != 51) ? ( void)0 : __assert2("re_exec.c", 9640, __func__, "((p)->type) != 41 && ((p)->type) != 51" )), ((struct regnode_string *)p)->str_len) == reginfo-> is_utf8_pat ? PL_utf8skip[*(const U8*)((((((p)->type) != 41 && ((p)->type) != 51) ? (void)0 : __assert2("re_exec.c" , 9640, __func__, "((p)->type) != 41 && ((p)->type) != 51" )), ((struct regnode_string *)p)->string))] : 1) ? (void)0 : __assert2("re_exec.c", 9640, __func__, "STR_LENs(p) == reginfo->is_utf8_pat ? UTF8SKIP(STRINGs(p)) : 1" )); |
9641 | |
9642 | if (S_setup_EXACTISH_ST_c1_c2(aTHX_ p, &c1, c1_utf8, &c2, c2_utf8, |
9643 | reginfo)) |
9644 | { |
9645 | if (c1 == CHRTEST_VOID-1000) { |
9646 | /* Use full Unicode fold matching */ |
9647 | char *tmpeol = loceol; |
9648 | STRLEN pat_len = reginfo->is_utf8_pat ? UTF8SKIP(STRINGs(p))PL_utf8skip[*(const U8*)((((((p)->type) != 41 && ( (p)->type) != 51) ? (void)0 : __assert2("re_exec.c", 9648, __func__, "((p)->type) != 41 && ((p)->type) != 51" )), ((struct regnode_string *)p)->string))] : 1; |
9649 | while (hardcount < max |
9650 | && foldEQ_utf8_flags(scan, &tmpeol, 0, utf8_target,Perl_foldEQ_utf8_flags( scan,&tmpeol,0,utf8_target,(((((p )->type) != 41 && ((p)->type) != 51) ? (void)0 : __assert2("re_exec.c", 9651, __func__, "((p)->type) != 41 && ((p)->type) != 51" )), ((struct regnode_string *)p)->string),((void*)0),pat_len ,reginfo->is_utf8_pat,utf8_flags) |
9651 | STRINGs(p), NULL, pat_len,Perl_foldEQ_utf8_flags( scan,&tmpeol,0,utf8_target,(((((p )->type) != 41 && ((p)->type) != 51) ? (void)0 : __assert2("re_exec.c", 9651, __func__, "((p)->type) != 41 && ((p)->type) != 51" )), ((struct regnode_string *)p)->string),((void*)0),pat_len ,reginfo->is_utf8_pat,utf8_flags) |
9652 | reginfo->is_utf8_pat, utf8_flags)Perl_foldEQ_utf8_flags( scan,&tmpeol,0,utf8_target,(((((p )->type) != 41 && ((p)->type) != 51) ? (void)0 : __assert2("re_exec.c", 9651, __func__, "((p)->type) != 41 && ((p)->type) != 51" )), ((struct regnode_string *)p)->string),((void*)0),pat_len ,reginfo->is_utf8_pat,utf8_flags)) |
9653 | { |
9654 | scan = tmpeol; |
9655 | tmpeol = loceol; |
9656 | hardcount++; |
9657 | } |
9658 | } |
9659 | else if (utf8_target) { |
9660 | if (c1 == c2) { |
9661 | while (scan < this_eol |
9662 | && hardcount < max |
9663 | && memEQ(scan, c1_utf8, UTF8_SAFE_SKIP(scan,(memcmp(((const void *) (scan)), ((const void *) (c1_utf8)), ( (((loceol) >= (scan)) ? (void)0 : __assert2("re_exec.c", 9664 , __func__, "(loceol) >= (scan)")), ((loceol) - (scan)) <= 0 ? 0 : (((((loceol) - (scan)))<(PL_utf8skip[*(const U8*) (scan)]))?(((loceol) - (scan))):(PL_utf8skip[*(const U8*)(scan )])))) == 0) |
9664 | loceol))(memcmp(((const void *) (scan)), ((const void *) (c1_utf8)), ( (((loceol) >= (scan)) ? (void)0 : __assert2("re_exec.c", 9664 , __func__, "(loceol) >= (scan)")), ((loceol) - (scan)) <= 0 ? 0 : (((((loceol) - (scan)))<(PL_utf8skip[*(const U8*) (scan)]))?(((loceol) - (scan))):(PL_utf8skip[*(const U8*)(scan )])))) == 0)) |
9665 | { |
9666 | scan += UTF8SKIP(c1_utf8)PL_utf8skip[*(const U8*)(c1_utf8)]; |
9667 | hardcount++; |
9668 | } |
9669 | } |
9670 | else { |
9671 | while (scan < this_eol |
9672 | && hardcount < max |
9673 | && ( memEQ(scan, c1_utf8, UTF8_SAFE_SKIP(scan,(memcmp(((const void *) (scan)), ((const void *) (c1_utf8)), ( (((loceol) >= (scan)) ? (void)0 : __assert2("re_exec.c", 9674 , __func__, "(loceol) >= (scan)")), ((loceol) - (scan)) <= 0 ? 0 : (((((loceol) - (scan)))<(PL_utf8skip[*(const U8*) (scan)]))?(((loceol) - (scan))):(PL_utf8skip[*(const U8*)(scan )])))) == 0) |
9674 | loceol))(memcmp(((const void *) (scan)), ((const void *) (c1_utf8)), ( (((loceol) >= (scan)) ? (void)0 : __assert2("re_exec.c", 9674 , __func__, "(loceol) >= (scan)")), ((loceol) - (scan)) <= 0 ? 0 : (((((loceol) - (scan)))<(PL_utf8skip[*(const U8*) (scan)]))?(((loceol) - (scan))):(PL_utf8skip[*(const U8*)(scan )])))) == 0) |
9675 | || memEQ(scan, c2_utf8, UTF8_SAFE_SKIP(scan,(memcmp(((const void *) (scan)), ((const void *) (c2_utf8)), ( (((loceol) >= (scan)) ? (void)0 : __assert2("re_exec.c", 9676 , __func__, "(loceol) >= (scan)")), ((loceol) - (scan)) <= 0 ? 0 : (((((loceol) - (scan)))<(PL_utf8skip[*(const U8*) (scan)]))?(((loceol) - (scan))):(PL_utf8skip[*(const U8*)(scan )])))) == 0) |
9676 | loceol))(memcmp(((const void *) (scan)), ((const void *) (c2_utf8)), ( (((loceol) >= (scan)) ? (void)0 : __assert2("re_exec.c", 9676 , __func__, "(loceol) >= (scan)")), ((loceol) - (scan)) <= 0 ? 0 : (((((loceol) - (scan)))<(PL_utf8skip[*(const U8*) (scan)]))?(((loceol) - (scan))):(PL_utf8skip[*(const U8*)(scan )])))) == 0))) |
9677 | { |
9678 | scan += UTF8_SAFE_SKIP(scan, loceol)((((loceol) >= (scan)) ? (void)0 : __assert2("re_exec.c", 9678 , __func__, "(loceol) >= (scan)")), ((loceol) - (scan)) <= 0 ? 0 : (((((loceol) - (scan)))<(PL_utf8skip[*(const U8*) (scan)]))?(((loceol) - (scan))):(PL_utf8skip[*(const U8*)(scan )]))); |
9679 | hardcount++; |
9680 | } |
9681 | } |
9682 | } |
9683 | else if (c1 == c2) { |
9684 | scan = (char *) find_span_endS_find_span_end((U8 *) scan, (U8 *) this_eol, (U8) c1); |
9685 | } |
9686 | else { |
9687 | /* See comments in regmatch() CURLY_B_min_known_fail. We avoid |
9688 | * a conditional each time through the loop if the characters |
9689 | * differ only in a single bit, as is the usual situation */ |
9690 | U8 c1_c2_bits_differing = c1 ^ c2; |
9691 | |
9692 | if (isPOWER_OF_2(c1_c2_bits_differing)((c1_c2_bits_differing) && ((c1_c2_bits_differing) & ((c1_c2_bits_differing)-1)) == 0)) { |
9693 | U8 c1_c2_mask = ~ c1_c2_bits_differing; |
9694 | |
9695 | scan = (char *) find_span_end_maskS_find_span_end_mask((U8 *) scan, |
9696 | (U8 *) this_eol, |
9697 | c1 & c1_c2_mask, |
9698 | c1_c2_mask); |
9699 | } |
9700 | else { |
9701 | while ( scan < this_eol |
9702 | && (UCHARAT(scan)((int)*(const U8*)(scan)) == c1 || UCHARAT(scan)((int)*(const U8*)(scan)) == c2)) |
9703 | { |
9704 | scan++; |
9705 | } |
9706 | } |
9707 | } |
9708 | } |
9709 | break; |
9710 | } |
9711 | case ANYOFPOSIXL21: |
9712 | case ANYOFL20: |
9713 | _CHECK_AND_WARN_PROBLEMATIC_LOCALEdo { if (__builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool )0),(0))) { Perl__warn_problematic_locale(); } } while (0); |
9714 | |
9715 | if (ANYOFL_UTF8_LOCALE_REQD(FLAGS(p))((((p)->flags) & ( 0x04 |0x08)) == 0x08) && ! IN_UTF8_CTYPE_LOCALEPL_in_utf8_CTYPE_locale) { |
9716 | Perl_ck_warner(aTHX_ packWARN(WARN_LOCALE)(63 ), utf8_locale_required); |
9717 | } |
9718 | /* FALLTHROUGH */ |
9719 | case ANYOFD19: |
9720 | case ANYOF18: |
9721 | if (utf8_target) { |
9722 | while (hardcount < max |
9723 | && scan < this_eol |
9724 | && reginclass(prog, p, (U8*)scan, (U8*) this_eol, utf8_target)S_reginclass( prog,p,(U8*)scan,(U8*) this_eol,utf8_target)) |
9725 | { |
9726 | scan += UTF8SKIP(scan)PL_utf8skip[*(const U8*)(scan)]; |
9727 | hardcount++; |
9728 | } |
9729 | } |
9730 | else if (ANYOF_FLAGS(p)((p)->flags) & ~ ANYOF_MATCHES_ALL_ABOVE_BITMAP0x20) { |
9731 | while (scan < this_eol |
9732 | && reginclass(prog, p, (U8*)scan, (U8*)scan+1, 0)S_reginclass( prog,p,(U8*)scan,(U8*)scan+1,0)) |
9733 | scan++; |
9734 | } |
9735 | else { |
9736 | while (scan < this_eol && ANYOF_BITMAP_TEST(p, *((U8*)scan))(((( (U8*) ((regnode_charclass*)(p))->bitmap) [ ( ( (UV) ( *((U8*)scan))) >> 3) ] ) & (1U << ((*((U8*)scan )) & 7))) ? (_Bool)1 : (_Bool)0)) |
9737 | scan++; |
9738 | } |
9739 | break; |
9740 | |
9741 | case ANYOFM28: |
9742 | if (utf8_target && this_eol - scan > max) { |
9743 | |
9744 | /* We didn't adjust <this_eol> at the beginning of this routine |
9745 | * because is UTF-8, but it is actually ok to do so, since here, to |
9746 | * match, 1 char == 1 byte. */ |
9747 | this_eol = scan + max; |
9748 | } |
9749 | |
9750 | scan = (char *) find_span_end_maskS_find_span_end_mask((U8 *) scan, (U8 *) this_eol, (U8) ARG(p)((((struct regnode_1 *)p)->arg1)), FLAGS(p)((p)->flags)); |
9751 | break; |
9752 | |
9753 | case NANYOFM29: |
9754 | if (utf8_target) { |
9755 | while ( hardcount < max |
9756 | && scan < this_eol |
9757 | && (*scan & FLAGS(p)((p)->flags)) != ARG(p)((((struct regnode_1 *)p)->arg1))) |
9758 | { |
9759 | scan += UTF8SKIP(scan)PL_utf8skip[*(const U8*)(scan)]; |
9760 | hardcount++; |
9761 | } |
9762 | } |
9763 | else { |
9764 | scan = (char *) find_next_maskedS_find_next_masked((U8 *) scan, (U8 *) this_eol, (U8) ARG(p)((((struct regnode_1 *)p)->arg1)), FLAGS(p)((p)->flags)); |
9765 | } |
9766 | break; |
9767 | |
9768 | case ANYOFH22: |
9769 | if (utf8_target) { /* ANYOFH only can match UTF-8 targets */ |
9770 | while ( hardcount < max |
9771 | && scan < this_eol |
9772 | && NATIVE_UTF8_TO_I8(*scan)(((( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 9772, __func__, "( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))" )), ((U8) ((*scan) | 0))) >= ANYOF_FLAGS(p)((p)->flags) |
9773 | && reginclass(prog, p, (U8*)scan, (U8*) this_eol, TRUE)S_reginclass( prog,p,(U8*)scan,(U8*) this_eol,(1))) |
9774 | { |
9775 | scan += UTF8SKIP(scan)PL_utf8skip[*(const U8*)(scan)]; |
9776 | hardcount++; |
9777 | } |
9778 | } |
9779 | break; |
9780 | |
9781 | case ANYOFHb23: |
9782 | if (utf8_target) { /* ANYOFHb only can match UTF-8 targets */ |
9783 | |
9784 | /* we know the first byte must be the FLAGS field */ |
9785 | while ( hardcount < max |
9786 | && scan < this_eol |
9787 | && (U8) *scan == ANYOF_FLAGS(p)((p)->flags) |
9788 | && reginclass(prog, p, (U8*)scan, (U8*) this_eol,S_reginclass( prog,p,(U8*)scan,(U8*) this_eol,(1)) |
9789 | TRUE)S_reginclass( prog,p,(U8*)scan,(U8*) this_eol,(1))) |
9790 | { |
9791 | scan += UTF8SKIP(scan)PL_utf8skip[*(const U8*)(scan)]; |
9792 | hardcount++; |
9793 | } |
9794 | } |
9795 | break; |
9796 | |
9797 | case ANYOFHr24: |
9798 | if (utf8_target) { /* ANYOFH only can match UTF-8 targets */ |
9799 | while ( hardcount < max |
9800 | && scan < this_eol |
9801 | && inRANGE(NATIVE_UTF8_TO_I8(*scan),((((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - ((((( p)->flags)) >> 2) + 0xC0)) >> ((((p)->flags )) & 3)))) >= ((((((p)->flags)) >> 2) + 0xC0) )) ? (void)0 : __assert2("re_exec.c", 9803, __func__, "(((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0)) >> ((((p)->flags)) & 3)))) >= ((((((p)->flags)) >> 2) + 0xC0))" )), ( (sizeof((((( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9801, __func__ , "( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))" )), ((U8) ((*scan) | 0)))) == sizeof(U8)) ? ((((NV) (((((((p) ->flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 9803, __func__, "(NV) (((((((p)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0)) >> ((((p)-> flags)) & 3)))) - ((((((p)->flags)) >> 2) + 0xC0 )))) >= 0) ? (void)0 : __assert2("re_exec.c", 9803, __func__ , "(NV) (((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0)) >> ((((p)->flags)) & 3)))) - ((((((p)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U8) ((((( (sizeof(*scan) == 1) || !(((U64)(( *scan) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9801, __func__, "( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))" )), ((U8) ((*scan) | 0))))))) - ((((((((p)->flags)) >> 2) + 0xC0))) | 0))) <= (((U64) ((((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0 )) >> ((((p)->flags)) & 3)))) - ((((((p)->flags )) >> 2) + 0xC0)))) | 0))))) : (sizeof((((( (sizeof(*scan ) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 9801, __func__, "( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))" )), ((U8) ((*scan) | 0)))) == sizeof(U32)) ? ((((NV) (((((((p )->flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 9803, __func__, "(NV) (((((((p)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0)) >> ((((p)-> flags)) & 3)))) - ((((((p)->flags)) >> 2) + 0xC0 )))) >= 0) ? (void)0 : __assert2("re_exec.c", 9803, __func__ , "(NV) (((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0)) >> ((((p)->flags)) & 3)))) - ((((((p)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U32) ((((( (sizeof(*scan) == 1) || !(((U64)( (*scan) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9801, __func__, "( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))" )), ((U8) ((*scan) | 0))))))) - ((((((((p)->flags)) >> 2) + 0xC0))) | 0))) <= (((U64) ((((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0 )) >> ((((p)->flags)) & 3)))) - ((((((p)->flags )) >> 2) + 0xC0)))) | 0))))) : (((sizeof((((( (sizeof(* scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))) ? (void) 0 : __assert2("re_exec.c", 9801, __func__, "( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))" )), ((U8) ((*scan) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 9803, __func__, "sizeof((((( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9801, __func__, \"( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))\")), ((U8) ((*scan) | 0)))) == sizeof(U64)" )), ((((NV) (((((((p)->flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2("re_exec.c", 9803, __func__, "(NV) (((((((p)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0)) >> ((((p)-> flags)) & 3)))) - ((((((p)->flags)) >> 2) + 0xC0 )))) >= 0) ? (void)0 : __assert2("re_exec.c", 9803, __func__ , "(NV) (((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0)) >> ((((p)->flags)) & 3)))) - ((((((p)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U64) ((((( (sizeof(*scan) == 1) || !(((U64)( (*scan) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9801, __func__, "( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))" )), ((U8) ((*scan) | 0))))))) - ((((((((p)->flags)) >> 2) + 0xC0))) | 0))) <= (((U64) ((((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0 )) >> ((((p)->flags)) & 3)))) - ((((((p)->flags )) >> 2) + 0xC0)))) | 0)))))))) |
9802 | LOWEST_ANYOF_HRx_BYTE(ANYOF_FLAGS(p)),((((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - ((((( p)->flags)) >> 2) + 0xC0)) >> ((((p)->flags )) & 3)))) >= ((((((p)->flags)) >> 2) + 0xC0) )) ? (void)0 : __assert2("re_exec.c", 9803, __func__, "(((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0)) >> ((((p)->flags)) & 3)))) >= ((((((p)->flags)) >> 2) + 0xC0))" )), ( (sizeof((((( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9801, __func__ , "( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))" )), ((U8) ((*scan) | 0)))) == sizeof(U8)) ? ((((NV) (((((((p) ->flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 9803, __func__, "(NV) (((((((p)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0)) >> ((((p)-> flags)) & 3)))) - ((((((p)->flags)) >> 2) + 0xC0 )))) >= 0) ? (void)0 : __assert2("re_exec.c", 9803, __func__ , "(NV) (((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0)) >> ((((p)->flags)) & 3)))) - ((((((p)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U8) ((((( (sizeof(*scan) == 1) || !(((U64)(( *scan) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9801, __func__, "( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))" )), ((U8) ((*scan) | 0))))))) - ((((((((p)->flags)) >> 2) + 0xC0))) | 0))) <= (((U64) ((((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0 )) >> ((((p)->flags)) & 3)))) - ((((((p)->flags )) >> 2) + 0xC0)))) | 0))))) : (sizeof((((( (sizeof(*scan ) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 9801, __func__, "( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))" )), ((U8) ((*scan) | 0)))) == sizeof(U32)) ? ((((NV) (((((((p )->flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 9803, __func__, "(NV) (((((((p)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0)) >> ((((p)-> flags)) & 3)))) - ((((((p)->flags)) >> 2) + 0xC0 )))) >= 0) ? (void)0 : __assert2("re_exec.c", 9803, __func__ , "(NV) (((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0)) >> ((((p)->flags)) & 3)))) - ((((((p)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U32) ((((( (sizeof(*scan) == 1) || !(((U64)( (*scan) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9801, __func__, "( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))" )), ((U8) ((*scan) | 0))))))) - ((((((((p)->flags)) >> 2) + 0xC0))) | 0))) <= (((U64) ((((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0 )) >> ((((p)->flags)) & 3)))) - ((((((p)->flags )) >> 2) + 0xC0)))) | 0))))) : (((sizeof((((( (sizeof(* scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))) ? (void) 0 : __assert2("re_exec.c", 9801, __func__, "( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))" )), ((U8) ((*scan) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 9803, __func__, "sizeof((((( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9801, __func__, \"( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))\")), ((U8) ((*scan) | 0)))) == sizeof(U64)" )), ((((NV) (((((((p)->flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2("re_exec.c", 9803, __func__, "(NV) (((((((p)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0)) >> ((((p)-> flags)) & 3)))) - ((((((p)->flags)) >> 2) + 0xC0 )))) >= 0) ? (void)0 : __assert2("re_exec.c", 9803, __func__ , "(NV) (((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0)) >> ((((p)->flags)) & 3)))) - ((((((p)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U64) ((((( (sizeof(*scan) == 1) || !(((U64)( (*scan) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9801, __func__, "( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))" )), ((U8) ((*scan) | 0))))))) - ((((((((p)->flags)) >> 2) + 0xC0))) | 0))) <= (((U64) ((((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0 )) >> ((((p)->flags)) & 3)))) - ((((((p)->flags )) >> 2) + 0xC0)))) | 0)))))))) |
9803 | HIGHEST_ANYOF_HRx_BYTE(ANYOF_FLAGS(p)))((((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - ((((( p)->flags)) >> 2) + 0xC0)) >> ((((p)->flags )) & 3)))) >= ((((((p)->flags)) >> 2) + 0xC0) )) ? (void)0 : __assert2("re_exec.c", 9803, __func__, "(((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0)) >> ((((p)->flags)) & 3)))) >= ((((((p)->flags)) >> 2) + 0xC0))" )), ( (sizeof((((( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9801, __func__ , "( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))" )), ((U8) ((*scan) | 0)))) == sizeof(U8)) ? ((((NV) (((((((p) ->flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 9803, __func__, "(NV) (((((((p)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0)) >> ((((p)-> flags)) & 3)))) - ((((((p)->flags)) >> 2) + 0xC0 )))) >= 0) ? (void)0 : __assert2("re_exec.c", 9803, __func__ , "(NV) (((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0)) >> ((((p)->flags)) & 3)))) - ((((((p)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U8) ((((( (sizeof(*scan) == 1) || !(((U64)(( *scan) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9801, __func__, "( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))" )), ((U8) ((*scan) | 0))))))) - ((((((((p)->flags)) >> 2) + 0xC0))) | 0))) <= (((U64) ((((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0 )) >> ((((p)->flags)) & 3)))) - ((((((p)->flags )) >> 2) + 0xC0)))) | 0))))) : (sizeof((((( (sizeof(*scan ) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 9801, __func__, "( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))" )), ((U8) ((*scan) | 0)))) == sizeof(U32)) ? ((((NV) (((((((p )->flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 9803, __func__, "(NV) (((((((p)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0)) >> ((((p)-> flags)) & 3)))) - ((((((p)->flags)) >> 2) + 0xC0 )))) >= 0) ? (void)0 : __assert2("re_exec.c", 9803, __func__ , "(NV) (((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0)) >> ((((p)->flags)) & 3)))) - ((((((p)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U32) ((((( (sizeof(*scan) == 1) || !(((U64)( (*scan) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9801, __func__, "( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))" )), ((U8) ((*scan) | 0))))))) - ((((((((p)->flags)) >> 2) + 0xC0))) | 0))) <= (((U64) ((((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0 )) >> ((((p)->flags)) & 3)))) - ((((((p)->flags )) >> 2) + 0xC0)))) | 0))))) : (((sizeof((((( (sizeof(* scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))) ? (void) 0 : __assert2("re_exec.c", 9801, __func__, "( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))" )), ((U8) ((*scan) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 9803, __func__, "sizeof((((( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9801, __func__, \"( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))\")), ((U8) ((*scan) | 0)))) == sizeof(U64)" )), ((((NV) (((((((p)->flags)) >> 2) + 0xC0))) >= 0) ? (void)0 : __assert2("re_exec.c", 9803, __func__, "(NV) (((((((p)->flags)) >> 2) + 0xC0))) >= 0" )), (((NV) (((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0)) >> ((((p)-> flags)) & 3)))) - ((((((p)->flags)) >> 2) + 0xC0 )))) >= 0) ? (void)0 : __assert2("re_exec.c", 9803, __func__ , "(NV) (((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0)) >> ((((p)->flags)) & 3)))) - ((((((p)->flags)) >> 2) + 0xC0)))) >= 0" )), (((U64) (((((U64) ((((( (sizeof(*scan) == 1) || !(((U64)( (*scan) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9801, __func__, "( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))" )), ((U8) ((*scan) | 0))))))) - ((((((((p)->flags)) >> 2) + 0xC0))) | 0))) <= (((U64) ((((((((((p)->flags)) >> 2) + 0xC0) + ((0xEF - (((((p)->flags)) >> 2) + 0xC0 )) >> ((((p)->flags)) & 3)))) - ((((((p)->flags )) >> 2) + 0xC0)))) | 0)))))))) |
9804 | && NATIVE_UTF8_TO_I8(*scan)(((( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 9804, __func__, "( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))" )), ((U8) ((*scan) | 0))) >= ANYOF_FLAGS(p)((p)->flags) |
9805 | && reginclass(prog, p, (U8*)scan, (U8*) this_eol, TRUE)S_reginclass( prog,p,(U8*)scan,(U8*) this_eol,(1))) |
9806 | { |
9807 | scan += UTF8SKIP(scan)PL_utf8skip[*(const U8*)(scan)]; |
9808 | hardcount++; |
9809 | } |
9810 | } |
9811 | break; |
9812 | |
9813 | case ANYOFHs25: |
9814 | if (utf8_target) { /* ANYOFH only can match UTF-8 targets */ |
9815 | while ( hardcount < max |
9816 | && scan + FLAGS(p)((p)->flags) < this_eol |
9817 | && memEQ(scan, ((struct regnode_anyofhs *) p)->string, FLAGS(p))(memcmp(((const void *) (scan)), ((const void *) (((struct regnode_anyofhs *) p)->string)), ((p)->flags)) == 0) |
9818 | && reginclass(prog, p, (U8*)scan, (U8*) this_eol, TRUE)S_reginclass( prog,p,(U8*)scan,(U8*) this_eol,(1))) |
9819 | { |
9820 | scan += UTF8SKIP(scan)PL_utf8skip[*(const U8*)(scan)]; |
9821 | hardcount++; |
9822 | } |
9823 | } |
9824 | break; |
9825 | |
9826 | case ANYOFR26: |
9827 | if (utf8_target) { |
9828 | while ( hardcount < max |
9829 | && scan < this_eol |
9830 | && NATIVE_UTF8_TO_I8(*scan)(((( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 9830, __func__, "( (sizeof(*scan) == 1) || !(((U64)((*scan) | 0)) & ~0xFF))" )), ((U8) ((*scan) | 0))) >= ANYOF_FLAGS(p)((p)->flags) |
9831 | && withinCOUNT(utf8_to_uvchr_buf((U8 *) scan,((((NV) ((((((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 9834, __func__, "(NV) ((((((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)p)->arg1)) >> 20 )) >= 0) ? (void)0 : __assert2("re_exec.c", 9834, __func__ , "(NV) ((((((struct regnode_1 *)p)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) scan),(const U8 *) (U8 *) this_eol,((void*)0)))) - (((( (((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1 ))) | 0))) <= (((U64) (((((((struct regnode_1 *)p)->arg1 )) >> 20)) | 0))))) |
9832 | (U8 *) this_eol,((((NV) ((((((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 9834, __func__, "(NV) ((((((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)p)->arg1)) >> 20 )) >= 0) ? (void)0 : __assert2("re_exec.c", 9834, __func__ , "(NV) ((((((struct regnode_1 *)p)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) scan),(const U8 *) (U8 *) this_eol,((void*)0)))) - (((( (((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1 ))) | 0))) <= (((U64) (((((((struct regnode_1 *)p)->arg1 )) >> 20)) | 0))))) |
9833 | NULL),((((NV) ((((((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 9834, __func__, "(NV) ((((((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)p)->arg1)) >> 20 )) >= 0) ? (void)0 : __assert2("re_exec.c", 9834, __func__ , "(NV) ((((((struct regnode_1 *)p)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) scan),(const U8 *) (U8 *) this_eol,((void*)0)))) - (((( (((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1 ))) | 0))) <= (((U64) (((((((struct regnode_1 *)p)->arg1 )) >> 20)) | 0))))) |
9834 | ANYOFRbase(p), ANYOFRdelta(p))((((NV) ((((((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 9834, __func__, "(NV) ((((((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)p)->arg1)) >> 20 )) >= 0) ? (void)0 : __assert2("re_exec.c", 9834, __func__ , "(NV) ((((((struct regnode_1 *)p)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) scan),(const U8 *) (U8 *) this_eol,((void*)0)))) - (((( (((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1 ))) | 0))) <= (((U64) (((((((struct regnode_1 *)p)->arg1 )) >> 20)) | 0)))))) |
9835 | { |
9836 | scan += UTF8SKIP(scan)PL_utf8skip[*(const U8*)(scan)]; |
9837 | hardcount++; |
9838 | } |
9839 | } |
9840 | else { |
9841 | while ( hardcount < max |
9842 | && scan < this_eol |
9843 | && withinCOUNT((U8) *scan, ANYOFRbase(p), ANYOFRdelta(p))((((NV) ((((((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 9843, __func__, "(NV) ((((((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)p)->arg1)) >> 20 )) >= 0) ? (void)0 : __assert2("re_exec.c", 9843, __func__ , "(NV) ((((((struct regnode_1 *)p)->arg1)) >> 20)) >= 0" )), (((U64) ((((U8) *scan)) - (((((((struct regnode_1 *)p)-> arg1)) & ((1 << 20) - 1))) | 0))) <= (((U64) ((( ((((struct regnode_1 *)p)->arg1)) >> 20)) | 0)))))) |
9844 | { |
9845 | scan++; |
9846 | hardcount++; |
9847 | } |
9848 | } |
9849 | break; |
9850 | |
9851 | case ANYOFRb27: |
9852 | if (utf8_target) { |
9853 | while ( hardcount < max |
9854 | && scan < this_eol |
9855 | && (U8) *scan == ANYOF_FLAGS(p)((p)->flags) |
9856 | && withinCOUNT(utf8_to_uvchr_buf((U8 *) scan,((((NV) ((((((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 9859, __func__, "(NV) ((((((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)p)->arg1)) >> 20 )) >= 0) ? (void)0 : __assert2("re_exec.c", 9859, __func__ , "(NV) ((((((struct regnode_1 *)p)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) scan),(const U8 *) (U8 *) this_eol,((void*)0)))) - (((( (((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1 ))) | 0))) <= (((U64) (((((((struct regnode_1 *)p)->arg1 )) >> 20)) | 0))))) |
9857 | (U8 *) this_eol,((((NV) ((((((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 9859, __func__, "(NV) ((((((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)p)->arg1)) >> 20 )) >= 0) ? (void)0 : __assert2("re_exec.c", 9859, __func__ , "(NV) ((((((struct regnode_1 *)p)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) scan),(const U8 *) (U8 *) this_eol,((void*)0)))) - (((( (((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1 ))) | 0))) <= (((U64) (((((((struct regnode_1 *)p)->arg1 )) >> 20)) | 0))))) |
9858 | NULL),((((NV) ((((((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 9859, __func__, "(NV) ((((((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)p)->arg1)) >> 20 )) >= 0) ? (void)0 : __assert2("re_exec.c", 9859, __func__ , "(NV) ((((((struct regnode_1 *)p)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) scan),(const U8 *) (U8 *) this_eol,((void*)0)))) - (((( (((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1 ))) | 0))) <= (((U64) (((((((struct regnode_1 *)p)->arg1 )) >> 20)) | 0))))) |
9859 | ANYOFRbase(p), ANYOFRdelta(p))((((NV) ((((((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 9859, __func__, "(NV) ((((((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)p)->arg1)) >> 20 )) >= 0) ? (void)0 : __assert2("re_exec.c", 9859, __func__ , "(NV) ((((((struct regnode_1 *)p)->arg1)) >> 20)) >= 0" )), (((U64) (((Perl_utf8_to_uvchr_buf_helper( (const U8 *) (( U8 *) scan),(const U8 *) (U8 *) this_eol,((void*)0)))) - (((( (((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1 ))) | 0))) <= (((U64) (((((((struct regnode_1 *)p)->arg1 )) >> 20)) | 0)))))) |
9860 | { |
9861 | scan += UTF8SKIP(scan)PL_utf8skip[*(const U8*)(scan)]; |
9862 | hardcount++; |
9863 | } |
9864 | } |
9865 | else { |
9866 | while ( hardcount < max |
9867 | && scan < this_eol |
9868 | && withinCOUNT((U8) *scan, ANYOFRbase(p), ANYOFRdelta(p))((((NV) ((((((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1))) >= 0) ? (void)0 : __assert2("re_exec.c", 9868, __func__, "(NV) ((((((struct regnode_1 *)p)->arg1)) & ((1 << 20) - 1))) >= 0" )), (((NV) ((((((struct regnode_1 *)p)->arg1)) >> 20 )) >= 0) ? (void)0 : __assert2("re_exec.c", 9868, __func__ , "(NV) ((((((struct regnode_1 *)p)->arg1)) >> 20)) >= 0" )), (((U64) ((((U8) *scan)) - (((((((struct regnode_1 *)p)-> arg1)) & ((1 << 20) - 1))) | 0))) <= (((U64) ((( ((((struct regnode_1 *)p)->arg1)) >> 20)) | 0)))))) |
9869 | { |
9870 | scan++; |
9871 | hardcount++; |
9872 | } |
9873 | } |
9874 | break; |
9875 | |
9876 | /* The argument (FLAGS) to all the POSIX node types is the class number */ |
9877 | |
9878 | case NPOSIXL35: |
9879 | to_complement = 1; |
9880 | /* FALLTHROUGH */ |
9881 | |
9882 | case POSIXL31: |
9883 | _CHECK_AND_WARN_PROBLEMATIC_LOCALEdo { if (__builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool )0),(0))) { Perl__warn_problematic_locale(); } } while (0); |
9884 | if (! utf8_target) { |
9885 | while (scan < this_eol && to_complement ^ cBOOL(isFOO_lc(FLAGS(p),((Perl_isFOO_lc( ((p)->flags),*scan)) ? (_Bool)1 : (_Bool) 0) |
9886 | *scan))((Perl_isFOO_lc( ((p)->flags),*scan)) ? (_Bool)1 : (_Bool) 0)) |
9887 | { |
9888 | scan++; |
9889 | } |
9890 | } else { |
9891 | while (hardcount < max && scan < this_eol |
9892 | && to_complement ^ cBOOL(isFOO_utf8_lc(FLAGS(p),((S_isFOO_utf8_lc( ((p)->flags),(U8 *) scan,(U8 *) this_eol )) ? (_Bool)1 : (_Bool)0) |
9893 | (U8 *) scan,((S_isFOO_utf8_lc( ((p)->flags),(U8 *) scan,(U8 *) this_eol )) ? (_Bool)1 : (_Bool)0) |
9894 | (U8 *) this_eol))((S_isFOO_utf8_lc( ((p)->flags),(U8 *) scan,(U8 *) this_eol )) ? (_Bool)1 : (_Bool)0)) |
9895 | { |
9896 | scan += UTF8SKIP(scan)PL_utf8skip[*(const U8*)(scan)]; |
9897 | hardcount++; |
9898 | } |
9899 | } |
9900 | break; |
9901 | |
9902 | case POSIXD30: |
9903 | if (utf8_target) { |
9904 | goto utf8_posix; |
9905 | } |
9906 | /* FALLTHROUGH */ |
9907 | |
9908 | case POSIXA33: |
9909 | if (utf8_target && this_eol - scan > max) { |
9910 | |
9911 | /* We didn't adjust <this_eol> at the beginning of this routine |
9912 | * because is UTF-8, but it is actually ok to do so, since here, to |
9913 | * match, 1 char == 1 byte. */ |
9914 | this_eol = scan + max; |
9915 | } |
9916 | while (scan < this_eol && _generic_isCC_A((U8) *scan, FLAGS(p))(( (sizeof((U8) *scan) == 1) || !(((U64)(((U8) *scan) | 0)) & ~0xFF)) && ((PL_charclass[(U8) ((U8) *scan)] & ( (1U << (((p)->flags))) | (1U << (14)))) == ((1U << (((p)->flags))) | (1U << (14)))))) { |
9917 | scan++; |
9918 | } |
9919 | break; |
9920 | |
9921 | case NPOSIXD34: |
9922 | if (utf8_target) { |
9923 | to_complement = 1; |
9924 | goto utf8_posix; |
9925 | } |
9926 | /* FALLTHROUGH */ |
9927 | |
9928 | case NPOSIXA37: |
9929 | if (! utf8_target) { |
9930 | while (scan < this_eol && ! _generic_isCC_A((U8) *scan, FLAGS(p))(( (sizeof((U8) *scan) == 1) || !(((U64)(((U8) *scan) | 0)) & ~0xFF)) && ((PL_charclass[(U8) ((U8) *scan)] & ( (1U << (((p)->flags))) | (1U << (14)))) == ((1U << (((p)->flags))) | (1U << (14)))))) { |
9931 | scan++; |
9932 | } |
9933 | } |
9934 | else { |
9935 | |
9936 | /* The complement of something that matches only ASCII matches all |
9937 | * non-ASCII, plus everything in ASCII that isn't in the class. */ |
9938 | while (hardcount < max && scan < this_eol |
9939 | && ( ! isASCII_utf8_safe(scan, loceol)(((((loceol) > (scan))) ? (void)0 : __assert2("re_exec.c", 9939, __func__, "((loceol) > (scan))")), ((U64)((*(scan)) | 0) < 128)) |
9940 | || ! _generic_isCC_A((U8) *scan, FLAGS(p))(( (sizeof((U8) *scan) == 1) || !(((U64)(((U8) *scan) | 0)) & ~0xFF)) && ((PL_charclass[(U8) ((U8) *scan)] & ( (1U << (((p)->flags))) | (1U << (14)))) == ((1U << (((p)->flags))) | (1U << (14))))))) |
9941 | { |
9942 | scan += UTF8SKIP(scan)PL_utf8skip[*(const U8*)(scan)]; |
9943 | hardcount++; |
9944 | } |
9945 | } |
9946 | break; |
9947 | |
9948 | case NPOSIXU36: |
9949 | to_complement = 1; |
9950 | /* FALLTHROUGH */ |
9951 | |
9952 | case POSIXU32: |
9953 | if (! utf8_target) { |
9954 | while (scan < this_eol && to_complement |
9955 | ^ cBOOL(_generic_isCC((U8) *scan, FLAGS(p)))((((( (sizeof((U8) *scan) == 1) || !(((U64)(((U8) *scan) | 0) ) & ~0xFF)) && (PL_charclass[(U8) ((U8) *scan)] & (1U << (((p)->flags))))) ? (_Bool)1 : (_Bool)0)) ? ( _Bool)1 : (_Bool)0)) |
9956 | { |
9957 | scan++; |
9958 | } |
9959 | } |
9960 | else { |
9961 | utf8_posix: |
9962 | classnum = (_char_class_number) FLAGS(p)((p)->flags); |
9963 | switch (classnum) { |
9964 | default: |
9965 | while ( hardcount < max && scan < this_eol |
9966 | && to_complement ^ cBOOL(_invlist_contains_cp(((S__invlist_contains_cp( PL_XPosix_ptrs[classnum], Perl_utf8_to_uvchr_buf_helper ( (const U8 *) ((U8 *) scan),(const U8 *) (U8 *) this_eol,((void *)0)))) ? (_Bool)1 : (_Bool)0) |
9967 | PL_XPosix_ptrs[classnum],((S__invlist_contains_cp( PL_XPosix_ptrs[classnum], Perl_utf8_to_uvchr_buf_helper ( (const U8 *) ((U8 *) scan),(const U8 *) (U8 *) this_eol,((void *)0)))) ? (_Bool)1 : (_Bool)0) |
9968 | utf8_to_uvchr_buf((U8 *) scan,((S__invlist_contains_cp( PL_XPosix_ptrs[classnum], Perl_utf8_to_uvchr_buf_helper ( (const U8 *) ((U8 *) scan),(const U8 *) (U8 *) this_eol,((void *)0)))) ? (_Bool)1 : (_Bool)0) |
9969 | (U8 *) this_eol,((S__invlist_contains_cp( PL_XPosix_ptrs[classnum], Perl_utf8_to_uvchr_buf_helper ( (const U8 *) ((U8 *) scan),(const U8 *) (U8 *) this_eol,((void *)0)))) ? (_Bool)1 : (_Bool)0) |
9970 | NULL)))((S__invlist_contains_cp( PL_XPosix_ptrs[classnum], Perl_utf8_to_uvchr_buf_helper ( (const U8 *) ((U8 *) scan),(const U8 *) (U8 *) this_eol,((void *)0)))) ? (_Bool)1 : (_Bool)0)) |
9971 | { |
9972 | scan += UTF8SKIP(scan)PL_utf8skip[*(const U8*)(scan)]; |
9973 | hardcount++; |
9974 | } |
9975 | break; |
9976 | |
9977 | /* For the classes below, the knowledge of how to handle |
9978 | * every code point is compiled in to Perl via a macro. |
9979 | * This code is written for making the loops as tight as |
9980 | * possible. It could be refactored to save space instead. |
9981 | * */ |
9982 | |
9983 | case _CC_ENUM_SPACE: |
9984 | while (hardcount < max |
9985 | && scan < this_eol |
9986 | && (to_complement |
9987 | ^ cBOOL(isSPACE_utf8_safe(scan, this_eol))((((! ((this_eol) > (scan))) ? (Perl__force_out_malformed_utf8_message ( (U8 *) (scan),(U8 *) (this_eol),0,1), 0) : (((((U64)(((UV) ( ((*(scan)) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0 )))) ? ((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*(scan))] & (1U << (10)))) ? (_Bool)1 : (_Bool)0) : ((((( (sizeof( *(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? ( void)0 : __assert2("re_exec.c", 9987, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c", 9987 , __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(*(scan)) == 1) || !(((U64)((*(scan )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987 , __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 9987, __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_exec.c" , 9987, __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(*(scan)) == 1) || !(((U64) ((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*( scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 9987, __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_exec.c" , 9987, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)(( *(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 9987, __func__, "sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 9987, __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_exec.c" , 9987, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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((((this_eol) - (scan) > 1 && (((( (sizeof(*((scan)+1)) == 1) || !(((U64)((*((scan )+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987, __func__, "( (sizeof(*((scan)+1)) == 1) || !(((U64)((*((scan)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((scan)+1)) == 1) || !(((U64)((*((scan)+ 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987 , __func__, "( (sizeof(*((scan)+1)) == 1) || !(((U64)((*((scan)+1)) | 0)) & ~0xFF))" )), ((U8) ((*((scan)+1)) | 0))) & ((U8) (0xFF << 6) )) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : ( _Bool)0),(1))) ? ((( (sizeof(( (((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 9987, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c", 9987 , __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(*(scan)) == 1) || !(((U64)((*(scan )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987 , __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 9987, __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_exec.c" , 9987, __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(*(scan)) == 1) || !(((U64) ((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*( scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 9987, __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_exec.c" , 9987, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)(( *(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 9987, __func__, "sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 9987, __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_exec.c" , 9987, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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_exec.c", 9987, __func__ , "(((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c\", 9987, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 9987, __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_exec.c\", 9987, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 9987, __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_exec.c\", 9987, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 9987, __func__, \\\"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\\\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 9987, __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_exec.c\", 9987, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*((scan)+1 )) == 1) || !(((U64)((*((scan)+ 1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987 , __func__, "( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan) +1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987, __func__, "( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((scan)+1 )) | 0))) & ((U8) (0xFF << 6 ))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 9987, __func__, "(((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((scan)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64 )(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 9987, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 9987, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)((( *((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof(*(scan )) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c", 9987 , __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(*(scan)) == 1) || !(((U64)((*(scan )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987 , __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 9987, __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_exec.c" , 9987, __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(*(scan)) == 1) || !(((U64) ((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*( scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 9987, __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_exec.c" , 9987, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)(( *(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 9987, __func__, "sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 9987, __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_exec.c" , 9987, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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_exec.c", 9987, __func__ , "(((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c\", 9987, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 9987, __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_exec.c\", 9987, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 9987, __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_exec.c\", 9987, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 9987, __func__, \\\"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\\\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 9987, __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_exec.c\", 9987, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*((scan)+1 )) == 1) || !(((U64)((*((scan)+ 1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987 , __func__, "( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan) +1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987, __func__, "( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((scan)+1 )) | 0))) & ((U8) (0xFF << 6 ))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 9987, __func__, "(((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((scan)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64 )(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 9987, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 9987, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)((( *((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) && (PL_charclass [(U8) (( (((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c", 9987 , __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(*(scan)) == 1) || !(((U64)((*(scan )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987 , __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 9987, __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_exec.c" , 9987, __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(*(scan)) == 1) || !(((U64) ((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*( scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 9987, __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_exec.c" , 9987, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)(( *(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 9987, __func__, "sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 9987, __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_exec.c" , 9987, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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_exec.c", 9987, __func__ , "(((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c\", 9987, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 9987, __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_exec.c\", 9987, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 9987, __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_exec.c\", 9987, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 9987, __func__, \\\"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\\\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 9987, __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_exec.c\", 9987, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*((scan)+1 )) == 1) || !(((U64)((*((scan)+ 1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987 , __func__, "( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan) +1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987, __func__, "( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((scan)+1 )) | 0))) & ((U8) (0xFF << 6 ))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 9987, __func__, "(((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((scan)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64 )(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 9987, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 9987, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9987, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)((( *((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9987, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (10)))) ? (_Bool)1 : (_Bool)0) : (Perl__force_out_malformed_utf8_message( (U8 *) ( scan),(U8 *) (this_eol),0,1), 0)) : (__builtin_expect((((this_eol ) - (scan) < PL_utf8skip[*(const U8*)(scan)]) ? (_Bool)1 : (_Bool)0),(0)) ? (Perl__force_out_malformed_utf8_message( (U8 *) (scan),(U8 *) (this_eol),0,1), 0) : ( ( 0xE1 == ((const U8 *)scan)[0] ) ? ( ( ( 0x9A == ((const U8*)scan)[1] ) && ( 0x80 == ((const U8*)scan)[2] ) ) ? 3 : 0 ): ( 0xE2 == ((const U8*)scan)[0] ) ? ( ( 0x80 == ((const U8*)scan)[1] ) ? ( ( (( ((0x8A) >= (0x80)) ? (void)0 : __assert2("re_exec.c", 9987 , __func__, "(0x8A) >= (0x80)")), ( (sizeof(((const U8*)scan )[2]) == sizeof(U8)) ? ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2 ("re_exec.c", 9987, __func__, "(NV) ((0x80)) >= 0")), (((NV ) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "(NV) (((0x8A) - (0x80))) >= 0")), (((U64 ) (((((U8) (((const U8*)scan)[2])))) - (((0x80)) | 0))) <= (((U64) ((((0x8A) - (0x80))) | 0))))) : (sizeof(((const U8*) scan)[2]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? (void )0 : __assert2("re_exec.c", 9987, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 9987, __func__, "(NV) (((0x8A) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)scan)[2])))) - (((0x80)) | 0))) <= (((U64) ((((0x8A) - (0x80))) | 0))))) : (((sizeof (((const U8*)scan)[2]) == sizeof(U64)) ? (void)0 : __assert2( "re_exec.c", 9987, __func__, "sizeof(((const U8*)scan)[2]) == sizeof(U64)" )), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c", 9987, __func__ , "(NV) (((0x8A) - (0x80))) >= 0")), (((U64) (((((U64) ((( const U8*)scan)[2])))) - (((0x80)) | 0))) <= (((U64) ((((0x8A ) - (0x80))) | 0)))))))) || ((((0xA9) >= (0xA8)) ? (void)0 : __assert2("re_exec.c", 9987, __func__, "(0xA9) >= (0xA8)" )), ( (sizeof(((const U8*)scan)[2]) == sizeof(U8)) ? ((((NV) ( (0xA8)) >= 0) ? (void)0 : __assert2("re_exec.c", 9987, __func__ , "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c", 9987, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U8) (((const U8*)scan)[2])))) - (((0xA8)) | 0 ))) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (sizeof(((const U8*)scan)[2]) == sizeof(U32)) ? ((((NV) ((0xA8)) >= 0) ? ( void)0 : __assert2("re_exec.c", 9987, __func__, "(NV) ((0xA8)) >= 0" )), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 9987, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U32) (((const U8*)scan)[2])))) - (((0xA8)) | 0))) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (((sizeof (((const U8*)scan)[2]) == sizeof(U64)) ? (void)0 : __assert2( "re_exec.c", 9987, __func__, "sizeof(((const U8*)scan)[2]) == sizeof(U64)" )), ((((NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_exec.c" , 9987, __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c", 9987, __func__ , "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) (((((U64) ((( const U8*)scan)[2])))) - (((0xA8)) | 0))) <= (((U64) ((((0xA9 ) - (0xA8))) | 0)))))))) || 0xAF == ((const U8*)scan)[2] ) ? 3 : 0 ) : ( ( 0x81 == ((const U8*)scan)[1] ) && ( 0x9F == ((const U8*)scan)[2] ) ) ? 3 : 0 ): ( ( ( 0xE3 == ((const U8*)scan)[0] ) && ( 0x80 == ((const U8*)scan)[1] ) ) && ( 0x80 == ((const U8*)scan)[2] ) ) ? 3 : 0 ))))) ? (_Bool)1 : (_Bool)0))) |
9988 | { |
9989 | scan += UTF8SKIP(scan)PL_utf8skip[*(const U8*)(scan)]; |
9990 | hardcount++; |
9991 | } |
9992 | break; |
9993 | case _CC_ENUM_BLANK: |
9994 | while (hardcount < max |
9995 | && scan < this_eol |
9996 | && (to_complement |
9997 | ^ cBOOL(isBLANK_utf8_safe(scan, this_eol))((((! ((this_eol) > (scan))) ? (Perl__force_out_malformed_utf8_message ( (U8 *) (scan),(U8 *) (this_eol),0,1), 0) : (((((U64)(((UV) ( ((*(scan)) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0 )))) ? ((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*(scan))] & (1U << (11)))) ? (_Bool)1 : (_Bool)0) : ((((( (sizeof( *(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? ( void)0 : __assert2("re_exec.c", 9997, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c", 9997 , __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(*(scan)) == 1) || !(((U64)((*(scan )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997 , __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 9997, __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_exec.c" , 9997, __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(*(scan)) == 1) || !(((U64) ((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*( scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 9997, __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_exec.c" , 9997, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)(( *(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 9997, __func__, "sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 9997, __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_exec.c" , 9997, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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((((this_eol) - (scan) > 1 && (((( (sizeof(*((scan)+1)) == 1) || !(((U64)((*((scan )+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997, __func__, "( (sizeof(*((scan)+1)) == 1) || !(((U64)((*((scan)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((scan)+1)) == 1) || !(((U64)((*((scan)+ 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997 , __func__, "( (sizeof(*((scan)+1)) == 1) || !(((U64)((*((scan)+1)) | 0)) & ~0xFF))" )), ((U8) ((*((scan)+1)) | 0))) & ((U8) (0xFF << 6) )) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : ( _Bool)0),(1))) ? ((( (sizeof(( (((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 9997, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c", 9997 , __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(*(scan)) == 1) || !(((U64)((*(scan )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997 , __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 9997, __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_exec.c" , 9997, __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(*(scan)) == 1) || !(((U64) ((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*( scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 9997, __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_exec.c" , 9997, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)(( *(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 9997, __func__, "sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 9997, __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_exec.c" , 9997, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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_exec.c", 9997, __func__ , "(((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c\", 9997, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 9997, __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_exec.c\", 9997, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 9997, __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_exec.c\", 9997, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 9997, __func__, \\\"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\\\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 9997, __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_exec.c\", 9997, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*((scan)+1 )) == 1) || !(((U64)((*((scan)+ 1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997 , __func__, "( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan) +1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997, __func__, "( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((scan)+1 )) | 0))) & ((U8) (0xFF << 6 ))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 9997, __func__, "(((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((scan)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64 )(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 9997, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 9997, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)((( *((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof(*(scan )) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c", 9997 , __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(*(scan)) == 1) || !(((U64)((*(scan )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997 , __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 9997, __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_exec.c" , 9997, __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(*(scan)) == 1) || !(((U64) ((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*( scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 9997, __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_exec.c" , 9997, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)(( *(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 9997, __func__, "sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 9997, __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_exec.c" , 9997, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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_exec.c", 9997, __func__ , "(((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c\", 9997, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 9997, __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_exec.c\", 9997, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 9997, __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_exec.c\", 9997, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 9997, __func__, \\\"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\\\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 9997, __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_exec.c\", 9997, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*((scan)+1 )) == 1) || !(((U64)((*((scan)+ 1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997 , __func__, "( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan) +1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997, __func__, "( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((scan)+1 )) | 0))) & ((U8) (0xFF << 6 ))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 9997, __func__, "(((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((scan)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64 )(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 9997, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 9997, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)((( *((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) && (PL_charclass [(U8) (( (((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c", 9997 , __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(*(scan)) == 1) || !(((U64)((*(scan )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997 , __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 9997, __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_exec.c" , 9997, __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(*(scan)) == 1) || !(((U64) ((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*( scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 9997, __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_exec.c" , 9997, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)(( *(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 9997, __func__, "sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 9997, __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_exec.c" , 9997, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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_exec.c", 9997, __func__ , "(((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c\", 9997, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 9997, __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_exec.c\", 9997, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 9997, __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_exec.c\", 9997, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 9997, __func__, \\\"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\\\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 9997, __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_exec.c\", 9997, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*((scan)+1 )) == 1) || !(((U64)((*((scan)+ 1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997 , __func__, "( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan) +1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997, __func__, "( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((scan)+1 )) | 0))) & ((U8) (0xFF << 6 ))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 9997, __func__, "(((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((scan)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64 )(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 9997, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 9997, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 9997, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)((( *((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 9997, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (11)))) ? (_Bool)1 : (_Bool)0) : (Perl__force_out_malformed_utf8_message( (U8 *) ( scan),(U8 *) (this_eol),0,1), 0)) : (__builtin_expect((((this_eol ) - (scan) < PL_utf8skip[*(const U8*)(scan)]) ? (_Bool)1 : (_Bool)0),(0)) ? (Perl__force_out_malformed_utf8_message( (U8 *) (scan),(U8 *) (this_eol),0,1), 0) : ( ( 0xE1 == ((const U8 *)scan)[0] ) ? ( ( ( 0x9A == ((const U8*)scan)[1] ) && ( 0x80 == ((const U8*)scan)[2] ) ) ? 3 : 0 ): ( 0xE2 == ((const U8*)scan)[0] ) ? ( ( 0x80 == ((const U8*)scan)[1] ) ? ( ( (( ((0x8A) >= (0x80)) ? (void)0 : __assert2("re_exec.c", 9997 , __func__, "(0x8A) >= (0x80)")), ( (sizeof(((const U8*)scan )[2]) == sizeof(U8)) ? ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2 ("re_exec.c", 9997, __func__, "(NV) ((0x80)) >= 0")), (((NV ) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "(NV) (((0x8A) - (0x80))) >= 0")), (((U64 ) (((((U8) (((const U8*)scan)[2])))) - (((0x80)) | 0))) <= (((U64) ((((0x8A) - (0x80))) | 0))))) : (sizeof(((const U8*) scan)[2]) == sizeof(U32)) ? ((((NV) ((0x80)) >= 0) ? (void )0 : __assert2("re_exec.c", 9997, __func__, "(NV) ((0x80)) >= 0" )), (((NV) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 9997, __func__, "(NV) (((0x8A) - (0x80))) >= 0" )), (((U64) (((((U32) (((const U8*)scan)[2])))) - (((0x80)) | 0))) <= (((U64) ((((0x8A) - (0x80))) | 0))))) : (((sizeof (((const U8*)scan)[2]) == sizeof(U64)) ? (void)0 : __assert2( "re_exec.c", 9997, __func__, "sizeof(((const U8*)scan)[2]) == sizeof(U64)" )), ((((NV) ((0x80)) >= 0) ? (void)0 : __assert2("re_exec.c" , 9997, __func__, "(NV) ((0x80)) >= 0")), (((NV) (((0x8A) - (0x80))) >= 0) ? (void)0 : __assert2("re_exec.c", 9997, __func__ , "(NV) (((0x8A) - (0x80))) >= 0")), (((U64) (((((U64) ((( const U8*)scan)[2])))) - (((0x80)) | 0))) <= (((U64) ((((0x8A ) - (0x80))) | 0)))))))) || 0xAF == ((const U8*)scan)[2] ) ? 3 : 0 ) : ( ( 0x81 == ((const U8*)scan)[1] ) && ( 0x9F == ((const U8*)scan)[2] ) ) ? 3 : 0 ): ( ( ( 0xE3 == ((const U8*)scan)[0] ) && ( 0x80 == ((const U8*)scan)[1] ) ) && ( 0x80 == ((const U8*)scan)[2] ) ) ? 3 : 0 ))))) ? (_Bool)1 : (_Bool)0))) |
9998 | { |
9999 | scan += UTF8SKIP(scan)PL_utf8skip[*(const U8*)(scan)]; |
10000 | hardcount++; |
10001 | } |
10002 | break; |
10003 | case _CC_ENUM_XDIGIT: |
10004 | while (hardcount < max |
10005 | && scan < this_eol |
10006 | && (to_complement |
10007 | ^ cBOOL(isXDIGIT_utf8_safe(scan, this_eol))(((((((this_eol) > (scan))) ? (void)0 : __assert2("re_exec.c" , 10007, __func__, "((this_eol) > (scan))")), (((((U64)((( UV) (((*(scan)) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) ? ((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*(scan))] & (1U << (12)))) ? (_Bool)1 : (_Bool)0) : ((((( (sizeof( *(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? ( void)0 : __assert2("re_exec.c", 10007, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c", 10007 , __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(*(scan)) == 1) || !(((U64)((*(scan )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10007 , __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 10007, __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_exec.c" , 10007, __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(*(scan)) == 1) || !(((U64) ((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10007, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*( scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10007, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 10007, __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_exec.c" , 10007, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10007, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)(( *(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10007, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 10007, __func__, "sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10007, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 10007, __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_exec.c" , 10007, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10007, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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)))))))))) ? 0 : (__builtin_expect((((this_eol) - (scan) < PL_utf8skip[*(const U8*)(scan)]) ? (_Bool)1 : (_Bool)0),(0)) ? (Perl__force_out_malformed_utf8_message( (U8 *) (scan),(U8 *) (this_eol),0,1), 0) : ( ( 0xEF == ((const U8*)scan)[0] ) ? ( ( 0xBC == ((const U8*)scan)[1] ) ? ( ( ((((0x99) >= (0x90 )) ? (void)0 : __assert2("re_exec.c", 10007, __func__, "(0x99) >= (0x90)" )), ( (sizeof(((const U8*)scan)[2]) == sizeof(U8)) ? ((((NV) ( (0x90)) >= 0) ? (void)0 : __assert2("re_exec.c", 10007, __func__ , "(NV) ((0x90)) >= 0")), (((NV) (((0x99) - (0x90))) >= 0) ? (void)0 : __assert2("re_exec.c", 10007, __func__, "(NV) (((0x99) - (0x90))) >= 0" )), (((U64) (((((U8) (((const U8*)scan)[2])))) - (((0x90)) | 0 ))) <= (((U64) ((((0x99) - (0x90))) | 0))))) : (sizeof(((const U8*)scan)[2]) == sizeof(U32)) ? ((((NV) ((0x90)) >= 0) ? ( void)0 : __assert2("re_exec.c", 10007, __func__, "(NV) ((0x90)) >= 0" )), (((NV) (((0x99) - (0x90))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 10007, __func__, "(NV) (((0x99) - (0x90))) >= 0" )), (((U64) (((((U32) (((const U8*)scan)[2])))) - (((0x90)) | 0))) <= (((U64) ((((0x99) - (0x90))) | 0))))) : (((sizeof (((const U8*)scan)[2]) == sizeof(U64)) ? (void)0 : __assert2( "re_exec.c", 10007, __func__, "sizeof(((const U8*)scan)[2]) == sizeof(U64)" )), ((((NV) ((0x90)) >= 0) ? (void)0 : __assert2("re_exec.c" , 10007, __func__, "(NV) ((0x90)) >= 0")), (((NV) (((0x99) - (0x90))) >= 0) ? (void)0 : __assert2("re_exec.c", 10007 , __func__, "(NV) (((0x99) - (0x90))) >= 0")), (((U64) ((( ((U64) (((const U8*)scan)[2])))) - (((0x90)) | 0))) <= ((( U64) ((((0x99) - (0x90))) | 0)))))))) || ((((0xA6) >= (0xA1 )) ? (void)0 : __assert2("re_exec.c", 10007, __func__, "(0xA6) >= (0xA1)" )), ( (sizeof(((const U8*)scan)[2]) == sizeof(U8)) ? ((((NV) ( (0xA1)) >= 0) ? (void)0 : __assert2("re_exec.c", 10007, __func__ , "(NV) ((0xA1)) >= 0")), (((NV) (((0xA6) - (0xA1))) >= 0) ? (void)0 : __assert2("re_exec.c", 10007, __func__, "(NV) (((0xA6) - (0xA1))) >= 0" )), (((U64) (((((U8) (((const U8*)scan)[2])))) - (((0xA1)) | 0 ))) <= (((U64) ((((0xA6) - (0xA1))) | 0))))) : (sizeof(((const U8*)scan)[2]) == sizeof(U32)) ? ((((NV) ((0xA1)) >= 0) ? ( void)0 : __assert2("re_exec.c", 10007, __func__, "(NV) ((0xA1)) >= 0" )), (((NV) (((0xA6) - (0xA1))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 10007, __func__, "(NV) (((0xA6) - (0xA1))) >= 0" )), (((U64) (((((U32) (((const U8*)scan)[2])))) - (((0xA1)) | 0))) <= (((U64) ((((0xA6) - (0xA1))) | 0))))) : (((sizeof (((const U8*)scan)[2]) == sizeof(U64)) ? (void)0 : __assert2( "re_exec.c", 10007, __func__, "sizeof(((const U8*)scan)[2]) == sizeof(U64)" )), ((((NV) ((0xA1)) >= 0) ? (void)0 : __assert2("re_exec.c" , 10007, __func__, "(NV) ((0xA1)) >= 0")), (((NV) (((0xA6) - (0xA1))) >= 0) ? (void)0 : __assert2("re_exec.c", 10007 , __func__, "(NV) (((0xA6) - (0xA1))) >= 0")), (((U64) ((( ((U64) (((const U8*)scan)[2])))) - (((0xA1)) | 0))) <= ((( U64) ((((0xA6) - (0xA1))) | 0)))))))) ) ? 3 : 0 ) : ( ( 0xBD == ((const U8*)scan)[1] ) && ( ((((0x86) >= (0x81)) ? (void)0 : __assert2("re_exec.c", 10007, __func__, "(0x86) >= (0x81)" )), ( (sizeof(((const U8*)scan)[2]) == sizeof(U8)) ? ((((NV) ( (0x81)) >= 0) ? (void)0 : __assert2("re_exec.c", 10007, __func__ , "(NV) ((0x81)) >= 0")), (((NV) (((0x86) - (0x81))) >= 0) ? (void)0 : __assert2("re_exec.c", 10007, __func__, "(NV) (((0x86) - (0x81))) >= 0" )), (((U64) (((((U8) (((const U8*)scan)[2])))) - (((0x81)) | 0 ))) <= (((U64) ((((0x86) - (0x81))) | 0))))) : (sizeof(((const U8*)scan)[2]) == sizeof(U32)) ? ((((NV) ((0x81)) >= 0) ? ( void)0 : __assert2("re_exec.c", 10007, __func__, "(NV) ((0x81)) >= 0" )), (((NV) (((0x86) - (0x81))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 10007, __func__, "(NV) (((0x86) - (0x81))) >= 0" )), (((U64) (((((U32) (((const U8*)scan)[2])))) - (((0x81)) | 0))) <= (((U64) ((((0x86) - (0x81))) | 0))))) : (((sizeof (((const U8*)scan)[2]) == sizeof(U64)) ? (void)0 : __assert2( "re_exec.c", 10007, __func__, "sizeof(((const U8*)scan)[2]) == sizeof(U64)" )), ((((NV) ((0x81)) >= 0) ? (void)0 : __assert2("re_exec.c" , 10007, __func__, "(NV) ((0x81)) >= 0")), (((NV) (((0x86) - (0x81))) >= 0) ? (void)0 : __assert2("re_exec.c", 10007 , __func__, "(NV) (((0x86) - (0x81))) >= 0")), (((U64) ((( ((U64) (((const U8*)scan)[2])))) - (((0x81)) | 0))) <= ((( U64) ((((0x86) - (0x81))) | 0)))))))) ) ) ? 3 : 0 ): 0 )))) ? (_Bool)1 : (_Bool)0))) |
10008 | { |
10009 | scan += UTF8SKIP(scan)PL_utf8skip[*(const U8*)(scan)]; |
10010 | hardcount++; |
10011 | } |
10012 | break; |
10013 | case _CC_ENUM_VERTSPACE: |
10014 | while (hardcount < max |
10015 | && scan < this_eol |
10016 | && (to_complement |
10017 | ^ cBOOL(isVERTWS_utf8_safe(scan, this_eol))((((! ((this_eol) > (scan))) ? (Perl__force_out_malformed_utf8_message ( (U8 *) (scan),(U8 *) (this_eol),0,1), 0) : (((((U64)(((UV) ( ((*(scan)) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0 )))) ? ((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*(scan))] & (1U << (15)))) ? (_Bool)1 : (_Bool)0) : ((((( (sizeof( *(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? ( void)0 : __assert2("re_exec.c", 10017, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c", 10017 , __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(*(scan)) == 1) || !(((U64)((*(scan )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017 , __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 10017, __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_exec.c" , 10017, __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(*(scan)) == 1) || !(((U64) ((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*( scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 10017, __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_exec.c" , 10017, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)(( *(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 10017, __func__, "sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 10017, __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_exec.c" , 10017, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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((((this_eol) - (scan) > 1 && (((( (sizeof(*((scan)+1)) == 1) || !(((U64)((*((scan )+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017, __func__, "( (sizeof(*((scan)+1)) == 1) || !(((U64)((*((scan)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((scan)+1)) == 1) || !(((U64)((*((scan)+ 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017 , __func__, "( (sizeof(*((scan)+1)) == 1) || !(((U64)((*((scan)+1)) | 0)) & ~0xFF))" )), ((U8) ((*((scan)+1)) | 0))) & ((U8) (0xFF << 6) )) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : ( _Bool)0),(1))) ? ((( (sizeof(( (((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 10017, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c", 10017 , __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(*(scan)) == 1) || !(((U64)((*(scan )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017 , __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 10017, __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_exec.c" , 10017, __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(*(scan)) == 1) || !(((U64) ((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*( scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 10017, __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_exec.c" , 10017, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)(( *(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 10017, __func__, "sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 10017, __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_exec.c" , 10017, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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_exec.c", 10017, __func__ , "(((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c\", 10017, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10017, __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_exec.c\", 10017, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10017, __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_exec.c\", 10017, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 10017, __func__, \\\"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\\\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10017, __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_exec.c\", 10017, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*((scan)+1 )) == 1) || !(((U64)((*((scan)+ 1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017 , __func__, "( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan) +1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017, __func__, "( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((scan)+1 )) | 0))) & ((U8) (0xFF << 6 ))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 10017, __func__, "(((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((scan)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64 )(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 10017, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 10017, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)((( *((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof(*(scan )) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c", 10017 , __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(*(scan)) == 1) || !(((U64)((*(scan )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017 , __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 10017, __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_exec.c" , 10017, __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(*(scan)) == 1) || !(((U64) ((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*( scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 10017, __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_exec.c" , 10017, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)(( *(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 10017, __func__, "sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 10017, __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_exec.c" , 10017, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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_exec.c", 10017, __func__ , "(((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c\", 10017, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10017, __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_exec.c\", 10017, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10017, __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_exec.c\", 10017, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 10017, __func__, \\\"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\\\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10017, __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_exec.c\", 10017, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*((scan)+1 )) == 1) || !(((U64)((*((scan)+ 1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017 , __func__, "( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan) +1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017, __func__, "( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((scan)+1 )) | 0))) & ((U8) (0xFF << 6 ))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 10017, __func__, "(((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((scan)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64 )(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 10017, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 10017, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)((( *((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) && (PL_charclass [(U8) (( (((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c", 10017 , __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(*(scan)) == 1) || !(((U64)((*(scan )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017 , __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 10017, __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_exec.c" , 10017, __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(*(scan)) == 1) || !(((U64) ((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*( scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 10017, __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_exec.c" , 10017, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)(( *(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 10017, __func__, "sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 10017, __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_exec.c" , 10017, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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_exec.c", 10017, __func__ , "(((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c\", 10017, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10017, __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_exec.c\", 10017, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10017, __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_exec.c\", 10017, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 10017, __func__, \\\"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\\\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10017, __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_exec.c\", 10017, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*((scan)+1 )) == 1) || !(((U64)((*((scan)+ 1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017 , __func__, "( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan) +1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017, __func__, "( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((scan)+1 )) | 0))) & ((U8) (0xFF << 6 ))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 10017, __func__, "(((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((scan)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64 )(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 10017, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 10017, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10017, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)((( *((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10017, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (15)))) ? (_Bool)1 : (_Bool)0) : (Perl__force_out_malformed_utf8_message( (U8 *) ( scan),(U8 *) (this_eol),0,1), 0)) : (__builtin_expect((((this_eol ) - (scan) < PL_utf8skip[*(const U8*)(scan)]) ? (_Bool)1 : (_Bool)0),(0)) ? (Perl__force_out_malformed_utf8_message( (U8 *) (scan),(U8 *) (this_eol),0,1), 0) : ( ( ( ( 0xE2 == ((const U8*)scan)[0] ) && ( 0x80 == ((const U8*)scan)[1] ) ) && ( ((((0xA9) >= (0xA8)) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "(0xA9) >= (0xA8)")), ( (sizeof(((const U8*)scan)[2]) == sizeof(U8)) ? ((((NV) ((0xA8)) >= 0) ? ( void)0 : __assert2("re_exec.c", 10017, __func__, "(NV) ((0xA8)) >= 0" )), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 10017, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U8) (((const U8*)scan)[2])))) - (((0xA8)) | 0 ))) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (sizeof(((const U8*)scan)[2]) == sizeof(U32)) ? ((((NV) ((0xA8)) >= 0) ? ( void)0 : __assert2("re_exec.c", 10017, __func__, "(NV) ((0xA8)) >= 0" )), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 10017, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U32) (((const U8*)scan)[2])))) - (((0xA8)) | 0))) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (((sizeof (((const U8*)scan)[2]) == sizeof(U64)) ? (void)0 : __assert2( "re_exec.c", 10017, __func__, "sizeof(((const U8*)scan)[2]) == sizeof(U64)" )), ((((NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_exec.c" , 10017, __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c", 10017 , __func__, "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) ((( ((U64) (((const U8*)scan)[2])))) - (((0xA8)) | 0))) <= ((( U64) ((((0xA9) - (0xA8))) | 0)))))))) ) ) ? 3 : 0 ))))) ? (_Bool )1 : (_Bool)0))) |
10018 | { |
10019 | scan += UTF8SKIP(scan)PL_utf8skip[*(const U8*)(scan)]; |
10020 | hardcount++; |
10021 | } |
10022 | break; |
10023 | case _CC_ENUM_CNTRL: |
10024 | while (hardcount < max |
10025 | && scan < this_eol |
10026 | && (to_complement |
10027 | ^ cBOOL(isCNTRL_utf8_safe(scan, this_eol))((((! ((this_eol) > (scan))) ? (Perl__force_out_malformed_utf8_message ( (U8 *) (scan),(U8 *) (this_eol),0,1), 0) : (((((U64)(((UV) ( ((*(scan)) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0 )))) ? ((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*(scan))] & (1U << (13)))) ? (_Bool)1 : (_Bool)0) : ((((( (sizeof( *(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? ( void)0 : __assert2("re_exec.c", 10027, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c", 10027 , __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(*(scan)) == 1) || !(((U64)((*(scan )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027 , __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 10027, __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_exec.c" , 10027, __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(*(scan)) == 1) || !(((U64) ((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*( scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 10027, __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_exec.c" , 10027, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)(( *(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 10027, __func__, "sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 10027, __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_exec.c" , 10027, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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((((this_eol) - (scan) > 1 && (((( (sizeof(*((scan)+1)) == 1) || !(((U64)((*((scan )+1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027, __func__, "( (sizeof(*((scan)+1)) == 1) || !(((U64)((*((scan)+1)) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((scan)+1)) == 1) || !(((U64)((*((scan)+ 1)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027 , __func__, "( (sizeof(*((scan)+1)) == 1) || !(((U64)((*((scan)+1)) | 0)) & ~0xFF))" )), ((U8) ((*((scan)+1)) | 0))) & ((U8) (0xFF << 6) )) == (((U8) (0xFF << 6)) & 0xB0))))) ? (_Bool)1 : ( _Bool)0),(1))) ? ((( (sizeof(( (((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 10027, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c", 10027 , __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(*(scan)) == 1) || !(((U64)((*(scan )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027 , __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 10027, __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_exec.c" , 10027, __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(*(scan)) == 1) || !(((U64) ((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*( scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 10027, __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_exec.c" , 10027, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)(( *(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 10027, __func__, "sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 10027, __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_exec.c" , 10027, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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_exec.c", 10027, __func__ , "(((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c\", 10027, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10027, __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_exec.c\", 10027, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10027, __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_exec.c\", 10027, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 10027, __func__, \\\"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\\\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10027, __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_exec.c\", 10027, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*((scan)+1 )) == 1) || !(((U64)((*((scan)+ 1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027 , __func__, "( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan) +1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027, __func__, "( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((scan)+1 )) | 0))) & ((U8) (0xFF << 6 ))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 10027, __func__, "(((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((scan)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64 )(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 10027, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 10027, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)((( *((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) == 1) || !(((U64)((( (((((( (sizeof(*(scan )) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c", 10027 , __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(*(scan)) == 1) || !(((U64)((*(scan )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027 , __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 10027, __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_exec.c" , 10027, __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(*(scan)) == 1) || !(((U64) ((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*( scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 10027, __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_exec.c" , 10027, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)(( *(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 10027, __func__, "sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 10027, __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_exec.c" , 10027, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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_exec.c", 10027, __func__ , "(((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c\", 10027, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10027, __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_exec.c\", 10027, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10027, __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_exec.c\", 10027, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 10027, __func__, \\\"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\\\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10027, __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_exec.c\", 10027, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*((scan)+1 )) == 1) || !(((U64)((*((scan)+ 1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027 , __func__, "( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan) +1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027, __func__, "( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((scan)+1 )) | 0))) & ((U8) (0xFF << 6 ))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 10027, __func__, "(((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((scan)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64 )(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 10027, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 10027, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)((( *((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0))))) | 0)) & ~0xFF)) && (PL_charclass [(U8) (( (((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c", 10027 , __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(*(scan)) == 1) || !(((U64)((*(scan )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027 , __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) ((((((( U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 10027, __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_exec.c" , 10027, __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(*(scan)) == 1) || !(((U64) ((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*( scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((( (U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7 ) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void )0 : __assert2("re_exec.c", 10027, __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_exec.c" , 10027, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)(( *(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2 ("re_exec.c", 10027, __func__, "sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)" )), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))) )) >= 0) ? (void)0 : __assert2("re_exec.c", 10027, __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_exec.c" , 10027, __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(*(scan)) == 1) || !(((U64 )((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 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_exec.c", 10027, __func__ , "(((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 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_exec.c\", 10027, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U8)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10027, __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_exec.c\", 10027, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U32)) ? ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10027, __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_exec.c\", 10027, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"sizeof((((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\\\"re_exec.c\\\", 10027, __func__, \\\"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\\\")), ((U8) ((*(scan)) | 0)))) == sizeof(U64)\")), ((((NV) (((((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2)))))))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10027, __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_exec.c\", 10027, __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(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 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(*((scan)+1 )) == 1) || !(((U64)((*((scan)+ 1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027 , __func__, "( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))" )), ((((((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan) +1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027, __func__, "( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))" )), ((U8) ((*((scan)+1 )) | 0))) & ((U8) (0xFF << 6 ))) == (((U8) (0xFF << 6)) & 0xB0))))) ? (void)0 : __assert2 ("re_exec.c", 10027, __func__, "(((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))\")), ((((((( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*((scan)+1 )) == 1) || !(((U64)((*((scan)+1 )) | 0)) & ~0xFF))\")), ((U8) ((*((scan)+1 )) | 0))) & ((U8) (0xFF << 6))) == (((U8) (0xFF << 6)) & 0xB0))))" )), (((( (sizeof((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64 )(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2 ("re_exec.c", 10027, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void )0 : __assert2("re_exec.c", 10027, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) == 1) || !(((U64)(((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))\")), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2(\"re_exec.c\", 10027, __func__, \"( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))\")), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)) & ~0xFF))" )), ((U8) (((((( (sizeof((*((scan)+1 ))) == 1) || !(((U64)((( *((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c" , 10027, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((( (((( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0 )) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027, __func__ , "( (sizeof(*(scan)) == 1) || !(((U64)((*(scan)) | 0)) & ~0xFF))" )), ((U8) ((*(scan)) | 0))) & (((2) >= 7) ? 0x00 : (0x1F >> ((2)-2))))) << 6) | (((((( (sizeof((*((scan)+ 1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10027, __func__, "( (sizeof((*((scan)+1 ))) == 1) || !(((U64)(((*((scan)+1 ))) | 0)) & ~0xFF))" )), ((U8) (((*((scan)+1 ))) | 0)))) & ((U8) ((1U << 6) - 1))))) | 0)))))] & (1U << (13)))) ? (_Bool)1 : (_Bool)0) : (Perl__force_out_malformed_utf8_message( (U8 *) ( scan),(U8 *) (this_eol),0,1), 0)) : 0))) ? (_Bool)1 : (_Bool) 0))) |
10028 | { |
10029 | scan += UTF8SKIP(scan)PL_utf8skip[*(const U8*)(scan)]; |
10030 | hardcount++; |
10031 | } |
10032 | break; |
10033 | } |
10034 | } |
10035 | break; |
10036 | |
10037 | case LNBREAK106: |
10038 | if (utf8_target) { |
10039 | while (hardcount < max && scan < this_eol && |
10040 | (c=is_LNBREAK_utf8_safe(scan, this_eol)( ((this_eol)-(scan) > 2) ? ( ( ((((0x0C) >= (0x0A)) ? ( void)0 : __assert2("re_exec.c", 10040, __func__, "(0x0C) >= (0x0A)" )), ( (sizeof(((const U8*)scan)[0]) == sizeof(U8)) ? ((((NV) ( (0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c", 10040, __func__ , "(NV) ((0x0A)) >= 0")), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 10040, __func__, "(NV) (((0x0C) - (0x0A))) >= 0" )), (((U64) (((((U8) (((const U8*)scan)[0])))) - (((0x0A)) | 0 ))) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (sizeof(((const U8*)scan)[0]) == sizeof(U32)) ? ((((NV) ((0x0A)) >= 0) ? ( void)0 : __assert2("re_exec.c", 10040, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 10040, __func__, "(NV) (((0x0C) - (0x0A))) >= 0" )), (((U64) (((((U32) (((const U8*)scan)[0])))) - (((0x0A)) | 0))) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (((sizeof (((const U8*)scan)[0]) == sizeof(U64)) ? (void)0 : __assert2( "re_exec.c", 10040, __func__, "sizeof(((const U8*)scan)[0]) == sizeof(U64)" )), ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c" , 10040, __func__, "(NV) ((0x0A)) >= 0")), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 10040 , __func__, "(NV) (((0x0C) - (0x0A))) >= 0")), (((U64) ((( ((U64) (((const U8*)scan)[0])))) - (((0x0A)) | 0))) <= ((( U64) ((((0x0C) - (0x0A))) | 0)))))))) ) ? 1 : ( 0x0D == ((const U8*)scan)[0] ) ? ( ( 0x0A == ((const U8*)scan)[1] ) ? 2 : 1 ) : ( 0xC2 == ((const U8*)scan)[0] ) ? ( ( 0x85 == ((const U8* )scan)[1] ) ? 2 : 0 ) : ( ( ( 0xE2 == ((const U8*)scan)[0] ) && ( 0x80 == ((const U8*)scan)[1] ) ) && ( ((((0xA9) >= (0xA8)) ? (void)0 : __assert2("re_exec.c", 10040, __func__, "(0xA9) >= (0xA8)" )), ( (sizeof(((const U8*)scan)[2]) == sizeof(U8)) ? ((((NV) ( (0xA8)) >= 0) ? (void)0 : __assert2("re_exec.c", 10040, __func__ , "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c", 10040, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U8) (((const U8*)scan)[2])))) - (((0xA8)) | 0 ))) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (sizeof(((const U8*)scan)[2]) == sizeof(U32)) ? ((((NV) ((0xA8)) >= 0) ? ( void)0 : __assert2("re_exec.c", 10040, __func__, "(NV) ((0xA8)) >= 0" )), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 10040, __func__, "(NV) (((0xA9) - (0xA8))) >= 0" )), (((U64) (((((U32) (((const U8*)scan)[2])))) - (((0xA8)) | 0))) <= (((U64) ((((0xA9) - (0xA8))) | 0))))) : (((sizeof (((const U8*)scan)[2]) == sizeof(U64)) ? (void)0 : __assert2( "re_exec.c", 10040, __func__, "sizeof(((const U8*)scan)[2]) == sizeof(U64)" )), ((((NV) ((0xA8)) >= 0) ? (void)0 : __assert2("re_exec.c" , 10040, __func__, "(NV) ((0xA8)) >= 0")), (((NV) (((0xA9) - (0xA8))) >= 0) ? (void)0 : __assert2("re_exec.c", 10040 , __func__, "(NV) (((0xA9) - (0xA8))) >= 0")), (((U64) ((( ((U64) (((const U8*)scan)[2])))) - (((0xA8)) | 0))) <= ((( U64) ((((0xA9) - (0xA8))) | 0)))))))) ) ) ? 3 : 0 ): ((this_eol )-(scan) > 1) ? ( ( ((((0x0C) >= (0x0A)) ? (void)0 : __assert2 ("re_exec.c", 10040, __func__, "(0x0C) >= (0x0A)")), ( (sizeof (((const U8*)scan)[0]) == sizeof(U8)) ? ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c", 10040, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 10040, __func__, "(NV) (((0x0C) - (0x0A))) >= 0" )), (((U64) (((((U8) (((const U8*)scan)[0])))) - (((0x0A)) | 0 ))) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (sizeof(((const U8*)scan)[0]) == sizeof(U32)) ? ((((NV) ((0x0A)) >= 0) ? ( void)0 : __assert2("re_exec.c", 10040, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 10040, __func__, "(NV) (((0x0C) - (0x0A))) >= 0" )), (((U64) (((((U32) (((const U8*)scan)[0])))) - (((0x0A)) | 0))) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (((sizeof (((const U8*)scan)[0]) == sizeof(U64)) ? (void)0 : __assert2( "re_exec.c", 10040, __func__, "sizeof(((const U8*)scan)[0]) == sizeof(U64)" )), ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c" , 10040, __func__, "(NV) ((0x0A)) >= 0")), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 10040 , __func__, "(NV) (((0x0C) - (0x0A))) >= 0")), (((U64) ((( ((U64) (((const U8*)scan)[0])))) - (((0x0A)) | 0))) <= ((( U64) ((((0x0C) - (0x0A))) | 0)))))))) ) ? 1 : ( 0x0D == ((const U8*)scan)[0] ) ? ( ( 0x0A == ((const U8*)scan)[1] ) ? 2 : 1 ) : ( ( 0xC2 == ((const U8*)scan)[0] ) && ( 0x85 == (( const U8*)scan)[1] ) ) ? 2 : 0 ): ((this_eol)-(scan) > 0) ? ( ((((0x0D) >= (0x0A)) ? (void)0 : __assert2("re_exec.c", 10040, __func__, "(0x0D) >= (0x0A)")), ( (sizeof(((const U8 *)scan)[0]) == sizeof(U8)) ? ((((NV) ((0x0A)) >= 0) ? (void )0 : __assert2("re_exec.c", 10040, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 10040, __func__, "(NV) (((0x0D) - (0x0A))) >= 0" )), (((U64) (((((U8) (((const U8*)scan)[0])))) - (((0x0A)) | 0 ))) <= (((U64) ((((0x0D) - (0x0A))) | 0))))) : (sizeof(((const U8*)scan)[0]) == sizeof(U32)) ? ((((NV) ((0x0A)) >= 0) ? ( void)0 : __assert2("re_exec.c", 10040, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 10040, __func__, "(NV) (((0x0D) - (0x0A))) >= 0" )), (((U64) (((((U32) (((const U8*)scan)[0])))) - (((0x0A)) | 0))) <= (((U64) ((((0x0D) - (0x0A))) | 0))))) : (((sizeof (((const U8*)scan)[0]) == sizeof(U64)) ? (void)0 : __assert2( "re_exec.c", 10040, __func__, "sizeof(((const U8*)scan)[0]) == sizeof(U64)" )), ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c" , 10040, __func__, "(NV) ((0x0A)) >= 0")), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 10040 , __func__, "(NV) (((0x0D) - (0x0A))) >= 0")), (((U64) ((( ((U64) (((const U8*)scan)[0])))) - (((0x0A)) | 0))) <= ((( U64) ((((0x0D) - (0x0A))) | 0)))))))) ) : 0 ))) { |
10041 | scan += c; |
10042 | hardcount++; |
10043 | } |
10044 | } else { |
10045 | /* LNBREAK can match one or two latin chars, which is ok, but we |
10046 | * have to use hardcount in this situation, and throw away the |
10047 | * adjustment to <this_eol> done before the switch statement */ |
10048 | while (scan < loceol && (c=is_LNBREAK_latin1_safe(scan, loceol)( ((loceol)-(scan) > 1) ? ( ( ((((0x0C) >= (0x0A)) ? (void )0 : __assert2("re_exec.c", 10048, __func__, "(0x0C) >= (0x0A)" )), ( (sizeof(((const U8*)scan)[0]) == sizeof(U8)) ? ((((NV) ( (0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c", 10048, __func__ , "(NV) ((0x0A)) >= 0")), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 10048, __func__, "(NV) (((0x0C) - (0x0A))) >= 0" )), (((U64) (((((U8) (((const U8*)scan)[0])))) - (((0x0A)) | 0 ))) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (sizeof(((const U8*)scan)[0]) == sizeof(U32)) ? ((((NV) ((0x0A)) >= 0) ? ( void)0 : __assert2("re_exec.c", 10048, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 10048, __func__, "(NV) (((0x0C) - (0x0A))) >= 0" )), (((U64) (((((U32) (((const U8*)scan)[0])))) - (((0x0A)) | 0))) <= (((U64) ((((0x0C) - (0x0A))) | 0))))) : (((sizeof (((const U8*)scan)[0]) == sizeof(U64)) ? (void)0 : __assert2( "re_exec.c", 10048, __func__, "sizeof(((const U8*)scan)[0]) == sizeof(U64)" )), ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c" , 10048, __func__, "(NV) ((0x0A)) >= 0")), (((NV) (((0x0C) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 10048 , __func__, "(NV) (((0x0C) - (0x0A))) >= 0")), (((U64) ((( ((U64) (((const U8*)scan)[0])))) - (((0x0A)) | 0))) <= ((( U64) ((((0x0C) - (0x0A))) | 0)))))))) || 0x85 == ((const U8*) scan)[0] ) ? 1 : ( 0x0D == ((const U8*)scan)[0] ) ? ( ( 0x0A == ((const U8*)scan)[1] ) ? 2 : 1 ) : 0 ) : ((loceol)-(scan) > 0) ? ( ((((0x0D) >= (0x0A)) ? (void)0 : __assert2("re_exec.c" , 10048, __func__, "(0x0D) >= (0x0A)")), ( (sizeof(((const U8*)scan)[0]) == sizeof(U8)) ? ((((NV) ((0x0A)) >= 0) ? ( void)0 : __assert2("re_exec.c", 10048, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 10048, __func__, "(NV) (((0x0D) - (0x0A))) >= 0" )), (((U64) (((((U8) (((const U8*)scan)[0])))) - (((0x0A)) | 0 ))) <= (((U64) ((((0x0D) - (0x0A))) | 0))))) : (sizeof(((const U8*)scan)[0]) == sizeof(U32)) ? ((((NV) ((0x0A)) >= 0) ? ( void)0 : __assert2("re_exec.c", 10048, __func__, "(NV) ((0x0A)) >= 0" )), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2 ("re_exec.c", 10048, __func__, "(NV) (((0x0D) - (0x0A))) >= 0" )), (((U64) (((((U32) (((const U8*)scan)[0])))) - (((0x0A)) | 0))) <= (((U64) ((((0x0D) - (0x0A))) | 0))))) : (((sizeof (((const U8*)scan)[0]) == sizeof(U64)) ? (void)0 : __assert2( "re_exec.c", 10048, __func__, "sizeof(((const U8*)scan)[0]) == sizeof(U64)" )), ((((NV) ((0x0A)) >= 0) ? (void)0 : __assert2("re_exec.c" , 10048, __func__, "(NV) ((0x0A)) >= 0")), (((NV) (((0x0D) - (0x0A))) >= 0) ? (void)0 : __assert2("re_exec.c", 10048 , __func__, "(NV) (((0x0D) - (0x0A))) >= 0")), (((U64) ((( ((U64) (((const U8*)scan)[0])))) - (((0x0A)) | 0))) <= ((( U64) ((((0x0D) - (0x0A))) | 0)))))))) || 0x85 == ((const U8*) scan)[0] ): 0 ))) { |
10049 | scan+=c; |
10050 | hardcount++; |
10051 | } |
10052 | } |
10053 | break; |
10054 | |
10055 | case BOUNDL9: |
10056 | case NBOUNDL13: |
10057 | _CHECK_AND_WARN_PROBLEMATIC_LOCALEdo { if (__builtin_expect(((PL_warn_locale) ? (_Bool)1 : (_Bool )0),(0))) { Perl__warn_problematic_locale(); } } while (0); |
10058 | /* FALLTHROUGH */ |
10059 | case BOUND8: |
10060 | case BOUNDA11: |
10061 | case BOUNDU10: |
10062 | case EOS6: |
10063 | case GPOS7: |
10064 | case KEEPS105: |
10065 | case NBOUND12: |
10066 | case NBOUNDA15: |
10067 | case NBOUNDU14: |
10068 | case OPFAIL97: |
10069 | case SBOL2: |
10070 | case SEOL4: |
10071 | /* These are all 0 width, so match right here or not at all. */ |
10072 | break; |
10073 | |
10074 | default: |
10075 | Perl_croak(aTHX_ "panic: regrepeat() called with unrecognized node type %d='%s'", OP(p)((p)->type), PL_reg_name[OP(p)((p)->type)]); |
10076 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 10076 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
10077 | |
10078 | } |
10079 | |
10080 | if (hardcount) |
10081 | c = hardcount; |
10082 | else |
10083 | c = scan - *startposp; |
10084 | *startposp = scan; |
10085 | |
10086 | DEBUG_r({do {{ 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_exec.c", 10087, __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_exec.c", 10087, __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); do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { SV * const prop = Perl_sv_newmortal(); my_regprop ( prog,prop,p,reginfo,((void*)0)); Perl_re_exec_indentf( "%s can match %" "ld" " times out of %" "ld" "...\n", depth, ((const char*)(0 + (prop)->sv_u.svu_pv)),(IV)c,(IV)max); };} while (0); }; } while (0) |
10087 | DECLARE_AND_GET_RE_DEBUG_FLAGS;do {{ 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_exec.c", 10087, __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_exec.c", 10087, __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); do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { SV * const prop = Perl_sv_newmortal(); my_regprop ( prog,prop,p,reginfo,((void*)0)); Perl_re_exec_indentf( "%s can match %" "ld" " times out of %" "ld" "...\n", depth, ((const char*)(0 + (prop)->sv_u.svu_pv)),(IV)c,(IV)max); };} while (0); }; } while (0) |
10088 | DEBUG_EXECUTE_r({do {{ 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_exec.c", 10087, __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_exec.c", 10087, __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); do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { SV * const prop = Perl_sv_newmortal(); my_regprop ( prog,prop,p,reginfo,((void*)0)); Perl_re_exec_indentf( "%s can match %" "ld" " times out of %" "ld" "...\n", depth, ((const char*)(0 + (prop)->sv_u.svu_pv)),(IV)c,(IV)max); };} while (0); }; } while (0) |
10089 | SV * const prop = sv_newmortal();do {{ 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_exec.c", 10087, __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_exec.c", 10087, __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); do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { SV * const prop = Perl_sv_newmortal(); my_regprop ( prog,prop,p,reginfo,((void*)0)); Perl_re_exec_indentf( "%s can match %" "ld" " times out of %" "ld" "...\n", depth, ((const char*)(0 + (prop)->sv_u.svu_pv)),(IV)c,(IV)max); };} while (0); }; } while (0) |
10090 | regprop(prog, prop, p, reginfo, NULL);do {{ 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_exec.c", 10087, __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_exec.c", 10087, __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); do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { SV * const prop = Perl_sv_newmortal(); my_regprop ( prog,prop,p,reginfo,((void*)0)); Perl_re_exec_indentf( "%s can match %" "ld" " times out of %" "ld" "...\n", depth, ((const char*)(0 + (prop)->sv_u.svu_pv)),(IV)c,(IV)max); };} while (0); }; } while (0) |
10091 | Perl_re_exec_indentf( aTHX_ "%s can match %" IVdf " times out of %" IVdf "...\n",do {{ 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_exec.c", 10087, __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_exec.c", 10087, __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); do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { SV * const prop = Perl_sv_newmortal(); my_regprop ( prog,prop,p,reginfo,((void*)0)); Perl_re_exec_indentf( "%s can match %" "ld" " times out of %" "ld" "...\n", depth, ((const char*)(0 + (prop)->sv_u.svu_pv)),(IV)c,(IV)max); };} while (0); }; } while (0) |
10092 | depth, SvPVX_const(prop),(IV)c,(IV)max);do {{ 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_exec.c", 10087, __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_exec.c", 10087, __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); do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { SV * const prop = Perl_sv_newmortal(); my_regprop ( prog,prop,p,reginfo,((void*)0)); Perl_re_exec_indentf( "%s can match %" "ld" " times out of %" "ld" "...\n", depth, ((const char*)(0 + (prop)->sv_u.svu_pv)),(IV)c,(IV)max); };} while (0); }; } while (0) |
10093 | });do {{ 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_exec.c", 10087, __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_exec.c", 10087, __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); do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { SV * const prop = Perl_sv_newmortal(); my_regprop ( prog,prop,p,reginfo,((void*)0)); Perl_re_exec_indentf( "%s can match %" "ld" " times out of %" "ld" "...\n", depth, ((const char*)(0 + (prop)->sv_u.svu_pv)),(IV)c,(IV)max); };} while (0); }; } while (0) |
10094 | })do {{ 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_exec.c", 10087, __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_exec.c", 10087, __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); do {if (__builtin_expect(((PL_debug & 0x00100000) ? (_Bool)1 : (_Bool)0),(0)) || (re_debug_flags & (0x00FF00))) { SV * const prop = Perl_sv_newmortal(); my_regprop ( prog,prop,p,reginfo,((void*)0)); Perl_re_exec_indentf( "%s can match %" "ld" " times out of %" "ld" "...\n", depth, ((const char*)(0 + (prop)->sv_u.svu_pv)),(IV)c,(IV)max); };} while (0); }; } while (0); |
10095 | |
10096 | return(c); |
10097 | } |
10098 | |
10099 | /* |
10100 | - reginclass - determine if a character falls into a character class |
10101 | |
10102 | n is the ANYOF-type regnode |
10103 | p is the target string |
10104 | p_end points to one byte beyond the end of the target string |
10105 | utf8_target tells whether p is in UTF-8. |
10106 | |
10107 | Returns true if matched; false otherwise. |
10108 | |
10109 | Note that this can be a synthetic start class, a combination of various |
10110 | nodes, so things you think might be mutually exclusive, such as locale, |
10111 | aren't. It can match both locale and non-locale |
10112 | |
10113 | */ |
10114 | |
10115 | STATICstatic bool_Bool |
10116 | S_reginclass(pTHX_ regexp * const prog, const regnode * const n, const U8* const p, const U8* const p_end, const bool_Bool utf8_target) |
10117 | { |
10118 | dVARstruct Perl___notused_struct; |
10119 | const char flags = (inRANGE(OP(n), ANYOFH, ANYOFHs)((((25) >= (22)) ? (void)0 : __assert2("re_exec.c", 10119, __func__, "(25) >= (22)")), ( (sizeof(((n)->type)) == sizeof (U8)) ? ((((NV) ((22)) >= 0) ? (void)0 : __assert2("re_exec.c" , 10119, __func__, "(NV) ((22)) >= 0")), (((NV) (((25) - ( 22))) >= 0) ? (void)0 : __assert2("re_exec.c", 10119, __func__ , "(NV) (((25) - (22))) >= 0")), (((U64) (((((U8) (((n)-> type))))) - (((22)) | 0))) <= (((U64) ((((25) - (22))) | 0 ))))) : (sizeof(((n)->type)) == sizeof(U32)) ? ((((NV) ((22 )) >= 0) ? (void)0 : __assert2("re_exec.c", 10119, __func__ , "(NV) ((22)) >= 0")), (((NV) (((25) - (22))) >= 0) ? ( void)0 : __assert2("re_exec.c", 10119, __func__, "(NV) (((25) - (22))) >= 0" )), (((U64) (((((U32) (((n)->type))))) - (((22)) | 0))) <= (((U64) ((((25) - (22))) | 0))))) : (((sizeof(((n)->type) ) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c", 10119, __func__ , "sizeof(((n)->type)) == sizeof(U64)")), ((((NV) ((22)) >= 0) ? (void)0 : __assert2("re_exec.c", 10119, __func__, "(NV) ((22)) >= 0" )), (((NV) (((25) - (22))) >= 0) ? (void)0 : __assert2("re_exec.c" , 10119, __func__, "(NV) (((25) - (22))) >= 0")), (((U64) ( ((((U64) (((n)->type))))) - (((22)) | 0))) <= (((U64) ( (((25) - (22))) | 0))))))))) |
10120 | ? 0 |
10121 | : ANYOF_FLAGS(n)((n)->flags); |
10122 | bool_Bool match = FALSE(0); |
10123 | UV c = *p; |
10124 | |
10125 | PERL_ARGS_ASSERT_REGINCLASS((n) ? (void)0 : __assert2("re_exec.c", 10125, __func__, "n") ); ((p) ? (void)0 : __assert2("re_exec.c", 10125, __func__, "p" )); ((p_end) ? (void)0 : __assert2("re_exec.c", 10125, __func__ , "p_end")); |
10126 | |
10127 | /* If c is not already the code point, get it. Note that |
10128 | * UTF8_IS_INVARIANT() works even if not in UTF-8 */ |
10129 | if (! UTF8_IS_INVARIANT(c)((((U64)(((UV) (((c) | 0) | 0)))) < (((U8) (0xFF << 6 )) & 0xB0))) && utf8_target) { |
10130 | STRLEN c_len = 0; |
10131 | const U32 utf8n_flags = UTF8_ALLOW_DEFAULT0; |
10132 | c = utf8n_to_uvchr(p, p_end - p, &c_len, utf8n_flags | UTF8_CHECK_ONLY)Perl_utf8n_to_uvchr_msgs(p, p_end - p, &c_len, utf8n_flags | 0x10000, 0, 0); |
10133 | if (c_len == (STRLEN)-1) { |
10134 | _force_out_malformed_utf8_message(p, p_end,Perl__force_out_malformed_utf8_message( p,p_end,utf8n_flags,1 ) |
10135 | utf8n_flags,Perl__force_out_malformed_utf8_message( p,p_end,utf8n_flags,1 ) |
10136 | 1 /* 1 means die */ )Perl__force_out_malformed_utf8_message( p,p_end,utf8n_flags,1 ); |
10137 | NOT_REACHEDdo { ((!"UNREACHABLE") ? (void)0 : __assert2("re_exec.c", 10137 , __func__, "!\"UNREACHABLE\"")); __builtin_unreachable(); } while (0); /* NOTREACHED */ |
10138 | } |
10139 | if ( c > 255 |
10140 | && (OP(n)((n)->type) == ANYOFL20 || OP(n)((n)->type) == ANYOFPOSIXL21) |
10141 | && ! ANYOFL_UTF8_LOCALE_REQD(flags)((flags & ( 0x04 |0x08)) == 0x08)) |
10142 | { |
10143 | _CHECK_AND_OUTPUT_WIDE_LOCALE_CP_MSG(c)do { if (! PL_in_utf8_CTYPE_locale && Perl_ckwarn( (63 ))) { Perl_warner( (63 ), "Wide character (U+%" "lX" ") in %s" , (UV) c, ((PL_op)->op_type == OP_CUSTOM ? (Perl_custom_op_get_field ( PL_op, XOPe_xop_desc).xop_desc) : PL_op_desc[(PL_op)->op_type ])); } } while (0); |
10144 | } |
10145 | } |
10146 | |
10147 | /* If this character is potentially in the bitmap, check it */ |
10148 | if (c < NUM_ANYOF_CODE_POINTS(1 << 8) && ! inRANGE(OP(n), ANYOFH, ANYOFHb)((((23) >= (22)) ? (void)0 : __assert2("re_exec.c", 10148, __func__, "(23) >= (22)")), ( (sizeof(((n)->type)) == sizeof (U8)) ? ((((NV) ((22)) >= 0) ? (void)0 : __assert2("re_exec.c" , 10148, __func__, "(NV) ((22)) >= 0")), (((NV) (((23) - ( 22))) >= 0) ? (void)0 : __assert2("re_exec.c", 10148, __func__ , "(NV) (((23) - (22))) >= 0")), (((U64) (((((U8) (((n)-> type))))) - (((22)) | 0))) <= (((U64) ((((23) - (22))) | 0 ))))) : (sizeof(((n)->type)) == sizeof(U32)) ? ((((NV) ((22 )) >= 0) ? (void)0 : __assert2("re_exec.c", 10148, __func__ , "(NV) ((22)) >= 0")), (((NV) (((23) - (22))) >= 0) ? ( void)0 : __assert2("re_exec.c", 10148, __func__, "(NV) (((23) - (22))) >= 0" )), (((U64) (((((U32) (((n)->type))))) - (((22)) | 0))) <= (((U64) ((((23) - (22))) | 0))))) : (((sizeof(((n)->type) ) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c", 10148, __func__ , "sizeof(((n)->type)) == sizeof(U64)")), ((((NV) ((22)) >= 0) ? (void)0 : __assert2("re_exec.c", 10148, __func__, "(NV) ((22)) >= 0" )), (((NV) (((23) - (22))) >= 0) ? (void)0 : __assert2("re_exec.c" , 10148, __func__, "(NV) (((23) - (22))) >= 0")), (((U64) ( ((((U64) (((n)->type))))) - (((22)) | 0))) <= (((U64) ( (((23) - (22))) | 0))))))))) { |
10149 | if (ANYOF_BITMAP_TEST(n, c)(((( (U8*) ((regnode_charclass*)(n))->bitmap) [ ( ( (UV) ( c)) >> 3) ] ) & (1U << ((c) & 7))) ? (_Bool )1 : (_Bool)0)) |
10150 | match = TRUE(1); |
10151 | else if ((flags |
10152 | & ANYOF_SHARED_d_MATCHES_ALL_NON_UTF8_NON_ASCII_non_d_WARN_SUPER0x80) |
10153 | && OP(n)((n)->type) == ANYOFD19 |
10154 | && ! utf8_target |
10155 | && ! isASCII(c)((U64)((c) | 0) < 128)) |
10156 | { |
10157 | match = TRUE(1); |
10158 | } |
10159 | else if (flags & ANYOF_LOCALE_FLAGS(0x04 | 0x02)) { |
10160 | if ( (flags & ANYOFL_FOLD0x04) |
10161 | && c < sizeof(PL_fold_locale) |
10162 | && ANYOF_BITMAP_TEST(n, PL_fold_locale[c])(((( (U8*) ((regnode_charclass*)(n))->bitmap) [ ( ( (UV) ( PL_fold_locale[c])) >> 3) ] ) & (1U << ((PL_fold_locale [c]) & 7))) ? (_Bool)1 : (_Bool)0)) |
10163 | { |
10164 | match = TRUE(1); |
10165 | } |
10166 | else if ( ANYOF_POSIXL_TEST_ANY_SET(n)((((n)->flags) & 0x02) && (((regnode_charclass_posixl *)(n))->classflags)) |
10167 | && c <= U8_MAX0xff /* param to isFOO_lc() */ |
10168 | ) { |
10169 | |
10170 | /* The data structure is arranged so bits 0, 2, 4, ... are set |
10171 | * if the class includes the Posix character class given by |
10172 | * bit/2; and 1, 3, 5, ... are set if the class includes the |
10173 | * complemented Posix class given by int(bit/2). So we loop |
10174 | * through the bits, each time changing whether we complement |
10175 | * the result or not. Suppose for the sake of illustration |
10176 | * that bits 0-3 mean respectively, \w, \W, \s, \S. If bit 0 |
10177 | * is set, it means there is a match for this ANYOF node if the |
10178 | * character is in the class given by the expression (0 / 2 = 0 |
10179 | * = \w). If it is in that class, isFOO_lc() will return 1, |
10180 | * and since 'to_complement' is 0, the result will stay TRUE, |
10181 | * and we exit the loop. Suppose instead that bit 0 is 0, but |
10182 | * bit 1 is 1. That means there is a match if the character |
10183 | * matches \W. We won't bother to call isFOO_lc() on bit 0, |
10184 | * but will on bit 1. On the second iteration 'to_complement' |
10185 | * will be 1, so the exclusive or will reverse things, so we |
10186 | * are testing for \W. On the third iteration, 'to_complement' |
10187 | * will be 0, and we would be testing for \s; the fourth |
10188 | * iteration would test for \S, etc. |
10189 | * |
10190 | * Note that this code assumes that all the classes are closed |
10191 | * under folding. For example, if a character matches \w, then |
10192 | * its fold does too; and vice versa. This should be true for |
10193 | * any well-behaved locale for all the currently defined Posix |
10194 | * classes, except for :lower: and :upper:, which are handled |
10195 | * by the pseudo-class :cased: which matches if either of the |
10196 | * other two does. To get rid of this assumption, an outer |
10197 | * loop could be used below to iterate over both the source |
10198 | * character, and its fold (if different) */ |
10199 | |
10200 | int count = 0; |
10201 | int to_complement = 0; |
10202 | |
10203 | while (count < ANYOF_MAX(((15) * 2))) { |
10204 | if (ANYOF_POSIXL_TEST(n, count)((((regnode_charclass_posixl*) (n))->classflags) & (1U << ((count)))) |
10205 | && to_complement ^ cBOOL(isFOO_lc(count/2, (U8) c))((Perl_isFOO_lc( count/2,(U8) c)) ? (_Bool)1 : (_Bool)0)) |
10206 | { |
10207 | match = TRUE(1); |
10208 | break; |
10209 | } |
10210 | count++; |
10211 | to_complement ^= 1; |
10212 | } |
10213 | } |
10214 | } |
10215 | } |
10216 | |
10217 | |
10218 | /* If the bitmap didn't (or couldn't) match, and something outside the |
10219 | * bitmap could match, try that. */ |
10220 | if (!match) { |
10221 | if (c >= NUM_ANYOF_CODE_POINTS(1 << 8) |
10222 | && (flags & ANYOF_MATCHES_ALL_ABOVE_BITMAP0x20)) |
10223 | { |
10224 | match = TRUE(1); /* Everything above the bitmap matches */ |
10225 | } |
10226 | /* Here doesn't match everything above the bitmap. If there is |
10227 | * some information available beyond the bitmap, we may find a |
10228 | * match in it. If so, this is most likely because the code point |
10229 | * is outside the bitmap range. But rarely, it could be because of |
10230 | * some other reason. If so, various flags are set to indicate |
10231 | * this possibility. On ANYOFD nodes, there may be matches that |
10232 | * happen only when the target string is UTF-8; or for other node |
10233 | * types, because runtime lookup is needed, regardless of the |
10234 | * UTF-8ness of the target string. Finally, under /il, there may |
10235 | * be some matches only possible if the locale is a UTF-8 one. */ |
10236 | else if ( ARG(n)((((struct regnode_1 *)n)->arg1)) != ANYOF_ONLY_HAS_BITMAP((U32) -1) |
10237 | && ( c >= NUM_ANYOF_CODE_POINTS(1 << 8) |
10238 | || ( (flags & ANYOF_SHARED_d_UPPER_LATIN1_UTF8_STRING_MATCHES_non_d_RUNTIME_USER_PROP0x40) |
10239 | && ( UNLIKELY(OP(n) != ANYOFD)__builtin_expect(((((n)->type) != 19) ? (_Bool)1 : (_Bool) 0),(0)) |
10240 | || (utf8_target && ! isASCII_uni(c)((U64)((c) | 0) < 128) |
10241 | # if NUM_ANYOF_CODE_POINTS(1 << 8) > 256 |
10242 | && c < 256 |
10243 | # endif |
10244 | ))) |
10245 | || ( ANYOFL_SOME_FOLDS_ONLY_IN_UTF8_LOCALE(flags)((flags & ( 0x04 |0x08)) == ( 0x04 |0x08)) |
10246 | && IN_UTF8_CTYPE_LOCALEPL_in_utf8_CTYPE_locale))) |
10247 | { |
10248 | SV* only_utf8_locale = NULL((void*)0); |
10249 | SV * const definition = |
10250 | #if !defined(PERL_IN_XSUB_RE) || defined(PLUGGABLE_RE_EXTENSION) |
10251 | get_regclass_nonbitmap_data(prog, n, TRUE(1), 0, |
10252 | &only_utf8_locale, NULL((void*)0)); |
10253 | #else |
10254 | get_re_gclass_nonbitmap_data(prog, n, TRUE, 0,Perl_get_re_gclass_nonbitmap_data( prog,n,(1),0,&only_utf8_locale ,((void*)0)) |
10255 | &only_utf8_locale, NULL)Perl_get_re_gclass_nonbitmap_data( prog,n,(1),0,&only_utf8_locale ,((void*)0)); |
10256 | #endif |
10257 | if (definition) { |
10258 | U8 utf8_buffer[2]; |
10259 | U8 * utf8_p; |
10260 | if (utf8_target) { |
10261 | utf8_p = (U8 *) p; |
10262 | } else { /* Convert to utf8 */ |
10263 | utf8_p = utf8_buffer; |
10264 | append_utf8_from_native_bytePerl_append_utf8_from_native_byte(*p, &utf8_p); |
10265 | utf8_p = utf8_buffer; |
10266 | } |
10267 | |
10268 | /* Turkish locales have these hard-coded rules overriding |
10269 | * normal ones */ |
10270 | if ( UNLIKELY(PL_in_utf8_turkic_locale)__builtin_expect(((PL_in_utf8_turkic_locale) ? (_Bool)1 : (_Bool )0),(0)) |
10271 | && isALPHA_FOLD_EQ(*p, 'i')((((((('Z') >= ('A')) ? (void)0 : __assert2("re_exec.c", 10271 , __func__, "('Z') >= ('A')")), ( (sizeof((~('A' ^ 'a') & (*p))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_exec.c", 10271, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_exec.c" , 10271, __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_exec.c", 10271, __func__, "(NV) (('A')) >= 0" )), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_exec.c" , 10271, __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_exec.c" , 10271, __func__, "sizeof((~('A' ^ 'a') & (*p))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_exec.c" , 10271, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_exec.c", 10271, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & (*p)))))) - ((('A')) | 0))) <= (((U64) (((('Z' ) - ('A'))) | 0)))))))) || (((('Z') >= ('A')) ? (void)0 : __assert2 ("re_exec.c", 10271, __func__, "('Z') >= ('A')")), ( (sizeof ((~('A' ^ 'a') & ('i'))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_exec.c", 10271, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_exec.c", 10271, __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_exec.c", 10271, __func__ , "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_exec.c", 10271, __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_exec.c", 10271, __func__, "sizeof((~('A' ^ 'a') & ('i'))) == sizeof(U64)" )), ((((NV) (('A')) >= 0) ? (void)0 : __assert2("re_exec.c" , 10271, __func__, "(NV) (('A')) >= 0")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2("re_exec.c", 10271, __func__ , "(NV) ((('Z') - ('A'))) >= 0")), (((U64) (((((U64) ((~('A' ^ 'a') & ('i')))))) - ((('A')) | 0))) <= (((U64) (((( 'Z') - ('A'))) | 0))))))))) ? (void)0 : __assert2("re_exec.c" , 10271, __func__, "(((('Z') >= ('A')) ? (void)0 : __assert2(\"re_exec.c\", 10271, __func__, \"('Z') >= ('A')\")), ( (sizeof((~('A' ^ 'a') & (*p))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10271, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10271, __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_exec.c\", 10271, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10271, __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_exec.c\", 10271, __func__, \"sizeof((~('A' ^ 'a') & (*p))) == sizeof(U64)\")), ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10271, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10271, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U64) ((~('A' ^ 'a') & (*p)))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0)))))))) || (((('Z') >= ('A')) ? (void)0 : __assert2(\"re_exec.c\", 10271, __func__, \"('Z') >= ('A')\")), ( (sizeof((~('A' ^ 'a') & ('i'))) == sizeof(U8)) ? ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10271, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10271, __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_exec.c\", 10271, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10271, __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_exec.c\", 10271, __func__, \"sizeof((~('A' ^ 'a') & ('i'))) == sizeof(U64)\")), ((((NV) (('A')) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10271, __func__, \"(NV) (('A')) >= 0\")), (((NV) ((('Z') - ('A'))) >= 0) ? (void)0 : __assert2(\"re_exec.c\", 10271, __func__, \"(NV) ((('Z') - ('A'))) >= 0\")), (((U64) (((((U64) ((~('A' ^ 'a') & ('i')))))) - ((('A')) | 0))) <= (((U64) (((('Z') - ('A'))) | 0))))))))" )), ((*p) & ~('A' ^ 'a')) == (('i') & ~('A' ^ 'a')))) |
10272 | { |
10273 | if (*p == 'i') { |
10274 | if (_invlist_contains_cpS__invlist_contains_cp(definition, |
10275 | LATIN_CAPITAL_LETTER_I_WITH_DOT_ABOVE0x130)) |
10276 | { |
10277 | match = TRUE(1); |
10278 | } |
10279 | } |
10280 | else if (*p == 'I') { |
10281 | if (_invlist_contains_cpS__invlist_contains_cp(definition, |
10282 | LATIN_SMALL_LETTER_DOTLESS_I0x131)) |
10283 | { |
10284 | match = TRUE(1); |
10285 | } |
10286 | } |
10287 | } |
10288 | else if (_invlist_contains_cpS__invlist_contains_cp(definition, c)) { |
10289 | match = TRUE(1); |
10290 | } |
10291 | } |
10292 | if (! match && only_utf8_locale && IN_UTF8_CTYPE_LOCALEPL_in_utf8_CTYPE_locale) { |
10293 | match = _invlist_contains_cpS__invlist_contains_cp(only_utf8_locale, c); |
10294 | } |
10295 | } |
10296 | |
10297 | /* In a Turkic locale under folding, hard-code the I i case pair |
10298 | * matches */ |
10299 | if ( UNLIKELY(PL_in_utf8_turkic_locale)__builtin_expect(((PL_in_utf8_turkic_locale) ? (_Bool)1 : (_Bool )0),(0)) |
10300 | && ! match |
10301 | && (flags & ANYOFL_FOLD0x04) |
10302 | && utf8_target) |
10303 | { |
10304 | if (c == LATIN_CAPITAL_LETTER_I_WITH_DOT_ABOVE0x130) { |
10305 | if (ANYOF_BITMAP_TEST(n, 'i')(((( (U8*) ((regnode_charclass*)(n))->bitmap) [ ( ( (UV) ( 'i')) >> 3) ] ) & (1U << (('i') & 7))) ? ( _Bool)1 : (_Bool)0)) { |
10306 | match = TRUE(1); |
10307 | } |
10308 | } |
10309 | else if (c == LATIN_SMALL_LETTER_DOTLESS_I0x131) { |
10310 | if (ANYOF_BITMAP_TEST(n, 'I')(((( (U8*) ((regnode_charclass*)(n))->bitmap) [ ( ( (UV) ( 'I')) >> 3) ] ) & (1U << (('I') & 7))) ? ( _Bool)1 : (_Bool)0)) { |
10311 | match = TRUE(1); |
10312 | } |
10313 | } |
10314 | } |
10315 | |
10316 | if (UNICODE_IS_SUPER(c)((UV) (c) > 0x10FFFF) |
10317 | && (flags |
10318 | & ANYOF_SHARED_d_MATCHES_ALL_NON_UTF8_NON_ASCII_non_d_WARN_SUPER0x80) |
10319 | && OP(n)((n)->type) != ANYOFD19 |
10320 | && ckWARN_d(WARN_NON_UNICODE)Perl_ckwarn_d( (48 ))) |
10321 | { |
10322 | Perl_warner(aTHX_ packWARN(WARN_NON_UNICODE)(48 ), |
10323 | "Matched non-Unicode code point 0x%04" UVXf"lX" " against Unicode property; may not be portable", c); |
10324 | } |
10325 | } |
10326 | |
10327 | #if ANYOF_INVERT0x01 != 1 |
10328 | /* Depending on compiler optimization cBOOL takes time, so if don't have to |
10329 | * use it, don't */ |
10330 | # error ANYOF_INVERT0x01 needs to be set to 1, or guarded with cBOOL below, |
10331 | #endif |
10332 | |
10333 | /* The xor complements the return if to invert: 1^1 = 0, 1^0 = 1 */ |
10334 | return (flags & ANYOF_INVERT0x01) ^ match; |
10335 | } |
10336 | |
10337 | STATICstatic U8 * |
10338 | S_reghop3(U8 *s, SSize_tssize_t off, const U8* lim) |
10339 | { |
10340 | /* return the position 'off' UTF-8 characters away from 's', forward if |
10341 | * 'off' >= 0, backwards if negative. But don't go outside of position |
10342 | * 'lim', which better be < s if off < 0 */ |
10343 | |
10344 | PERL_ARGS_ASSERT_REGHOP3((s) ? (void)0 : __assert2("re_exec.c", 10344, __func__, "s") ); ((lim) ? (void)0 : __assert2("re_exec.c", 10344, __func__, "lim")); |
10345 | |
10346 | if (off >= 0) { |
10347 | while (off-- && s < lim) { |
10348 | /* XXX could check well-formedness here */ |
10349 | U8 *new_s = s + UTF8SKIP(s)PL_utf8skip[*(const U8*)(s)]; |
10350 | if (new_s > lim) /* lim may be in the middle of a long character */ |
10351 | return s; |
10352 | s = new_s; |
10353 | } |
10354 | } |
10355 | else { |
10356 | while (off++ && s > lim) { |
10357 | s--; |
10358 | if (UTF8_IS_CONTINUED(*s)(((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10358, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), (! ((((U64)(((UV) (((*s) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))))) { |
10359 | while (s > lim && UTF8_IS_CONTINUATION(*s)(((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10359, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 10359, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))) & ((U8) (0xFF << 6))) == ((( U8) (0xFF << 6)) & 0xB0))))) |
10360 | s--; |
10361 | if (! UTF8_IS_START(*s)(((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10361, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 10361, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))) >= (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { |
10362 | Perl_croak_nocontextPerl_croak("Malformed UTF-8 character (fatal)"); |
10363 | } |
10364 | } |
10365 | /* XXX could check well-formedness here */ |
10366 | } |
10367 | } |
10368 | return s; |
10369 | } |
10370 | |
10371 | STATICstatic U8 * |
10372 | S_reghop4(U8 *s, SSize_tssize_t off, const U8* llim, const U8* rlim) |
10373 | { |
10374 | PERL_ARGS_ASSERT_REGHOP4((s) ? (void)0 : __assert2("re_exec.c", 10374, __func__, "s") ); ((llim) ? (void)0 : __assert2("re_exec.c", 10374, __func__ , "llim")); ((rlim) ? (void)0 : __assert2("re_exec.c", 10374, __func__, "rlim")); |
10375 | |
10376 | if (off >= 0) { |
10377 | while (off-- && s < rlim) { |
10378 | /* XXX could check well-formedness here */ |
10379 | s += UTF8SKIP(s)PL_utf8skip[*(const U8*)(s)]; |
10380 | } |
10381 | } |
10382 | else { |
10383 | while (off++ && s > llim) { |
10384 | s--; |
10385 | if (UTF8_IS_CONTINUED(*s)(((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10385, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), (! ((((U64)(((UV) (((*s) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))))) { |
10386 | while (s > llim && UTF8_IS_CONTINUATION(*s)(((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10386, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 10386, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))) & ((U8) (0xFF << 6))) == ((( U8) (0xFF << 6)) & 0xB0))))) |
10387 | s--; |
10388 | if (! UTF8_IS_START(*s)(((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10388, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 10388, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))) >= (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { |
10389 | Perl_croak_nocontextPerl_croak("Malformed UTF-8 character (fatal)"); |
10390 | } |
10391 | } |
10392 | /* XXX could check well-formedness here */ |
10393 | } |
10394 | } |
10395 | return s; |
10396 | } |
10397 | |
10398 | /* like reghop3, but returns NULL on overrun, rather than returning last |
10399 | * char pos */ |
10400 | |
10401 | STATICstatic U8 * |
10402 | S_reghopmaybe3(U8* s, SSize_tssize_t off, const U8* const lim) |
10403 | { |
10404 | PERL_ARGS_ASSERT_REGHOPMAYBE3((s) ? (void)0 : __assert2("re_exec.c", 10404, __func__, "s") ); ((lim) ? (void)0 : __assert2("re_exec.c", 10404, __func__, "lim")); |
10405 | |
10406 | if (off >= 0) { |
10407 | while (off-- && s < lim) { |
10408 | /* XXX could check well-formedness here */ |
10409 | s += UTF8SKIP(s)PL_utf8skip[*(const U8*)(s)]; |
10410 | } |
10411 | if (off >= 0) |
10412 | return NULL((void*)0); |
10413 | } |
10414 | else { |
10415 | while (off++ && s > lim) { |
10416 | s--; |
10417 | if (UTF8_IS_CONTINUED(*s)(((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10417, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), (! ((((U64)(((UV) (((*s) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))))) { |
10418 | while (s > lim && UTF8_IS_CONTINUATION(*s)(((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10418, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 10418, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))) & ((U8) (0xFF << 6))) == ((( U8) (0xFF << 6)) & 0xB0))))) |
10419 | s--; |
10420 | if (! UTF8_IS_START(*s)(((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))) ? (void)0 : __assert2("re_exec.c", 10420, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF ))) ? (void)0 : __assert2("re_exec.c", 10420, __func__, "( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF))" )), ((U8) ((*s) | 0))) >= (((((U8) (0xFF << 6)) & 0xB0) >> 6) | (((2) > 7) ? 0xFF : ((U8) (0xFE << (7-(2))))))))) { |
10421 | Perl_croak_nocontextPerl_croak("Malformed UTF-8 character (fatal)"); |
10422 | } |
10423 | } |
10424 | /* XXX could check well-formedness here */ |
10425 | } |
10426 | if (off <= 0) |
10427 | return NULL((void*)0); |
10428 | } |
10429 | return s; |
10430 | } |
10431 | |
10432 | |
10433 | /* when executing a regex that may have (?{}), extra stuff needs setting |
10434 | up that will be visible to the called code, even before the current |
10435 | match has finished. In particular: |
10436 | |
10437 | * $_ is localised to the SV currently being matched; |
10438 | * pos($_) is created if necessary, ready to be updated on each call-out |
10439 | to code; |
10440 | * a fake PMOP is created that can be set to PL_curpm (normally PL_curpm |
10441 | isn't set until the current pattern is successfully finished), so that |
10442 | $1 etc of the match-so-far can be seen; |
10443 | * save the old values of subbeg etc of the current regex, and set then |
10444 | to the current string (again, this is normally only done at the end |
10445 | of execution) |
10446 | */ |
10447 | |
10448 | static void |
10449 | S_setup_eval_state(pTHX_ regmatch_info *const reginfo) |
10450 | { |
10451 | MAGIC *mg; |
10452 | regexp *const rex = ReANY(reginfo->prog)Perl_ReANY((const REGEXP *)(reginfo->prog)); |
10453 | regmatch_info_aux_eval *eval_state = reginfo->info_aux_eval; |
10454 | |
10455 | eval_state->rex = rex; |
10456 | eval_state->sv = reginfo->sv; |
10457 | |
10458 | if (reginfo->sv) { |
10459 | /* Make $_ available to executed code. */ |
10460 | if (reginfo->sv != DEFSV(*((0+(*({GV *const _gvgp = (GV *) (PL_defgv); ((((svtype)((_gvgp )->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)-> sv_flags & 0xff)) == SVt_PVLV) ? (void)0 : __assert2("re_exec.c" , 10460, __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_exec.c", 10460, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_sv ? &((0+(*({GV *const _gvgp = (GV *) (PL_defgv ); ((((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVLV) ? ( void)0 : __assert2("re_exec.c", 10460, __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_exec.c", 10460, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_sv) : &((0+(*({GV *const _gvgp = (GV *) (Perl_gv_add_by_type ( (PL_defgv),SVt_NULL)); ((((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff )) == SVt_PVLV) ? (void)0 : __assert2("re_exec.c", 10460, __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_exec.c", 10460, __func__, "isGV_with_GP(_gvgp)" )); &((_gvgp)->sv_u.svu_gp);})))->gp_sv)))) { |
10461 | SAVE_DEFSVPerl_save_sptr( (SV**)&(((0+(*({GV *const _gvgp = (GV *) ( PL_defgv); ((((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)->sv_flags & 0xff)) == SVt_PVLV) ? (void)0 : __assert2("re_exec.c", 10461, __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_exec.c", 10461, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_sv))); |
10462 | DEFSV_set(reginfo->sv)(((0+(*({GV *const _gvgp = (GV *) (PL_defgv); ((((svtype)((_gvgp )->sv_flags & 0xff)) == SVt_PVGV || ((svtype)((_gvgp)-> sv_flags & 0xff)) == SVt_PVLV) ? (void)0 : __assert2("re_exec.c" , 10462, __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_exec.c", 10462, __func__ , "isGV_with_GP(_gvgp)")); &((_gvgp)->sv_u.svu_gp);})) )->gp_sv) = (reginfo->sv)); |
10463 | } |
10464 | /* will be dec'd by S_cleanup_regmatch_info_aux */ |
10465 | SvREFCNT_inc_NN(reginfo->sv)Perl_SvREFCNT_inc_NN(((SV *)({ void *_p = (reginfo->sv); _p ; }))); |
10466 | |
10467 | if (!(mg = mg_find_mglob(reginfo->sv)Perl_mg_find_mglob( reginfo->sv))) { |
10468 | /* prepare for quick setting of pos */ |
10469 | mg = sv_magicext_mglob(reginfo->sv)Perl_sv_magicext_mglob( reginfo->sv); |
10470 | mg->mg_len = -1; |
10471 | } |
10472 | eval_state->pos_magic = mg; |
10473 | eval_state->pos = mg->mg_len; |
10474 | eval_state->pos_flags = mg->mg_flags; |
10475 | } |
10476 | else |
10477 | eval_state->pos_magic = NULL((void*)0); |
10478 | |
10479 | if (!PL_reg_curpm) { |
10480 | /* PL_reg_curpm is a fake PMOP that we can attach the current |
10481 | * regex to and point PL_curpm at, so that $1 et al are visible |
10482 | * within a /(?{})/. It's just allocated once per interpreter the |
10483 | * first time its needed */ |
10484 | Newxz(PL_reg_curpm, 1, PMOP)(PL_reg_curpm = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof(1) || sizeof(PMOP) > ((size_t)1 << 8*(sizeof (size_t) - sizeof(1)))) ? (size_t)(1) : ((size_t)-1)/sizeof(PMOP )) > ((size_t)-1)/sizeof(PMOP))) ? (_Bool)1 : (_Bool)0),(0 )) && (Perl_croak_memory_wrap(),0)), (PMOP*)(Perl_safesyscalloc ((1),sizeof(PMOP))))); |
10485 | #ifdef USE_ITHREADS |
10486 | { |
10487 | SV* const repointer = &PL_sv_undef(PL_sv_immortals[1]); |
10488 | /* this regexp is also owned by the new PL_reg_curpm, which |
10489 | will try to free it. */ |
10490 | av_push(PL_regex_padav, repointer)Perl_av_push( PL_regex_padav,repointer); |
10491 | PL_reg_curpm->op_pmoffset = av_tindex(PL_regex_padav)Perl_av_top_index( PL_regex_padav); |
10492 | PL_regex_pad = AvARRAY(PL_regex_padav)((PL_regex_padav)->sv_u.svu_array); |
10493 | } |
10494 | #endif |
10495 | } |
10496 | SET_reg_curpm(reginfo->prog)if (reginfo->info_aux_eval) { (void)({ REGEXP *const _rerefcnt_inc = (reginfo->prog); ((((svtype)((_rerefcnt_inc)->sv_flags & 0xff)) == SVt_REGEXP) ? (void)0 : __assert2("re_exec.c" , 10496, __func__, "SvTYPE(_rerefcnt_inc) == SVt_REGEXP")); Perl_SvREFCNT_inc (((SV *)({ void *_p = (_rerefcnt_inc); _p; }))); _rerefcnt_inc ; }); ({ REGEXP *const _rerefcnt_dec = (((PL_reg_curpm)->op_pmregexp )); Perl_SvREFCNT_dec( ((SV *)({ void *_p = (_rerefcnt_dec); _p ; }))); }); (((PL_reg_curpm))->op_pmregexp = ((reginfo-> prog))); }; |
10497 | eval_state->curpm = PL_curpm; |
10498 | PL_curpm_under = PL_curpm; |
10499 | PL_curpm = PL_reg_curpm; |
10500 | if (RXp_MATCH_COPIED(rex)(((rex)->extflags) & (1U<<(((0 +12) + 2)+11)))) { |
10501 | /* Here is a serious problem: we cannot rewrite subbeg, |
10502 | since it may be needed if this match fails. Thus |
10503 | $` inside (?{}) could fail... */ |
10504 | eval_state->subbeg = rex->subbeg; |
10505 | eval_state->sublen = rex->sublen; |
10506 | eval_state->suboffset = rex->suboffset; |
10507 | eval_state->subcoffset = rex->subcoffset; |
10508 | #ifdef PERL_ANY_COW |
10509 | eval_state->saved_copy = rex->saved_copy; |
10510 | #endif |
10511 | RXp_MATCH_COPIED_off(rex)(((rex)->extflags) &= ~(1U<<(((0 +12) + 2)+11))); |
10512 | } |
10513 | else |
10514 | eval_state->subbeg = NULL((void*)0); |
10515 | rex->subbeg = (char *)reginfo->strbeg; |
10516 | rex->suboffset = 0; |
10517 | rex->subcoffset = 0; |
10518 | rex->sublen = reginfo->strend - reginfo->strbeg; |
10519 | } |
10520 | |
10521 | |
10522 | /* destructor to clear up regmatch_info_aux and regmatch_info_aux_eval */ |
10523 | |
10524 | static void |
10525 | S_cleanup_regmatch_info_aux(pTHX_ void *arg) |
10526 | { |
10527 | regmatch_info_aux *aux = (regmatch_info_aux *) arg; |
10528 | regmatch_info_aux_eval *eval_state = aux->info_aux_eval; |
10529 | regmatch_slab *s; |
10530 | |
10531 | Safefree(aux->poscache)Perl_safesysfree(((void *)(aux->poscache))); |
10532 | |
10533 | if (eval_state) { |
10534 | |
10535 | /* undo the effects of S_setup_eval_state() */ |
10536 | |
10537 | if (eval_state->subbeg) { |
10538 | regexp * const rex = eval_state->rex; |
10539 | rex->subbeg = eval_state->subbeg; |
10540 | rex->sublen = eval_state->sublen; |
10541 | rex->suboffset = eval_state->suboffset; |
10542 | rex->subcoffset = eval_state->subcoffset; |
10543 | #ifdef PERL_ANY_COW |
10544 | rex->saved_copy = eval_state->saved_copy; |
10545 | #endif |
10546 | RXp_MATCH_COPIED_on(rex)(((rex)->extflags) |= (1U<<(((0 +12) + 2)+11))); |
10547 | } |
10548 | if (eval_state->pos_magic) |
10549 | { |
10550 | eval_state->pos_magic->mg_len = eval_state->pos; |
10551 | eval_state->pos_magic->mg_flags = |
10552 | (eval_state->pos_magic->mg_flags & ~MGf_BYTES0x40) |
10553 | | (eval_state->pos_flags & MGf_BYTES0x40); |
10554 | } |
10555 | |
10556 | PL_curpm = eval_state->curpm; |
10557 | SvREFCNT_dec(eval_state->sv)Perl_SvREFCNT_dec( ((SV *)({ void *_p = (eval_state->sv); _p ; }))); |
10558 | } |
10559 | |
10560 | PL_regmatch_state = aux->old_regmatch_state; |
10561 | PL_regmatch_slab = aux->old_regmatch_slab; |
10562 | |
10563 | /* free all slabs above current one - this must be the last action |
10564 | * of this function, as aux and eval_state are allocated within |
10565 | * slabs and may be freed here */ |
10566 | |
10567 | s = PL_regmatch_slab->next; |
10568 | if (s) { |
10569 | PL_regmatch_slab->next = NULL((void*)0); |
10570 | while (s) { |
10571 | regmatch_slab * const osl = s; |
10572 | s = s->next; |
10573 | Safefree(osl)Perl_safesysfree(((void *)(osl))); |
10574 | } |
10575 | } |
10576 | } |
10577 | |
10578 | |
10579 | STATICstatic void |
10580 | S_to_utf8_substr(pTHX_ regexp *prog) |
10581 | { |
10582 | /* Converts substr fields in prog from bytes to UTF-8, calling fbm_compile |
10583 | * on the converted value */ |
10584 | |
10585 | int i = 1; |
10586 | |
10587 | PERL_ARGS_ASSERT_TO_UTF8_SUBSTR((prog) ? (void)0 : __assert2("re_exec.c", 10587, __func__, "prog" )); |
10588 | |
10589 | do { |
10590 | if (prog->substrs->data[i].substr |
10591 | && !prog->substrs->data[i].utf8_substr) { |
10592 | SV* const sv = newSVsv(prog->substrs->data[i].substr)Perl_newSVsv_flags( (prog->substrs->data[i].substr),2|16 ); |
10593 | prog->substrs->data[i].utf8_substr = sv; |
10594 | sv_utf8_upgrade(sv)Perl_sv_utf8_upgrade_flags_grow( sv,2,0); |
10595 | if (SvVALID(prog->substrs->data[i].substr)( ((prog->substrs->data[i].substr)->sv_flags & 0x00004000 ) && ((prog->substrs->data[i].substr)->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(prog->substrs->data[i].substr); ((((svtype )((_svmagic)->sv_flags & 0xff)) >= SVt_PVMG) ? (void )0 : __assert2("re_exec.c", 10595, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(prog->substrs->data[i].substr) ; ((((svtype)((_svmagic)->sv_flags & 0xff)) >= SVt_PVMG ) ? (void)0 : __assert2("re_exec.c", 10595, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); }))->mg_type == 'B' || Perl_mg_find (prog->substrs->data[i].substr, 'B')) )) { |
10596 | if (SvTAIL(prog->substrs->data[i].substr)({ const SV *const _svtail = (const SV *)(prog->substrs-> data[i].substr); ((((svtype)((_svtail)->sv_flags & 0xff )) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 10596, __func__ , "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail)-> sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2("re_exec.c" , 10596, __func__, "SvTYPE(_svtail) != SVt_PVHV")); ((!((_svtail )->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2 ("re_exec.c", 10596, __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_exec.c", 10596, __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_exec.c" , 10596, __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_exec.c", 10596, __func__ , "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })) { |
10597 | /* Trim the trailing \n that fbm_compile added last |
10598 | time. */ |
10599 | SvCUR_set(sv, SvCUR(sv) - 1)do { ((PL_valid_types_PVX[((svtype)((sv)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 10599, __func__ , "PL_valid_types_PVX[SvTYPE(sv) & SVt_MASK]")); ((!((((sv )->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((sv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype )((sv)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2 ("re_exec.c", 10599, __func__, "!isGV_with_GP(sv)")); ((!(((svtype )((sv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO *) (sv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2 ("re_exec.c", 10599, __func__, "!(SvTYPE(sv) == SVt_PVIO && !(IoFLAGS(sv) & IOf_FAKE_DIRP))" )); (((XPV*) (sv)->sv_any)->xpv_cur = ((*({ const SV *const _svcur = (const SV *)(sv); ((PL_valid_types_PVX[((svtype)((_svcur )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_exec.c", 10599, __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_exec.c", 10599, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 10599, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - 1)); } while (0); |
10600 | /* Whilst this makes the SV technically "invalid" (as its |
10601 | buffer is no longer followed by "\0") when fbm_compile() |
10602 | adds the "\n" back, a "\0" is restored. */ |
10603 | fbm_compile(sv, FBMcf_TAIL)Perl_fbm_compile( sv,(1|2|4|8)); |
10604 | } else |
10605 | fbm_compile(sv, 0)Perl_fbm_compile( sv,0); |
10606 | } |
10607 | if (prog->substrs->data[i].substr == prog->check_substrsubstrs->data[2].substr) |
10608 | prog->check_utf8substrs->data[2].utf8_substr = sv; |
10609 | } |
10610 | } while (i--); |
10611 | } |
10612 | |
10613 | STATICstatic bool_Bool |
10614 | S_to_byte_substr(pTHX_ regexp *prog) |
10615 | { |
10616 | /* Converts substr fields in prog from UTF-8 to bytes, calling fbm_compile |
10617 | * on the converted value; returns FALSE if can't be converted. */ |
10618 | |
10619 | int i = 1; |
10620 | |
10621 | PERL_ARGS_ASSERT_TO_BYTE_SUBSTR((prog) ? (void)0 : __assert2("re_exec.c", 10621, __func__, "prog" )); |
10622 | |
10623 | do { |
10624 | if (prog->substrs->data[i].utf8_substr |
10625 | && !prog->substrs->data[i].substr) { |
10626 | SV* sv = newSVsv(prog->substrs->data[i].utf8_substr)Perl_newSVsv_flags( (prog->substrs->data[i].utf8_substr ),2|16); |
10627 | if (! sv_utf8_downgrade(sv, TRUE)Perl_sv_utf8_downgrade_flags( sv,(1),2)) { |
10628 | SvREFCNT_dec_NN(sv)Perl_SvREFCNT_dec_NN( ((SV *)({ void *_p = (sv); _p; }))); |
10629 | return FALSE(0); |
10630 | } |
10631 | if (SvVALID(prog->substrs->data[i].utf8_substr)( ((prog->substrs->data[i].utf8_substr)->sv_flags & 0x00004000) && ((prog->substrs->data[i].utf8_substr )->sv_flags & 0x00400000) && (*({ const SV *const _svmagic = (const SV *)(prog->substrs->data[i].utf8_substr ); ((((svtype)((_svmagic)->sv_flags & 0xff)) >= SVt_PVMG ) ? (void)0 : __assert2("re_exec.c", 10631, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); })) && ((*({ const SV *const _svmagic = (const SV *)(prog->substrs->data[i].utf8_substr ); ((((svtype)((_svmagic)->sv_flags & 0xff)) >= SVt_PVMG ) ? (void)0 : __assert2("re_exec.c", 10631, __func__, "SvTYPE(_svmagic) >= SVt_PVMG" )); &(((XPVMG*) ({ void *_p = ((_svmagic)->sv_any); _p ; }))->xmg_u.xmg_magic); }))->mg_type == 'B' || Perl_mg_find (prog->substrs->data[i].utf8_substr, 'B')) )) { |
10632 | if (SvTAIL(prog->substrs->data[i].utf8_substr)({ const SV *const _svtail = (const SV *)(prog->substrs-> data[i].utf8_substr); ((((svtype)((_svtail)->sv_flags & 0xff)) != SVt_PVAV) ? (void)0 : __assert2("re_exec.c", 10632 , __func__, "SvTYPE(_svtail) != SVt_PVAV")); ((((svtype)((_svtail )->sv_flags & 0xff)) != SVt_PVHV) ? (void)0 : __assert2 ("re_exec.c", 10632, __func__, "SvTYPE(_svtail) != SVt_PVHV") ); ((!((_svtail)->sv_flags & (0x00000200|0x00002000))) ? (void)0 : __assert2("re_exec.c", 10632, __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_exec.c", 10632, __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_exec.c" , 10632, __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_exec.c", 10632, __func__ , "SvVALID(_svtail)")); ((XPVNV*)(_svtail)->sv_any)->xnv_u .xnv_bm_tail; })) { |
10633 | /* Trim the trailing \n that fbm_compile added last |
10634 | time. */ |
10635 | SvCUR_set(sv, SvCUR(sv) - 1)do { ((PL_valid_types_PVX[((svtype)((sv)->sv_flags & 0xff )) & 0x1f]) ? (void)0 : __assert2("re_exec.c", 10635, __func__ , "PL_valid_types_PVX[SvTYPE(sv) & SVt_MASK]")); ((!((((sv )->sv_flags & (0x00004000|0x00008000)) == 0x00008000) && (((svtype)((sv)->sv_flags & 0xff)) == SVt_PVGV || ((svtype )((sv)->sv_flags & 0xff)) == SVt_PVLV))) ? (void)0 : __assert2 ("re_exec.c", 10635, __func__, "!isGV_with_GP(sv)")); ((!(((svtype )((sv)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO *) (sv)->sv_any)->xio_flags & 64))) ? (void)0 : __assert2 ("re_exec.c", 10635, __func__, "!(SvTYPE(sv) == SVt_PVIO && !(IoFLAGS(sv) & IOf_FAKE_DIRP))" )); (((XPV*) (sv)->sv_any)->xpv_cur = ((*({ const SV *const _svcur = (const SV *)(sv); ((PL_valid_types_PVX[((svtype)((_svcur )->sv_flags & 0xff)) & 0x1f]) ? (void)0 : __assert2 ("re_exec.c", 10635, __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_exec.c", 10635, __func__ , "!isGV_with_GP(_svcur)")); ((!(((svtype)((_svcur)->sv_flags & 0xff)) == SVt_PVIO && !(((XPVIO*) (_svcur)-> sv_any)->xio_flags & 64))) ? (void)0 : __assert2("re_exec.c" , 10635, __func__, "!(SvTYPE(_svcur) == SVt_PVIO && !(IoFLAGS(_svcur) & IOf_FAKE_DIRP))" )); &(((XPV*) ({ void *_p = ((_svcur)->sv_any); _p; }) )->xpv_cur); })) - 1)); } while (0); |
10636 | fbm_compile(sv, FBMcf_TAIL)Perl_fbm_compile( sv,(1|2|4|8)); |
10637 | } else |
10638 | fbm_compile(sv, 0)Perl_fbm_compile( sv,0); |
10639 | } |
10640 | prog->substrs->data[i].substr = sv; |
10641 | if (prog->substrs->data[i].utf8_substr == prog->check_utf8substrs->data[2].utf8_substr) |
10642 | prog->check_substrsubstrs->data[2].substr = sv; |
10643 | } |
10644 | } while (i--); |
10645 | |
10646 | return TRUE(1); |
10647 | } |
10648 | |
10649 | #ifndef PERL_IN_XSUB_RE |
10650 | |
10651 | bool_Bool |
10652 | Perl_is_grapheme(pTHX_ const U8 * strbeg, const U8 * s, const U8 * strend, const UV cp) |
10653 | { |
10654 | /* Temporary helper function for toke.c. Verify that the code point 'cp' |
10655 | * is a stand-alone grapheme. The UTF-8 for 'cp' begins at position 's' in |
10656 | * the larger string bounded by 'strbeg' and 'strend'. |
10657 | * |
10658 | * 'cp' needs to be assigned (if not, a future version of the Unicode |
10659 | * Standard could make it something that combines with adjacent characters, |
10660 | * so code using it would then break), and there has to be a GCB break |
10661 | * before and after the character. */ |
10662 | |
10663 | dVARstruct Perl___notused_struct; |
10664 | |
10665 | GCB_enum cp_gcb_val, prev_cp_gcb_val, next_cp_gcb_val; |
10666 | const U8 * prev_cp_start; |
10667 | |
10668 | PERL_ARGS_ASSERT_IS_GRAPHEME((strbeg) ? (void)0 : __assert2("re_exec.c", 10668, __func__, "strbeg")); ((s) ? (void)0 : __assert2("re_exec.c", 10668, __func__ , "s")); ((strend) ? (void)0 : __assert2("re_exec.c", 10668, __func__ , "strend")); |
10669 | |
10670 | if ( UNLIKELY(UNICODE_IS_SUPER(cp))__builtin_expect(((((UV) (cp) > 0x10FFFF)) ? (_Bool)1 : (_Bool )0),(0)) |
10671 | || UNLIKELY(UNICODE_IS_NONCHAR(cp))__builtin_expect(((( ((UV) (cp) >= 0xFDD0 && (UV) ( cp) <= 0xFDEF) || ( __builtin_expect(((! ((UV) (cp) > 0x10FFFF )) ? (_Bool)1 : (_Bool)0),(1)) && (((UV) (cp) & 0xFFFE ) == 0xFFFE)))) ? (_Bool)1 : (_Bool)0),(0))) |
10672 | { |
10673 | /* These are considered graphemes */ |
10674 | return TRUE(1); |
10675 | } |
10676 | |
10677 | /* Otherwise, unassigned code points are forbidden */ |
10678 | if (UNLIKELY(! ELEMENT_RANGE_MATCHES_INVLIST(__builtin_expect(((! (! ((Perl__invlist_search(PL_Assigned_invlist , cp)) & 1))) ? (_Bool)1 : (_Bool)0),(0)) |
10679 | _invlist_search(PL_Assigned_invlist, cp)))__builtin_expect(((! (! ((Perl__invlist_search(PL_Assigned_invlist , cp)) & 1))) ? (_Bool)1 : (_Bool)0),(0))) |
10680 | { |
10681 | return FALSE(0); |
10682 | } |
10683 | |
10684 | cp_gcb_val = getGCB_VAL_CP(cp)_Perl_GCB_invmap[S_get_break_val_cp_checked(PL_GCB_invlist, ( cp))]; |
10685 | |
10686 | /* Find the GCB value of the previous code point in the input */ |
10687 | prev_cp_start = utf8_hop_backPerl_utf8_hop_back(s, -1, strbeg); |
10688 | if (UNLIKELY(prev_cp_start == s)__builtin_expect(((prev_cp_start == s) ? (_Bool)1 : (_Bool)0) ,(0))) { |
10689 | prev_cp_gcb_val = GCB_EDGE; |
10690 | } |
10691 | else { |
10692 | prev_cp_gcb_val = getGCB_VAL_UTF8(prev_cp_start, strend)(((prev_cp_start < strend) ? (void)0 : __assert2("re_exec.c" , 10692, __func__, "prev_cp_start < strend")), (_Perl_GCB_invmap [S_get_break_val_cp_checked(PL_GCB_invlist, (Perl_utf8_to_uvchr_buf_helper ( (const U8 *) ((prev_cp_start)),(const U8 *) (strend),((void *)0))))])); |
10693 | } |
10694 | |
10695 | /* And check that is a grapheme boundary */ |
10696 | if (! isGCB(prev_cp_gcb_val, cp_gcb_val, strbeg, s,S_isGCB( prev_cp_gcb_val,cp_gcb_val,strbeg,s,(1)) |
10697 | TRUE /* is UTF-8 encoded */ )S_isGCB( prev_cp_gcb_val,cp_gcb_val,strbeg,s,(1))) |
10698 | { |
10699 | return FALSE(0); |
10700 | } |
10701 | |
10702 | /* Similarly verify there is a break between the current character and the |
10703 | * following one */ |
10704 | s += UTF8SKIP(s)PL_utf8skip[*(const U8*)(s)]; |
10705 | if (s >= strend) { |
10706 | next_cp_gcb_val = GCB_EDGE; |
10707 | } |
10708 | else { |
10709 | next_cp_gcb_val = getGCB_VAL_UTF8(s, strend)(((s < strend) ? (void)0 : __assert2("re_exec.c", 10709, __func__ , "s < strend")), (_Perl_GCB_invmap[S_get_break_val_cp_checked (PL_GCB_invlist, (Perl_utf8_to_uvchr_buf_helper( (const U8 *) ((s)),(const U8 *) (strend),((void*)0))))])); |
10710 | } |
10711 | |
10712 | return isGCB(cp_gcb_val, next_cp_gcb_val, strbeg, s, TRUE)S_isGCB( cp_gcb_val,next_cp_gcb_val,strbeg,s,(1)); |
10713 | } |
10714 | |
10715 | /* |
10716 | =head1 Unicode Support |
10717 | |
10718 | =for apidoc isSCRIPT_RUN |
10719 | |
10720 | Returns a bool as to whether or not the sequence of bytes from C<s> up to but |
10721 | not including C<send> form a "script run". C<utf8_target> is TRUE iff the |
10722 | sequence starting at C<s> is to be treated as UTF-8. To be precise, except for |
10723 | two degenerate cases given below, this function returns TRUE iff all code |
10724 | points in it come from any combination of three "scripts" given by the Unicode |
10725 | "Script Extensions" property: Common, Inherited, and possibly one other. |
10726 | Additionally all decimal digits must come from the same consecutive sequence of |
10727 | 10. |
10728 | |
10729 | For example, if all the characters in the sequence are Greek, or Common, or |
10730 | Inherited, this function will return TRUE, provided any decimal digits in it |
10731 | are from the same block of digits in Common. (These are the ASCII digits |
10732 | "0".."9" and additionally a block for full width forms of these, and several |
10733 | others used in mathematical notation.) For scripts (unlike Greek) that have |
10734 | their own digits defined this will accept either digits from that set or from |
10735 | one of the Common digit sets, but not a combination of the two. Some scripts, |
10736 | such as Arabic, have more than one set of digits. All digits must come from |
10737 | the same set for this function to return TRUE. |
10738 | |
10739 | C<*ret_script>, if C<ret_script> is not NULL, will on return of TRUE |
10740 | contain the script found, using the C<SCX_enum> typedef. Its value will be |
10741 | C<SCX_INVALID> if the function returns FALSE. |
10742 | |
10743 | If the sequence is empty, TRUE is returned, but C<*ret_script> (if asked for) |
10744 | will be C<SCX_INVALID>. |
10745 | |
10746 | If the sequence contains a single code point which is unassigned to a character |
10747 | in the version of Unicode being used, the function will return TRUE, and the |
10748 | script will be C<SCX_Unknown>. Any other combination of unassigned code points |
10749 | in the input sequence will result in the function treating the input as not |
10750 | being a script run. |
10751 | |
10752 | The returned script will be C<SCX_Inherited> iff all the code points in it are |
10753 | from the Inherited script. |
10754 | |
10755 | Otherwise, the returned script will be C<SCX_Common> iff all the code points in |
10756 | it are from the Inherited or Common scripts. |
10757 | |
10758 | =cut |
10759 | |
10760 | */ |
10761 | |
10762 | bool_Bool |
10763 | Perl_isSCRIPT_RUN(pTHX_ const U8 * s, const U8 * send, const bool_Bool utf8_target) |
10764 | { |
10765 | /* Basically, it looks at each character in the sequence to see if the |
10766 | * above conditions are met; if not it fails. It uses an inversion map to |
10767 | * find the enum corresponding to the script of each character. But this |
10768 | * is complicated by the fact that a few code points can be in any of |
10769 | * several scripts. The data has been constructed so that there are |
10770 | * additional enum values (all negative) for these situations. The |
10771 | * absolute value of those is an index into another table which contains |
10772 | * pointers to auxiliary tables for each such situation. Each aux array |
10773 | * lists all the scripts for the given situation. There is another, |
10774 | * parallel, table that gives the number of entries in each aux table. |
10775 | * These are all defined in charclass_invlists.h */ |
10776 | |
10777 | /* XXX Here are the additional things UTS 39 says could be done: |
10778 | * |
10779 | * Forbid sequences of the same nonspacing mark |
10780 | * |
10781 | * Check to see that all the characters are in the sets of exemplar |
10782 | * characters for at least one language in the Unicode Common Locale Data |
10783 | * Repository [CLDR]. */ |
10784 | |
10785 | dVARstruct Perl___notused_struct; |
10786 | |
10787 | /* Things that match /\d/u */ |
10788 | SV * decimals_invlist = PL_XPosix_ptrs[_CC_DIGIT1]; |
10789 | UV * decimals_array = invlist_arrayS_invlist_array(decimals_invlist); |
10790 | |
10791 | /* What code point is the digit '0' of the script run? (0 meaning FALSE if |
10792 | * not currently known) */ |
10793 | UV zero_of_run = 0; |
10794 | |
10795 | SCX_enum script_of_run = SCX_INVALID; /* Illegal value */ |
10796 | SCX_enum script_of_char = SCX_INVALID; |
10797 | |
10798 | /* If the script remains not fully determined from iteration to iteration, |
10799 | * this is the current intersection of the possiblities. */ |
10800 | SCX_enum * intersection = NULL((void*)0); |
10801 | PERL_UINT_FAST8_T intersection_len = 0; |
10802 | |
10803 | bool_Bool retval = TRUE(1); |
10804 | SCX_enum * ret_script = NULL((void*)0); |
10805 | |
10806 | assert(send >= s)((send >= s) ? (void)0 : __assert2("re_exec.c", 10806, __func__ , "send >= s")); |
10807 | |
10808 | PERL_ARGS_ASSERT_ISSCRIPT_RUN((s) ? (void)0 : __assert2("re_exec.c", 10808, __func__, "s") ); ((send) ? (void)0 : __assert2("re_exec.c", 10808, __func__ , "send")); |
10809 | |
10810 | /* All code points in 0..255 are either Common or Latin, so must be a |
10811 | * script run. We can return immediately unless we need to know which |
10812 | * script it is. */ |
10813 | if (! utf8_target && LIKELY(send > s)__builtin_expect(((send > s) ? (_Bool)1 : (_Bool)0),(1))) { |
10814 | if (ret_script == NULL((void*)0)) { |
10815 | return TRUE(1); |
10816 | } |
10817 | |
10818 | /* If any character is Latin, the run is Latin */ |
10819 | while (s < send) { |
10820 | if (isALPHA_L1(*s)((( (sizeof(*s) == 1) || !(((U64)((*s) | 0)) & ~0xFF)) && (PL_charclass[(U8) (*s)] & (1U << (2)))) ? (_Bool) 1 : (_Bool)0) && LIKELY(*s != MICRO_SIGN_NATIVE)__builtin_expect(((*s != 0xB5) ? (_Bool)1 : (_Bool)0),(1))) { |
10821 | *ret_script = SCX_Latin; |
10822 | return TRUE(1); |
10823 | } |
10824 | } |
10825 | |
10826 | /* Here, all are Common */ |
10827 | *ret_script = SCX_Common; |
10828 | return TRUE(1); |
10829 | } |
10830 | |
10831 | /* Look at each character in the sequence */ |
10832 | while (s < send) { |
10833 | /* If the current character being examined is a digit, this is the code |
10834 | * point of the zero for its sequence of 10 */ |
10835 | UV zero_of_char; |
10836 | |
10837 | UV cp; |
10838 | |
10839 | /* The code allows all scripts to use the ASCII digits. This is |
10840 | * because they are in the Common script. Hence any ASCII ones found |
10841 | * are ok, unless and until a digit from another set has already been |
10842 | * encountered. digit ranges in Common are not similarly blessed) */ |
10843 | if (UNLIKELY(isDIGIT(*s))__builtin_expect((((((('9') >= ('0')) ? (void)0 : __assert2 ("re_exec.c", 10843, __func__, "('9') >= ('0')")), ( (sizeof (*s) == sizeof(U8)) ? ((((NV) (('0')) >= 0) ? (void)0 : __assert2 ("re_exec.c", 10843, __func__, "(NV) (('0')) >= 0")), (((NV ) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_exec.c" , 10843, __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_exec.c", 10843, __func__ , "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_exec.c", 10843, __func__, "(NV) ((('9') - ('0'))) >= 0" )), (((U64) (((((U32) (*s)))) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0))))) : (((sizeof(*s) == sizeof(U64)) ? (void)0 : __assert2("re_exec.c", 10843, __func__, "sizeof(*s) == sizeof(U64)" )), ((((NV) (('0')) >= 0) ? (void)0 : __assert2("re_exec.c" , 10843, __func__, "(NV) (('0')) >= 0")), (((NV) ((('9') - ('0'))) >= 0) ? (void)0 : __assert2("re_exec.c", 10843, __func__ , "(NV) ((('9') - ('0'))) >= 0")), (((U64) (((((U64) (*s)) )) - ((('0')) | 0))) <= (((U64) (((('9') - ('0'))) | 0)))) ))))) ? (_Bool)1 : (_Bool)0),(0))) { |
10844 | if (UNLIKELY(script_of_run == SCX_Unknown)__builtin_expect(((script_of_run == SCX_Unknown) ? (_Bool)1 : (_Bool)0),(0))) { |
10845 | retval = FALSE(0); |
10846 | break; |
10847 | } |
10848 | if (zero_of_run) { |
10849 | if (zero_of_run != '0') { |
10850 | retval = FALSE(0); |
10851 | break; |
10852 | } |
10853 | } |
10854 | else { |
10855 | zero_of_run = '0'; |
10856 | } |
10857 | s++; |
10858 | continue; |
10859 | } |
10860 | |
10861 | /* Here, isn't an ASCII digit. Find the code point of the character */ |
10862 | if (! UTF8_IS_INVARIANT(*s)((((U64)(((UV) (((*s) | 0) | 0)))) < (((U8) (0xFF << 6)) & 0xB0)))) { |
10863 | Size_tsize_t len; |
10864 | cp = valid_utf8_to_uvchrPerl_valid_utf8_to_uvchr((U8 *) s, &len); |
10865 | s += len; |
10866 | } |
10867 | else { |
10868 | cp = *(s++); |
10869 | } |
10870 | |
10871 | /* If is within the range [+0 .. +9] of the script's zero, it also is a |
10872 | * digit in that script. We can skip the rest of this code for this |
10873 | * character. */ |
10874 | if (UNLIKELY( zero_of_run__builtin_expect(((zero_of_run && cp >= zero_of_run && cp - zero_of_run <= 9) ? (_Bool)1 : (_Bool)0), (0)) |
10875 | && cp >= zero_of_run__builtin_expect(((zero_of_run && cp >= zero_of_run && cp - zero_of_run <= 9) ? (_Bool)1 : (_Bool)0), (0)) |
10876 | && cp - zero_of_run <= 9)__builtin_expect(((zero_of_run && cp >= zero_of_run && cp - zero_of_run <= 9) ? (_Bool)1 : (_Bool)0), (0))) |
10877 | { |
10878 | continue; |
10879 | } |
10880 | |
10881 | /* Find the character's script. The correct values are hard-coded here |
10882 | * for small-enough code points. */ |
10883 | if (cp < 0x2B9) { /* From inspection of Unicode db; extremely |
10884 | unlikely to change */ |
10885 | if ( cp > 255 |
10886 | || ( isALPHA_L1(cp)((( (sizeof(cp) == 1) || !(((U64)((cp) | 0)) & ~0xFF)) && (PL_charclass[(U8) (cp)] & (1U << (2)))) ? (_Bool) 1 : (_Bool)0) |
10887 | && LIKELY(cp != MICRO_SIGN_NATIVE)__builtin_expect(((cp != 0xB5) ? (_Bool)1 : (_Bool)0),(1)))) |
10888 | { |
10889 | script_of_char = SCX_Latin; |
10890 | } |
10891 | else { |
10892 | script_of_char = SCX_Common; |
10893 | } |
10894 | } |
10895 | else { |
10896 | script_of_char = _Perl_SCX_invmap[ |
10897 | _invlist_searchPerl__invlist_search(PL_SCX_invlist, cp)]; |
10898 | } |
10899 | |
10900 | /* We arbitrarily accept a single unassigned character, but not in |
10901 | * combination with anything else, and not a run of them. */ |
10902 | if ( UNLIKELY(script_of_run == SCX_Unknown)__builtin_expect(((script_of_run == SCX_Unknown) ? (_Bool)1 : (_Bool)0),(0)) |
10903 | || UNLIKELY( script_of_run != SCX_INVALID__builtin_expect(((script_of_run != SCX_INVALID && script_of_char == SCX_Unknown) ? (_Bool)1 : (_Bool)0),(0)) |
10904 | && script_of_char == SCX_Unknown)__builtin_expect(((script_of_run != SCX_INVALID && script_of_char == SCX_Unknown) ? (_Bool)1 : (_Bool)0),(0))) |
10905 | { |
10906 | retval = FALSE(0); |
10907 | break; |
10908 | } |
10909 | |
10910 | /* For the first character, or the run is inherited, the run's script |
10911 | * is set to the char's */ |
10912 | if ( UNLIKELY(script_of_run == SCX_INVALID)__builtin_expect(((script_of_run == SCX_INVALID) ? (_Bool)1 : (_Bool)0),(0)) |
10913 | || UNLIKELY(script_of_run == SCX_Inherited)__builtin_expect(((script_of_run == SCX_Inherited) ? (_Bool)1 : (_Bool)0),(0))) |
10914 | { |
10915 | script_of_run = script_of_char; |
10916 | } |
10917 | |
10918 | /* For the character's script to be Unknown, it must be the first |
10919 | * character in the sequence (for otherwise a test above would have |
10920 | * prevented us from reaching here), and we have set the run's script |
10921 | * to it. Nothing further to be done for this character */ |
10922 | if (UNLIKELY(script_of_char == SCX_Unknown)__builtin_expect(((script_of_char == SCX_Unknown) ? (_Bool)1 : (_Bool)0),(0))) { |
10923 | continue; |
10924 | } |
10925 | |
10926 | /* We accept 'inherited' script characters currently even at the |
10927 | * beginning. (We know that no characters in Inherited are digits, or |
10928 | * we'd have to check for that) */ |
10929 | if (UNLIKELY(script_of_char == SCX_Inherited)__builtin_expect(((script_of_char == SCX_Inherited) ? (_Bool) 1 : (_Bool)0),(0))) { |
10930 | continue; |
10931 | } |
10932 | |
10933 | /* If the run so far is Common, and the new character isn't, change the |
10934 | * run's script to that of this character */ |
10935 | if (script_of_run == SCX_Common && script_of_char != SCX_Common) { |
10936 | script_of_run = script_of_char; |
10937 | } |
10938 | |
10939 | /* Now we can see if the script of the new character is the same as |
10940 | * that of the run */ |
10941 | if (LIKELY(script_of_char == script_of_run)__builtin_expect(((script_of_char == script_of_run) ? (_Bool) 1 : (_Bool)0),(1))) { |
10942 | /* By far the most common case */ |
10943 | goto scripts_match; |
10944 | } |
10945 | |
10946 | /* Here, the script of the run isn't Common. But characters in Common |
10947 | * match any script */ |
10948 | if (script_of_char == SCX_Common) { |
10949 | goto scripts_match; |
10950 | } |
10951 | |
10952 | #ifndef HAS_SCX_AUX_TABLES |
10953 | |
10954 | /* Too early a Unicode version to have a code point belonging to more |
10955 | * than one script, so, if the scripts don't exactly match, fail */ |
10956 | PERL_UNUSED_VAR(intersection_len)((void)sizeof(intersection_len)); |
10957 | retval = FALSE(0); |
10958 | break; |
10959 | |
10960 | #else |
10961 | |
10962 | /* Here there is no exact match between the character's script and the |
10963 | * run's. And we've handled the special cases of scripts Unknown, |
10964 | * Inherited, and Common. |
10965 | * |
10966 | * Negative script numbers signify that the value may be any of several |
10967 | * scripts, and we need to look at auxiliary information to make our |
10968 | * deterimination. But if both are non-negative, we can fail now */ |
10969 | if (LIKELY(script_of_char >= 0)__builtin_expect(((script_of_char >= 0) ? (_Bool)1 : (_Bool )0),(1))) { |
10970 | const SCX_enum * search_in; |
10971 | PERL_UINT_FAST8_T search_in_len; |
10972 | PERL_UINT_FAST8_T i; |
10973 | |
10974 | if (LIKELY(script_of_run >= 0)__builtin_expect(((script_of_run >= 0) ? (_Bool)1 : (_Bool )0),(1))) { |
10975 | retval = FALSE(0); |
10976 | break; |
10977 | } |
10978 | |
10979 | /* Use the previously constructed set of possible scripts, if any. |
10980 | * */ |
10981 | if (intersection) { |
10982 | search_in = intersection; |
10983 | search_in_len = intersection_len; |
10984 | } |
10985 | else { |
10986 | search_in = SCX_AUX_TABLE_ptrs[-script_of_run]; |
10987 | search_in_len = SCX_AUX_TABLE_lengths[-script_of_run]; |
10988 | } |
10989 | |
10990 | for (i = 0; i < search_in_len; i++) { |
10991 | if (search_in[i] == script_of_char) { |
10992 | script_of_run = script_of_char; |
10993 | goto scripts_match; |
10994 | } |
10995 | } |
10996 | |
10997 | retval = FALSE(0); |
10998 | break; |
10999 | } |
11000 | else if (LIKELY(script_of_run >= 0)__builtin_expect(((script_of_run >= 0) ? (_Bool)1 : (_Bool )0),(1))) { |
11001 | /* script of character could be one of several, but run is a single |
11002 | * script */ |
11003 | const SCX_enum * search_in = SCX_AUX_TABLE_ptrs[-script_of_char]; |
11004 | const PERL_UINT_FAST8_T search_in_len |
11005 | = SCX_AUX_TABLE_lengths[-script_of_char]; |
11006 | PERL_UINT_FAST8_T i; |
11007 | |
11008 | for (i = 0; i < search_in_len; i++) { |
11009 | if (search_in[i] == script_of_run) { |
11010 | script_of_char = script_of_run; |
11011 | goto scripts_match; |
11012 | } |
11013 | } |
11014 | |
11015 | retval = FALSE(0); |
11016 | break; |
11017 | } |
11018 | else { |
11019 | /* Both run and char could be in one of several scripts. If the |
11020 | * intersection is empty, then this character isn't in this script |
11021 | * run. Otherwise, we need to calculate the intersection to use |
11022 | * for future iterations of the loop, unless we are already at the |
11023 | * final character */ |
11024 | const SCX_enum * search_char = SCX_AUX_TABLE_ptrs[-script_of_char]; |
11025 | const PERL_UINT_FAST8_T char_len |
11026 | = SCX_AUX_TABLE_lengths[-script_of_char]; |
11027 | const SCX_enum * search_run; |
11028 | PERL_UINT_FAST8_T run_len; |
11029 | |
11030 | SCX_enum * new_overlap = NULL((void*)0); |
11031 | PERL_UINT_FAST8_T i, j; |
11032 | |
11033 | if (intersection) { |
11034 | search_run = intersection; |
11035 | run_len = intersection_len; |
11036 | } |
11037 | else { |
11038 | search_run = SCX_AUX_TABLE_ptrs[-script_of_run]; |
11039 | run_len = SCX_AUX_TABLE_lengths[-script_of_run]; |
11040 | } |
11041 | |
11042 | intersection_len = 0; |
11043 | |
11044 | for (i = 0; i < run_len; i++) { |
11045 | for (j = 0; j < char_len; j++) { |
11046 | if (search_run[i] == search_char[j]) { |
11047 | |
11048 | /* Here, the script at i,j matches. That means this |
11049 | * character is in the run. But continue on to find |
11050 | * the complete intersection, for the next loop |
11051 | * iteration, and for the digit check after it. |
11052 | * |
11053 | * On the first found common script, we malloc space |
11054 | * for the intersection list for the worst case of the |
11055 | * intersection, which is the minimum of the number of |
11056 | * scripts remaining in each set. */ |
11057 | if (intersection_len == 0) { |
11058 | Newx(new_overlap,(new_overlap = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof((((run_len - i)<(char_len - j))?(run_len - i):(char_len - j))) || sizeof(SCX_enum) > ((size_t)1 << 8*(sizeof (size_t) - sizeof((((run_len - i)<(char_len - j))?(run_len - i):(char_len - j)))))) ? (size_t)((((run_len - i)<(char_len - j))?(run_len - i):(char_len - j))) : ((size_t)-1)/sizeof(SCX_enum )) > ((size_t)-1)/sizeof(SCX_enum))) ? (_Bool)1 : (_Bool)0 ),(0)) && (Perl_croak_memory_wrap(),0)), (SCX_enum*)( Perl_safesysmalloc((size_t)(((((run_len - i)<(char_len - j ))?(run_len - i):(char_len - j)))*sizeof(SCX_enum)))))) |
11059 | MIN(run_len - i, char_len - j),(new_overlap = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof((((run_len - i)<(char_len - j))?(run_len - i):(char_len - j))) || sizeof(SCX_enum) > ((size_t)1 << 8*(sizeof (size_t) - sizeof((((run_len - i)<(char_len - j))?(run_len - i):(char_len - j)))))) ? (size_t)((((run_len - i)<(char_len - j))?(run_len - i):(char_len - j))) : ((size_t)-1)/sizeof(SCX_enum )) > ((size_t)-1)/sizeof(SCX_enum))) ? (_Bool)1 : (_Bool)0 ),(0)) && (Perl_croak_memory_wrap(),0)), (SCX_enum*)( Perl_safesysmalloc((size_t)(((((run_len - i)<(char_len - j ))?(run_len - i):(char_len - j)))*sizeof(SCX_enum)))))) |
11060 | SCX_enum)(new_overlap = ((void)(__builtin_expect(((((( sizeof(size_t) < sizeof((((run_len - i)<(char_len - j))?(run_len - i):(char_len - j))) || sizeof(SCX_enum) > ((size_t)1 << 8*(sizeof (size_t) - sizeof((((run_len - i)<(char_len - j))?(run_len - i):(char_len - j)))))) ? (size_t)((((run_len - i)<(char_len - j))?(run_len - i):(char_len - j))) : ((size_t)-1)/sizeof(SCX_enum )) > ((size_t)-1)/sizeof(SCX_enum))) ? (_Bool)1 : (_Bool)0 ),(0)) && (Perl_croak_memory_wrap(),0)), (SCX_enum*)( Perl_safesysmalloc((size_t)(((((run_len - i)<(char_len - j ))?(run_len - i):(char_len - j)))*sizeof(SCX_enum)))))); |
11061 | } |
11062 | new_overlap[intersection_len++] = search_run[i]; |
11063 | } |
11064 | } |
11065 | } |
11066 | |
11067 | /* Here we've looked through everything. If they have no scripts |
11068 | * in common, not a run */ |
11069 | if (intersection_len == 0) { |
11070 | retval = FALSE(0); |
11071 | break; |
11072 | } |
11073 | |
11074 | /* If there is only a single script in common, set to that. |
11075 | * Otherwise, use the intersection going forward */ |
11076 | Safefree(intersection)Perl_safesysfree(((void *)(intersection))); |
11077 | intersection = NULL((void*)0); |
11078 | if (intersection_len == 1) { |
11079 | script_of_run = script_of_char = new_overlap[0]; |
11080 | Safefree(new_overlap)Perl_safesysfree(((void *)(new_overlap))); |
11081 | new_overlap = NULL((void*)0); |
11082 | } |
11083 | else { |
11084 | intersection = new_overlap; |
11085 | } |
11086 | } |
11087 | |
11088 | #endif |
11089 | |
11090 | scripts_match: |
11091 | |
11092 | /* Here, the script of the character is compatible with that of the |
11093 | * run. That means that in most cases, it continues the script run. |
11094 | * Either it and the run match exactly, or one or both can be in any of |
11095 | * several scripts, and the intersection is not empty. However, if the |
11096 | * character is a decimal digit, it could still mean failure if it is |
11097 | * from the wrong sequence of 10. So, we need to look at if it's a |
11098 | * digit. We've already handled the 10 decimal digits, and the next |
11099 | * lowest one is this one: */ |
11100 | if (cp < FIRST_NON_ASCII_DECIMAL_DIGIT0x660) { |
11101 | continue; /* Not a digit; this character is part of the run */ |
11102 | } |
11103 | |
11104 | /* If we have a definitive '0' for the script of this character, we |
11105 | * know that for this to be a digit, it must be in the range of +0..+9 |
11106 | * of that zero. */ |
11107 | if ( script_of_char >= 0 |
11108 | && (zero_of_char = script_zeros[script_of_char])) |
11109 | { |
11110 | if ( cp < zero_of_char |
11111 | || cp > zero_of_char + 9) |
11112 | { |
11113 | continue; /* Not a digit; this character is part of the run |
11114 | */ |
11115 | } |
11116 | |
11117 | } |
11118 | else { /* Need to look up if this character is a digit or not */ |
11119 | SSize_tssize_t index_of_zero_of_char; |
11120 | index_of_zero_of_char = _invlist_searchPerl__invlist_search(decimals_invlist, cp); |
11121 | if ( UNLIKELY(index_of_zero_of_char < 0)__builtin_expect(((index_of_zero_of_char < 0) ? (_Bool)1 : (_Bool)0),(0)) |
11122 | || ! ELEMENT_RANGE_MATCHES_INVLIST(index_of_zero_of_char)(! ((index_of_zero_of_char) & 1))) |
11123 | { |
11124 | continue; /* Not a digit; this character is part of the run. |
11125 | */ |
11126 | } |
11127 | |
11128 | zero_of_char = decimals_array[index_of_zero_of_char]; |
11129 | } |
11130 | |
11131 | /* Here, the character is a decimal digit, and the zero of its sequence |
11132 | * of 10 is in 'zero_of_char'. If we already have a zero for this run, |
11133 | * they better be the same. */ |
11134 | if (zero_of_run) { |
11135 | if (zero_of_run != zero_of_char) { |
11136 | retval = FALSE(0); |
11137 | break; |
11138 | } |
11139 | } |
11140 | else { /* Otherwise we now have a zero for this run */ |
11141 | zero_of_run = zero_of_char; |
11142 | } |
11143 | } /* end of looping through CLOSESR text */ |
11144 | |
11145 | Safefree(intersection)Perl_safesysfree(((void *)(intersection))); |
11146 | |
11147 | if (ret_script != NULL((void*)0)) { |
11148 | if (retval) { |
11149 | *ret_script = script_of_run; |
11150 | } |
11151 | else { |
11152 | *ret_script = SCX_INVALID; |
11153 | } |
11154 | } |
11155 | |
11156 | return retval; |
11157 | } |
11158 | |
11159 | #endif /* ifndef PERL_IN_XSUB_RE */ |
11160 | |
11161 | /* |
11162 | * ex: set ts=8 sts=4 sw=4 et: |
11163 | */ |