1*820c1a8dSHiroo HAYASHI /* Extended regular expression matching and search library.
2*820c1a8dSHiroo HAYASHI Copyright (C) 2002-2021 Free Software Foundation, Inc.
3*820c1a8dSHiroo HAYASHI This file is part of the GNU C Library.
4*820c1a8dSHiroo HAYASHI Contributed by Isamu Hasegawa <isamu@yamato.ibm.com>.
5*820c1a8dSHiroo HAYASHI
6*820c1a8dSHiroo HAYASHI The GNU C Library is free software; you can redistribute it and/or
7*820c1a8dSHiroo HAYASHI modify it under the terms of the GNU Lesser General Public
8*820c1a8dSHiroo HAYASHI License as published by the Free Software Foundation; either
9*820c1a8dSHiroo HAYASHI version 2.1 of the License, or (at your option) any later version.
10*820c1a8dSHiroo HAYASHI
11*820c1a8dSHiroo HAYASHI The GNU C Library is distributed in the hope that it will be useful,
12*820c1a8dSHiroo HAYASHI but WITHOUT ANY WARRANTY; without even the implied warranty of
13*820c1a8dSHiroo HAYASHI MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14*820c1a8dSHiroo HAYASHI Lesser General Public License for more details.
15*820c1a8dSHiroo HAYASHI
16*820c1a8dSHiroo HAYASHI You should have received a copy of the GNU Lesser General Public
17*820c1a8dSHiroo HAYASHI License along with the GNU C Library; if not, see
18*820c1a8dSHiroo HAYASHI <https://www.gnu.org/licenses/>. */
19*820c1a8dSHiroo HAYASHI
20*820c1a8dSHiroo HAYASHI static reg_errcode_t match_ctx_init (re_match_context_t *cache, int eflags,
21*820c1a8dSHiroo HAYASHI Idx n);
22*820c1a8dSHiroo HAYASHI static void match_ctx_clean (re_match_context_t *mctx);
23*820c1a8dSHiroo HAYASHI static void match_ctx_free (re_match_context_t *cache);
24*820c1a8dSHiroo HAYASHI static reg_errcode_t match_ctx_add_entry (re_match_context_t *cache, Idx node,
25*820c1a8dSHiroo HAYASHI Idx str_idx, Idx from, Idx to);
26*820c1a8dSHiroo HAYASHI static Idx search_cur_bkref_entry (const re_match_context_t *mctx, Idx str_idx);
27*820c1a8dSHiroo HAYASHI static reg_errcode_t match_ctx_add_subtop (re_match_context_t *mctx, Idx node,
28*820c1a8dSHiroo HAYASHI Idx str_idx);
29*820c1a8dSHiroo HAYASHI static re_sub_match_last_t * match_ctx_add_sublast (re_sub_match_top_t *subtop,
30*820c1a8dSHiroo HAYASHI Idx node, Idx str_idx);
31*820c1a8dSHiroo HAYASHI static void sift_ctx_init (re_sift_context_t *sctx, re_dfastate_t **sifted_sts,
32*820c1a8dSHiroo HAYASHI re_dfastate_t **limited_sts, Idx last_node,
33*820c1a8dSHiroo HAYASHI Idx last_str_idx);
34*820c1a8dSHiroo HAYASHI static reg_errcode_t re_search_internal (const regex_t *preg,
35*820c1a8dSHiroo HAYASHI const char *string, Idx length,
36*820c1a8dSHiroo HAYASHI Idx start, Idx last_start, Idx stop,
37*820c1a8dSHiroo HAYASHI size_t nmatch, regmatch_t pmatch[],
38*820c1a8dSHiroo HAYASHI int eflags);
39*820c1a8dSHiroo HAYASHI static regoff_t re_search_2_stub (struct re_pattern_buffer *bufp,
40*820c1a8dSHiroo HAYASHI const char *string1, Idx length1,
41*820c1a8dSHiroo HAYASHI const char *string2, Idx length2,
42*820c1a8dSHiroo HAYASHI Idx start, regoff_t range,
43*820c1a8dSHiroo HAYASHI struct re_registers *regs,
44*820c1a8dSHiroo HAYASHI Idx stop, bool ret_len);
45*820c1a8dSHiroo HAYASHI static regoff_t re_search_stub (struct re_pattern_buffer *bufp,
46*820c1a8dSHiroo HAYASHI const char *string, Idx length, Idx start,
47*820c1a8dSHiroo HAYASHI regoff_t range, Idx stop,
48*820c1a8dSHiroo HAYASHI struct re_registers *regs,
49*820c1a8dSHiroo HAYASHI bool ret_len);
50*820c1a8dSHiroo HAYASHI static unsigned re_copy_regs (struct re_registers *regs, regmatch_t *pmatch,
51*820c1a8dSHiroo HAYASHI Idx nregs, int regs_allocated);
52*820c1a8dSHiroo HAYASHI static reg_errcode_t prune_impossible_nodes (re_match_context_t *mctx);
53*820c1a8dSHiroo HAYASHI static Idx check_matching (re_match_context_t *mctx, bool fl_longest_match,
54*820c1a8dSHiroo HAYASHI Idx *p_match_first);
55*820c1a8dSHiroo HAYASHI static Idx check_halt_state_context (const re_match_context_t *mctx,
56*820c1a8dSHiroo HAYASHI const re_dfastate_t *state, Idx idx);
57*820c1a8dSHiroo HAYASHI static void update_regs (const re_dfa_t *dfa, regmatch_t *pmatch,
58*820c1a8dSHiroo HAYASHI regmatch_t *prev_idx_match, Idx cur_node,
59*820c1a8dSHiroo HAYASHI Idx cur_idx, Idx nmatch);
60*820c1a8dSHiroo HAYASHI static reg_errcode_t push_fail_stack (struct re_fail_stack_t *fs,
61*820c1a8dSHiroo HAYASHI Idx str_idx, Idx dest_node, Idx nregs,
62*820c1a8dSHiroo HAYASHI regmatch_t *regs, regmatch_t *prevregs,
63*820c1a8dSHiroo HAYASHI re_node_set *eps_via_nodes);
64*820c1a8dSHiroo HAYASHI static reg_errcode_t set_regs (const regex_t *preg,
65*820c1a8dSHiroo HAYASHI const re_match_context_t *mctx,
66*820c1a8dSHiroo HAYASHI size_t nmatch, regmatch_t *pmatch,
67*820c1a8dSHiroo HAYASHI bool fl_backtrack);
68*820c1a8dSHiroo HAYASHI static reg_errcode_t free_fail_stack_return (struct re_fail_stack_t *fs);
69*820c1a8dSHiroo HAYASHI
70*820c1a8dSHiroo HAYASHI #ifdef RE_ENABLE_I18N
71*820c1a8dSHiroo HAYASHI static int sift_states_iter_mb (const re_match_context_t *mctx,
72*820c1a8dSHiroo HAYASHI re_sift_context_t *sctx,
73*820c1a8dSHiroo HAYASHI Idx node_idx, Idx str_idx, Idx max_str_idx);
74*820c1a8dSHiroo HAYASHI #endif /* RE_ENABLE_I18N */
75*820c1a8dSHiroo HAYASHI static reg_errcode_t sift_states_backward (const re_match_context_t *mctx,
76*820c1a8dSHiroo HAYASHI re_sift_context_t *sctx);
77*820c1a8dSHiroo HAYASHI static reg_errcode_t build_sifted_states (const re_match_context_t *mctx,
78*820c1a8dSHiroo HAYASHI re_sift_context_t *sctx, Idx str_idx,
79*820c1a8dSHiroo HAYASHI re_node_set *cur_dest);
80*820c1a8dSHiroo HAYASHI static reg_errcode_t update_cur_sifted_state (const re_match_context_t *mctx,
81*820c1a8dSHiroo HAYASHI re_sift_context_t *sctx,
82*820c1a8dSHiroo HAYASHI Idx str_idx,
83*820c1a8dSHiroo HAYASHI re_node_set *dest_nodes);
84*820c1a8dSHiroo HAYASHI static reg_errcode_t add_epsilon_src_nodes (const re_dfa_t *dfa,
85*820c1a8dSHiroo HAYASHI re_node_set *dest_nodes,
86*820c1a8dSHiroo HAYASHI const re_node_set *candidates);
87*820c1a8dSHiroo HAYASHI static bool check_dst_limits (const re_match_context_t *mctx,
88*820c1a8dSHiroo HAYASHI const re_node_set *limits,
89*820c1a8dSHiroo HAYASHI Idx dst_node, Idx dst_idx, Idx src_node,
90*820c1a8dSHiroo HAYASHI Idx src_idx);
91*820c1a8dSHiroo HAYASHI static int check_dst_limits_calc_pos_1 (const re_match_context_t *mctx,
92*820c1a8dSHiroo HAYASHI int boundaries, Idx subexp_idx,
93*820c1a8dSHiroo HAYASHI Idx from_node, Idx bkref_idx);
94*820c1a8dSHiroo HAYASHI static int check_dst_limits_calc_pos (const re_match_context_t *mctx,
95*820c1a8dSHiroo HAYASHI Idx limit, Idx subexp_idx,
96*820c1a8dSHiroo HAYASHI Idx node, Idx str_idx,
97*820c1a8dSHiroo HAYASHI Idx bkref_idx);
98*820c1a8dSHiroo HAYASHI static reg_errcode_t check_subexp_limits (const re_dfa_t *dfa,
99*820c1a8dSHiroo HAYASHI re_node_set *dest_nodes,
100*820c1a8dSHiroo HAYASHI const re_node_set *candidates,
101*820c1a8dSHiroo HAYASHI re_node_set *limits,
102*820c1a8dSHiroo HAYASHI struct re_backref_cache_entry *bkref_ents,
103*820c1a8dSHiroo HAYASHI Idx str_idx);
104*820c1a8dSHiroo HAYASHI static reg_errcode_t sift_states_bkref (const re_match_context_t *mctx,
105*820c1a8dSHiroo HAYASHI re_sift_context_t *sctx,
106*820c1a8dSHiroo HAYASHI Idx str_idx, const re_node_set *candidates);
107*820c1a8dSHiroo HAYASHI static reg_errcode_t merge_state_array (const re_dfa_t *dfa,
108*820c1a8dSHiroo HAYASHI re_dfastate_t **dst,
109*820c1a8dSHiroo HAYASHI re_dfastate_t **src, Idx num);
110*820c1a8dSHiroo HAYASHI static re_dfastate_t *find_recover_state (reg_errcode_t *err,
111*820c1a8dSHiroo HAYASHI re_match_context_t *mctx);
112*820c1a8dSHiroo HAYASHI static re_dfastate_t *transit_state (reg_errcode_t *err,
113*820c1a8dSHiroo HAYASHI re_match_context_t *mctx,
114*820c1a8dSHiroo HAYASHI re_dfastate_t *state);
115*820c1a8dSHiroo HAYASHI static re_dfastate_t *merge_state_with_log (reg_errcode_t *err,
116*820c1a8dSHiroo HAYASHI re_match_context_t *mctx,
117*820c1a8dSHiroo HAYASHI re_dfastate_t *next_state);
118*820c1a8dSHiroo HAYASHI static reg_errcode_t check_subexp_matching_top (re_match_context_t *mctx,
119*820c1a8dSHiroo HAYASHI re_node_set *cur_nodes,
120*820c1a8dSHiroo HAYASHI Idx str_idx);
121*820c1a8dSHiroo HAYASHI #if 0
122*820c1a8dSHiroo HAYASHI static re_dfastate_t *transit_state_sb (reg_errcode_t *err,
123*820c1a8dSHiroo HAYASHI re_match_context_t *mctx,
124*820c1a8dSHiroo HAYASHI re_dfastate_t *pstate);
125*820c1a8dSHiroo HAYASHI #endif
126*820c1a8dSHiroo HAYASHI #ifdef RE_ENABLE_I18N
127*820c1a8dSHiroo HAYASHI static reg_errcode_t transit_state_mb (re_match_context_t *mctx,
128*820c1a8dSHiroo HAYASHI re_dfastate_t *pstate);
129*820c1a8dSHiroo HAYASHI #endif /* RE_ENABLE_I18N */
130*820c1a8dSHiroo HAYASHI static reg_errcode_t transit_state_bkref (re_match_context_t *mctx,
131*820c1a8dSHiroo HAYASHI const re_node_set *nodes);
132*820c1a8dSHiroo HAYASHI static reg_errcode_t get_subexp (re_match_context_t *mctx,
133*820c1a8dSHiroo HAYASHI Idx bkref_node, Idx bkref_str_idx);
134*820c1a8dSHiroo HAYASHI static reg_errcode_t get_subexp_sub (re_match_context_t *mctx,
135*820c1a8dSHiroo HAYASHI const re_sub_match_top_t *sub_top,
136*820c1a8dSHiroo HAYASHI re_sub_match_last_t *sub_last,
137*820c1a8dSHiroo HAYASHI Idx bkref_node, Idx bkref_str);
138*820c1a8dSHiroo HAYASHI static Idx find_subexp_node (const re_dfa_t *dfa, const re_node_set *nodes,
139*820c1a8dSHiroo HAYASHI Idx subexp_idx, int type);
140*820c1a8dSHiroo HAYASHI static reg_errcode_t check_arrival (re_match_context_t *mctx,
141*820c1a8dSHiroo HAYASHI state_array_t *path, Idx top_node,
142*820c1a8dSHiroo HAYASHI Idx top_str, Idx last_node, Idx last_str,
143*820c1a8dSHiroo HAYASHI int type);
144*820c1a8dSHiroo HAYASHI static reg_errcode_t check_arrival_add_next_nodes (re_match_context_t *mctx,
145*820c1a8dSHiroo HAYASHI Idx str_idx,
146*820c1a8dSHiroo HAYASHI re_node_set *cur_nodes,
147*820c1a8dSHiroo HAYASHI re_node_set *next_nodes);
148*820c1a8dSHiroo HAYASHI static reg_errcode_t check_arrival_expand_ecl (const re_dfa_t *dfa,
149*820c1a8dSHiroo HAYASHI re_node_set *cur_nodes,
150*820c1a8dSHiroo HAYASHI Idx ex_subexp, int type);
151*820c1a8dSHiroo HAYASHI static reg_errcode_t check_arrival_expand_ecl_sub (const re_dfa_t *dfa,
152*820c1a8dSHiroo HAYASHI re_node_set *dst_nodes,
153*820c1a8dSHiroo HAYASHI Idx target, Idx ex_subexp,
154*820c1a8dSHiroo HAYASHI int type);
155*820c1a8dSHiroo HAYASHI static reg_errcode_t expand_bkref_cache (re_match_context_t *mctx,
156*820c1a8dSHiroo HAYASHI re_node_set *cur_nodes, Idx cur_str,
157*820c1a8dSHiroo HAYASHI Idx subexp_num, int type);
158*820c1a8dSHiroo HAYASHI static bool build_trtable (const re_dfa_t *dfa, re_dfastate_t *state);
159*820c1a8dSHiroo HAYASHI #ifdef RE_ENABLE_I18N
160*820c1a8dSHiroo HAYASHI static int check_node_accept_bytes (const re_dfa_t *dfa, Idx node_idx,
161*820c1a8dSHiroo HAYASHI const re_string_t *input, Idx idx);
162*820c1a8dSHiroo HAYASHI # ifdef _LIBC
163*820c1a8dSHiroo HAYASHI static unsigned int find_collation_sequence_value (const unsigned char *mbs,
164*820c1a8dSHiroo HAYASHI size_t name_len);
165*820c1a8dSHiroo HAYASHI # endif /* _LIBC */
166*820c1a8dSHiroo HAYASHI #endif /* RE_ENABLE_I18N */
167*820c1a8dSHiroo HAYASHI static Idx group_nodes_into_DFAstates (const re_dfa_t *dfa,
168*820c1a8dSHiroo HAYASHI const re_dfastate_t *state,
169*820c1a8dSHiroo HAYASHI re_node_set *states_node,
170*820c1a8dSHiroo HAYASHI bitset_t *states_ch);
171*820c1a8dSHiroo HAYASHI static bool check_node_accept (const re_match_context_t *mctx,
172*820c1a8dSHiroo HAYASHI const re_token_t *node, Idx idx);
173*820c1a8dSHiroo HAYASHI static reg_errcode_t extend_buffers (re_match_context_t *mctx, int min_len);
174*820c1a8dSHiroo HAYASHI
175*820c1a8dSHiroo HAYASHI /* Entry point for POSIX code. */
176*820c1a8dSHiroo HAYASHI
177*820c1a8dSHiroo HAYASHI /* regexec searches for a given pattern, specified by PREG, in the
178*820c1a8dSHiroo HAYASHI string STRING.
179*820c1a8dSHiroo HAYASHI
180*820c1a8dSHiroo HAYASHI If NMATCH is zero or REG_NOSUB was set in the cflags argument to
181*820c1a8dSHiroo HAYASHI 'regcomp', we ignore PMATCH. Otherwise, we assume PMATCH has at
182*820c1a8dSHiroo HAYASHI least NMATCH elements, and we set them to the offsets of the
183*820c1a8dSHiroo HAYASHI corresponding matched substrings.
184*820c1a8dSHiroo HAYASHI
185*820c1a8dSHiroo HAYASHI EFLAGS specifies "execution flags" which affect matching: if
186*820c1a8dSHiroo HAYASHI REG_NOTBOL is set, then ^ does not match at the beginning of the
187*820c1a8dSHiroo HAYASHI string; if REG_NOTEOL is set, then $ does not match at the end.
188*820c1a8dSHiroo HAYASHI
189*820c1a8dSHiroo HAYASHI Return 0 if a match is found, REG_NOMATCH if not, REG_BADPAT if
190*820c1a8dSHiroo HAYASHI EFLAGS is invalid. */
191*820c1a8dSHiroo HAYASHI
192*820c1a8dSHiroo HAYASHI int
regexec(const regex_t * __restrict preg,const char * __restrict string,size_t nmatch,regmatch_t pmatch[],int eflags)193*820c1a8dSHiroo HAYASHI regexec (const regex_t *__restrict preg, const char *__restrict string,
194*820c1a8dSHiroo HAYASHI size_t nmatch, regmatch_t pmatch[], int eflags)
195*820c1a8dSHiroo HAYASHI {
196*820c1a8dSHiroo HAYASHI reg_errcode_t err;
197*820c1a8dSHiroo HAYASHI Idx start, length;
198*820c1a8dSHiroo HAYASHI re_dfa_t *dfa = preg->buffer;
199*820c1a8dSHiroo HAYASHI
200*820c1a8dSHiroo HAYASHI if (eflags & ~(REG_NOTBOL | REG_NOTEOL | REG_STARTEND))
201*820c1a8dSHiroo HAYASHI return REG_BADPAT;
202*820c1a8dSHiroo HAYASHI
203*820c1a8dSHiroo HAYASHI if (eflags & REG_STARTEND)
204*820c1a8dSHiroo HAYASHI {
205*820c1a8dSHiroo HAYASHI start = pmatch[0].rm_so;
206*820c1a8dSHiroo HAYASHI length = pmatch[0].rm_eo;
207*820c1a8dSHiroo HAYASHI }
208*820c1a8dSHiroo HAYASHI else
209*820c1a8dSHiroo HAYASHI {
210*820c1a8dSHiroo HAYASHI start = 0;
211*820c1a8dSHiroo HAYASHI length = strlen (string);
212*820c1a8dSHiroo HAYASHI }
213*820c1a8dSHiroo HAYASHI
214*820c1a8dSHiroo HAYASHI lock_lock (dfa->lock);
215*820c1a8dSHiroo HAYASHI if (preg->no_sub)
216*820c1a8dSHiroo HAYASHI err = re_search_internal (preg, string, length, start, length,
217*820c1a8dSHiroo HAYASHI length, 0, NULL, eflags);
218*820c1a8dSHiroo HAYASHI else
219*820c1a8dSHiroo HAYASHI err = re_search_internal (preg, string, length, start, length,
220*820c1a8dSHiroo HAYASHI length, nmatch, pmatch, eflags);
221*820c1a8dSHiroo HAYASHI lock_unlock (dfa->lock);
222*820c1a8dSHiroo HAYASHI return err != REG_NOERROR;
223*820c1a8dSHiroo HAYASHI }
224*820c1a8dSHiroo HAYASHI
225*820c1a8dSHiroo HAYASHI #ifdef _LIBC
226*820c1a8dSHiroo HAYASHI libc_hidden_def (__regexec)
227*820c1a8dSHiroo HAYASHI
228*820c1a8dSHiroo HAYASHI # include <shlib-compat.h>
229*820c1a8dSHiroo HAYASHI versioned_symbol (libc, __regexec, regexec, GLIBC_2_3_4);
230*820c1a8dSHiroo HAYASHI
231*820c1a8dSHiroo HAYASHI # if SHLIB_COMPAT (libc, GLIBC_2_0, GLIBC_2_3_4)
232*820c1a8dSHiroo HAYASHI __typeof__ (__regexec) __compat_regexec;
233*820c1a8dSHiroo HAYASHI
234*820c1a8dSHiroo HAYASHI int
235*820c1a8dSHiroo HAYASHI attribute_compat_text_section
__compat_regexec(const regex_t * __restrict preg,const char * __restrict string,size_t nmatch,regmatch_t pmatch[],int eflags)236*820c1a8dSHiroo HAYASHI __compat_regexec (const regex_t *__restrict preg,
237*820c1a8dSHiroo HAYASHI const char *__restrict string, size_t nmatch,
238*820c1a8dSHiroo HAYASHI regmatch_t pmatch[], int eflags)
239*820c1a8dSHiroo HAYASHI {
240*820c1a8dSHiroo HAYASHI return regexec (preg, string, nmatch, pmatch,
241*820c1a8dSHiroo HAYASHI eflags & (REG_NOTBOL | REG_NOTEOL));
242*820c1a8dSHiroo HAYASHI }
243*820c1a8dSHiroo HAYASHI compat_symbol (libc, __compat_regexec, regexec, GLIBC_2_0);
244*820c1a8dSHiroo HAYASHI # endif
245*820c1a8dSHiroo HAYASHI #endif
246*820c1a8dSHiroo HAYASHI
247*820c1a8dSHiroo HAYASHI /* Entry points for GNU code. */
248*820c1a8dSHiroo HAYASHI
249*820c1a8dSHiroo HAYASHI /* re_match, re_search, re_match_2, re_search_2
250*820c1a8dSHiroo HAYASHI
251*820c1a8dSHiroo HAYASHI The former two functions operate on STRING with length LENGTH,
252*820c1a8dSHiroo HAYASHI while the later two operate on concatenation of STRING1 and STRING2
253*820c1a8dSHiroo HAYASHI with lengths LENGTH1 and LENGTH2, respectively.
254*820c1a8dSHiroo HAYASHI
255*820c1a8dSHiroo HAYASHI re_match() matches the compiled pattern in BUFP against the string,
256*820c1a8dSHiroo HAYASHI starting at index START.
257*820c1a8dSHiroo HAYASHI
258*820c1a8dSHiroo HAYASHI re_search() first tries matching at index START, then it tries to match
259*820c1a8dSHiroo HAYASHI starting from index START + 1, and so on. The last start position tried
260*820c1a8dSHiroo HAYASHI is START + RANGE. (Thus RANGE = 0 forces re_search to operate the same
261*820c1a8dSHiroo HAYASHI way as re_match().)
262*820c1a8dSHiroo HAYASHI
263*820c1a8dSHiroo HAYASHI The parameter STOP of re_{match,search}_2 specifies that no match exceeding
264*820c1a8dSHiroo HAYASHI the first STOP characters of the concatenation of the strings should be
265*820c1a8dSHiroo HAYASHI concerned.
266*820c1a8dSHiroo HAYASHI
267*820c1a8dSHiroo HAYASHI If REGS is not NULL, and BUFP->no_sub is not set, the offsets of the match
268*820c1a8dSHiroo HAYASHI and all groups is stored in REGS. (For the "_2" variants, the offsets are
269*820c1a8dSHiroo HAYASHI computed relative to the concatenation, not relative to the individual
270*820c1a8dSHiroo HAYASHI strings.)
271*820c1a8dSHiroo HAYASHI
272*820c1a8dSHiroo HAYASHI On success, re_match* functions return the length of the match, re_search*
273*820c1a8dSHiroo HAYASHI return the position of the start of the match. They return -1 on
274*820c1a8dSHiroo HAYASHI match failure, -2 on error. */
275*820c1a8dSHiroo HAYASHI
276*820c1a8dSHiroo HAYASHI regoff_t
re_match(struct re_pattern_buffer * bufp,const char * string,Idx length,Idx start,struct re_registers * regs)277*820c1a8dSHiroo HAYASHI re_match (struct re_pattern_buffer *bufp, const char *string, Idx length,
278*820c1a8dSHiroo HAYASHI Idx start, struct re_registers *regs)
279*820c1a8dSHiroo HAYASHI {
280*820c1a8dSHiroo HAYASHI return re_search_stub (bufp, string, length, start, 0, length, regs, true);
281*820c1a8dSHiroo HAYASHI }
282*820c1a8dSHiroo HAYASHI #ifdef _LIBC
weak_alias(__re_match,re_match)283*820c1a8dSHiroo HAYASHI weak_alias (__re_match, re_match)
284*820c1a8dSHiroo HAYASHI #endif
285*820c1a8dSHiroo HAYASHI
286*820c1a8dSHiroo HAYASHI regoff_t
287*820c1a8dSHiroo HAYASHI re_search (struct re_pattern_buffer *bufp, const char *string, Idx length,
288*820c1a8dSHiroo HAYASHI Idx start, regoff_t range, struct re_registers *regs)
289*820c1a8dSHiroo HAYASHI {
290*820c1a8dSHiroo HAYASHI return re_search_stub (bufp, string, length, start, range, length, regs,
291*820c1a8dSHiroo HAYASHI false);
292*820c1a8dSHiroo HAYASHI }
293*820c1a8dSHiroo HAYASHI #ifdef _LIBC
weak_alias(__re_search,re_search)294*820c1a8dSHiroo HAYASHI weak_alias (__re_search, re_search)
295*820c1a8dSHiroo HAYASHI #endif
296*820c1a8dSHiroo HAYASHI
297*820c1a8dSHiroo HAYASHI regoff_t
298*820c1a8dSHiroo HAYASHI re_match_2 (struct re_pattern_buffer *bufp, const char *string1, Idx length1,
299*820c1a8dSHiroo HAYASHI const char *string2, Idx length2, Idx start,
300*820c1a8dSHiroo HAYASHI struct re_registers *regs, Idx stop)
301*820c1a8dSHiroo HAYASHI {
302*820c1a8dSHiroo HAYASHI return re_search_2_stub (bufp, string1, length1, string2, length2,
303*820c1a8dSHiroo HAYASHI start, 0, regs, stop, true);
304*820c1a8dSHiroo HAYASHI }
305*820c1a8dSHiroo HAYASHI #ifdef _LIBC
weak_alias(__re_match_2,re_match_2)306*820c1a8dSHiroo HAYASHI weak_alias (__re_match_2, re_match_2)
307*820c1a8dSHiroo HAYASHI #endif
308*820c1a8dSHiroo HAYASHI
309*820c1a8dSHiroo HAYASHI regoff_t
310*820c1a8dSHiroo HAYASHI re_search_2 (struct re_pattern_buffer *bufp, const char *string1, Idx length1,
311*820c1a8dSHiroo HAYASHI const char *string2, Idx length2, Idx start, regoff_t range,
312*820c1a8dSHiroo HAYASHI struct re_registers *regs, Idx stop)
313*820c1a8dSHiroo HAYASHI {
314*820c1a8dSHiroo HAYASHI return re_search_2_stub (bufp, string1, length1, string2, length2,
315*820c1a8dSHiroo HAYASHI start, range, regs, stop, false);
316*820c1a8dSHiroo HAYASHI }
317*820c1a8dSHiroo HAYASHI #ifdef _LIBC
weak_alias(__re_search_2,re_search_2)318*820c1a8dSHiroo HAYASHI weak_alias (__re_search_2, re_search_2)
319*820c1a8dSHiroo HAYASHI #endif
320*820c1a8dSHiroo HAYASHI
321*820c1a8dSHiroo HAYASHI static regoff_t
322*820c1a8dSHiroo HAYASHI re_search_2_stub (struct re_pattern_buffer *bufp, const char *string1,
323*820c1a8dSHiroo HAYASHI Idx length1, const char *string2, Idx length2, Idx start,
324*820c1a8dSHiroo HAYASHI regoff_t range, struct re_registers *regs,
325*820c1a8dSHiroo HAYASHI Idx stop, bool ret_len)
326*820c1a8dSHiroo HAYASHI {
327*820c1a8dSHiroo HAYASHI const char *str;
328*820c1a8dSHiroo HAYASHI regoff_t rval;
329*820c1a8dSHiroo HAYASHI Idx len;
330*820c1a8dSHiroo HAYASHI char *s = NULL;
331*820c1a8dSHiroo HAYASHI
332*820c1a8dSHiroo HAYASHI if (__glibc_unlikely ((length1 < 0 || length2 < 0 || stop < 0
333*820c1a8dSHiroo HAYASHI || INT_ADD_WRAPV (length1, length2, &len))))
334*820c1a8dSHiroo HAYASHI return -2;
335*820c1a8dSHiroo HAYASHI
336*820c1a8dSHiroo HAYASHI /* Concatenate the strings. */
337*820c1a8dSHiroo HAYASHI if (length2 > 0)
338*820c1a8dSHiroo HAYASHI if (length1 > 0)
339*820c1a8dSHiroo HAYASHI {
340*820c1a8dSHiroo HAYASHI s = re_malloc (char, len);
341*820c1a8dSHiroo HAYASHI
342*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (s == NULL))
343*820c1a8dSHiroo HAYASHI return -2;
344*820c1a8dSHiroo HAYASHI #ifdef _LIBC
345*820c1a8dSHiroo HAYASHI memcpy (__mempcpy (s, string1, length1), string2, length2);
346*820c1a8dSHiroo HAYASHI #else
347*820c1a8dSHiroo HAYASHI memcpy (s, string1, length1);
348*820c1a8dSHiroo HAYASHI memcpy (s + length1, string2, length2);
349*820c1a8dSHiroo HAYASHI #endif
350*820c1a8dSHiroo HAYASHI str = s;
351*820c1a8dSHiroo HAYASHI }
352*820c1a8dSHiroo HAYASHI else
353*820c1a8dSHiroo HAYASHI str = string2;
354*820c1a8dSHiroo HAYASHI else
355*820c1a8dSHiroo HAYASHI str = string1;
356*820c1a8dSHiroo HAYASHI
357*820c1a8dSHiroo HAYASHI rval = re_search_stub (bufp, str, len, start, range, stop, regs,
358*820c1a8dSHiroo HAYASHI ret_len);
359*820c1a8dSHiroo HAYASHI re_free (s);
360*820c1a8dSHiroo HAYASHI return rval;
361*820c1a8dSHiroo HAYASHI }
362*820c1a8dSHiroo HAYASHI
363*820c1a8dSHiroo HAYASHI /* The parameters have the same meaning as those of re_search.
364*820c1a8dSHiroo HAYASHI Additional parameters:
365*820c1a8dSHiroo HAYASHI If RET_LEN is true the length of the match is returned (re_match style);
366*820c1a8dSHiroo HAYASHI otherwise the position of the match is returned. */
367*820c1a8dSHiroo HAYASHI
368*820c1a8dSHiroo HAYASHI static regoff_t
re_search_stub(struct re_pattern_buffer * bufp,const char * string,Idx length,Idx start,regoff_t range,Idx stop,struct re_registers * regs,bool ret_len)369*820c1a8dSHiroo HAYASHI re_search_stub (struct re_pattern_buffer *bufp, const char *string, Idx length,
370*820c1a8dSHiroo HAYASHI Idx start, regoff_t range, Idx stop, struct re_registers *regs,
371*820c1a8dSHiroo HAYASHI bool ret_len)
372*820c1a8dSHiroo HAYASHI {
373*820c1a8dSHiroo HAYASHI reg_errcode_t result;
374*820c1a8dSHiroo HAYASHI regmatch_t *pmatch;
375*820c1a8dSHiroo HAYASHI Idx nregs;
376*820c1a8dSHiroo HAYASHI regoff_t rval;
377*820c1a8dSHiroo HAYASHI int eflags = 0;
378*820c1a8dSHiroo HAYASHI re_dfa_t *dfa = bufp->buffer;
379*820c1a8dSHiroo HAYASHI Idx last_start = start + range;
380*820c1a8dSHiroo HAYASHI
381*820c1a8dSHiroo HAYASHI /* Check for out-of-range. */
382*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (start < 0 || start > length))
383*820c1a8dSHiroo HAYASHI return -1;
384*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (length < last_start
385*820c1a8dSHiroo HAYASHI || (0 <= range && last_start < start)))
386*820c1a8dSHiroo HAYASHI last_start = length;
387*820c1a8dSHiroo HAYASHI else if (__glibc_unlikely (last_start < 0
388*820c1a8dSHiroo HAYASHI || (range < 0 && start <= last_start)))
389*820c1a8dSHiroo HAYASHI last_start = 0;
390*820c1a8dSHiroo HAYASHI
391*820c1a8dSHiroo HAYASHI lock_lock (dfa->lock);
392*820c1a8dSHiroo HAYASHI
393*820c1a8dSHiroo HAYASHI eflags |= (bufp->not_bol) ? REG_NOTBOL : 0;
394*820c1a8dSHiroo HAYASHI eflags |= (bufp->not_eol) ? REG_NOTEOL : 0;
395*820c1a8dSHiroo HAYASHI
396*820c1a8dSHiroo HAYASHI /* Compile fastmap if we haven't yet. */
397*820c1a8dSHiroo HAYASHI if (start < last_start && bufp->fastmap != NULL && !bufp->fastmap_accurate)
398*820c1a8dSHiroo HAYASHI re_compile_fastmap (bufp);
399*820c1a8dSHiroo HAYASHI
400*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (bufp->no_sub))
401*820c1a8dSHiroo HAYASHI regs = NULL;
402*820c1a8dSHiroo HAYASHI
403*820c1a8dSHiroo HAYASHI /* We need at least 1 register. */
404*820c1a8dSHiroo HAYASHI if (regs == NULL)
405*820c1a8dSHiroo HAYASHI nregs = 1;
406*820c1a8dSHiroo HAYASHI else if (__glibc_unlikely (bufp->regs_allocated == REGS_FIXED
407*820c1a8dSHiroo HAYASHI && regs->num_regs <= bufp->re_nsub))
408*820c1a8dSHiroo HAYASHI {
409*820c1a8dSHiroo HAYASHI nregs = regs->num_regs;
410*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (nregs < 1))
411*820c1a8dSHiroo HAYASHI {
412*820c1a8dSHiroo HAYASHI /* Nothing can be copied to regs. */
413*820c1a8dSHiroo HAYASHI regs = NULL;
414*820c1a8dSHiroo HAYASHI nregs = 1;
415*820c1a8dSHiroo HAYASHI }
416*820c1a8dSHiroo HAYASHI }
417*820c1a8dSHiroo HAYASHI else
418*820c1a8dSHiroo HAYASHI nregs = bufp->re_nsub + 1;
419*820c1a8dSHiroo HAYASHI pmatch = re_malloc (regmatch_t, nregs);
420*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (pmatch == NULL))
421*820c1a8dSHiroo HAYASHI {
422*820c1a8dSHiroo HAYASHI rval = -2;
423*820c1a8dSHiroo HAYASHI goto out;
424*820c1a8dSHiroo HAYASHI }
425*820c1a8dSHiroo HAYASHI
426*820c1a8dSHiroo HAYASHI result = re_search_internal (bufp, string, length, start, last_start, stop,
427*820c1a8dSHiroo HAYASHI nregs, pmatch, eflags);
428*820c1a8dSHiroo HAYASHI
429*820c1a8dSHiroo HAYASHI rval = 0;
430*820c1a8dSHiroo HAYASHI
431*820c1a8dSHiroo HAYASHI /* I hope we needn't fill their regs with -1's when no match was found. */
432*820c1a8dSHiroo HAYASHI if (result != REG_NOERROR)
433*820c1a8dSHiroo HAYASHI rval = result == REG_NOMATCH ? -1 : -2;
434*820c1a8dSHiroo HAYASHI else if (regs != NULL)
435*820c1a8dSHiroo HAYASHI {
436*820c1a8dSHiroo HAYASHI /* If caller wants register contents data back, copy them. */
437*820c1a8dSHiroo HAYASHI bufp->regs_allocated = re_copy_regs (regs, pmatch, nregs,
438*820c1a8dSHiroo HAYASHI bufp->regs_allocated);
439*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (bufp->regs_allocated == REGS_UNALLOCATED))
440*820c1a8dSHiroo HAYASHI rval = -2;
441*820c1a8dSHiroo HAYASHI }
442*820c1a8dSHiroo HAYASHI
443*820c1a8dSHiroo HAYASHI if (__glibc_likely (rval == 0))
444*820c1a8dSHiroo HAYASHI {
445*820c1a8dSHiroo HAYASHI if (ret_len)
446*820c1a8dSHiroo HAYASHI {
447*820c1a8dSHiroo HAYASHI DEBUG_ASSERT (pmatch[0].rm_so == start);
448*820c1a8dSHiroo HAYASHI rval = pmatch[0].rm_eo - start;
449*820c1a8dSHiroo HAYASHI }
450*820c1a8dSHiroo HAYASHI else
451*820c1a8dSHiroo HAYASHI rval = pmatch[0].rm_so;
452*820c1a8dSHiroo HAYASHI }
453*820c1a8dSHiroo HAYASHI re_free (pmatch);
454*820c1a8dSHiroo HAYASHI out:
455*820c1a8dSHiroo HAYASHI lock_unlock (dfa->lock);
456*820c1a8dSHiroo HAYASHI return rval;
457*820c1a8dSHiroo HAYASHI }
458*820c1a8dSHiroo HAYASHI
459*820c1a8dSHiroo HAYASHI static unsigned
re_copy_regs(struct re_registers * regs,regmatch_t * pmatch,Idx nregs,int regs_allocated)460*820c1a8dSHiroo HAYASHI re_copy_regs (struct re_registers *regs, regmatch_t *pmatch, Idx nregs,
461*820c1a8dSHiroo HAYASHI int regs_allocated)
462*820c1a8dSHiroo HAYASHI {
463*820c1a8dSHiroo HAYASHI int rval = REGS_REALLOCATE;
464*820c1a8dSHiroo HAYASHI Idx i;
465*820c1a8dSHiroo HAYASHI Idx need_regs = nregs + 1;
466*820c1a8dSHiroo HAYASHI /* We need one extra element beyond 'num_regs' for the '-1' marker GNU code
467*820c1a8dSHiroo HAYASHI uses. */
468*820c1a8dSHiroo HAYASHI
469*820c1a8dSHiroo HAYASHI /* Have the register data arrays been allocated? */
470*820c1a8dSHiroo HAYASHI if (regs_allocated == REGS_UNALLOCATED)
471*820c1a8dSHiroo HAYASHI { /* No. So allocate them with malloc. */
472*820c1a8dSHiroo HAYASHI regs->start = re_malloc (regoff_t, need_regs);
473*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (regs->start == NULL))
474*820c1a8dSHiroo HAYASHI return REGS_UNALLOCATED;
475*820c1a8dSHiroo HAYASHI regs->end = re_malloc (regoff_t, need_regs);
476*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (regs->end == NULL))
477*820c1a8dSHiroo HAYASHI {
478*820c1a8dSHiroo HAYASHI re_free (regs->start);
479*820c1a8dSHiroo HAYASHI return REGS_UNALLOCATED;
480*820c1a8dSHiroo HAYASHI }
481*820c1a8dSHiroo HAYASHI regs->num_regs = need_regs;
482*820c1a8dSHiroo HAYASHI }
483*820c1a8dSHiroo HAYASHI else if (regs_allocated == REGS_REALLOCATE)
484*820c1a8dSHiroo HAYASHI { /* Yes. If we need more elements than were already
485*820c1a8dSHiroo HAYASHI allocated, reallocate them. If we need fewer, just
486*820c1a8dSHiroo HAYASHI leave it alone. */
487*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (need_regs > regs->num_regs))
488*820c1a8dSHiroo HAYASHI {
489*820c1a8dSHiroo HAYASHI regoff_t *new_start = re_realloc (regs->start, regoff_t, need_regs);
490*820c1a8dSHiroo HAYASHI regoff_t *new_end;
491*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (new_start == NULL))
492*820c1a8dSHiroo HAYASHI return REGS_UNALLOCATED;
493*820c1a8dSHiroo HAYASHI new_end = re_realloc (regs->end, regoff_t, need_regs);
494*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (new_end == NULL))
495*820c1a8dSHiroo HAYASHI {
496*820c1a8dSHiroo HAYASHI re_free (new_start);
497*820c1a8dSHiroo HAYASHI return REGS_UNALLOCATED;
498*820c1a8dSHiroo HAYASHI }
499*820c1a8dSHiroo HAYASHI regs->start = new_start;
500*820c1a8dSHiroo HAYASHI regs->end = new_end;
501*820c1a8dSHiroo HAYASHI regs->num_regs = need_regs;
502*820c1a8dSHiroo HAYASHI }
503*820c1a8dSHiroo HAYASHI }
504*820c1a8dSHiroo HAYASHI else
505*820c1a8dSHiroo HAYASHI {
506*820c1a8dSHiroo HAYASHI DEBUG_ASSERT (regs_allocated == REGS_FIXED);
507*820c1a8dSHiroo HAYASHI /* This function may not be called with REGS_FIXED and nregs too big. */
508*820c1a8dSHiroo HAYASHI DEBUG_ASSERT (nregs <= regs->num_regs);
509*820c1a8dSHiroo HAYASHI rval = REGS_FIXED;
510*820c1a8dSHiroo HAYASHI }
511*820c1a8dSHiroo HAYASHI
512*820c1a8dSHiroo HAYASHI /* Copy the regs. */
513*820c1a8dSHiroo HAYASHI for (i = 0; i < nregs; ++i)
514*820c1a8dSHiroo HAYASHI {
515*820c1a8dSHiroo HAYASHI regs->start[i] = pmatch[i].rm_so;
516*820c1a8dSHiroo HAYASHI regs->end[i] = pmatch[i].rm_eo;
517*820c1a8dSHiroo HAYASHI }
518*820c1a8dSHiroo HAYASHI for ( ; i < regs->num_regs; ++i)
519*820c1a8dSHiroo HAYASHI regs->start[i] = regs->end[i] = -1;
520*820c1a8dSHiroo HAYASHI
521*820c1a8dSHiroo HAYASHI return rval;
522*820c1a8dSHiroo HAYASHI }
523*820c1a8dSHiroo HAYASHI
524*820c1a8dSHiroo HAYASHI /* Set REGS to hold NUM_REGS registers, storing them in STARTS and
525*820c1a8dSHiroo HAYASHI ENDS. Subsequent matches using PATTERN_BUFFER and REGS will use
526*820c1a8dSHiroo HAYASHI this memory for recording register information. STARTS and ENDS
527*820c1a8dSHiroo HAYASHI must be allocated using the malloc library routine, and must each
528*820c1a8dSHiroo HAYASHI be at least NUM_REGS * sizeof (regoff_t) bytes long.
529*820c1a8dSHiroo HAYASHI
530*820c1a8dSHiroo HAYASHI If NUM_REGS == 0, then subsequent matches should allocate their own
531*820c1a8dSHiroo HAYASHI register data.
532*820c1a8dSHiroo HAYASHI
533*820c1a8dSHiroo HAYASHI Unless this function is called, the first search or match using
534*820c1a8dSHiroo HAYASHI PATTERN_BUFFER will allocate its own register data, without
535*820c1a8dSHiroo HAYASHI freeing the old data. */
536*820c1a8dSHiroo HAYASHI
537*820c1a8dSHiroo HAYASHI void
re_set_registers(struct re_pattern_buffer * bufp,struct re_registers * regs,__re_size_t num_regs,regoff_t * starts,regoff_t * ends)538*820c1a8dSHiroo HAYASHI re_set_registers (struct re_pattern_buffer *bufp, struct re_registers *regs,
539*820c1a8dSHiroo HAYASHI __re_size_t num_regs, regoff_t *starts, regoff_t *ends)
540*820c1a8dSHiroo HAYASHI {
541*820c1a8dSHiroo HAYASHI if (num_regs)
542*820c1a8dSHiroo HAYASHI {
543*820c1a8dSHiroo HAYASHI bufp->regs_allocated = REGS_REALLOCATE;
544*820c1a8dSHiroo HAYASHI regs->num_regs = num_regs;
545*820c1a8dSHiroo HAYASHI regs->start = starts;
546*820c1a8dSHiroo HAYASHI regs->end = ends;
547*820c1a8dSHiroo HAYASHI }
548*820c1a8dSHiroo HAYASHI else
549*820c1a8dSHiroo HAYASHI {
550*820c1a8dSHiroo HAYASHI bufp->regs_allocated = REGS_UNALLOCATED;
551*820c1a8dSHiroo HAYASHI regs->num_regs = 0;
552*820c1a8dSHiroo HAYASHI regs->start = regs->end = NULL;
553*820c1a8dSHiroo HAYASHI }
554*820c1a8dSHiroo HAYASHI }
555*820c1a8dSHiroo HAYASHI #ifdef _LIBC
weak_alias(__re_set_registers,re_set_registers)556*820c1a8dSHiroo HAYASHI weak_alias (__re_set_registers, re_set_registers)
557*820c1a8dSHiroo HAYASHI #endif
558*820c1a8dSHiroo HAYASHI
559*820c1a8dSHiroo HAYASHI /* Entry points compatible with 4.2 BSD regex library. We don't define
560*820c1a8dSHiroo HAYASHI them unless specifically requested. */
561*820c1a8dSHiroo HAYASHI
562*820c1a8dSHiroo HAYASHI #if defined _REGEX_RE_COMP || defined _LIBC
563*820c1a8dSHiroo HAYASHI int
564*820c1a8dSHiroo HAYASHI # ifdef _LIBC
565*820c1a8dSHiroo HAYASHI weak_function
566*820c1a8dSHiroo HAYASHI # endif
567*820c1a8dSHiroo HAYASHI re_exec (const char *s)
568*820c1a8dSHiroo HAYASHI {
569*820c1a8dSHiroo HAYASHI return 0 == regexec (&re_comp_buf, s, 0, NULL, 0);
570*820c1a8dSHiroo HAYASHI }
571*820c1a8dSHiroo HAYASHI #endif /* _REGEX_RE_COMP */
572*820c1a8dSHiroo HAYASHI
573*820c1a8dSHiroo HAYASHI /* Internal entry point. */
574*820c1a8dSHiroo HAYASHI
575*820c1a8dSHiroo HAYASHI /* Searches for a compiled pattern PREG in the string STRING, whose
576*820c1a8dSHiroo HAYASHI length is LENGTH. NMATCH, PMATCH, and EFLAGS have the same
577*820c1a8dSHiroo HAYASHI meaning as with regexec. LAST_START is START + RANGE, where
578*820c1a8dSHiroo HAYASHI START and RANGE have the same meaning as with re_search.
579*820c1a8dSHiroo HAYASHI Return REG_NOERROR if we find a match, and REG_NOMATCH if not,
580*820c1a8dSHiroo HAYASHI otherwise return the error code.
581*820c1a8dSHiroo HAYASHI Note: We assume front end functions already check ranges.
582*820c1a8dSHiroo HAYASHI (0 <= LAST_START && LAST_START <= LENGTH) */
583*820c1a8dSHiroo HAYASHI
584*820c1a8dSHiroo HAYASHI static reg_errcode_t
585*820c1a8dSHiroo HAYASHI __attribute_warn_unused_result__
re_search_internal(const regex_t * preg,const char * string,Idx length,Idx start,Idx last_start,Idx stop,size_t nmatch,regmatch_t pmatch[],int eflags)586*820c1a8dSHiroo HAYASHI re_search_internal (const regex_t *preg, const char *string, Idx length,
587*820c1a8dSHiroo HAYASHI Idx start, Idx last_start, Idx stop, size_t nmatch,
588*820c1a8dSHiroo HAYASHI regmatch_t pmatch[], int eflags)
589*820c1a8dSHiroo HAYASHI {
590*820c1a8dSHiroo HAYASHI reg_errcode_t err;
591*820c1a8dSHiroo HAYASHI const re_dfa_t *dfa = preg->buffer;
592*820c1a8dSHiroo HAYASHI Idx left_lim, right_lim;
593*820c1a8dSHiroo HAYASHI int incr;
594*820c1a8dSHiroo HAYASHI bool fl_longest_match;
595*820c1a8dSHiroo HAYASHI int match_kind;
596*820c1a8dSHiroo HAYASHI Idx match_first;
597*820c1a8dSHiroo HAYASHI Idx match_last = -1;
598*820c1a8dSHiroo HAYASHI Idx extra_nmatch;
599*820c1a8dSHiroo HAYASHI bool sb;
600*820c1a8dSHiroo HAYASHI int ch;
601*820c1a8dSHiroo HAYASHI re_match_context_t mctx = { .dfa = dfa };
602*820c1a8dSHiroo HAYASHI char *fastmap = ((preg->fastmap != NULL && preg->fastmap_accurate
603*820c1a8dSHiroo HAYASHI && start != last_start && !preg->can_be_null)
604*820c1a8dSHiroo HAYASHI ? preg->fastmap : NULL);
605*820c1a8dSHiroo HAYASHI RE_TRANSLATE_TYPE t = preg->translate;
606*820c1a8dSHiroo HAYASHI
607*820c1a8dSHiroo HAYASHI extra_nmatch = (nmatch > preg->re_nsub) ? nmatch - (preg->re_nsub + 1) : 0;
608*820c1a8dSHiroo HAYASHI nmatch -= extra_nmatch;
609*820c1a8dSHiroo HAYASHI
610*820c1a8dSHiroo HAYASHI /* Check if the DFA haven't been compiled. */
611*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (preg->used == 0 || dfa->init_state == NULL
612*820c1a8dSHiroo HAYASHI || dfa->init_state_word == NULL
613*820c1a8dSHiroo HAYASHI || dfa->init_state_nl == NULL
614*820c1a8dSHiroo HAYASHI || dfa->init_state_begbuf == NULL))
615*820c1a8dSHiroo HAYASHI return REG_NOMATCH;
616*820c1a8dSHiroo HAYASHI
617*820c1a8dSHiroo HAYASHI /* We assume front-end functions already check them. */
618*820c1a8dSHiroo HAYASHI DEBUG_ASSERT (0 <= last_start && last_start <= length);
619*820c1a8dSHiroo HAYASHI
620*820c1a8dSHiroo HAYASHI /* If initial states with non-begbuf contexts have no elements,
621*820c1a8dSHiroo HAYASHI the regex must be anchored. If preg->newline_anchor is set,
622*820c1a8dSHiroo HAYASHI we'll never use init_state_nl, so do not check it. */
623*820c1a8dSHiroo HAYASHI if (dfa->init_state->nodes.nelem == 0
624*820c1a8dSHiroo HAYASHI && dfa->init_state_word->nodes.nelem == 0
625*820c1a8dSHiroo HAYASHI && (dfa->init_state_nl->nodes.nelem == 0
626*820c1a8dSHiroo HAYASHI || !preg->newline_anchor))
627*820c1a8dSHiroo HAYASHI {
628*820c1a8dSHiroo HAYASHI if (start != 0 && last_start != 0)
629*820c1a8dSHiroo HAYASHI return REG_NOMATCH;
630*820c1a8dSHiroo HAYASHI start = last_start = 0;
631*820c1a8dSHiroo HAYASHI }
632*820c1a8dSHiroo HAYASHI
633*820c1a8dSHiroo HAYASHI /* We must check the longest matching, if nmatch > 0. */
634*820c1a8dSHiroo HAYASHI fl_longest_match = (nmatch != 0 || dfa->nbackref);
635*820c1a8dSHiroo HAYASHI
636*820c1a8dSHiroo HAYASHI err = re_string_allocate (&mctx.input, string, length, dfa->nodes_len + 1,
637*820c1a8dSHiroo HAYASHI preg->translate, (preg->syntax & RE_ICASE) != 0,
638*820c1a8dSHiroo HAYASHI dfa);
639*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
640*820c1a8dSHiroo HAYASHI goto free_return;
641*820c1a8dSHiroo HAYASHI mctx.input.stop = stop;
642*820c1a8dSHiroo HAYASHI mctx.input.raw_stop = stop;
643*820c1a8dSHiroo HAYASHI mctx.input.newline_anchor = preg->newline_anchor;
644*820c1a8dSHiroo HAYASHI
645*820c1a8dSHiroo HAYASHI err = match_ctx_init (&mctx, eflags, dfa->nbackref * 2);
646*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
647*820c1a8dSHiroo HAYASHI goto free_return;
648*820c1a8dSHiroo HAYASHI
649*820c1a8dSHiroo HAYASHI /* We will log all the DFA states through which the dfa pass,
650*820c1a8dSHiroo HAYASHI if nmatch > 1, or this dfa has "multibyte node", which is a
651*820c1a8dSHiroo HAYASHI back-reference or a node which can accept multibyte character or
652*820c1a8dSHiroo HAYASHI multi character collating element. */
653*820c1a8dSHiroo HAYASHI if (nmatch > 1 || dfa->has_mb_node)
654*820c1a8dSHiroo HAYASHI {
655*820c1a8dSHiroo HAYASHI /* Avoid overflow. */
656*820c1a8dSHiroo HAYASHI if (__glibc_unlikely ((MIN (IDX_MAX, SIZE_MAX / sizeof (re_dfastate_t *))
657*820c1a8dSHiroo HAYASHI <= mctx.input.bufs_len)))
658*820c1a8dSHiroo HAYASHI {
659*820c1a8dSHiroo HAYASHI err = REG_ESPACE;
660*820c1a8dSHiroo HAYASHI goto free_return;
661*820c1a8dSHiroo HAYASHI }
662*820c1a8dSHiroo HAYASHI
663*820c1a8dSHiroo HAYASHI mctx.state_log = re_malloc (re_dfastate_t *, mctx.input.bufs_len + 1);
664*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (mctx.state_log == NULL))
665*820c1a8dSHiroo HAYASHI {
666*820c1a8dSHiroo HAYASHI err = REG_ESPACE;
667*820c1a8dSHiroo HAYASHI goto free_return;
668*820c1a8dSHiroo HAYASHI }
669*820c1a8dSHiroo HAYASHI }
670*820c1a8dSHiroo HAYASHI
671*820c1a8dSHiroo HAYASHI match_first = start;
672*820c1a8dSHiroo HAYASHI mctx.input.tip_context = (eflags & REG_NOTBOL) ? CONTEXT_BEGBUF
673*820c1a8dSHiroo HAYASHI : CONTEXT_NEWLINE | CONTEXT_BEGBUF;
674*820c1a8dSHiroo HAYASHI
675*820c1a8dSHiroo HAYASHI /* Check incrementally whether the input string matches. */
676*820c1a8dSHiroo HAYASHI incr = (last_start < start) ? -1 : 1;
677*820c1a8dSHiroo HAYASHI left_lim = (last_start < start) ? last_start : start;
678*820c1a8dSHiroo HAYASHI right_lim = (last_start < start) ? start : last_start;
679*820c1a8dSHiroo HAYASHI sb = dfa->mb_cur_max == 1;
680*820c1a8dSHiroo HAYASHI match_kind =
681*820c1a8dSHiroo HAYASHI (fastmap
682*820c1a8dSHiroo HAYASHI ? ((sb || !(preg->syntax & RE_ICASE || t) ? 4 : 0)
683*820c1a8dSHiroo HAYASHI | (start <= last_start ? 2 : 0)
684*820c1a8dSHiroo HAYASHI | (t != NULL ? 1 : 0))
685*820c1a8dSHiroo HAYASHI : 8);
686*820c1a8dSHiroo HAYASHI
687*820c1a8dSHiroo HAYASHI for (;; match_first += incr)
688*820c1a8dSHiroo HAYASHI {
689*820c1a8dSHiroo HAYASHI err = REG_NOMATCH;
690*820c1a8dSHiroo HAYASHI if (match_first < left_lim || right_lim < match_first)
691*820c1a8dSHiroo HAYASHI goto free_return;
692*820c1a8dSHiroo HAYASHI
693*820c1a8dSHiroo HAYASHI /* Advance as rapidly as possible through the string, until we
694*820c1a8dSHiroo HAYASHI find a plausible place to start matching. This may be done
695*820c1a8dSHiroo HAYASHI with varying efficiency, so there are various possibilities:
696*820c1a8dSHiroo HAYASHI only the most common of them are specialized, in order to
697*820c1a8dSHiroo HAYASHI save on code size. We use a switch statement for speed. */
698*820c1a8dSHiroo HAYASHI switch (match_kind)
699*820c1a8dSHiroo HAYASHI {
700*820c1a8dSHiroo HAYASHI case 8:
701*820c1a8dSHiroo HAYASHI /* No fastmap. */
702*820c1a8dSHiroo HAYASHI break;
703*820c1a8dSHiroo HAYASHI
704*820c1a8dSHiroo HAYASHI case 7:
705*820c1a8dSHiroo HAYASHI /* Fastmap with single-byte translation, match forward. */
706*820c1a8dSHiroo HAYASHI while (__glibc_likely (match_first < right_lim)
707*820c1a8dSHiroo HAYASHI && !fastmap[t[(unsigned char) string[match_first]]])
708*820c1a8dSHiroo HAYASHI ++match_first;
709*820c1a8dSHiroo HAYASHI goto forward_match_found_start_or_reached_end;
710*820c1a8dSHiroo HAYASHI
711*820c1a8dSHiroo HAYASHI case 6:
712*820c1a8dSHiroo HAYASHI /* Fastmap without translation, match forward. */
713*820c1a8dSHiroo HAYASHI while (__glibc_likely (match_first < right_lim)
714*820c1a8dSHiroo HAYASHI && !fastmap[(unsigned char) string[match_first]])
715*820c1a8dSHiroo HAYASHI ++match_first;
716*820c1a8dSHiroo HAYASHI
717*820c1a8dSHiroo HAYASHI forward_match_found_start_or_reached_end:
718*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (match_first == right_lim))
719*820c1a8dSHiroo HAYASHI {
720*820c1a8dSHiroo HAYASHI ch = match_first >= length
721*820c1a8dSHiroo HAYASHI ? 0 : (unsigned char) string[match_first];
722*820c1a8dSHiroo HAYASHI if (!fastmap[t ? t[ch] : ch])
723*820c1a8dSHiroo HAYASHI goto free_return;
724*820c1a8dSHiroo HAYASHI }
725*820c1a8dSHiroo HAYASHI break;
726*820c1a8dSHiroo HAYASHI
727*820c1a8dSHiroo HAYASHI case 4:
728*820c1a8dSHiroo HAYASHI case 5:
729*820c1a8dSHiroo HAYASHI /* Fastmap without multi-byte translation, match backwards. */
730*820c1a8dSHiroo HAYASHI while (match_first >= left_lim)
731*820c1a8dSHiroo HAYASHI {
732*820c1a8dSHiroo HAYASHI ch = match_first >= length
733*820c1a8dSHiroo HAYASHI ? 0 : (unsigned char) string[match_first];
734*820c1a8dSHiroo HAYASHI if (fastmap[t ? t[ch] : ch])
735*820c1a8dSHiroo HAYASHI break;
736*820c1a8dSHiroo HAYASHI --match_first;
737*820c1a8dSHiroo HAYASHI }
738*820c1a8dSHiroo HAYASHI if (match_first < left_lim)
739*820c1a8dSHiroo HAYASHI goto free_return;
740*820c1a8dSHiroo HAYASHI break;
741*820c1a8dSHiroo HAYASHI
742*820c1a8dSHiroo HAYASHI default:
743*820c1a8dSHiroo HAYASHI /* In this case, we can't determine easily the current byte,
744*820c1a8dSHiroo HAYASHI since it might be a component byte of a multibyte
745*820c1a8dSHiroo HAYASHI character. Then we use the constructed buffer instead. */
746*820c1a8dSHiroo HAYASHI for (;;)
747*820c1a8dSHiroo HAYASHI {
748*820c1a8dSHiroo HAYASHI /* If MATCH_FIRST is out of the valid range, reconstruct the
749*820c1a8dSHiroo HAYASHI buffers. */
750*820c1a8dSHiroo HAYASHI __re_size_t offset = match_first - mctx.input.raw_mbs_idx;
751*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (offset
752*820c1a8dSHiroo HAYASHI >= (__re_size_t) mctx.input.valid_raw_len))
753*820c1a8dSHiroo HAYASHI {
754*820c1a8dSHiroo HAYASHI err = re_string_reconstruct (&mctx.input, match_first,
755*820c1a8dSHiroo HAYASHI eflags);
756*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
757*820c1a8dSHiroo HAYASHI goto free_return;
758*820c1a8dSHiroo HAYASHI
759*820c1a8dSHiroo HAYASHI offset = match_first - mctx.input.raw_mbs_idx;
760*820c1a8dSHiroo HAYASHI }
761*820c1a8dSHiroo HAYASHI /* If MATCH_FIRST is out of the buffer, leave it as '\0'.
762*820c1a8dSHiroo HAYASHI Note that MATCH_FIRST must not be smaller than 0. */
763*820c1a8dSHiroo HAYASHI ch = (match_first >= length
764*820c1a8dSHiroo HAYASHI ? 0 : re_string_byte_at (&mctx.input, offset));
765*820c1a8dSHiroo HAYASHI if (fastmap[ch])
766*820c1a8dSHiroo HAYASHI break;
767*820c1a8dSHiroo HAYASHI match_first += incr;
768*820c1a8dSHiroo HAYASHI if (match_first < left_lim || match_first > right_lim)
769*820c1a8dSHiroo HAYASHI {
770*820c1a8dSHiroo HAYASHI err = REG_NOMATCH;
771*820c1a8dSHiroo HAYASHI goto free_return;
772*820c1a8dSHiroo HAYASHI }
773*820c1a8dSHiroo HAYASHI }
774*820c1a8dSHiroo HAYASHI break;
775*820c1a8dSHiroo HAYASHI }
776*820c1a8dSHiroo HAYASHI
777*820c1a8dSHiroo HAYASHI /* Reconstruct the buffers so that the matcher can assume that
778*820c1a8dSHiroo HAYASHI the matching starts from the beginning of the buffer. */
779*820c1a8dSHiroo HAYASHI err = re_string_reconstruct (&mctx.input, match_first, eflags);
780*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
781*820c1a8dSHiroo HAYASHI goto free_return;
782*820c1a8dSHiroo HAYASHI
783*820c1a8dSHiroo HAYASHI #ifdef RE_ENABLE_I18N
784*820c1a8dSHiroo HAYASHI /* Don't consider this char as a possible match start if it part,
785*820c1a8dSHiroo HAYASHI yet isn't the head, of a multibyte character. */
786*820c1a8dSHiroo HAYASHI if (!sb && !re_string_first_byte (&mctx.input, 0))
787*820c1a8dSHiroo HAYASHI continue;
788*820c1a8dSHiroo HAYASHI #endif
789*820c1a8dSHiroo HAYASHI
790*820c1a8dSHiroo HAYASHI /* It seems to be appropriate one, then use the matcher. */
791*820c1a8dSHiroo HAYASHI /* We assume that the matching starts from 0. */
792*820c1a8dSHiroo HAYASHI mctx.state_log_top = mctx.nbkref_ents = mctx.max_mb_elem_len = 0;
793*820c1a8dSHiroo HAYASHI match_last = check_matching (&mctx, fl_longest_match,
794*820c1a8dSHiroo HAYASHI start <= last_start ? &match_first : NULL);
795*820c1a8dSHiroo HAYASHI if (match_last != -1)
796*820c1a8dSHiroo HAYASHI {
797*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (match_last == -2))
798*820c1a8dSHiroo HAYASHI {
799*820c1a8dSHiroo HAYASHI err = REG_ESPACE;
800*820c1a8dSHiroo HAYASHI goto free_return;
801*820c1a8dSHiroo HAYASHI }
802*820c1a8dSHiroo HAYASHI else
803*820c1a8dSHiroo HAYASHI {
804*820c1a8dSHiroo HAYASHI mctx.match_last = match_last;
805*820c1a8dSHiroo HAYASHI if ((!preg->no_sub && nmatch > 1) || dfa->nbackref)
806*820c1a8dSHiroo HAYASHI {
807*820c1a8dSHiroo HAYASHI re_dfastate_t *pstate = mctx.state_log[match_last];
808*820c1a8dSHiroo HAYASHI mctx.last_node = check_halt_state_context (&mctx, pstate,
809*820c1a8dSHiroo HAYASHI match_last);
810*820c1a8dSHiroo HAYASHI }
811*820c1a8dSHiroo HAYASHI if ((!preg->no_sub && nmatch > 1 && dfa->has_plural_match)
812*820c1a8dSHiroo HAYASHI || dfa->nbackref)
813*820c1a8dSHiroo HAYASHI {
814*820c1a8dSHiroo HAYASHI err = prune_impossible_nodes (&mctx);
815*820c1a8dSHiroo HAYASHI if (err == REG_NOERROR)
816*820c1a8dSHiroo HAYASHI break;
817*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOMATCH))
818*820c1a8dSHiroo HAYASHI goto free_return;
819*820c1a8dSHiroo HAYASHI match_last = -1;
820*820c1a8dSHiroo HAYASHI }
821*820c1a8dSHiroo HAYASHI else
822*820c1a8dSHiroo HAYASHI break; /* We found a match. */
823*820c1a8dSHiroo HAYASHI }
824*820c1a8dSHiroo HAYASHI }
825*820c1a8dSHiroo HAYASHI
826*820c1a8dSHiroo HAYASHI match_ctx_clean (&mctx);
827*820c1a8dSHiroo HAYASHI }
828*820c1a8dSHiroo HAYASHI
829*820c1a8dSHiroo HAYASHI DEBUG_ASSERT (match_last != -1);
830*820c1a8dSHiroo HAYASHI DEBUG_ASSERT (err == REG_NOERROR);
831*820c1a8dSHiroo HAYASHI
832*820c1a8dSHiroo HAYASHI /* Set pmatch[] if we need. */
833*820c1a8dSHiroo HAYASHI if (nmatch > 0)
834*820c1a8dSHiroo HAYASHI {
835*820c1a8dSHiroo HAYASHI Idx reg_idx;
836*820c1a8dSHiroo HAYASHI
837*820c1a8dSHiroo HAYASHI /* Initialize registers. */
838*820c1a8dSHiroo HAYASHI for (reg_idx = 1; reg_idx < nmatch; ++reg_idx)
839*820c1a8dSHiroo HAYASHI pmatch[reg_idx].rm_so = pmatch[reg_idx].rm_eo = -1;
840*820c1a8dSHiroo HAYASHI
841*820c1a8dSHiroo HAYASHI /* Set the points where matching start/end. */
842*820c1a8dSHiroo HAYASHI pmatch[0].rm_so = 0;
843*820c1a8dSHiroo HAYASHI pmatch[0].rm_eo = mctx.match_last;
844*820c1a8dSHiroo HAYASHI /* FIXME: This function should fail if mctx.match_last exceeds
845*820c1a8dSHiroo HAYASHI the maximum possible regoff_t value. We need a new error
846*820c1a8dSHiroo HAYASHI code REG_OVERFLOW. */
847*820c1a8dSHiroo HAYASHI
848*820c1a8dSHiroo HAYASHI if (!preg->no_sub && nmatch > 1)
849*820c1a8dSHiroo HAYASHI {
850*820c1a8dSHiroo HAYASHI err = set_regs (preg, &mctx, nmatch, pmatch,
851*820c1a8dSHiroo HAYASHI dfa->has_plural_match && dfa->nbackref > 0);
852*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
853*820c1a8dSHiroo HAYASHI goto free_return;
854*820c1a8dSHiroo HAYASHI }
855*820c1a8dSHiroo HAYASHI
856*820c1a8dSHiroo HAYASHI /* At last, add the offset to each register, since we slid
857*820c1a8dSHiroo HAYASHI the buffers so that we could assume that the matching starts
858*820c1a8dSHiroo HAYASHI from 0. */
859*820c1a8dSHiroo HAYASHI for (reg_idx = 0; reg_idx < nmatch; ++reg_idx)
860*820c1a8dSHiroo HAYASHI if (pmatch[reg_idx].rm_so != -1)
861*820c1a8dSHiroo HAYASHI {
862*820c1a8dSHiroo HAYASHI #ifdef RE_ENABLE_I18N
863*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (mctx.input.offsets_needed != 0))
864*820c1a8dSHiroo HAYASHI {
865*820c1a8dSHiroo HAYASHI pmatch[reg_idx].rm_so =
866*820c1a8dSHiroo HAYASHI (pmatch[reg_idx].rm_so == mctx.input.valid_len
867*820c1a8dSHiroo HAYASHI ? mctx.input.valid_raw_len
868*820c1a8dSHiroo HAYASHI : mctx.input.offsets[pmatch[reg_idx].rm_so]);
869*820c1a8dSHiroo HAYASHI pmatch[reg_idx].rm_eo =
870*820c1a8dSHiroo HAYASHI (pmatch[reg_idx].rm_eo == mctx.input.valid_len
871*820c1a8dSHiroo HAYASHI ? mctx.input.valid_raw_len
872*820c1a8dSHiroo HAYASHI : mctx.input.offsets[pmatch[reg_idx].rm_eo]);
873*820c1a8dSHiroo HAYASHI }
874*820c1a8dSHiroo HAYASHI #else
875*820c1a8dSHiroo HAYASHI DEBUG_ASSERT (mctx.input.offsets_needed == 0);
876*820c1a8dSHiroo HAYASHI #endif
877*820c1a8dSHiroo HAYASHI pmatch[reg_idx].rm_so += match_first;
878*820c1a8dSHiroo HAYASHI pmatch[reg_idx].rm_eo += match_first;
879*820c1a8dSHiroo HAYASHI }
880*820c1a8dSHiroo HAYASHI for (reg_idx = 0; reg_idx < extra_nmatch; ++reg_idx)
881*820c1a8dSHiroo HAYASHI {
882*820c1a8dSHiroo HAYASHI pmatch[nmatch + reg_idx].rm_so = -1;
883*820c1a8dSHiroo HAYASHI pmatch[nmatch + reg_idx].rm_eo = -1;
884*820c1a8dSHiroo HAYASHI }
885*820c1a8dSHiroo HAYASHI
886*820c1a8dSHiroo HAYASHI if (dfa->subexp_map)
887*820c1a8dSHiroo HAYASHI for (reg_idx = 0; reg_idx + 1 < nmatch; reg_idx++)
888*820c1a8dSHiroo HAYASHI if (dfa->subexp_map[reg_idx] != reg_idx)
889*820c1a8dSHiroo HAYASHI {
890*820c1a8dSHiroo HAYASHI pmatch[reg_idx + 1].rm_so
891*820c1a8dSHiroo HAYASHI = pmatch[dfa->subexp_map[reg_idx] + 1].rm_so;
892*820c1a8dSHiroo HAYASHI pmatch[reg_idx + 1].rm_eo
893*820c1a8dSHiroo HAYASHI = pmatch[dfa->subexp_map[reg_idx] + 1].rm_eo;
894*820c1a8dSHiroo HAYASHI }
895*820c1a8dSHiroo HAYASHI }
896*820c1a8dSHiroo HAYASHI
897*820c1a8dSHiroo HAYASHI free_return:
898*820c1a8dSHiroo HAYASHI re_free (mctx.state_log);
899*820c1a8dSHiroo HAYASHI if (dfa->nbackref)
900*820c1a8dSHiroo HAYASHI match_ctx_free (&mctx);
901*820c1a8dSHiroo HAYASHI re_string_destruct (&mctx.input);
902*820c1a8dSHiroo HAYASHI return err;
903*820c1a8dSHiroo HAYASHI }
904*820c1a8dSHiroo HAYASHI
905*820c1a8dSHiroo HAYASHI static reg_errcode_t
906*820c1a8dSHiroo HAYASHI __attribute_warn_unused_result__
prune_impossible_nodes(re_match_context_t * mctx)907*820c1a8dSHiroo HAYASHI prune_impossible_nodes (re_match_context_t *mctx)
908*820c1a8dSHiroo HAYASHI {
909*820c1a8dSHiroo HAYASHI const re_dfa_t *const dfa = mctx->dfa;
910*820c1a8dSHiroo HAYASHI Idx halt_node, match_last;
911*820c1a8dSHiroo HAYASHI reg_errcode_t ret;
912*820c1a8dSHiroo HAYASHI re_dfastate_t **sifted_states;
913*820c1a8dSHiroo HAYASHI re_dfastate_t **lim_states = NULL;
914*820c1a8dSHiroo HAYASHI re_sift_context_t sctx;
915*820c1a8dSHiroo HAYASHI DEBUG_ASSERT (mctx->state_log != NULL);
916*820c1a8dSHiroo HAYASHI match_last = mctx->match_last;
917*820c1a8dSHiroo HAYASHI halt_node = mctx->last_node;
918*820c1a8dSHiroo HAYASHI
919*820c1a8dSHiroo HAYASHI /* Avoid overflow. */
920*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (MIN (IDX_MAX, SIZE_MAX / sizeof (re_dfastate_t *))
921*820c1a8dSHiroo HAYASHI <= match_last))
922*820c1a8dSHiroo HAYASHI return REG_ESPACE;
923*820c1a8dSHiroo HAYASHI
924*820c1a8dSHiroo HAYASHI sifted_states = re_malloc (re_dfastate_t *, match_last + 1);
925*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (sifted_states == NULL))
926*820c1a8dSHiroo HAYASHI {
927*820c1a8dSHiroo HAYASHI ret = REG_ESPACE;
928*820c1a8dSHiroo HAYASHI goto free_return;
929*820c1a8dSHiroo HAYASHI }
930*820c1a8dSHiroo HAYASHI if (dfa->nbackref)
931*820c1a8dSHiroo HAYASHI {
932*820c1a8dSHiroo HAYASHI lim_states = re_malloc (re_dfastate_t *, match_last + 1);
933*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (lim_states == NULL))
934*820c1a8dSHiroo HAYASHI {
935*820c1a8dSHiroo HAYASHI ret = REG_ESPACE;
936*820c1a8dSHiroo HAYASHI goto free_return;
937*820c1a8dSHiroo HAYASHI }
938*820c1a8dSHiroo HAYASHI while (1)
939*820c1a8dSHiroo HAYASHI {
940*820c1a8dSHiroo HAYASHI memset (lim_states, '\0',
941*820c1a8dSHiroo HAYASHI sizeof (re_dfastate_t *) * (match_last + 1));
942*820c1a8dSHiroo HAYASHI sift_ctx_init (&sctx, sifted_states, lim_states, halt_node,
943*820c1a8dSHiroo HAYASHI match_last);
944*820c1a8dSHiroo HAYASHI ret = sift_states_backward (mctx, &sctx);
945*820c1a8dSHiroo HAYASHI re_node_set_free (&sctx.limits);
946*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (ret != REG_NOERROR))
947*820c1a8dSHiroo HAYASHI goto free_return;
948*820c1a8dSHiroo HAYASHI if (sifted_states[0] != NULL || lim_states[0] != NULL)
949*820c1a8dSHiroo HAYASHI break;
950*820c1a8dSHiroo HAYASHI do
951*820c1a8dSHiroo HAYASHI {
952*820c1a8dSHiroo HAYASHI --match_last;
953*820c1a8dSHiroo HAYASHI if (match_last < 0)
954*820c1a8dSHiroo HAYASHI {
955*820c1a8dSHiroo HAYASHI ret = REG_NOMATCH;
956*820c1a8dSHiroo HAYASHI goto free_return;
957*820c1a8dSHiroo HAYASHI }
958*820c1a8dSHiroo HAYASHI } while (mctx->state_log[match_last] == NULL
959*820c1a8dSHiroo HAYASHI || !mctx->state_log[match_last]->halt);
960*820c1a8dSHiroo HAYASHI halt_node = check_halt_state_context (mctx,
961*820c1a8dSHiroo HAYASHI mctx->state_log[match_last],
962*820c1a8dSHiroo HAYASHI match_last);
963*820c1a8dSHiroo HAYASHI }
964*820c1a8dSHiroo HAYASHI ret = merge_state_array (dfa, sifted_states, lim_states,
965*820c1a8dSHiroo HAYASHI match_last + 1);
966*820c1a8dSHiroo HAYASHI re_free (lim_states);
967*820c1a8dSHiroo HAYASHI lim_states = NULL;
968*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (ret != REG_NOERROR))
969*820c1a8dSHiroo HAYASHI goto free_return;
970*820c1a8dSHiroo HAYASHI }
971*820c1a8dSHiroo HAYASHI else
972*820c1a8dSHiroo HAYASHI {
973*820c1a8dSHiroo HAYASHI sift_ctx_init (&sctx, sifted_states, lim_states, halt_node, match_last);
974*820c1a8dSHiroo HAYASHI ret = sift_states_backward (mctx, &sctx);
975*820c1a8dSHiroo HAYASHI re_node_set_free (&sctx.limits);
976*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (ret != REG_NOERROR))
977*820c1a8dSHiroo HAYASHI goto free_return;
978*820c1a8dSHiroo HAYASHI if (sifted_states[0] == NULL)
979*820c1a8dSHiroo HAYASHI {
980*820c1a8dSHiroo HAYASHI ret = REG_NOMATCH;
981*820c1a8dSHiroo HAYASHI goto free_return;
982*820c1a8dSHiroo HAYASHI }
983*820c1a8dSHiroo HAYASHI }
984*820c1a8dSHiroo HAYASHI re_free (mctx->state_log);
985*820c1a8dSHiroo HAYASHI mctx->state_log = sifted_states;
986*820c1a8dSHiroo HAYASHI sifted_states = NULL;
987*820c1a8dSHiroo HAYASHI mctx->last_node = halt_node;
988*820c1a8dSHiroo HAYASHI mctx->match_last = match_last;
989*820c1a8dSHiroo HAYASHI ret = REG_NOERROR;
990*820c1a8dSHiroo HAYASHI free_return:
991*820c1a8dSHiroo HAYASHI re_free (sifted_states);
992*820c1a8dSHiroo HAYASHI re_free (lim_states);
993*820c1a8dSHiroo HAYASHI return ret;
994*820c1a8dSHiroo HAYASHI }
995*820c1a8dSHiroo HAYASHI
996*820c1a8dSHiroo HAYASHI /* Acquire an initial state and return it.
997*820c1a8dSHiroo HAYASHI We must select appropriate initial state depending on the context,
998*820c1a8dSHiroo HAYASHI since initial states may have constraints like "\<", "^", etc.. */
999*820c1a8dSHiroo HAYASHI
1000*820c1a8dSHiroo HAYASHI static inline re_dfastate_t *
1001*820c1a8dSHiroo HAYASHI __attribute__ ((always_inline))
acquire_init_state_context(reg_errcode_t * err,const re_match_context_t * mctx,Idx idx)1002*820c1a8dSHiroo HAYASHI acquire_init_state_context (reg_errcode_t *err, const re_match_context_t *mctx,
1003*820c1a8dSHiroo HAYASHI Idx idx)
1004*820c1a8dSHiroo HAYASHI {
1005*820c1a8dSHiroo HAYASHI const re_dfa_t *const dfa = mctx->dfa;
1006*820c1a8dSHiroo HAYASHI if (dfa->init_state->has_constraint)
1007*820c1a8dSHiroo HAYASHI {
1008*820c1a8dSHiroo HAYASHI unsigned int context;
1009*820c1a8dSHiroo HAYASHI context = re_string_context_at (&mctx->input, idx - 1, mctx->eflags);
1010*820c1a8dSHiroo HAYASHI if (IS_WORD_CONTEXT (context))
1011*820c1a8dSHiroo HAYASHI return dfa->init_state_word;
1012*820c1a8dSHiroo HAYASHI else if (IS_ORDINARY_CONTEXT (context))
1013*820c1a8dSHiroo HAYASHI return dfa->init_state;
1014*820c1a8dSHiroo HAYASHI else if (IS_BEGBUF_CONTEXT (context) && IS_NEWLINE_CONTEXT (context))
1015*820c1a8dSHiroo HAYASHI return dfa->init_state_begbuf;
1016*820c1a8dSHiroo HAYASHI else if (IS_NEWLINE_CONTEXT (context))
1017*820c1a8dSHiroo HAYASHI return dfa->init_state_nl;
1018*820c1a8dSHiroo HAYASHI else if (IS_BEGBUF_CONTEXT (context))
1019*820c1a8dSHiroo HAYASHI {
1020*820c1a8dSHiroo HAYASHI /* It is relatively rare case, then calculate on demand. */
1021*820c1a8dSHiroo HAYASHI return re_acquire_state_context (err, dfa,
1022*820c1a8dSHiroo HAYASHI dfa->init_state->entrance_nodes,
1023*820c1a8dSHiroo HAYASHI context);
1024*820c1a8dSHiroo HAYASHI }
1025*820c1a8dSHiroo HAYASHI else
1026*820c1a8dSHiroo HAYASHI /* Must not happen? */
1027*820c1a8dSHiroo HAYASHI return dfa->init_state;
1028*820c1a8dSHiroo HAYASHI }
1029*820c1a8dSHiroo HAYASHI else
1030*820c1a8dSHiroo HAYASHI return dfa->init_state;
1031*820c1a8dSHiroo HAYASHI }
1032*820c1a8dSHiroo HAYASHI
1033*820c1a8dSHiroo HAYASHI /* Check whether the regular expression match input string INPUT or not,
1034*820c1a8dSHiroo HAYASHI and return the index where the matching end. Return -1 if
1035*820c1a8dSHiroo HAYASHI there is no match, and return -2 in case of an error.
1036*820c1a8dSHiroo HAYASHI FL_LONGEST_MATCH means we want the POSIX longest matching.
1037*820c1a8dSHiroo HAYASHI If P_MATCH_FIRST is not NULL, and the match fails, it is set to the
1038*820c1a8dSHiroo HAYASHI next place where we may want to try matching.
1039*820c1a8dSHiroo HAYASHI Note that the matcher assumes that the matching starts from the current
1040*820c1a8dSHiroo HAYASHI index of the buffer. */
1041*820c1a8dSHiroo HAYASHI
1042*820c1a8dSHiroo HAYASHI static Idx
1043*820c1a8dSHiroo HAYASHI __attribute_warn_unused_result__
check_matching(re_match_context_t * mctx,bool fl_longest_match,Idx * p_match_first)1044*820c1a8dSHiroo HAYASHI check_matching (re_match_context_t *mctx, bool fl_longest_match,
1045*820c1a8dSHiroo HAYASHI Idx *p_match_first)
1046*820c1a8dSHiroo HAYASHI {
1047*820c1a8dSHiroo HAYASHI const re_dfa_t *const dfa = mctx->dfa;
1048*820c1a8dSHiroo HAYASHI reg_errcode_t err;
1049*820c1a8dSHiroo HAYASHI Idx match = 0;
1050*820c1a8dSHiroo HAYASHI Idx match_last = -1;
1051*820c1a8dSHiroo HAYASHI Idx cur_str_idx = re_string_cur_idx (&mctx->input);
1052*820c1a8dSHiroo HAYASHI re_dfastate_t *cur_state;
1053*820c1a8dSHiroo HAYASHI bool at_init_state = p_match_first != NULL;
1054*820c1a8dSHiroo HAYASHI Idx next_start_idx = cur_str_idx;
1055*820c1a8dSHiroo HAYASHI
1056*820c1a8dSHiroo HAYASHI err = REG_NOERROR;
1057*820c1a8dSHiroo HAYASHI cur_state = acquire_init_state_context (&err, mctx, cur_str_idx);
1058*820c1a8dSHiroo HAYASHI /* An initial state must not be NULL (invalid). */
1059*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (cur_state == NULL))
1060*820c1a8dSHiroo HAYASHI {
1061*820c1a8dSHiroo HAYASHI DEBUG_ASSERT (err == REG_ESPACE);
1062*820c1a8dSHiroo HAYASHI return -2;
1063*820c1a8dSHiroo HAYASHI }
1064*820c1a8dSHiroo HAYASHI
1065*820c1a8dSHiroo HAYASHI if (mctx->state_log != NULL)
1066*820c1a8dSHiroo HAYASHI {
1067*820c1a8dSHiroo HAYASHI mctx->state_log[cur_str_idx] = cur_state;
1068*820c1a8dSHiroo HAYASHI
1069*820c1a8dSHiroo HAYASHI /* Check OP_OPEN_SUBEXP in the initial state in case that we use them
1070*820c1a8dSHiroo HAYASHI later. E.g. Processing back references. */
1071*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (dfa->nbackref))
1072*820c1a8dSHiroo HAYASHI {
1073*820c1a8dSHiroo HAYASHI at_init_state = false;
1074*820c1a8dSHiroo HAYASHI err = check_subexp_matching_top (mctx, &cur_state->nodes, 0);
1075*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
1076*820c1a8dSHiroo HAYASHI return err;
1077*820c1a8dSHiroo HAYASHI
1078*820c1a8dSHiroo HAYASHI if (cur_state->has_backref)
1079*820c1a8dSHiroo HAYASHI {
1080*820c1a8dSHiroo HAYASHI err = transit_state_bkref (mctx, &cur_state->nodes);
1081*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
1082*820c1a8dSHiroo HAYASHI return err;
1083*820c1a8dSHiroo HAYASHI }
1084*820c1a8dSHiroo HAYASHI }
1085*820c1a8dSHiroo HAYASHI }
1086*820c1a8dSHiroo HAYASHI
1087*820c1a8dSHiroo HAYASHI /* If the RE accepts NULL string. */
1088*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (cur_state->halt))
1089*820c1a8dSHiroo HAYASHI {
1090*820c1a8dSHiroo HAYASHI if (!cur_state->has_constraint
1091*820c1a8dSHiroo HAYASHI || check_halt_state_context (mctx, cur_state, cur_str_idx))
1092*820c1a8dSHiroo HAYASHI {
1093*820c1a8dSHiroo HAYASHI if (!fl_longest_match)
1094*820c1a8dSHiroo HAYASHI return cur_str_idx;
1095*820c1a8dSHiroo HAYASHI else
1096*820c1a8dSHiroo HAYASHI {
1097*820c1a8dSHiroo HAYASHI match_last = cur_str_idx;
1098*820c1a8dSHiroo HAYASHI match = 1;
1099*820c1a8dSHiroo HAYASHI }
1100*820c1a8dSHiroo HAYASHI }
1101*820c1a8dSHiroo HAYASHI }
1102*820c1a8dSHiroo HAYASHI
1103*820c1a8dSHiroo HAYASHI while (!re_string_eoi (&mctx->input))
1104*820c1a8dSHiroo HAYASHI {
1105*820c1a8dSHiroo HAYASHI re_dfastate_t *old_state = cur_state;
1106*820c1a8dSHiroo HAYASHI Idx next_char_idx = re_string_cur_idx (&mctx->input) + 1;
1107*820c1a8dSHiroo HAYASHI
1108*820c1a8dSHiroo HAYASHI if ((__glibc_unlikely (next_char_idx >= mctx->input.bufs_len)
1109*820c1a8dSHiroo HAYASHI && mctx->input.bufs_len < mctx->input.len)
1110*820c1a8dSHiroo HAYASHI || (__glibc_unlikely (next_char_idx >= mctx->input.valid_len)
1111*820c1a8dSHiroo HAYASHI && mctx->input.valid_len < mctx->input.len))
1112*820c1a8dSHiroo HAYASHI {
1113*820c1a8dSHiroo HAYASHI err = extend_buffers (mctx, next_char_idx + 1);
1114*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
1115*820c1a8dSHiroo HAYASHI {
1116*820c1a8dSHiroo HAYASHI DEBUG_ASSERT (err == REG_ESPACE);
1117*820c1a8dSHiroo HAYASHI return -2;
1118*820c1a8dSHiroo HAYASHI }
1119*820c1a8dSHiroo HAYASHI }
1120*820c1a8dSHiroo HAYASHI
1121*820c1a8dSHiroo HAYASHI cur_state = transit_state (&err, mctx, cur_state);
1122*820c1a8dSHiroo HAYASHI if (mctx->state_log != NULL)
1123*820c1a8dSHiroo HAYASHI cur_state = merge_state_with_log (&err, mctx, cur_state);
1124*820c1a8dSHiroo HAYASHI
1125*820c1a8dSHiroo HAYASHI if (cur_state == NULL)
1126*820c1a8dSHiroo HAYASHI {
1127*820c1a8dSHiroo HAYASHI /* Reached the invalid state or an error. Try to recover a valid
1128*820c1a8dSHiroo HAYASHI state using the state log, if available and if we have not
1129*820c1a8dSHiroo HAYASHI already found a valid (even if not the longest) match. */
1130*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
1131*820c1a8dSHiroo HAYASHI return -2;
1132*820c1a8dSHiroo HAYASHI
1133*820c1a8dSHiroo HAYASHI if (mctx->state_log == NULL
1134*820c1a8dSHiroo HAYASHI || (match && !fl_longest_match)
1135*820c1a8dSHiroo HAYASHI || (cur_state = find_recover_state (&err, mctx)) == NULL)
1136*820c1a8dSHiroo HAYASHI break;
1137*820c1a8dSHiroo HAYASHI }
1138*820c1a8dSHiroo HAYASHI
1139*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (at_init_state))
1140*820c1a8dSHiroo HAYASHI {
1141*820c1a8dSHiroo HAYASHI if (old_state == cur_state)
1142*820c1a8dSHiroo HAYASHI next_start_idx = next_char_idx;
1143*820c1a8dSHiroo HAYASHI else
1144*820c1a8dSHiroo HAYASHI at_init_state = false;
1145*820c1a8dSHiroo HAYASHI }
1146*820c1a8dSHiroo HAYASHI
1147*820c1a8dSHiroo HAYASHI if (cur_state->halt)
1148*820c1a8dSHiroo HAYASHI {
1149*820c1a8dSHiroo HAYASHI /* Reached a halt state.
1150*820c1a8dSHiroo HAYASHI Check the halt state can satisfy the current context. */
1151*820c1a8dSHiroo HAYASHI if (!cur_state->has_constraint
1152*820c1a8dSHiroo HAYASHI || check_halt_state_context (mctx, cur_state,
1153*820c1a8dSHiroo HAYASHI re_string_cur_idx (&mctx->input)))
1154*820c1a8dSHiroo HAYASHI {
1155*820c1a8dSHiroo HAYASHI /* We found an appropriate halt state. */
1156*820c1a8dSHiroo HAYASHI match_last = re_string_cur_idx (&mctx->input);
1157*820c1a8dSHiroo HAYASHI match = 1;
1158*820c1a8dSHiroo HAYASHI
1159*820c1a8dSHiroo HAYASHI /* We found a match, do not modify match_first below. */
1160*820c1a8dSHiroo HAYASHI p_match_first = NULL;
1161*820c1a8dSHiroo HAYASHI if (!fl_longest_match)
1162*820c1a8dSHiroo HAYASHI break;
1163*820c1a8dSHiroo HAYASHI }
1164*820c1a8dSHiroo HAYASHI }
1165*820c1a8dSHiroo HAYASHI }
1166*820c1a8dSHiroo HAYASHI
1167*820c1a8dSHiroo HAYASHI if (p_match_first)
1168*820c1a8dSHiroo HAYASHI *p_match_first += next_start_idx;
1169*820c1a8dSHiroo HAYASHI
1170*820c1a8dSHiroo HAYASHI return match_last;
1171*820c1a8dSHiroo HAYASHI }
1172*820c1a8dSHiroo HAYASHI
1173*820c1a8dSHiroo HAYASHI /* Check NODE match the current context. */
1174*820c1a8dSHiroo HAYASHI
1175*820c1a8dSHiroo HAYASHI static bool
check_halt_node_context(const re_dfa_t * dfa,Idx node,unsigned int context)1176*820c1a8dSHiroo HAYASHI check_halt_node_context (const re_dfa_t *dfa, Idx node, unsigned int context)
1177*820c1a8dSHiroo HAYASHI {
1178*820c1a8dSHiroo HAYASHI re_token_type_t type = dfa->nodes[node].type;
1179*820c1a8dSHiroo HAYASHI unsigned int constraint = dfa->nodes[node].constraint;
1180*820c1a8dSHiroo HAYASHI if (type != END_OF_RE)
1181*820c1a8dSHiroo HAYASHI return false;
1182*820c1a8dSHiroo HAYASHI if (!constraint)
1183*820c1a8dSHiroo HAYASHI return true;
1184*820c1a8dSHiroo HAYASHI if (NOT_SATISFY_NEXT_CONSTRAINT (constraint, context))
1185*820c1a8dSHiroo HAYASHI return false;
1186*820c1a8dSHiroo HAYASHI return true;
1187*820c1a8dSHiroo HAYASHI }
1188*820c1a8dSHiroo HAYASHI
1189*820c1a8dSHiroo HAYASHI /* Check the halt state STATE match the current context.
1190*820c1a8dSHiroo HAYASHI Return 0 if not match, if the node, STATE has, is a halt node and
1191*820c1a8dSHiroo HAYASHI match the context, return the node. */
1192*820c1a8dSHiroo HAYASHI
1193*820c1a8dSHiroo HAYASHI static Idx
check_halt_state_context(const re_match_context_t * mctx,const re_dfastate_t * state,Idx idx)1194*820c1a8dSHiroo HAYASHI check_halt_state_context (const re_match_context_t *mctx,
1195*820c1a8dSHiroo HAYASHI const re_dfastate_t *state, Idx idx)
1196*820c1a8dSHiroo HAYASHI {
1197*820c1a8dSHiroo HAYASHI Idx i;
1198*820c1a8dSHiroo HAYASHI unsigned int context;
1199*820c1a8dSHiroo HAYASHI DEBUG_ASSERT (state->halt);
1200*820c1a8dSHiroo HAYASHI context = re_string_context_at (&mctx->input, idx, mctx->eflags);
1201*820c1a8dSHiroo HAYASHI for (i = 0; i < state->nodes.nelem; ++i)
1202*820c1a8dSHiroo HAYASHI if (check_halt_node_context (mctx->dfa, state->nodes.elems[i], context))
1203*820c1a8dSHiroo HAYASHI return state->nodes.elems[i];
1204*820c1a8dSHiroo HAYASHI return 0;
1205*820c1a8dSHiroo HAYASHI }
1206*820c1a8dSHiroo HAYASHI
1207*820c1a8dSHiroo HAYASHI /* Compute the next node to which "NFA" transit from NODE("NFA" is a NFA
1208*820c1a8dSHiroo HAYASHI corresponding to the DFA).
1209*820c1a8dSHiroo HAYASHI Return the destination node, and update EPS_VIA_NODES;
1210*820c1a8dSHiroo HAYASHI return -1 on match failure, -2 on error. */
1211*820c1a8dSHiroo HAYASHI
1212*820c1a8dSHiroo HAYASHI static Idx
proceed_next_node(const re_match_context_t * mctx,Idx nregs,regmatch_t * regs,regmatch_t * prevregs,Idx * pidx,Idx node,re_node_set * eps_via_nodes,struct re_fail_stack_t * fs)1213*820c1a8dSHiroo HAYASHI proceed_next_node (const re_match_context_t *mctx, Idx nregs, regmatch_t *regs,
1214*820c1a8dSHiroo HAYASHI regmatch_t *prevregs,
1215*820c1a8dSHiroo HAYASHI Idx *pidx, Idx node, re_node_set *eps_via_nodes,
1216*820c1a8dSHiroo HAYASHI struct re_fail_stack_t *fs)
1217*820c1a8dSHiroo HAYASHI {
1218*820c1a8dSHiroo HAYASHI const re_dfa_t *const dfa = mctx->dfa;
1219*820c1a8dSHiroo HAYASHI if (IS_EPSILON_NODE (dfa->nodes[node].type))
1220*820c1a8dSHiroo HAYASHI {
1221*820c1a8dSHiroo HAYASHI re_node_set *cur_nodes = &mctx->state_log[*pidx]->nodes;
1222*820c1a8dSHiroo HAYASHI re_node_set *edests = &dfa->edests[node];
1223*820c1a8dSHiroo HAYASHI
1224*820c1a8dSHiroo HAYASHI if (! re_node_set_contains (eps_via_nodes, node))
1225*820c1a8dSHiroo HAYASHI {
1226*820c1a8dSHiroo HAYASHI bool ok = re_node_set_insert (eps_via_nodes, node);
1227*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (! ok))
1228*820c1a8dSHiroo HAYASHI return -2;
1229*820c1a8dSHiroo HAYASHI }
1230*820c1a8dSHiroo HAYASHI
1231*820c1a8dSHiroo HAYASHI /* Pick a valid destination, or return -1 if none is found. */
1232*820c1a8dSHiroo HAYASHI Idx dest_node = -1;
1233*820c1a8dSHiroo HAYASHI for (Idx i = 0; i < edests->nelem; i++)
1234*820c1a8dSHiroo HAYASHI {
1235*820c1a8dSHiroo HAYASHI Idx candidate = edests->elems[i];
1236*820c1a8dSHiroo HAYASHI if (!re_node_set_contains (cur_nodes, candidate))
1237*820c1a8dSHiroo HAYASHI continue;
1238*820c1a8dSHiroo HAYASHI if (dest_node == -1)
1239*820c1a8dSHiroo HAYASHI dest_node = candidate;
1240*820c1a8dSHiroo HAYASHI
1241*820c1a8dSHiroo HAYASHI else
1242*820c1a8dSHiroo HAYASHI {
1243*820c1a8dSHiroo HAYASHI /* In order to avoid infinite loop like "(a*)*", return the second
1244*820c1a8dSHiroo HAYASHI epsilon-transition if the first was already considered. */
1245*820c1a8dSHiroo HAYASHI if (re_node_set_contains (eps_via_nodes, dest_node))
1246*820c1a8dSHiroo HAYASHI return candidate;
1247*820c1a8dSHiroo HAYASHI
1248*820c1a8dSHiroo HAYASHI /* Otherwise, push the second epsilon-transition on the fail stack. */
1249*820c1a8dSHiroo HAYASHI else if (fs != NULL
1250*820c1a8dSHiroo HAYASHI && push_fail_stack (fs, *pidx, candidate, nregs, regs,
1251*820c1a8dSHiroo HAYASHI prevregs, eps_via_nodes))
1252*820c1a8dSHiroo HAYASHI return -2;
1253*820c1a8dSHiroo HAYASHI
1254*820c1a8dSHiroo HAYASHI /* We know we are going to exit. */
1255*820c1a8dSHiroo HAYASHI break;
1256*820c1a8dSHiroo HAYASHI }
1257*820c1a8dSHiroo HAYASHI }
1258*820c1a8dSHiroo HAYASHI return dest_node;
1259*820c1a8dSHiroo HAYASHI }
1260*820c1a8dSHiroo HAYASHI else
1261*820c1a8dSHiroo HAYASHI {
1262*820c1a8dSHiroo HAYASHI Idx naccepted = 0;
1263*820c1a8dSHiroo HAYASHI re_token_type_t type = dfa->nodes[node].type;
1264*820c1a8dSHiroo HAYASHI
1265*820c1a8dSHiroo HAYASHI #ifdef RE_ENABLE_I18N
1266*820c1a8dSHiroo HAYASHI if (dfa->nodes[node].accept_mb)
1267*820c1a8dSHiroo HAYASHI naccepted = check_node_accept_bytes (dfa, node, &mctx->input, *pidx);
1268*820c1a8dSHiroo HAYASHI else
1269*820c1a8dSHiroo HAYASHI #endif /* RE_ENABLE_I18N */
1270*820c1a8dSHiroo HAYASHI if (type == OP_BACK_REF)
1271*820c1a8dSHiroo HAYASHI {
1272*820c1a8dSHiroo HAYASHI Idx subexp_idx = dfa->nodes[node].opr.idx + 1;
1273*820c1a8dSHiroo HAYASHI if (subexp_idx < nregs)
1274*820c1a8dSHiroo HAYASHI naccepted = regs[subexp_idx].rm_eo - regs[subexp_idx].rm_so;
1275*820c1a8dSHiroo HAYASHI if (fs != NULL)
1276*820c1a8dSHiroo HAYASHI {
1277*820c1a8dSHiroo HAYASHI if (subexp_idx >= nregs
1278*820c1a8dSHiroo HAYASHI || regs[subexp_idx].rm_so == -1
1279*820c1a8dSHiroo HAYASHI || regs[subexp_idx].rm_eo == -1)
1280*820c1a8dSHiroo HAYASHI return -1;
1281*820c1a8dSHiroo HAYASHI else if (naccepted)
1282*820c1a8dSHiroo HAYASHI {
1283*820c1a8dSHiroo HAYASHI char *buf = (char *) re_string_get_buffer (&mctx->input);
1284*820c1a8dSHiroo HAYASHI if (mctx->input.valid_len - *pidx < naccepted
1285*820c1a8dSHiroo HAYASHI || (memcmp (buf + regs[subexp_idx].rm_so, buf + *pidx,
1286*820c1a8dSHiroo HAYASHI naccepted)
1287*820c1a8dSHiroo HAYASHI != 0))
1288*820c1a8dSHiroo HAYASHI return -1;
1289*820c1a8dSHiroo HAYASHI }
1290*820c1a8dSHiroo HAYASHI }
1291*820c1a8dSHiroo HAYASHI
1292*820c1a8dSHiroo HAYASHI if (naccepted == 0)
1293*820c1a8dSHiroo HAYASHI {
1294*820c1a8dSHiroo HAYASHI Idx dest_node;
1295*820c1a8dSHiroo HAYASHI bool ok = re_node_set_insert (eps_via_nodes, node);
1296*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (! ok))
1297*820c1a8dSHiroo HAYASHI return -2;
1298*820c1a8dSHiroo HAYASHI dest_node = dfa->edests[node].elems[0];
1299*820c1a8dSHiroo HAYASHI if (re_node_set_contains (&mctx->state_log[*pidx]->nodes,
1300*820c1a8dSHiroo HAYASHI dest_node))
1301*820c1a8dSHiroo HAYASHI return dest_node;
1302*820c1a8dSHiroo HAYASHI }
1303*820c1a8dSHiroo HAYASHI }
1304*820c1a8dSHiroo HAYASHI
1305*820c1a8dSHiroo HAYASHI if (naccepted != 0
1306*820c1a8dSHiroo HAYASHI || check_node_accept (mctx, dfa->nodes + node, *pidx))
1307*820c1a8dSHiroo HAYASHI {
1308*820c1a8dSHiroo HAYASHI Idx dest_node = dfa->nexts[node];
1309*820c1a8dSHiroo HAYASHI *pidx = (naccepted == 0) ? *pidx + 1 : *pidx + naccepted;
1310*820c1a8dSHiroo HAYASHI if (fs && (*pidx > mctx->match_last || mctx->state_log[*pidx] == NULL
1311*820c1a8dSHiroo HAYASHI || !re_node_set_contains (&mctx->state_log[*pidx]->nodes,
1312*820c1a8dSHiroo HAYASHI dest_node)))
1313*820c1a8dSHiroo HAYASHI return -1;
1314*820c1a8dSHiroo HAYASHI re_node_set_empty (eps_via_nodes);
1315*820c1a8dSHiroo HAYASHI return dest_node;
1316*820c1a8dSHiroo HAYASHI }
1317*820c1a8dSHiroo HAYASHI }
1318*820c1a8dSHiroo HAYASHI return -1;
1319*820c1a8dSHiroo HAYASHI }
1320*820c1a8dSHiroo HAYASHI
1321*820c1a8dSHiroo HAYASHI static reg_errcode_t
1322*820c1a8dSHiroo HAYASHI __attribute_warn_unused_result__
push_fail_stack(struct re_fail_stack_t * fs,Idx str_idx,Idx dest_node,Idx nregs,regmatch_t * regs,regmatch_t * prevregs,re_node_set * eps_via_nodes)1323*820c1a8dSHiroo HAYASHI push_fail_stack (struct re_fail_stack_t *fs, Idx str_idx, Idx dest_node,
1324*820c1a8dSHiroo HAYASHI Idx nregs, regmatch_t *regs, regmatch_t *prevregs,
1325*820c1a8dSHiroo HAYASHI re_node_set *eps_via_nodes)
1326*820c1a8dSHiroo HAYASHI {
1327*820c1a8dSHiroo HAYASHI reg_errcode_t err;
1328*820c1a8dSHiroo HAYASHI Idx num = fs->num++;
1329*820c1a8dSHiroo HAYASHI if (fs->num == fs->alloc)
1330*820c1a8dSHiroo HAYASHI {
1331*820c1a8dSHiroo HAYASHI struct re_fail_stack_ent_t *new_array;
1332*820c1a8dSHiroo HAYASHI new_array = re_realloc (fs->stack, struct re_fail_stack_ent_t,
1333*820c1a8dSHiroo HAYASHI fs->alloc * 2);
1334*820c1a8dSHiroo HAYASHI if (new_array == NULL)
1335*820c1a8dSHiroo HAYASHI return REG_ESPACE;
1336*820c1a8dSHiroo HAYASHI fs->alloc *= 2;
1337*820c1a8dSHiroo HAYASHI fs->stack = new_array;
1338*820c1a8dSHiroo HAYASHI }
1339*820c1a8dSHiroo HAYASHI fs->stack[num].idx = str_idx;
1340*820c1a8dSHiroo HAYASHI fs->stack[num].node = dest_node;
1341*820c1a8dSHiroo HAYASHI fs->stack[num].regs = re_malloc (regmatch_t, 2 * nregs);
1342*820c1a8dSHiroo HAYASHI if (fs->stack[num].regs == NULL)
1343*820c1a8dSHiroo HAYASHI return REG_ESPACE;
1344*820c1a8dSHiroo HAYASHI memcpy (fs->stack[num].regs, regs, sizeof (regmatch_t) * nregs);
1345*820c1a8dSHiroo HAYASHI memcpy (fs->stack[num].regs + nregs, prevregs, sizeof (regmatch_t) * nregs);
1346*820c1a8dSHiroo HAYASHI err = re_node_set_init_copy (&fs->stack[num].eps_via_nodes, eps_via_nodes);
1347*820c1a8dSHiroo HAYASHI return err;
1348*820c1a8dSHiroo HAYASHI }
1349*820c1a8dSHiroo HAYASHI
1350*820c1a8dSHiroo HAYASHI static Idx
pop_fail_stack(struct re_fail_stack_t * fs,Idx * pidx,Idx nregs,regmatch_t * regs,regmatch_t * prevregs,re_node_set * eps_via_nodes)1351*820c1a8dSHiroo HAYASHI pop_fail_stack (struct re_fail_stack_t *fs, Idx *pidx, Idx nregs,
1352*820c1a8dSHiroo HAYASHI regmatch_t *regs, regmatch_t *prevregs,
1353*820c1a8dSHiroo HAYASHI re_node_set *eps_via_nodes)
1354*820c1a8dSHiroo HAYASHI {
1355*820c1a8dSHiroo HAYASHI if (fs == NULL || fs->num == 0)
1356*820c1a8dSHiroo HAYASHI return -1;
1357*820c1a8dSHiroo HAYASHI Idx num = --fs->num;
1358*820c1a8dSHiroo HAYASHI *pidx = fs->stack[num].idx;
1359*820c1a8dSHiroo HAYASHI memcpy (regs, fs->stack[num].regs, sizeof (regmatch_t) * nregs);
1360*820c1a8dSHiroo HAYASHI memcpy (prevregs, fs->stack[num].regs + nregs, sizeof (regmatch_t) * nregs);
1361*820c1a8dSHiroo HAYASHI re_node_set_free (eps_via_nodes);
1362*820c1a8dSHiroo HAYASHI re_free (fs->stack[num].regs);
1363*820c1a8dSHiroo HAYASHI *eps_via_nodes = fs->stack[num].eps_via_nodes;
1364*820c1a8dSHiroo HAYASHI DEBUG_ASSERT (0 <= fs->stack[num].node);
1365*820c1a8dSHiroo HAYASHI return fs->stack[num].node;
1366*820c1a8dSHiroo HAYASHI }
1367*820c1a8dSHiroo HAYASHI
1368*820c1a8dSHiroo HAYASHI
1369*820c1a8dSHiroo HAYASHI #define DYNARRAY_STRUCT regmatch_list
1370*820c1a8dSHiroo HAYASHI #define DYNARRAY_ELEMENT regmatch_t
1371*820c1a8dSHiroo HAYASHI #define DYNARRAY_PREFIX regmatch_list_
1372*820c1a8dSHiroo HAYASHI #include <malloc/dynarray-skeleton.c>
1373*820c1a8dSHiroo HAYASHI
1374*820c1a8dSHiroo HAYASHI /* Set the positions where the subexpressions are starts/ends to registers
1375*820c1a8dSHiroo HAYASHI PMATCH.
1376*820c1a8dSHiroo HAYASHI Note: We assume that pmatch[0] is already set, and
1377*820c1a8dSHiroo HAYASHI pmatch[i].rm_so == pmatch[i].rm_eo == -1 for 0 < i < nmatch. */
1378*820c1a8dSHiroo HAYASHI
1379*820c1a8dSHiroo HAYASHI static reg_errcode_t
1380*820c1a8dSHiroo HAYASHI __attribute_warn_unused_result__
set_regs(const regex_t * preg,const re_match_context_t * mctx,size_t nmatch,regmatch_t * pmatch,bool fl_backtrack)1381*820c1a8dSHiroo HAYASHI set_regs (const regex_t *preg, const re_match_context_t *mctx, size_t nmatch,
1382*820c1a8dSHiroo HAYASHI regmatch_t *pmatch, bool fl_backtrack)
1383*820c1a8dSHiroo HAYASHI {
1384*820c1a8dSHiroo HAYASHI const re_dfa_t *dfa = preg->buffer;
1385*820c1a8dSHiroo HAYASHI Idx idx, cur_node;
1386*820c1a8dSHiroo HAYASHI re_node_set eps_via_nodes;
1387*820c1a8dSHiroo HAYASHI struct re_fail_stack_t *fs;
1388*820c1a8dSHiroo HAYASHI struct re_fail_stack_t fs_body = { 0, 2, NULL };
1389*820c1a8dSHiroo HAYASHI struct regmatch_list prev_match;
1390*820c1a8dSHiroo HAYASHI regmatch_list_init (&prev_match);
1391*820c1a8dSHiroo HAYASHI
1392*820c1a8dSHiroo HAYASHI DEBUG_ASSERT (nmatch > 1);
1393*820c1a8dSHiroo HAYASHI DEBUG_ASSERT (mctx->state_log != NULL);
1394*820c1a8dSHiroo HAYASHI if (fl_backtrack)
1395*820c1a8dSHiroo HAYASHI {
1396*820c1a8dSHiroo HAYASHI fs = &fs_body;
1397*820c1a8dSHiroo HAYASHI fs->stack = re_malloc (struct re_fail_stack_ent_t, fs->alloc);
1398*820c1a8dSHiroo HAYASHI if (fs->stack == NULL)
1399*820c1a8dSHiroo HAYASHI return REG_ESPACE;
1400*820c1a8dSHiroo HAYASHI }
1401*820c1a8dSHiroo HAYASHI else
1402*820c1a8dSHiroo HAYASHI fs = NULL;
1403*820c1a8dSHiroo HAYASHI
1404*820c1a8dSHiroo HAYASHI cur_node = dfa->init_node;
1405*820c1a8dSHiroo HAYASHI re_node_set_init_empty (&eps_via_nodes);
1406*820c1a8dSHiroo HAYASHI
1407*820c1a8dSHiroo HAYASHI if (!regmatch_list_resize (&prev_match, nmatch))
1408*820c1a8dSHiroo HAYASHI {
1409*820c1a8dSHiroo HAYASHI regmatch_list_free (&prev_match);
1410*820c1a8dSHiroo HAYASHI free_fail_stack_return (fs);
1411*820c1a8dSHiroo HAYASHI return REG_ESPACE;
1412*820c1a8dSHiroo HAYASHI }
1413*820c1a8dSHiroo HAYASHI regmatch_t *prev_idx_match = regmatch_list_begin (&prev_match);
1414*820c1a8dSHiroo HAYASHI memcpy (prev_idx_match, pmatch, sizeof (regmatch_t) * nmatch);
1415*820c1a8dSHiroo HAYASHI
1416*820c1a8dSHiroo HAYASHI for (idx = pmatch[0].rm_so; idx <= pmatch[0].rm_eo ;)
1417*820c1a8dSHiroo HAYASHI {
1418*820c1a8dSHiroo HAYASHI update_regs (dfa, pmatch, prev_idx_match, cur_node, idx, nmatch);
1419*820c1a8dSHiroo HAYASHI
1420*820c1a8dSHiroo HAYASHI if ((idx == pmatch[0].rm_eo && cur_node == mctx->last_node)
1421*820c1a8dSHiroo HAYASHI || (fs && re_node_set_contains (&eps_via_nodes, cur_node)))
1422*820c1a8dSHiroo HAYASHI {
1423*820c1a8dSHiroo HAYASHI Idx reg_idx;
1424*820c1a8dSHiroo HAYASHI cur_node = -1;
1425*820c1a8dSHiroo HAYASHI if (fs)
1426*820c1a8dSHiroo HAYASHI {
1427*820c1a8dSHiroo HAYASHI for (reg_idx = 0; reg_idx < nmatch; ++reg_idx)
1428*820c1a8dSHiroo HAYASHI if (pmatch[reg_idx].rm_so > -1 && pmatch[reg_idx].rm_eo == -1)
1429*820c1a8dSHiroo HAYASHI {
1430*820c1a8dSHiroo HAYASHI cur_node = pop_fail_stack (fs, &idx, nmatch, pmatch,
1431*820c1a8dSHiroo HAYASHI prev_idx_match, &eps_via_nodes);
1432*820c1a8dSHiroo HAYASHI break;
1433*820c1a8dSHiroo HAYASHI }
1434*820c1a8dSHiroo HAYASHI }
1435*820c1a8dSHiroo HAYASHI if (cur_node < 0)
1436*820c1a8dSHiroo HAYASHI {
1437*820c1a8dSHiroo HAYASHI re_node_set_free (&eps_via_nodes);
1438*820c1a8dSHiroo HAYASHI regmatch_list_free (&prev_match);
1439*820c1a8dSHiroo HAYASHI return free_fail_stack_return (fs);
1440*820c1a8dSHiroo HAYASHI }
1441*820c1a8dSHiroo HAYASHI }
1442*820c1a8dSHiroo HAYASHI
1443*820c1a8dSHiroo HAYASHI /* Proceed to next node. */
1444*820c1a8dSHiroo HAYASHI cur_node = proceed_next_node (mctx, nmatch, pmatch, prev_idx_match,
1445*820c1a8dSHiroo HAYASHI &idx, cur_node,
1446*820c1a8dSHiroo HAYASHI &eps_via_nodes, fs);
1447*820c1a8dSHiroo HAYASHI
1448*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (cur_node < 0))
1449*820c1a8dSHiroo HAYASHI {
1450*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (cur_node == -2))
1451*820c1a8dSHiroo HAYASHI {
1452*820c1a8dSHiroo HAYASHI re_node_set_free (&eps_via_nodes);
1453*820c1a8dSHiroo HAYASHI regmatch_list_free (&prev_match);
1454*820c1a8dSHiroo HAYASHI free_fail_stack_return (fs);
1455*820c1a8dSHiroo HAYASHI return REG_ESPACE;
1456*820c1a8dSHiroo HAYASHI }
1457*820c1a8dSHiroo HAYASHI cur_node = pop_fail_stack (fs, &idx, nmatch, pmatch,
1458*820c1a8dSHiroo HAYASHI prev_idx_match, &eps_via_nodes);
1459*820c1a8dSHiroo HAYASHI if (cur_node < 0)
1460*820c1a8dSHiroo HAYASHI {
1461*820c1a8dSHiroo HAYASHI re_node_set_free (&eps_via_nodes);
1462*820c1a8dSHiroo HAYASHI regmatch_list_free (&prev_match);
1463*820c1a8dSHiroo HAYASHI free_fail_stack_return (fs);
1464*820c1a8dSHiroo HAYASHI return REG_NOMATCH;
1465*820c1a8dSHiroo HAYASHI }
1466*820c1a8dSHiroo HAYASHI }
1467*820c1a8dSHiroo HAYASHI }
1468*820c1a8dSHiroo HAYASHI re_node_set_free (&eps_via_nodes);
1469*820c1a8dSHiroo HAYASHI regmatch_list_free (&prev_match);
1470*820c1a8dSHiroo HAYASHI return free_fail_stack_return (fs);
1471*820c1a8dSHiroo HAYASHI }
1472*820c1a8dSHiroo HAYASHI
1473*820c1a8dSHiroo HAYASHI static reg_errcode_t
free_fail_stack_return(struct re_fail_stack_t * fs)1474*820c1a8dSHiroo HAYASHI free_fail_stack_return (struct re_fail_stack_t *fs)
1475*820c1a8dSHiroo HAYASHI {
1476*820c1a8dSHiroo HAYASHI if (fs)
1477*820c1a8dSHiroo HAYASHI {
1478*820c1a8dSHiroo HAYASHI Idx fs_idx;
1479*820c1a8dSHiroo HAYASHI for (fs_idx = 0; fs_idx < fs->num; ++fs_idx)
1480*820c1a8dSHiroo HAYASHI {
1481*820c1a8dSHiroo HAYASHI re_node_set_free (&fs->stack[fs_idx].eps_via_nodes);
1482*820c1a8dSHiroo HAYASHI re_free (fs->stack[fs_idx].regs);
1483*820c1a8dSHiroo HAYASHI }
1484*820c1a8dSHiroo HAYASHI re_free (fs->stack);
1485*820c1a8dSHiroo HAYASHI }
1486*820c1a8dSHiroo HAYASHI return REG_NOERROR;
1487*820c1a8dSHiroo HAYASHI }
1488*820c1a8dSHiroo HAYASHI
1489*820c1a8dSHiroo HAYASHI static void
update_regs(const re_dfa_t * dfa,regmatch_t * pmatch,regmatch_t * prev_idx_match,Idx cur_node,Idx cur_idx,Idx nmatch)1490*820c1a8dSHiroo HAYASHI update_regs (const re_dfa_t *dfa, regmatch_t *pmatch,
1491*820c1a8dSHiroo HAYASHI regmatch_t *prev_idx_match, Idx cur_node, Idx cur_idx, Idx nmatch)
1492*820c1a8dSHiroo HAYASHI {
1493*820c1a8dSHiroo HAYASHI int type = dfa->nodes[cur_node].type;
1494*820c1a8dSHiroo HAYASHI if (type == OP_OPEN_SUBEXP)
1495*820c1a8dSHiroo HAYASHI {
1496*820c1a8dSHiroo HAYASHI Idx reg_num = dfa->nodes[cur_node].opr.idx + 1;
1497*820c1a8dSHiroo HAYASHI
1498*820c1a8dSHiroo HAYASHI /* We are at the first node of this sub expression. */
1499*820c1a8dSHiroo HAYASHI if (reg_num < nmatch)
1500*820c1a8dSHiroo HAYASHI {
1501*820c1a8dSHiroo HAYASHI pmatch[reg_num].rm_so = cur_idx;
1502*820c1a8dSHiroo HAYASHI pmatch[reg_num].rm_eo = -1;
1503*820c1a8dSHiroo HAYASHI }
1504*820c1a8dSHiroo HAYASHI }
1505*820c1a8dSHiroo HAYASHI else if (type == OP_CLOSE_SUBEXP)
1506*820c1a8dSHiroo HAYASHI {
1507*820c1a8dSHiroo HAYASHI /* We are at the last node of this sub expression. */
1508*820c1a8dSHiroo HAYASHI Idx reg_num = dfa->nodes[cur_node].opr.idx + 1;
1509*820c1a8dSHiroo HAYASHI if (reg_num < nmatch)
1510*820c1a8dSHiroo HAYASHI {
1511*820c1a8dSHiroo HAYASHI if (pmatch[reg_num].rm_so < cur_idx)
1512*820c1a8dSHiroo HAYASHI {
1513*820c1a8dSHiroo HAYASHI pmatch[reg_num].rm_eo = cur_idx;
1514*820c1a8dSHiroo HAYASHI /* This is a non-empty match or we are not inside an optional
1515*820c1a8dSHiroo HAYASHI subexpression. Accept this right away. */
1516*820c1a8dSHiroo HAYASHI memcpy (prev_idx_match, pmatch, sizeof (regmatch_t) * nmatch);
1517*820c1a8dSHiroo HAYASHI }
1518*820c1a8dSHiroo HAYASHI else
1519*820c1a8dSHiroo HAYASHI {
1520*820c1a8dSHiroo HAYASHI if (dfa->nodes[cur_node].opt_subexp
1521*820c1a8dSHiroo HAYASHI && prev_idx_match[reg_num].rm_so != -1)
1522*820c1a8dSHiroo HAYASHI /* We transited through an empty match for an optional
1523*820c1a8dSHiroo HAYASHI subexpression, like (a?)*, and this is not the subexp's
1524*820c1a8dSHiroo HAYASHI first match. Copy back the old content of the registers
1525*820c1a8dSHiroo HAYASHI so that matches of an inner subexpression are undone as
1526*820c1a8dSHiroo HAYASHI well, like in ((a?))*. */
1527*820c1a8dSHiroo HAYASHI memcpy (pmatch, prev_idx_match, sizeof (regmatch_t) * nmatch);
1528*820c1a8dSHiroo HAYASHI else
1529*820c1a8dSHiroo HAYASHI /* We completed a subexpression, but it may be part of
1530*820c1a8dSHiroo HAYASHI an optional one, so do not update PREV_IDX_MATCH. */
1531*820c1a8dSHiroo HAYASHI pmatch[reg_num].rm_eo = cur_idx;
1532*820c1a8dSHiroo HAYASHI }
1533*820c1a8dSHiroo HAYASHI }
1534*820c1a8dSHiroo HAYASHI }
1535*820c1a8dSHiroo HAYASHI }
1536*820c1a8dSHiroo HAYASHI
1537*820c1a8dSHiroo HAYASHI /* This function checks the STATE_LOG from the SCTX->last_str_idx to 0
1538*820c1a8dSHiroo HAYASHI and sift the nodes in each states according to the following rules.
1539*820c1a8dSHiroo HAYASHI Updated state_log will be wrote to STATE_LOG.
1540*820c1a8dSHiroo HAYASHI
1541*820c1a8dSHiroo HAYASHI Rules: We throw away the Node 'a' in the STATE_LOG[STR_IDX] if...
1542*820c1a8dSHiroo HAYASHI 1. When STR_IDX == MATCH_LAST(the last index in the state_log):
1543*820c1a8dSHiroo HAYASHI If 'a' isn't the LAST_NODE and 'a' can't epsilon transit to
1544*820c1a8dSHiroo HAYASHI the LAST_NODE, we throw away the node 'a'.
1545*820c1a8dSHiroo HAYASHI 2. When 0 <= STR_IDX < MATCH_LAST and 'a' accepts
1546*820c1a8dSHiroo HAYASHI string 's' and transit to 'b':
1547*820c1a8dSHiroo HAYASHI i. If 'b' isn't in the STATE_LOG[STR_IDX+strlen('s')], we throw
1548*820c1a8dSHiroo HAYASHI away the node 'a'.
1549*820c1a8dSHiroo HAYASHI ii. If 'b' is in the STATE_LOG[STR_IDX+strlen('s')] but 'b' is
1550*820c1a8dSHiroo HAYASHI thrown away, we throw away the node 'a'.
1551*820c1a8dSHiroo HAYASHI 3. When 0 <= STR_IDX < MATCH_LAST and 'a' epsilon transit to 'b':
1552*820c1a8dSHiroo HAYASHI i. If 'b' isn't in the STATE_LOG[STR_IDX], we throw away the
1553*820c1a8dSHiroo HAYASHI node 'a'.
1554*820c1a8dSHiroo HAYASHI ii. If 'b' is in the STATE_LOG[STR_IDX] but 'b' is thrown away,
1555*820c1a8dSHiroo HAYASHI we throw away the node 'a'. */
1556*820c1a8dSHiroo HAYASHI
1557*820c1a8dSHiroo HAYASHI #define STATE_NODE_CONTAINS(state,node) \
1558*820c1a8dSHiroo HAYASHI ((state) != NULL && re_node_set_contains (&(state)->nodes, node))
1559*820c1a8dSHiroo HAYASHI
1560*820c1a8dSHiroo HAYASHI static reg_errcode_t
sift_states_backward(const re_match_context_t * mctx,re_sift_context_t * sctx)1561*820c1a8dSHiroo HAYASHI sift_states_backward (const re_match_context_t *mctx, re_sift_context_t *sctx)
1562*820c1a8dSHiroo HAYASHI {
1563*820c1a8dSHiroo HAYASHI reg_errcode_t err;
1564*820c1a8dSHiroo HAYASHI int null_cnt = 0;
1565*820c1a8dSHiroo HAYASHI Idx str_idx = sctx->last_str_idx;
1566*820c1a8dSHiroo HAYASHI re_node_set cur_dest;
1567*820c1a8dSHiroo HAYASHI
1568*820c1a8dSHiroo HAYASHI DEBUG_ASSERT (mctx->state_log != NULL && mctx->state_log[str_idx] != NULL);
1569*820c1a8dSHiroo HAYASHI
1570*820c1a8dSHiroo HAYASHI /* Build sifted state_log[str_idx]. It has the nodes which can epsilon
1571*820c1a8dSHiroo HAYASHI transit to the last_node and the last_node itself. */
1572*820c1a8dSHiroo HAYASHI err = re_node_set_init_1 (&cur_dest, sctx->last_node);
1573*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
1574*820c1a8dSHiroo HAYASHI return err;
1575*820c1a8dSHiroo HAYASHI err = update_cur_sifted_state (mctx, sctx, str_idx, &cur_dest);
1576*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
1577*820c1a8dSHiroo HAYASHI goto free_return;
1578*820c1a8dSHiroo HAYASHI
1579*820c1a8dSHiroo HAYASHI /* Then check each states in the state_log. */
1580*820c1a8dSHiroo HAYASHI while (str_idx > 0)
1581*820c1a8dSHiroo HAYASHI {
1582*820c1a8dSHiroo HAYASHI /* Update counters. */
1583*820c1a8dSHiroo HAYASHI null_cnt = (sctx->sifted_states[str_idx] == NULL) ? null_cnt + 1 : 0;
1584*820c1a8dSHiroo HAYASHI if (null_cnt > mctx->max_mb_elem_len)
1585*820c1a8dSHiroo HAYASHI {
1586*820c1a8dSHiroo HAYASHI memset (sctx->sifted_states, '\0',
1587*820c1a8dSHiroo HAYASHI sizeof (re_dfastate_t *) * str_idx);
1588*820c1a8dSHiroo HAYASHI re_node_set_free (&cur_dest);
1589*820c1a8dSHiroo HAYASHI return REG_NOERROR;
1590*820c1a8dSHiroo HAYASHI }
1591*820c1a8dSHiroo HAYASHI re_node_set_empty (&cur_dest);
1592*820c1a8dSHiroo HAYASHI --str_idx;
1593*820c1a8dSHiroo HAYASHI
1594*820c1a8dSHiroo HAYASHI if (mctx->state_log[str_idx])
1595*820c1a8dSHiroo HAYASHI {
1596*820c1a8dSHiroo HAYASHI err = build_sifted_states (mctx, sctx, str_idx, &cur_dest);
1597*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
1598*820c1a8dSHiroo HAYASHI goto free_return;
1599*820c1a8dSHiroo HAYASHI }
1600*820c1a8dSHiroo HAYASHI
1601*820c1a8dSHiroo HAYASHI /* Add all the nodes which satisfy the following conditions:
1602*820c1a8dSHiroo HAYASHI - It can epsilon transit to a node in CUR_DEST.
1603*820c1a8dSHiroo HAYASHI - It is in CUR_SRC.
1604*820c1a8dSHiroo HAYASHI And update state_log. */
1605*820c1a8dSHiroo HAYASHI err = update_cur_sifted_state (mctx, sctx, str_idx, &cur_dest);
1606*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
1607*820c1a8dSHiroo HAYASHI goto free_return;
1608*820c1a8dSHiroo HAYASHI }
1609*820c1a8dSHiroo HAYASHI err = REG_NOERROR;
1610*820c1a8dSHiroo HAYASHI free_return:
1611*820c1a8dSHiroo HAYASHI re_node_set_free (&cur_dest);
1612*820c1a8dSHiroo HAYASHI return err;
1613*820c1a8dSHiroo HAYASHI }
1614*820c1a8dSHiroo HAYASHI
1615*820c1a8dSHiroo HAYASHI static reg_errcode_t
1616*820c1a8dSHiroo HAYASHI __attribute_warn_unused_result__
build_sifted_states(const re_match_context_t * mctx,re_sift_context_t * sctx,Idx str_idx,re_node_set * cur_dest)1617*820c1a8dSHiroo HAYASHI build_sifted_states (const re_match_context_t *mctx, re_sift_context_t *sctx,
1618*820c1a8dSHiroo HAYASHI Idx str_idx, re_node_set *cur_dest)
1619*820c1a8dSHiroo HAYASHI {
1620*820c1a8dSHiroo HAYASHI const re_dfa_t *const dfa = mctx->dfa;
1621*820c1a8dSHiroo HAYASHI const re_node_set *cur_src = &mctx->state_log[str_idx]->non_eps_nodes;
1622*820c1a8dSHiroo HAYASHI Idx i;
1623*820c1a8dSHiroo HAYASHI
1624*820c1a8dSHiroo HAYASHI /* Then build the next sifted state.
1625*820c1a8dSHiroo HAYASHI We build the next sifted state on 'cur_dest', and update
1626*820c1a8dSHiroo HAYASHI 'sifted_states[str_idx]' with 'cur_dest'.
1627*820c1a8dSHiroo HAYASHI Note:
1628*820c1a8dSHiroo HAYASHI 'cur_dest' is the sifted state from 'state_log[str_idx + 1]'.
1629*820c1a8dSHiroo HAYASHI 'cur_src' points the node_set of the old 'state_log[str_idx]'
1630*820c1a8dSHiroo HAYASHI (with the epsilon nodes pre-filtered out). */
1631*820c1a8dSHiroo HAYASHI for (i = 0; i < cur_src->nelem; i++)
1632*820c1a8dSHiroo HAYASHI {
1633*820c1a8dSHiroo HAYASHI Idx prev_node = cur_src->elems[i];
1634*820c1a8dSHiroo HAYASHI int naccepted = 0;
1635*820c1a8dSHiroo HAYASHI bool ok;
1636*820c1a8dSHiroo HAYASHI DEBUG_ASSERT (!IS_EPSILON_NODE (dfa->nodes[prev_node].type));
1637*820c1a8dSHiroo HAYASHI
1638*820c1a8dSHiroo HAYASHI #ifdef RE_ENABLE_I18N
1639*820c1a8dSHiroo HAYASHI /* If the node may accept "multi byte". */
1640*820c1a8dSHiroo HAYASHI if (dfa->nodes[prev_node].accept_mb)
1641*820c1a8dSHiroo HAYASHI naccepted = sift_states_iter_mb (mctx, sctx, prev_node,
1642*820c1a8dSHiroo HAYASHI str_idx, sctx->last_str_idx);
1643*820c1a8dSHiroo HAYASHI #endif /* RE_ENABLE_I18N */
1644*820c1a8dSHiroo HAYASHI
1645*820c1a8dSHiroo HAYASHI /* We don't check backreferences here.
1646*820c1a8dSHiroo HAYASHI See update_cur_sifted_state(). */
1647*820c1a8dSHiroo HAYASHI if (!naccepted
1648*820c1a8dSHiroo HAYASHI && check_node_accept (mctx, dfa->nodes + prev_node, str_idx)
1649*820c1a8dSHiroo HAYASHI && STATE_NODE_CONTAINS (sctx->sifted_states[str_idx + 1],
1650*820c1a8dSHiroo HAYASHI dfa->nexts[prev_node]))
1651*820c1a8dSHiroo HAYASHI naccepted = 1;
1652*820c1a8dSHiroo HAYASHI
1653*820c1a8dSHiroo HAYASHI if (naccepted == 0)
1654*820c1a8dSHiroo HAYASHI continue;
1655*820c1a8dSHiroo HAYASHI
1656*820c1a8dSHiroo HAYASHI if (sctx->limits.nelem)
1657*820c1a8dSHiroo HAYASHI {
1658*820c1a8dSHiroo HAYASHI Idx to_idx = str_idx + naccepted;
1659*820c1a8dSHiroo HAYASHI if (check_dst_limits (mctx, &sctx->limits,
1660*820c1a8dSHiroo HAYASHI dfa->nexts[prev_node], to_idx,
1661*820c1a8dSHiroo HAYASHI prev_node, str_idx))
1662*820c1a8dSHiroo HAYASHI continue;
1663*820c1a8dSHiroo HAYASHI }
1664*820c1a8dSHiroo HAYASHI ok = re_node_set_insert (cur_dest, prev_node);
1665*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (! ok))
1666*820c1a8dSHiroo HAYASHI return REG_ESPACE;
1667*820c1a8dSHiroo HAYASHI }
1668*820c1a8dSHiroo HAYASHI
1669*820c1a8dSHiroo HAYASHI return REG_NOERROR;
1670*820c1a8dSHiroo HAYASHI }
1671*820c1a8dSHiroo HAYASHI
1672*820c1a8dSHiroo HAYASHI /* Helper functions. */
1673*820c1a8dSHiroo HAYASHI
1674*820c1a8dSHiroo HAYASHI static reg_errcode_t
clean_state_log_if_needed(re_match_context_t * mctx,Idx next_state_log_idx)1675*820c1a8dSHiroo HAYASHI clean_state_log_if_needed (re_match_context_t *mctx, Idx next_state_log_idx)
1676*820c1a8dSHiroo HAYASHI {
1677*820c1a8dSHiroo HAYASHI Idx top = mctx->state_log_top;
1678*820c1a8dSHiroo HAYASHI
1679*820c1a8dSHiroo HAYASHI if ((next_state_log_idx >= mctx->input.bufs_len
1680*820c1a8dSHiroo HAYASHI && mctx->input.bufs_len < mctx->input.len)
1681*820c1a8dSHiroo HAYASHI || (next_state_log_idx >= mctx->input.valid_len
1682*820c1a8dSHiroo HAYASHI && mctx->input.valid_len < mctx->input.len))
1683*820c1a8dSHiroo HAYASHI {
1684*820c1a8dSHiroo HAYASHI reg_errcode_t err;
1685*820c1a8dSHiroo HAYASHI err = extend_buffers (mctx, next_state_log_idx + 1);
1686*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
1687*820c1a8dSHiroo HAYASHI return err;
1688*820c1a8dSHiroo HAYASHI }
1689*820c1a8dSHiroo HAYASHI
1690*820c1a8dSHiroo HAYASHI if (top < next_state_log_idx)
1691*820c1a8dSHiroo HAYASHI {
1692*820c1a8dSHiroo HAYASHI memset (mctx->state_log + top + 1, '\0',
1693*820c1a8dSHiroo HAYASHI sizeof (re_dfastate_t *) * (next_state_log_idx - top));
1694*820c1a8dSHiroo HAYASHI mctx->state_log_top = next_state_log_idx;
1695*820c1a8dSHiroo HAYASHI }
1696*820c1a8dSHiroo HAYASHI return REG_NOERROR;
1697*820c1a8dSHiroo HAYASHI }
1698*820c1a8dSHiroo HAYASHI
1699*820c1a8dSHiroo HAYASHI static reg_errcode_t
merge_state_array(const re_dfa_t * dfa,re_dfastate_t ** dst,re_dfastate_t ** src,Idx num)1700*820c1a8dSHiroo HAYASHI merge_state_array (const re_dfa_t *dfa, re_dfastate_t **dst,
1701*820c1a8dSHiroo HAYASHI re_dfastate_t **src, Idx num)
1702*820c1a8dSHiroo HAYASHI {
1703*820c1a8dSHiroo HAYASHI Idx st_idx;
1704*820c1a8dSHiroo HAYASHI reg_errcode_t err;
1705*820c1a8dSHiroo HAYASHI for (st_idx = 0; st_idx < num; ++st_idx)
1706*820c1a8dSHiroo HAYASHI {
1707*820c1a8dSHiroo HAYASHI if (dst[st_idx] == NULL)
1708*820c1a8dSHiroo HAYASHI dst[st_idx] = src[st_idx];
1709*820c1a8dSHiroo HAYASHI else if (src[st_idx] != NULL)
1710*820c1a8dSHiroo HAYASHI {
1711*820c1a8dSHiroo HAYASHI re_node_set merged_set;
1712*820c1a8dSHiroo HAYASHI err = re_node_set_init_union (&merged_set, &dst[st_idx]->nodes,
1713*820c1a8dSHiroo HAYASHI &src[st_idx]->nodes);
1714*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
1715*820c1a8dSHiroo HAYASHI return err;
1716*820c1a8dSHiroo HAYASHI dst[st_idx] = re_acquire_state (&err, dfa, &merged_set);
1717*820c1a8dSHiroo HAYASHI re_node_set_free (&merged_set);
1718*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
1719*820c1a8dSHiroo HAYASHI return err;
1720*820c1a8dSHiroo HAYASHI }
1721*820c1a8dSHiroo HAYASHI }
1722*820c1a8dSHiroo HAYASHI return REG_NOERROR;
1723*820c1a8dSHiroo HAYASHI }
1724*820c1a8dSHiroo HAYASHI
1725*820c1a8dSHiroo HAYASHI static reg_errcode_t
update_cur_sifted_state(const re_match_context_t * mctx,re_sift_context_t * sctx,Idx str_idx,re_node_set * dest_nodes)1726*820c1a8dSHiroo HAYASHI update_cur_sifted_state (const re_match_context_t *mctx,
1727*820c1a8dSHiroo HAYASHI re_sift_context_t *sctx, Idx str_idx,
1728*820c1a8dSHiroo HAYASHI re_node_set *dest_nodes)
1729*820c1a8dSHiroo HAYASHI {
1730*820c1a8dSHiroo HAYASHI const re_dfa_t *const dfa = mctx->dfa;
1731*820c1a8dSHiroo HAYASHI reg_errcode_t err = REG_NOERROR;
1732*820c1a8dSHiroo HAYASHI const re_node_set *candidates;
1733*820c1a8dSHiroo HAYASHI candidates = ((mctx->state_log[str_idx] == NULL) ? NULL
1734*820c1a8dSHiroo HAYASHI : &mctx->state_log[str_idx]->nodes);
1735*820c1a8dSHiroo HAYASHI
1736*820c1a8dSHiroo HAYASHI if (dest_nodes->nelem == 0)
1737*820c1a8dSHiroo HAYASHI sctx->sifted_states[str_idx] = NULL;
1738*820c1a8dSHiroo HAYASHI else
1739*820c1a8dSHiroo HAYASHI {
1740*820c1a8dSHiroo HAYASHI if (candidates)
1741*820c1a8dSHiroo HAYASHI {
1742*820c1a8dSHiroo HAYASHI /* At first, add the nodes which can epsilon transit to a node in
1743*820c1a8dSHiroo HAYASHI DEST_NODE. */
1744*820c1a8dSHiroo HAYASHI err = add_epsilon_src_nodes (dfa, dest_nodes, candidates);
1745*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
1746*820c1a8dSHiroo HAYASHI return err;
1747*820c1a8dSHiroo HAYASHI
1748*820c1a8dSHiroo HAYASHI /* Then, check the limitations in the current sift_context. */
1749*820c1a8dSHiroo HAYASHI if (sctx->limits.nelem)
1750*820c1a8dSHiroo HAYASHI {
1751*820c1a8dSHiroo HAYASHI err = check_subexp_limits (dfa, dest_nodes, candidates, &sctx->limits,
1752*820c1a8dSHiroo HAYASHI mctx->bkref_ents, str_idx);
1753*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
1754*820c1a8dSHiroo HAYASHI return err;
1755*820c1a8dSHiroo HAYASHI }
1756*820c1a8dSHiroo HAYASHI }
1757*820c1a8dSHiroo HAYASHI
1758*820c1a8dSHiroo HAYASHI sctx->sifted_states[str_idx] = re_acquire_state (&err, dfa, dest_nodes);
1759*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
1760*820c1a8dSHiroo HAYASHI return err;
1761*820c1a8dSHiroo HAYASHI }
1762*820c1a8dSHiroo HAYASHI
1763*820c1a8dSHiroo HAYASHI if (candidates && mctx->state_log[str_idx]->has_backref)
1764*820c1a8dSHiroo HAYASHI {
1765*820c1a8dSHiroo HAYASHI err = sift_states_bkref (mctx, sctx, str_idx, candidates);
1766*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
1767*820c1a8dSHiroo HAYASHI return err;
1768*820c1a8dSHiroo HAYASHI }
1769*820c1a8dSHiroo HAYASHI return REG_NOERROR;
1770*820c1a8dSHiroo HAYASHI }
1771*820c1a8dSHiroo HAYASHI
1772*820c1a8dSHiroo HAYASHI static reg_errcode_t
1773*820c1a8dSHiroo HAYASHI __attribute_warn_unused_result__
add_epsilon_src_nodes(const re_dfa_t * dfa,re_node_set * dest_nodes,const re_node_set * candidates)1774*820c1a8dSHiroo HAYASHI add_epsilon_src_nodes (const re_dfa_t *dfa, re_node_set *dest_nodes,
1775*820c1a8dSHiroo HAYASHI const re_node_set *candidates)
1776*820c1a8dSHiroo HAYASHI {
1777*820c1a8dSHiroo HAYASHI reg_errcode_t err = REG_NOERROR;
1778*820c1a8dSHiroo HAYASHI Idx i;
1779*820c1a8dSHiroo HAYASHI
1780*820c1a8dSHiroo HAYASHI re_dfastate_t *state = re_acquire_state (&err, dfa, dest_nodes);
1781*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
1782*820c1a8dSHiroo HAYASHI return err;
1783*820c1a8dSHiroo HAYASHI
1784*820c1a8dSHiroo HAYASHI if (!state->inveclosure.alloc)
1785*820c1a8dSHiroo HAYASHI {
1786*820c1a8dSHiroo HAYASHI err = re_node_set_alloc (&state->inveclosure, dest_nodes->nelem);
1787*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
1788*820c1a8dSHiroo HAYASHI return REG_ESPACE;
1789*820c1a8dSHiroo HAYASHI for (i = 0; i < dest_nodes->nelem; i++)
1790*820c1a8dSHiroo HAYASHI {
1791*820c1a8dSHiroo HAYASHI err = re_node_set_merge (&state->inveclosure,
1792*820c1a8dSHiroo HAYASHI dfa->inveclosures + dest_nodes->elems[i]);
1793*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
1794*820c1a8dSHiroo HAYASHI return REG_ESPACE;
1795*820c1a8dSHiroo HAYASHI }
1796*820c1a8dSHiroo HAYASHI }
1797*820c1a8dSHiroo HAYASHI return re_node_set_add_intersect (dest_nodes, candidates,
1798*820c1a8dSHiroo HAYASHI &state->inveclosure);
1799*820c1a8dSHiroo HAYASHI }
1800*820c1a8dSHiroo HAYASHI
1801*820c1a8dSHiroo HAYASHI static reg_errcode_t
sub_epsilon_src_nodes(const re_dfa_t * dfa,Idx node,re_node_set * dest_nodes,const re_node_set * candidates)1802*820c1a8dSHiroo HAYASHI sub_epsilon_src_nodes (const re_dfa_t *dfa, Idx node, re_node_set *dest_nodes,
1803*820c1a8dSHiroo HAYASHI const re_node_set *candidates)
1804*820c1a8dSHiroo HAYASHI {
1805*820c1a8dSHiroo HAYASHI Idx ecl_idx;
1806*820c1a8dSHiroo HAYASHI reg_errcode_t err;
1807*820c1a8dSHiroo HAYASHI re_node_set *inv_eclosure = dfa->inveclosures + node;
1808*820c1a8dSHiroo HAYASHI re_node_set except_nodes;
1809*820c1a8dSHiroo HAYASHI re_node_set_init_empty (&except_nodes);
1810*820c1a8dSHiroo HAYASHI for (ecl_idx = 0; ecl_idx < inv_eclosure->nelem; ++ecl_idx)
1811*820c1a8dSHiroo HAYASHI {
1812*820c1a8dSHiroo HAYASHI Idx cur_node = inv_eclosure->elems[ecl_idx];
1813*820c1a8dSHiroo HAYASHI if (cur_node == node)
1814*820c1a8dSHiroo HAYASHI continue;
1815*820c1a8dSHiroo HAYASHI if (IS_EPSILON_NODE (dfa->nodes[cur_node].type))
1816*820c1a8dSHiroo HAYASHI {
1817*820c1a8dSHiroo HAYASHI Idx edst1 = dfa->edests[cur_node].elems[0];
1818*820c1a8dSHiroo HAYASHI Idx edst2 = ((dfa->edests[cur_node].nelem > 1)
1819*820c1a8dSHiroo HAYASHI ? dfa->edests[cur_node].elems[1] : -1);
1820*820c1a8dSHiroo HAYASHI if ((!re_node_set_contains (inv_eclosure, edst1)
1821*820c1a8dSHiroo HAYASHI && re_node_set_contains (dest_nodes, edst1))
1822*820c1a8dSHiroo HAYASHI || (edst2 > 0
1823*820c1a8dSHiroo HAYASHI && !re_node_set_contains (inv_eclosure, edst2)
1824*820c1a8dSHiroo HAYASHI && re_node_set_contains (dest_nodes, edst2)))
1825*820c1a8dSHiroo HAYASHI {
1826*820c1a8dSHiroo HAYASHI err = re_node_set_add_intersect (&except_nodes, candidates,
1827*820c1a8dSHiroo HAYASHI dfa->inveclosures + cur_node);
1828*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
1829*820c1a8dSHiroo HAYASHI {
1830*820c1a8dSHiroo HAYASHI re_node_set_free (&except_nodes);
1831*820c1a8dSHiroo HAYASHI return err;
1832*820c1a8dSHiroo HAYASHI }
1833*820c1a8dSHiroo HAYASHI }
1834*820c1a8dSHiroo HAYASHI }
1835*820c1a8dSHiroo HAYASHI }
1836*820c1a8dSHiroo HAYASHI for (ecl_idx = 0; ecl_idx < inv_eclosure->nelem; ++ecl_idx)
1837*820c1a8dSHiroo HAYASHI {
1838*820c1a8dSHiroo HAYASHI Idx cur_node = inv_eclosure->elems[ecl_idx];
1839*820c1a8dSHiroo HAYASHI if (!re_node_set_contains (&except_nodes, cur_node))
1840*820c1a8dSHiroo HAYASHI {
1841*820c1a8dSHiroo HAYASHI Idx idx = re_node_set_contains (dest_nodes, cur_node) - 1;
1842*820c1a8dSHiroo HAYASHI re_node_set_remove_at (dest_nodes, idx);
1843*820c1a8dSHiroo HAYASHI }
1844*820c1a8dSHiroo HAYASHI }
1845*820c1a8dSHiroo HAYASHI re_node_set_free (&except_nodes);
1846*820c1a8dSHiroo HAYASHI return REG_NOERROR;
1847*820c1a8dSHiroo HAYASHI }
1848*820c1a8dSHiroo HAYASHI
1849*820c1a8dSHiroo HAYASHI static bool
check_dst_limits(const re_match_context_t * mctx,const re_node_set * limits,Idx dst_node,Idx dst_idx,Idx src_node,Idx src_idx)1850*820c1a8dSHiroo HAYASHI check_dst_limits (const re_match_context_t *mctx, const re_node_set *limits,
1851*820c1a8dSHiroo HAYASHI Idx dst_node, Idx dst_idx, Idx src_node, Idx src_idx)
1852*820c1a8dSHiroo HAYASHI {
1853*820c1a8dSHiroo HAYASHI const re_dfa_t *const dfa = mctx->dfa;
1854*820c1a8dSHiroo HAYASHI Idx lim_idx, src_pos, dst_pos;
1855*820c1a8dSHiroo HAYASHI
1856*820c1a8dSHiroo HAYASHI Idx dst_bkref_idx = search_cur_bkref_entry (mctx, dst_idx);
1857*820c1a8dSHiroo HAYASHI Idx src_bkref_idx = search_cur_bkref_entry (mctx, src_idx);
1858*820c1a8dSHiroo HAYASHI for (lim_idx = 0; lim_idx < limits->nelem; ++lim_idx)
1859*820c1a8dSHiroo HAYASHI {
1860*820c1a8dSHiroo HAYASHI Idx subexp_idx;
1861*820c1a8dSHiroo HAYASHI struct re_backref_cache_entry *ent;
1862*820c1a8dSHiroo HAYASHI ent = mctx->bkref_ents + limits->elems[lim_idx];
1863*820c1a8dSHiroo HAYASHI subexp_idx = dfa->nodes[ent->node].opr.idx;
1864*820c1a8dSHiroo HAYASHI
1865*820c1a8dSHiroo HAYASHI dst_pos = check_dst_limits_calc_pos (mctx, limits->elems[lim_idx],
1866*820c1a8dSHiroo HAYASHI subexp_idx, dst_node, dst_idx,
1867*820c1a8dSHiroo HAYASHI dst_bkref_idx);
1868*820c1a8dSHiroo HAYASHI src_pos = check_dst_limits_calc_pos (mctx, limits->elems[lim_idx],
1869*820c1a8dSHiroo HAYASHI subexp_idx, src_node, src_idx,
1870*820c1a8dSHiroo HAYASHI src_bkref_idx);
1871*820c1a8dSHiroo HAYASHI
1872*820c1a8dSHiroo HAYASHI /* In case of:
1873*820c1a8dSHiroo HAYASHI <src> <dst> ( <subexp> )
1874*820c1a8dSHiroo HAYASHI ( <subexp> ) <src> <dst>
1875*820c1a8dSHiroo HAYASHI ( <subexp1> <src> <subexp2> <dst> <subexp3> ) */
1876*820c1a8dSHiroo HAYASHI if (src_pos == dst_pos)
1877*820c1a8dSHiroo HAYASHI continue; /* This is unrelated limitation. */
1878*820c1a8dSHiroo HAYASHI else
1879*820c1a8dSHiroo HAYASHI return true;
1880*820c1a8dSHiroo HAYASHI }
1881*820c1a8dSHiroo HAYASHI return false;
1882*820c1a8dSHiroo HAYASHI }
1883*820c1a8dSHiroo HAYASHI
1884*820c1a8dSHiroo HAYASHI static int
check_dst_limits_calc_pos_1(const re_match_context_t * mctx,int boundaries,Idx subexp_idx,Idx from_node,Idx bkref_idx)1885*820c1a8dSHiroo HAYASHI check_dst_limits_calc_pos_1 (const re_match_context_t *mctx, int boundaries,
1886*820c1a8dSHiroo HAYASHI Idx subexp_idx, Idx from_node, Idx bkref_idx)
1887*820c1a8dSHiroo HAYASHI {
1888*820c1a8dSHiroo HAYASHI const re_dfa_t *const dfa = mctx->dfa;
1889*820c1a8dSHiroo HAYASHI const re_node_set *eclosures = dfa->eclosures + from_node;
1890*820c1a8dSHiroo HAYASHI Idx node_idx;
1891*820c1a8dSHiroo HAYASHI
1892*820c1a8dSHiroo HAYASHI /* Else, we are on the boundary: examine the nodes on the epsilon
1893*820c1a8dSHiroo HAYASHI closure. */
1894*820c1a8dSHiroo HAYASHI for (node_idx = 0; node_idx < eclosures->nelem; ++node_idx)
1895*820c1a8dSHiroo HAYASHI {
1896*820c1a8dSHiroo HAYASHI Idx node = eclosures->elems[node_idx];
1897*820c1a8dSHiroo HAYASHI switch (dfa->nodes[node].type)
1898*820c1a8dSHiroo HAYASHI {
1899*820c1a8dSHiroo HAYASHI case OP_BACK_REF:
1900*820c1a8dSHiroo HAYASHI if (bkref_idx != -1)
1901*820c1a8dSHiroo HAYASHI {
1902*820c1a8dSHiroo HAYASHI struct re_backref_cache_entry *ent = mctx->bkref_ents + bkref_idx;
1903*820c1a8dSHiroo HAYASHI do
1904*820c1a8dSHiroo HAYASHI {
1905*820c1a8dSHiroo HAYASHI Idx dst;
1906*820c1a8dSHiroo HAYASHI int cpos;
1907*820c1a8dSHiroo HAYASHI
1908*820c1a8dSHiroo HAYASHI if (ent->node != node)
1909*820c1a8dSHiroo HAYASHI continue;
1910*820c1a8dSHiroo HAYASHI
1911*820c1a8dSHiroo HAYASHI if (subexp_idx < BITSET_WORD_BITS
1912*820c1a8dSHiroo HAYASHI && !(ent->eps_reachable_subexps_map
1913*820c1a8dSHiroo HAYASHI & ((bitset_word_t) 1 << subexp_idx)))
1914*820c1a8dSHiroo HAYASHI continue;
1915*820c1a8dSHiroo HAYASHI
1916*820c1a8dSHiroo HAYASHI /* Recurse trying to reach the OP_OPEN_SUBEXP and
1917*820c1a8dSHiroo HAYASHI OP_CLOSE_SUBEXP cases below. But, if the
1918*820c1a8dSHiroo HAYASHI destination node is the same node as the source
1919*820c1a8dSHiroo HAYASHI node, don't recurse because it would cause an
1920*820c1a8dSHiroo HAYASHI infinite loop: a regex that exhibits this behavior
1921*820c1a8dSHiroo HAYASHI is ()\1*\1* */
1922*820c1a8dSHiroo HAYASHI dst = dfa->edests[node].elems[0];
1923*820c1a8dSHiroo HAYASHI if (dst == from_node)
1924*820c1a8dSHiroo HAYASHI {
1925*820c1a8dSHiroo HAYASHI if (boundaries & 1)
1926*820c1a8dSHiroo HAYASHI return -1;
1927*820c1a8dSHiroo HAYASHI else /* if (boundaries & 2) */
1928*820c1a8dSHiroo HAYASHI return 0;
1929*820c1a8dSHiroo HAYASHI }
1930*820c1a8dSHiroo HAYASHI
1931*820c1a8dSHiroo HAYASHI cpos =
1932*820c1a8dSHiroo HAYASHI check_dst_limits_calc_pos_1 (mctx, boundaries, subexp_idx,
1933*820c1a8dSHiroo HAYASHI dst, bkref_idx);
1934*820c1a8dSHiroo HAYASHI if (cpos == -1 /* && (boundaries & 1) */)
1935*820c1a8dSHiroo HAYASHI return -1;
1936*820c1a8dSHiroo HAYASHI if (cpos == 0 && (boundaries & 2))
1937*820c1a8dSHiroo HAYASHI return 0;
1938*820c1a8dSHiroo HAYASHI
1939*820c1a8dSHiroo HAYASHI if (subexp_idx < BITSET_WORD_BITS)
1940*820c1a8dSHiroo HAYASHI ent->eps_reachable_subexps_map
1941*820c1a8dSHiroo HAYASHI &= ~((bitset_word_t) 1 << subexp_idx);
1942*820c1a8dSHiroo HAYASHI }
1943*820c1a8dSHiroo HAYASHI while (ent++->more);
1944*820c1a8dSHiroo HAYASHI }
1945*820c1a8dSHiroo HAYASHI break;
1946*820c1a8dSHiroo HAYASHI
1947*820c1a8dSHiroo HAYASHI case OP_OPEN_SUBEXP:
1948*820c1a8dSHiroo HAYASHI if ((boundaries & 1) && subexp_idx == dfa->nodes[node].opr.idx)
1949*820c1a8dSHiroo HAYASHI return -1;
1950*820c1a8dSHiroo HAYASHI break;
1951*820c1a8dSHiroo HAYASHI
1952*820c1a8dSHiroo HAYASHI case OP_CLOSE_SUBEXP:
1953*820c1a8dSHiroo HAYASHI if ((boundaries & 2) && subexp_idx == dfa->nodes[node].opr.idx)
1954*820c1a8dSHiroo HAYASHI return 0;
1955*820c1a8dSHiroo HAYASHI break;
1956*820c1a8dSHiroo HAYASHI
1957*820c1a8dSHiroo HAYASHI default:
1958*820c1a8dSHiroo HAYASHI break;
1959*820c1a8dSHiroo HAYASHI }
1960*820c1a8dSHiroo HAYASHI }
1961*820c1a8dSHiroo HAYASHI
1962*820c1a8dSHiroo HAYASHI return (boundaries & 2) ? 1 : 0;
1963*820c1a8dSHiroo HAYASHI }
1964*820c1a8dSHiroo HAYASHI
1965*820c1a8dSHiroo HAYASHI static int
check_dst_limits_calc_pos(const re_match_context_t * mctx,Idx limit,Idx subexp_idx,Idx from_node,Idx str_idx,Idx bkref_idx)1966*820c1a8dSHiroo HAYASHI check_dst_limits_calc_pos (const re_match_context_t *mctx, Idx limit,
1967*820c1a8dSHiroo HAYASHI Idx subexp_idx, Idx from_node, Idx str_idx,
1968*820c1a8dSHiroo HAYASHI Idx bkref_idx)
1969*820c1a8dSHiroo HAYASHI {
1970*820c1a8dSHiroo HAYASHI struct re_backref_cache_entry *lim = mctx->bkref_ents + limit;
1971*820c1a8dSHiroo HAYASHI int boundaries;
1972*820c1a8dSHiroo HAYASHI
1973*820c1a8dSHiroo HAYASHI /* If we are outside the range of the subexpression, return -1 or 1. */
1974*820c1a8dSHiroo HAYASHI if (str_idx < lim->subexp_from)
1975*820c1a8dSHiroo HAYASHI return -1;
1976*820c1a8dSHiroo HAYASHI
1977*820c1a8dSHiroo HAYASHI if (lim->subexp_to < str_idx)
1978*820c1a8dSHiroo HAYASHI return 1;
1979*820c1a8dSHiroo HAYASHI
1980*820c1a8dSHiroo HAYASHI /* If we are within the subexpression, return 0. */
1981*820c1a8dSHiroo HAYASHI boundaries = (str_idx == lim->subexp_from);
1982*820c1a8dSHiroo HAYASHI boundaries |= (str_idx == lim->subexp_to) << 1;
1983*820c1a8dSHiroo HAYASHI if (boundaries == 0)
1984*820c1a8dSHiroo HAYASHI return 0;
1985*820c1a8dSHiroo HAYASHI
1986*820c1a8dSHiroo HAYASHI /* Else, examine epsilon closure. */
1987*820c1a8dSHiroo HAYASHI return check_dst_limits_calc_pos_1 (mctx, boundaries, subexp_idx,
1988*820c1a8dSHiroo HAYASHI from_node, bkref_idx);
1989*820c1a8dSHiroo HAYASHI }
1990*820c1a8dSHiroo HAYASHI
1991*820c1a8dSHiroo HAYASHI /* Check the limitations of sub expressions LIMITS, and remove the nodes
1992*820c1a8dSHiroo HAYASHI which are against limitations from DEST_NODES. */
1993*820c1a8dSHiroo HAYASHI
1994*820c1a8dSHiroo HAYASHI static reg_errcode_t
check_subexp_limits(const re_dfa_t * dfa,re_node_set * dest_nodes,const re_node_set * candidates,re_node_set * limits,struct re_backref_cache_entry * bkref_ents,Idx str_idx)1995*820c1a8dSHiroo HAYASHI check_subexp_limits (const re_dfa_t *dfa, re_node_set *dest_nodes,
1996*820c1a8dSHiroo HAYASHI const re_node_set *candidates, re_node_set *limits,
1997*820c1a8dSHiroo HAYASHI struct re_backref_cache_entry *bkref_ents, Idx str_idx)
1998*820c1a8dSHiroo HAYASHI {
1999*820c1a8dSHiroo HAYASHI reg_errcode_t err;
2000*820c1a8dSHiroo HAYASHI Idx node_idx, lim_idx;
2001*820c1a8dSHiroo HAYASHI
2002*820c1a8dSHiroo HAYASHI for (lim_idx = 0; lim_idx < limits->nelem; ++lim_idx)
2003*820c1a8dSHiroo HAYASHI {
2004*820c1a8dSHiroo HAYASHI Idx subexp_idx;
2005*820c1a8dSHiroo HAYASHI struct re_backref_cache_entry *ent;
2006*820c1a8dSHiroo HAYASHI ent = bkref_ents + limits->elems[lim_idx];
2007*820c1a8dSHiroo HAYASHI
2008*820c1a8dSHiroo HAYASHI if (str_idx <= ent->subexp_from || ent->str_idx < str_idx)
2009*820c1a8dSHiroo HAYASHI continue; /* This is unrelated limitation. */
2010*820c1a8dSHiroo HAYASHI
2011*820c1a8dSHiroo HAYASHI subexp_idx = dfa->nodes[ent->node].opr.idx;
2012*820c1a8dSHiroo HAYASHI if (ent->subexp_to == str_idx)
2013*820c1a8dSHiroo HAYASHI {
2014*820c1a8dSHiroo HAYASHI Idx ops_node = -1;
2015*820c1a8dSHiroo HAYASHI Idx cls_node = -1;
2016*820c1a8dSHiroo HAYASHI for (node_idx = 0; node_idx < dest_nodes->nelem; ++node_idx)
2017*820c1a8dSHiroo HAYASHI {
2018*820c1a8dSHiroo HAYASHI Idx node = dest_nodes->elems[node_idx];
2019*820c1a8dSHiroo HAYASHI re_token_type_t type = dfa->nodes[node].type;
2020*820c1a8dSHiroo HAYASHI if (type == OP_OPEN_SUBEXP
2021*820c1a8dSHiroo HAYASHI && subexp_idx == dfa->nodes[node].opr.idx)
2022*820c1a8dSHiroo HAYASHI ops_node = node;
2023*820c1a8dSHiroo HAYASHI else if (type == OP_CLOSE_SUBEXP
2024*820c1a8dSHiroo HAYASHI && subexp_idx == dfa->nodes[node].opr.idx)
2025*820c1a8dSHiroo HAYASHI cls_node = node;
2026*820c1a8dSHiroo HAYASHI }
2027*820c1a8dSHiroo HAYASHI
2028*820c1a8dSHiroo HAYASHI /* Check the limitation of the open subexpression. */
2029*820c1a8dSHiroo HAYASHI /* Note that (ent->subexp_to = str_idx != ent->subexp_from). */
2030*820c1a8dSHiroo HAYASHI if (ops_node >= 0)
2031*820c1a8dSHiroo HAYASHI {
2032*820c1a8dSHiroo HAYASHI err = sub_epsilon_src_nodes (dfa, ops_node, dest_nodes,
2033*820c1a8dSHiroo HAYASHI candidates);
2034*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2035*820c1a8dSHiroo HAYASHI return err;
2036*820c1a8dSHiroo HAYASHI }
2037*820c1a8dSHiroo HAYASHI
2038*820c1a8dSHiroo HAYASHI /* Check the limitation of the close subexpression. */
2039*820c1a8dSHiroo HAYASHI if (cls_node >= 0)
2040*820c1a8dSHiroo HAYASHI for (node_idx = 0; node_idx < dest_nodes->nelem; ++node_idx)
2041*820c1a8dSHiroo HAYASHI {
2042*820c1a8dSHiroo HAYASHI Idx node = dest_nodes->elems[node_idx];
2043*820c1a8dSHiroo HAYASHI if (!re_node_set_contains (dfa->inveclosures + node,
2044*820c1a8dSHiroo HAYASHI cls_node)
2045*820c1a8dSHiroo HAYASHI && !re_node_set_contains (dfa->eclosures + node,
2046*820c1a8dSHiroo HAYASHI cls_node))
2047*820c1a8dSHiroo HAYASHI {
2048*820c1a8dSHiroo HAYASHI /* It is against this limitation.
2049*820c1a8dSHiroo HAYASHI Remove it form the current sifted state. */
2050*820c1a8dSHiroo HAYASHI err = sub_epsilon_src_nodes (dfa, node, dest_nodes,
2051*820c1a8dSHiroo HAYASHI candidates);
2052*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2053*820c1a8dSHiroo HAYASHI return err;
2054*820c1a8dSHiroo HAYASHI --node_idx;
2055*820c1a8dSHiroo HAYASHI }
2056*820c1a8dSHiroo HAYASHI }
2057*820c1a8dSHiroo HAYASHI }
2058*820c1a8dSHiroo HAYASHI else /* (ent->subexp_to != str_idx) */
2059*820c1a8dSHiroo HAYASHI {
2060*820c1a8dSHiroo HAYASHI for (node_idx = 0; node_idx < dest_nodes->nelem; ++node_idx)
2061*820c1a8dSHiroo HAYASHI {
2062*820c1a8dSHiroo HAYASHI Idx node = dest_nodes->elems[node_idx];
2063*820c1a8dSHiroo HAYASHI re_token_type_t type = dfa->nodes[node].type;
2064*820c1a8dSHiroo HAYASHI if (type == OP_CLOSE_SUBEXP || type == OP_OPEN_SUBEXP)
2065*820c1a8dSHiroo HAYASHI {
2066*820c1a8dSHiroo HAYASHI if (subexp_idx != dfa->nodes[node].opr.idx)
2067*820c1a8dSHiroo HAYASHI continue;
2068*820c1a8dSHiroo HAYASHI /* It is against this limitation.
2069*820c1a8dSHiroo HAYASHI Remove it form the current sifted state. */
2070*820c1a8dSHiroo HAYASHI err = sub_epsilon_src_nodes (dfa, node, dest_nodes,
2071*820c1a8dSHiroo HAYASHI candidates);
2072*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2073*820c1a8dSHiroo HAYASHI return err;
2074*820c1a8dSHiroo HAYASHI }
2075*820c1a8dSHiroo HAYASHI }
2076*820c1a8dSHiroo HAYASHI }
2077*820c1a8dSHiroo HAYASHI }
2078*820c1a8dSHiroo HAYASHI return REG_NOERROR;
2079*820c1a8dSHiroo HAYASHI }
2080*820c1a8dSHiroo HAYASHI
2081*820c1a8dSHiroo HAYASHI static reg_errcode_t
2082*820c1a8dSHiroo HAYASHI __attribute_warn_unused_result__
sift_states_bkref(const re_match_context_t * mctx,re_sift_context_t * sctx,Idx str_idx,const re_node_set * candidates)2083*820c1a8dSHiroo HAYASHI sift_states_bkref (const re_match_context_t *mctx, re_sift_context_t *sctx,
2084*820c1a8dSHiroo HAYASHI Idx str_idx, const re_node_set *candidates)
2085*820c1a8dSHiroo HAYASHI {
2086*820c1a8dSHiroo HAYASHI const re_dfa_t *const dfa = mctx->dfa;
2087*820c1a8dSHiroo HAYASHI reg_errcode_t err;
2088*820c1a8dSHiroo HAYASHI Idx node_idx, node;
2089*820c1a8dSHiroo HAYASHI re_sift_context_t local_sctx;
2090*820c1a8dSHiroo HAYASHI Idx first_idx = search_cur_bkref_entry (mctx, str_idx);
2091*820c1a8dSHiroo HAYASHI
2092*820c1a8dSHiroo HAYASHI if (first_idx == -1)
2093*820c1a8dSHiroo HAYASHI return REG_NOERROR;
2094*820c1a8dSHiroo HAYASHI
2095*820c1a8dSHiroo HAYASHI local_sctx.sifted_states = NULL; /* Mark that it hasn't been initialized. */
2096*820c1a8dSHiroo HAYASHI
2097*820c1a8dSHiroo HAYASHI for (node_idx = 0; node_idx < candidates->nelem; ++node_idx)
2098*820c1a8dSHiroo HAYASHI {
2099*820c1a8dSHiroo HAYASHI Idx enabled_idx;
2100*820c1a8dSHiroo HAYASHI re_token_type_t type;
2101*820c1a8dSHiroo HAYASHI struct re_backref_cache_entry *entry;
2102*820c1a8dSHiroo HAYASHI node = candidates->elems[node_idx];
2103*820c1a8dSHiroo HAYASHI type = dfa->nodes[node].type;
2104*820c1a8dSHiroo HAYASHI /* Avoid infinite loop for the REs like "()\1+". */
2105*820c1a8dSHiroo HAYASHI if (node == sctx->last_node && str_idx == sctx->last_str_idx)
2106*820c1a8dSHiroo HAYASHI continue;
2107*820c1a8dSHiroo HAYASHI if (type != OP_BACK_REF)
2108*820c1a8dSHiroo HAYASHI continue;
2109*820c1a8dSHiroo HAYASHI
2110*820c1a8dSHiroo HAYASHI entry = mctx->bkref_ents + first_idx;
2111*820c1a8dSHiroo HAYASHI enabled_idx = first_idx;
2112*820c1a8dSHiroo HAYASHI do
2113*820c1a8dSHiroo HAYASHI {
2114*820c1a8dSHiroo HAYASHI Idx subexp_len;
2115*820c1a8dSHiroo HAYASHI Idx to_idx;
2116*820c1a8dSHiroo HAYASHI Idx dst_node;
2117*820c1a8dSHiroo HAYASHI bool ok;
2118*820c1a8dSHiroo HAYASHI re_dfastate_t *cur_state;
2119*820c1a8dSHiroo HAYASHI
2120*820c1a8dSHiroo HAYASHI if (entry->node != node)
2121*820c1a8dSHiroo HAYASHI continue;
2122*820c1a8dSHiroo HAYASHI subexp_len = entry->subexp_to - entry->subexp_from;
2123*820c1a8dSHiroo HAYASHI to_idx = str_idx + subexp_len;
2124*820c1a8dSHiroo HAYASHI dst_node = (subexp_len ? dfa->nexts[node]
2125*820c1a8dSHiroo HAYASHI : dfa->edests[node].elems[0]);
2126*820c1a8dSHiroo HAYASHI
2127*820c1a8dSHiroo HAYASHI if (to_idx > sctx->last_str_idx
2128*820c1a8dSHiroo HAYASHI || sctx->sifted_states[to_idx] == NULL
2129*820c1a8dSHiroo HAYASHI || !STATE_NODE_CONTAINS (sctx->sifted_states[to_idx], dst_node)
2130*820c1a8dSHiroo HAYASHI || check_dst_limits (mctx, &sctx->limits, node,
2131*820c1a8dSHiroo HAYASHI str_idx, dst_node, to_idx))
2132*820c1a8dSHiroo HAYASHI continue;
2133*820c1a8dSHiroo HAYASHI
2134*820c1a8dSHiroo HAYASHI if (local_sctx.sifted_states == NULL)
2135*820c1a8dSHiroo HAYASHI {
2136*820c1a8dSHiroo HAYASHI local_sctx = *sctx;
2137*820c1a8dSHiroo HAYASHI err = re_node_set_init_copy (&local_sctx.limits, &sctx->limits);
2138*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2139*820c1a8dSHiroo HAYASHI goto free_return;
2140*820c1a8dSHiroo HAYASHI }
2141*820c1a8dSHiroo HAYASHI local_sctx.last_node = node;
2142*820c1a8dSHiroo HAYASHI local_sctx.last_str_idx = str_idx;
2143*820c1a8dSHiroo HAYASHI ok = re_node_set_insert (&local_sctx.limits, enabled_idx);
2144*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (! ok))
2145*820c1a8dSHiroo HAYASHI {
2146*820c1a8dSHiroo HAYASHI err = REG_ESPACE;
2147*820c1a8dSHiroo HAYASHI goto free_return;
2148*820c1a8dSHiroo HAYASHI }
2149*820c1a8dSHiroo HAYASHI cur_state = local_sctx.sifted_states[str_idx];
2150*820c1a8dSHiroo HAYASHI err = sift_states_backward (mctx, &local_sctx);
2151*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2152*820c1a8dSHiroo HAYASHI goto free_return;
2153*820c1a8dSHiroo HAYASHI if (sctx->limited_states != NULL)
2154*820c1a8dSHiroo HAYASHI {
2155*820c1a8dSHiroo HAYASHI err = merge_state_array (dfa, sctx->limited_states,
2156*820c1a8dSHiroo HAYASHI local_sctx.sifted_states,
2157*820c1a8dSHiroo HAYASHI str_idx + 1);
2158*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2159*820c1a8dSHiroo HAYASHI goto free_return;
2160*820c1a8dSHiroo HAYASHI }
2161*820c1a8dSHiroo HAYASHI local_sctx.sifted_states[str_idx] = cur_state;
2162*820c1a8dSHiroo HAYASHI re_node_set_remove (&local_sctx.limits, enabled_idx);
2163*820c1a8dSHiroo HAYASHI
2164*820c1a8dSHiroo HAYASHI /* mctx->bkref_ents may have changed, reload the pointer. */
2165*820c1a8dSHiroo HAYASHI entry = mctx->bkref_ents + enabled_idx;
2166*820c1a8dSHiroo HAYASHI }
2167*820c1a8dSHiroo HAYASHI while (enabled_idx++, entry++->more);
2168*820c1a8dSHiroo HAYASHI }
2169*820c1a8dSHiroo HAYASHI err = REG_NOERROR;
2170*820c1a8dSHiroo HAYASHI free_return:
2171*820c1a8dSHiroo HAYASHI if (local_sctx.sifted_states != NULL)
2172*820c1a8dSHiroo HAYASHI {
2173*820c1a8dSHiroo HAYASHI re_node_set_free (&local_sctx.limits);
2174*820c1a8dSHiroo HAYASHI }
2175*820c1a8dSHiroo HAYASHI
2176*820c1a8dSHiroo HAYASHI return err;
2177*820c1a8dSHiroo HAYASHI }
2178*820c1a8dSHiroo HAYASHI
2179*820c1a8dSHiroo HAYASHI
2180*820c1a8dSHiroo HAYASHI #ifdef RE_ENABLE_I18N
2181*820c1a8dSHiroo HAYASHI static int
sift_states_iter_mb(const re_match_context_t * mctx,re_sift_context_t * sctx,Idx node_idx,Idx str_idx,Idx max_str_idx)2182*820c1a8dSHiroo HAYASHI sift_states_iter_mb (const re_match_context_t *mctx, re_sift_context_t *sctx,
2183*820c1a8dSHiroo HAYASHI Idx node_idx, Idx str_idx, Idx max_str_idx)
2184*820c1a8dSHiroo HAYASHI {
2185*820c1a8dSHiroo HAYASHI const re_dfa_t *const dfa = mctx->dfa;
2186*820c1a8dSHiroo HAYASHI int naccepted;
2187*820c1a8dSHiroo HAYASHI /* Check the node can accept "multi byte". */
2188*820c1a8dSHiroo HAYASHI naccepted = check_node_accept_bytes (dfa, node_idx, &mctx->input, str_idx);
2189*820c1a8dSHiroo HAYASHI if (naccepted > 0 && str_idx + naccepted <= max_str_idx
2190*820c1a8dSHiroo HAYASHI && !STATE_NODE_CONTAINS (sctx->sifted_states[str_idx + naccepted],
2191*820c1a8dSHiroo HAYASHI dfa->nexts[node_idx]))
2192*820c1a8dSHiroo HAYASHI /* The node can't accept the "multi byte", or the
2193*820c1a8dSHiroo HAYASHI destination was already thrown away, then the node
2194*820c1a8dSHiroo HAYASHI couldn't accept the current input "multi byte". */
2195*820c1a8dSHiroo HAYASHI naccepted = 0;
2196*820c1a8dSHiroo HAYASHI /* Otherwise, it is sure that the node could accept
2197*820c1a8dSHiroo HAYASHI 'naccepted' bytes input. */
2198*820c1a8dSHiroo HAYASHI return naccepted;
2199*820c1a8dSHiroo HAYASHI }
2200*820c1a8dSHiroo HAYASHI #endif /* RE_ENABLE_I18N */
2201*820c1a8dSHiroo HAYASHI
2202*820c1a8dSHiroo HAYASHI
2203*820c1a8dSHiroo HAYASHI /* Functions for state transition. */
2204*820c1a8dSHiroo HAYASHI
2205*820c1a8dSHiroo HAYASHI /* Return the next state to which the current state STATE will transit by
2206*820c1a8dSHiroo HAYASHI accepting the current input byte, and update STATE_LOG if necessary.
2207*820c1a8dSHiroo HAYASHI Return NULL on failure.
2208*820c1a8dSHiroo HAYASHI If STATE can accept a multibyte char/collating element/back reference
2209*820c1a8dSHiroo HAYASHI update the destination of STATE_LOG. */
2210*820c1a8dSHiroo HAYASHI
2211*820c1a8dSHiroo HAYASHI static re_dfastate_t *
2212*820c1a8dSHiroo HAYASHI __attribute_warn_unused_result__
transit_state(reg_errcode_t * err,re_match_context_t * mctx,re_dfastate_t * state)2213*820c1a8dSHiroo HAYASHI transit_state (reg_errcode_t *err, re_match_context_t *mctx,
2214*820c1a8dSHiroo HAYASHI re_dfastate_t *state)
2215*820c1a8dSHiroo HAYASHI {
2216*820c1a8dSHiroo HAYASHI re_dfastate_t **trtable;
2217*820c1a8dSHiroo HAYASHI unsigned char ch;
2218*820c1a8dSHiroo HAYASHI
2219*820c1a8dSHiroo HAYASHI #ifdef RE_ENABLE_I18N
2220*820c1a8dSHiroo HAYASHI /* If the current state can accept multibyte. */
2221*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (state->accept_mb))
2222*820c1a8dSHiroo HAYASHI {
2223*820c1a8dSHiroo HAYASHI *err = transit_state_mb (mctx, state);
2224*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (*err != REG_NOERROR))
2225*820c1a8dSHiroo HAYASHI return NULL;
2226*820c1a8dSHiroo HAYASHI }
2227*820c1a8dSHiroo HAYASHI #endif /* RE_ENABLE_I18N */
2228*820c1a8dSHiroo HAYASHI
2229*820c1a8dSHiroo HAYASHI /* Then decide the next state with the single byte. */
2230*820c1a8dSHiroo HAYASHI #if 0
2231*820c1a8dSHiroo HAYASHI if (0)
2232*820c1a8dSHiroo HAYASHI /* don't use transition table */
2233*820c1a8dSHiroo HAYASHI return transit_state_sb (err, mctx, state);
2234*820c1a8dSHiroo HAYASHI #endif
2235*820c1a8dSHiroo HAYASHI
2236*820c1a8dSHiroo HAYASHI /* Use transition table */
2237*820c1a8dSHiroo HAYASHI ch = re_string_fetch_byte (&mctx->input);
2238*820c1a8dSHiroo HAYASHI for (;;)
2239*820c1a8dSHiroo HAYASHI {
2240*820c1a8dSHiroo HAYASHI trtable = state->trtable;
2241*820c1a8dSHiroo HAYASHI if (__glibc_likely (trtable != NULL))
2242*820c1a8dSHiroo HAYASHI return trtable[ch];
2243*820c1a8dSHiroo HAYASHI
2244*820c1a8dSHiroo HAYASHI trtable = state->word_trtable;
2245*820c1a8dSHiroo HAYASHI if (__glibc_likely (trtable != NULL))
2246*820c1a8dSHiroo HAYASHI {
2247*820c1a8dSHiroo HAYASHI unsigned int context;
2248*820c1a8dSHiroo HAYASHI context
2249*820c1a8dSHiroo HAYASHI = re_string_context_at (&mctx->input,
2250*820c1a8dSHiroo HAYASHI re_string_cur_idx (&mctx->input) - 1,
2251*820c1a8dSHiroo HAYASHI mctx->eflags);
2252*820c1a8dSHiroo HAYASHI if (IS_WORD_CONTEXT (context))
2253*820c1a8dSHiroo HAYASHI return trtable[ch + SBC_MAX];
2254*820c1a8dSHiroo HAYASHI else
2255*820c1a8dSHiroo HAYASHI return trtable[ch];
2256*820c1a8dSHiroo HAYASHI }
2257*820c1a8dSHiroo HAYASHI
2258*820c1a8dSHiroo HAYASHI if (!build_trtable (mctx->dfa, state))
2259*820c1a8dSHiroo HAYASHI {
2260*820c1a8dSHiroo HAYASHI *err = REG_ESPACE;
2261*820c1a8dSHiroo HAYASHI return NULL;
2262*820c1a8dSHiroo HAYASHI }
2263*820c1a8dSHiroo HAYASHI
2264*820c1a8dSHiroo HAYASHI /* Retry, we now have a transition table. */
2265*820c1a8dSHiroo HAYASHI }
2266*820c1a8dSHiroo HAYASHI }
2267*820c1a8dSHiroo HAYASHI
2268*820c1a8dSHiroo HAYASHI /* Update the state_log if we need */
2269*820c1a8dSHiroo HAYASHI static re_dfastate_t *
merge_state_with_log(reg_errcode_t * err,re_match_context_t * mctx,re_dfastate_t * next_state)2270*820c1a8dSHiroo HAYASHI merge_state_with_log (reg_errcode_t *err, re_match_context_t *mctx,
2271*820c1a8dSHiroo HAYASHI re_dfastate_t *next_state)
2272*820c1a8dSHiroo HAYASHI {
2273*820c1a8dSHiroo HAYASHI const re_dfa_t *const dfa = mctx->dfa;
2274*820c1a8dSHiroo HAYASHI Idx cur_idx = re_string_cur_idx (&mctx->input);
2275*820c1a8dSHiroo HAYASHI
2276*820c1a8dSHiroo HAYASHI if (cur_idx > mctx->state_log_top)
2277*820c1a8dSHiroo HAYASHI {
2278*820c1a8dSHiroo HAYASHI mctx->state_log[cur_idx] = next_state;
2279*820c1a8dSHiroo HAYASHI mctx->state_log_top = cur_idx;
2280*820c1a8dSHiroo HAYASHI }
2281*820c1a8dSHiroo HAYASHI else if (mctx->state_log[cur_idx] == 0)
2282*820c1a8dSHiroo HAYASHI {
2283*820c1a8dSHiroo HAYASHI mctx->state_log[cur_idx] = next_state;
2284*820c1a8dSHiroo HAYASHI }
2285*820c1a8dSHiroo HAYASHI else
2286*820c1a8dSHiroo HAYASHI {
2287*820c1a8dSHiroo HAYASHI re_dfastate_t *pstate;
2288*820c1a8dSHiroo HAYASHI unsigned int context;
2289*820c1a8dSHiroo HAYASHI re_node_set next_nodes, *log_nodes, *table_nodes = NULL;
2290*820c1a8dSHiroo HAYASHI /* If (state_log[cur_idx] != 0), it implies that cur_idx is
2291*820c1a8dSHiroo HAYASHI the destination of a multibyte char/collating element/
2292*820c1a8dSHiroo HAYASHI back reference. Then the next state is the union set of
2293*820c1a8dSHiroo HAYASHI these destinations and the results of the transition table. */
2294*820c1a8dSHiroo HAYASHI pstate = mctx->state_log[cur_idx];
2295*820c1a8dSHiroo HAYASHI log_nodes = pstate->entrance_nodes;
2296*820c1a8dSHiroo HAYASHI if (next_state != NULL)
2297*820c1a8dSHiroo HAYASHI {
2298*820c1a8dSHiroo HAYASHI table_nodes = next_state->entrance_nodes;
2299*820c1a8dSHiroo HAYASHI *err = re_node_set_init_union (&next_nodes, table_nodes,
2300*820c1a8dSHiroo HAYASHI log_nodes);
2301*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (*err != REG_NOERROR))
2302*820c1a8dSHiroo HAYASHI return NULL;
2303*820c1a8dSHiroo HAYASHI }
2304*820c1a8dSHiroo HAYASHI else
2305*820c1a8dSHiroo HAYASHI next_nodes = *log_nodes;
2306*820c1a8dSHiroo HAYASHI /* Note: We already add the nodes of the initial state,
2307*820c1a8dSHiroo HAYASHI then we don't need to add them here. */
2308*820c1a8dSHiroo HAYASHI
2309*820c1a8dSHiroo HAYASHI context = re_string_context_at (&mctx->input,
2310*820c1a8dSHiroo HAYASHI re_string_cur_idx (&mctx->input) - 1,
2311*820c1a8dSHiroo HAYASHI mctx->eflags);
2312*820c1a8dSHiroo HAYASHI next_state = mctx->state_log[cur_idx]
2313*820c1a8dSHiroo HAYASHI = re_acquire_state_context (err, dfa, &next_nodes, context);
2314*820c1a8dSHiroo HAYASHI /* We don't need to check errors here, since the return value of
2315*820c1a8dSHiroo HAYASHI this function is next_state and ERR is already set. */
2316*820c1a8dSHiroo HAYASHI
2317*820c1a8dSHiroo HAYASHI if (table_nodes != NULL)
2318*820c1a8dSHiroo HAYASHI re_node_set_free (&next_nodes);
2319*820c1a8dSHiroo HAYASHI }
2320*820c1a8dSHiroo HAYASHI
2321*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (dfa->nbackref) && next_state != NULL)
2322*820c1a8dSHiroo HAYASHI {
2323*820c1a8dSHiroo HAYASHI /* Check OP_OPEN_SUBEXP in the current state in case that we use them
2324*820c1a8dSHiroo HAYASHI later. We must check them here, since the back references in the
2325*820c1a8dSHiroo HAYASHI next state might use them. */
2326*820c1a8dSHiroo HAYASHI *err = check_subexp_matching_top (mctx, &next_state->nodes,
2327*820c1a8dSHiroo HAYASHI cur_idx);
2328*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (*err != REG_NOERROR))
2329*820c1a8dSHiroo HAYASHI return NULL;
2330*820c1a8dSHiroo HAYASHI
2331*820c1a8dSHiroo HAYASHI /* If the next state has back references. */
2332*820c1a8dSHiroo HAYASHI if (next_state->has_backref)
2333*820c1a8dSHiroo HAYASHI {
2334*820c1a8dSHiroo HAYASHI *err = transit_state_bkref (mctx, &next_state->nodes);
2335*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (*err != REG_NOERROR))
2336*820c1a8dSHiroo HAYASHI return NULL;
2337*820c1a8dSHiroo HAYASHI next_state = mctx->state_log[cur_idx];
2338*820c1a8dSHiroo HAYASHI }
2339*820c1a8dSHiroo HAYASHI }
2340*820c1a8dSHiroo HAYASHI
2341*820c1a8dSHiroo HAYASHI return next_state;
2342*820c1a8dSHiroo HAYASHI }
2343*820c1a8dSHiroo HAYASHI
2344*820c1a8dSHiroo HAYASHI /* Skip bytes in the input that correspond to part of a
2345*820c1a8dSHiroo HAYASHI multi-byte match, then look in the log for a state
2346*820c1a8dSHiroo HAYASHI from which to restart matching. */
2347*820c1a8dSHiroo HAYASHI static re_dfastate_t *
find_recover_state(reg_errcode_t * err,re_match_context_t * mctx)2348*820c1a8dSHiroo HAYASHI find_recover_state (reg_errcode_t *err, re_match_context_t *mctx)
2349*820c1a8dSHiroo HAYASHI {
2350*820c1a8dSHiroo HAYASHI re_dfastate_t *cur_state;
2351*820c1a8dSHiroo HAYASHI do
2352*820c1a8dSHiroo HAYASHI {
2353*820c1a8dSHiroo HAYASHI Idx max = mctx->state_log_top;
2354*820c1a8dSHiroo HAYASHI Idx cur_str_idx = re_string_cur_idx (&mctx->input);
2355*820c1a8dSHiroo HAYASHI
2356*820c1a8dSHiroo HAYASHI do
2357*820c1a8dSHiroo HAYASHI {
2358*820c1a8dSHiroo HAYASHI if (++cur_str_idx > max)
2359*820c1a8dSHiroo HAYASHI return NULL;
2360*820c1a8dSHiroo HAYASHI re_string_skip_bytes (&mctx->input, 1);
2361*820c1a8dSHiroo HAYASHI }
2362*820c1a8dSHiroo HAYASHI while (mctx->state_log[cur_str_idx] == NULL);
2363*820c1a8dSHiroo HAYASHI
2364*820c1a8dSHiroo HAYASHI cur_state = merge_state_with_log (err, mctx, NULL);
2365*820c1a8dSHiroo HAYASHI }
2366*820c1a8dSHiroo HAYASHI while (*err == REG_NOERROR && cur_state == NULL);
2367*820c1a8dSHiroo HAYASHI return cur_state;
2368*820c1a8dSHiroo HAYASHI }
2369*820c1a8dSHiroo HAYASHI
2370*820c1a8dSHiroo HAYASHI /* Helper functions for transit_state. */
2371*820c1a8dSHiroo HAYASHI
2372*820c1a8dSHiroo HAYASHI /* From the node set CUR_NODES, pick up the nodes whose types are
2373*820c1a8dSHiroo HAYASHI OP_OPEN_SUBEXP and which have corresponding back references in the regular
2374*820c1a8dSHiroo HAYASHI expression. And register them to use them later for evaluating the
2375*820c1a8dSHiroo HAYASHI corresponding back references. */
2376*820c1a8dSHiroo HAYASHI
2377*820c1a8dSHiroo HAYASHI static reg_errcode_t
check_subexp_matching_top(re_match_context_t * mctx,re_node_set * cur_nodes,Idx str_idx)2378*820c1a8dSHiroo HAYASHI check_subexp_matching_top (re_match_context_t *mctx, re_node_set *cur_nodes,
2379*820c1a8dSHiroo HAYASHI Idx str_idx)
2380*820c1a8dSHiroo HAYASHI {
2381*820c1a8dSHiroo HAYASHI const re_dfa_t *const dfa = mctx->dfa;
2382*820c1a8dSHiroo HAYASHI Idx node_idx;
2383*820c1a8dSHiroo HAYASHI reg_errcode_t err;
2384*820c1a8dSHiroo HAYASHI
2385*820c1a8dSHiroo HAYASHI /* TODO: This isn't efficient.
2386*820c1a8dSHiroo HAYASHI Because there might be more than one nodes whose types are
2387*820c1a8dSHiroo HAYASHI OP_OPEN_SUBEXP and whose index is SUBEXP_IDX, we must check all
2388*820c1a8dSHiroo HAYASHI nodes.
2389*820c1a8dSHiroo HAYASHI E.g. RE: (a){2} */
2390*820c1a8dSHiroo HAYASHI for (node_idx = 0; node_idx < cur_nodes->nelem; ++node_idx)
2391*820c1a8dSHiroo HAYASHI {
2392*820c1a8dSHiroo HAYASHI Idx node = cur_nodes->elems[node_idx];
2393*820c1a8dSHiroo HAYASHI if (dfa->nodes[node].type == OP_OPEN_SUBEXP
2394*820c1a8dSHiroo HAYASHI && dfa->nodes[node].opr.idx < BITSET_WORD_BITS
2395*820c1a8dSHiroo HAYASHI && (dfa->used_bkref_map
2396*820c1a8dSHiroo HAYASHI & ((bitset_word_t) 1 << dfa->nodes[node].opr.idx)))
2397*820c1a8dSHiroo HAYASHI {
2398*820c1a8dSHiroo HAYASHI err = match_ctx_add_subtop (mctx, node, str_idx);
2399*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2400*820c1a8dSHiroo HAYASHI return err;
2401*820c1a8dSHiroo HAYASHI }
2402*820c1a8dSHiroo HAYASHI }
2403*820c1a8dSHiroo HAYASHI return REG_NOERROR;
2404*820c1a8dSHiroo HAYASHI }
2405*820c1a8dSHiroo HAYASHI
2406*820c1a8dSHiroo HAYASHI #if 0
2407*820c1a8dSHiroo HAYASHI /* Return the next state to which the current state STATE will transit by
2408*820c1a8dSHiroo HAYASHI accepting the current input byte. Return NULL on failure. */
2409*820c1a8dSHiroo HAYASHI
2410*820c1a8dSHiroo HAYASHI static re_dfastate_t *
2411*820c1a8dSHiroo HAYASHI transit_state_sb (reg_errcode_t *err, re_match_context_t *mctx,
2412*820c1a8dSHiroo HAYASHI re_dfastate_t *state)
2413*820c1a8dSHiroo HAYASHI {
2414*820c1a8dSHiroo HAYASHI const re_dfa_t *const dfa = mctx->dfa;
2415*820c1a8dSHiroo HAYASHI re_node_set next_nodes;
2416*820c1a8dSHiroo HAYASHI re_dfastate_t *next_state;
2417*820c1a8dSHiroo HAYASHI Idx node_cnt, cur_str_idx = re_string_cur_idx (&mctx->input);
2418*820c1a8dSHiroo HAYASHI unsigned int context;
2419*820c1a8dSHiroo HAYASHI
2420*820c1a8dSHiroo HAYASHI *err = re_node_set_alloc (&next_nodes, state->nodes.nelem + 1);
2421*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (*err != REG_NOERROR))
2422*820c1a8dSHiroo HAYASHI return NULL;
2423*820c1a8dSHiroo HAYASHI for (node_cnt = 0; node_cnt < state->nodes.nelem; ++node_cnt)
2424*820c1a8dSHiroo HAYASHI {
2425*820c1a8dSHiroo HAYASHI Idx cur_node = state->nodes.elems[node_cnt];
2426*820c1a8dSHiroo HAYASHI if (check_node_accept (mctx, dfa->nodes + cur_node, cur_str_idx))
2427*820c1a8dSHiroo HAYASHI {
2428*820c1a8dSHiroo HAYASHI *err = re_node_set_merge (&next_nodes,
2429*820c1a8dSHiroo HAYASHI dfa->eclosures + dfa->nexts[cur_node]);
2430*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (*err != REG_NOERROR))
2431*820c1a8dSHiroo HAYASHI {
2432*820c1a8dSHiroo HAYASHI re_node_set_free (&next_nodes);
2433*820c1a8dSHiroo HAYASHI return NULL;
2434*820c1a8dSHiroo HAYASHI }
2435*820c1a8dSHiroo HAYASHI }
2436*820c1a8dSHiroo HAYASHI }
2437*820c1a8dSHiroo HAYASHI context = re_string_context_at (&mctx->input, cur_str_idx, mctx->eflags);
2438*820c1a8dSHiroo HAYASHI next_state = re_acquire_state_context (err, dfa, &next_nodes, context);
2439*820c1a8dSHiroo HAYASHI /* We don't need to check errors here, since the return value of
2440*820c1a8dSHiroo HAYASHI this function is next_state and ERR is already set. */
2441*820c1a8dSHiroo HAYASHI
2442*820c1a8dSHiroo HAYASHI re_node_set_free (&next_nodes);
2443*820c1a8dSHiroo HAYASHI re_string_skip_bytes (&mctx->input, 1);
2444*820c1a8dSHiroo HAYASHI return next_state;
2445*820c1a8dSHiroo HAYASHI }
2446*820c1a8dSHiroo HAYASHI #endif
2447*820c1a8dSHiroo HAYASHI
2448*820c1a8dSHiroo HAYASHI #ifdef RE_ENABLE_I18N
2449*820c1a8dSHiroo HAYASHI static reg_errcode_t
transit_state_mb(re_match_context_t * mctx,re_dfastate_t * pstate)2450*820c1a8dSHiroo HAYASHI transit_state_mb (re_match_context_t *mctx, re_dfastate_t *pstate)
2451*820c1a8dSHiroo HAYASHI {
2452*820c1a8dSHiroo HAYASHI const re_dfa_t *const dfa = mctx->dfa;
2453*820c1a8dSHiroo HAYASHI reg_errcode_t err;
2454*820c1a8dSHiroo HAYASHI Idx i;
2455*820c1a8dSHiroo HAYASHI
2456*820c1a8dSHiroo HAYASHI for (i = 0; i < pstate->nodes.nelem; ++i)
2457*820c1a8dSHiroo HAYASHI {
2458*820c1a8dSHiroo HAYASHI re_node_set dest_nodes, *new_nodes;
2459*820c1a8dSHiroo HAYASHI Idx cur_node_idx = pstate->nodes.elems[i];
2460*820c1a8dSHiroo HAYASHI int naccepted;
2461*820c1a8dSHiroo HAYASHI Idx dest_idx;
2462*820c1a8dSHiroo HAYASHI unsigned int context;
2463*820c1a8dSHiroo HAYASHI re_dfastate_t *dest_state;
2464*820c1a8dSHiroo HAYASHI
2465*820c1a8dSHiroo HAYASHI if (!dfa->nodes[cur_node_idx].accept_mb)
2466*820c1a8dSHiroo HAYASHI continue;
2467*820c1a8dSHiroo HAYASHI
2468*820c1a8dSHiroo HAYASHI if (dfa->nodes[cur_node_idx].constraint)
2469*820c1a8dSHiroo HAYASHI {
2470*820c1a8dSHiroo HAYASHI context = re_string_context_at (&mctx->input,
2471*820c1a8dSHiroo HAYASHI re_string_cur_idx (&mctx->input),
2472*820c1a8dSHiroo HAYASHI mctx->eflags);
2473*820c1a8dSHiroo HAYASHI if (NOT_SATISFY_NEXT_CONSTRAINT (dfa->nodes[cur_node_idx].constraint,
2474*820c1a8dSHiroo HAYASHI context))
2475*820c1a8dSHiroo HAYASHI continue;
2476*820c1a8dSHiroo HAYASHI }
2477*820c1a8dSHiroo HAYASHI
2478*820c1a8dSHiroo HAYASHI /* How many bytes the node can accept? */
2479*820c1a8dSHiroo HAYASHI naccepted = check_node_accept_bytes (dfa, cur_node_idx, &mctx->input,
2480*820c1a8dSHiroo HAYASHI re_string_cur_idx (&mctx->input));
2481*820c1a8dSHiroo HAYASHI if (naccepted == 0)
2482*820c1a8dSHiroo HAYASHI continue;
2483*820c1a8dSHiroo HAYASHI
2484*820c1a8dSHiroo HAYASHI /* The node can accepts 'naccepted' bytes. */
2485*820c1a8dSHiroo HAYASHI dest_idx = re_string_cur_idx (&mctx->input) + naccepted;
2486*820c1a8dSHiroo HAYASHI mctx->max_mb_elem_len = ((mctx->max_mb_elem_len < naccepted) ? naccepted
2487*820c1a8dSHiroo HAYASHI : mctx->max_mb_elem_len);
2488*820c1a8dSHiroo HAYASHI err = clean_state_log_if_needed (mctx, dest_idx);
2489*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2490*820c1a8dSHiroo HAYASHI return err;
2491*820c1a8dSHiroo HAYASHI DEBUG_ASSERT (dfa->nexts[cur_node_idx] != -1);
2492*820c1a8dSHiroo HAYASHI new_nodes = dfa->eclosures + dfa->nexts[cur_node_idx];
2493*820c1a8dSHiroo HAYASHI
2494*820c1a8dSHiroo HAYASHI dest_state = mctx->state_log[dest_idx];
2495*820c1a8dSHiroo HAYASHI if (dest_state == NULL)
2496*820c1a8dSHiroo HAYASHI dest_nodes = *new_nodes;
2497*820c1a8dSHiroo HAYASHI else
2498*820c1a8dSHiroo HAYASHI {
2499*820c1a8dSHiroo HAYASHI err = re_node_set_init_union (&dest_nodes,
2500*820c1a8dSHiroo HAYASHI dest_state->entrance_nodes, new_nodes);
2501*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2502*820c1a8dSHiroo HAYASHI return err;
2503*820c1a8dSHiroo HAYASHI }
2504*820c1a8dSHiroo HAYASHI context = re_string_context_at (&mctx->input, dest_idx - 1,
2505*820c1a8dSHiroo HAYASHI mctx->eflags);
2506*820c1a8dSHiroo HAYASHI mctx->state_log[dest_idx]
2507*820c1a8dSHiroo HAYASHI = re_acquire_state_context (&err, dfa, &dest_nodes, context);
2508*820c1a8dSHiroo HAYASHI if (dest_state != NULL)
2509*820c1a8dSHiroo HAYASHI re_node_set_free (&dest_nodes);
2510*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (mctx->state_log[dest_idx] == NULL
2511*820c1a8dSHiroo HAYASHI && err != REG_NOERROR))
2512*820c1a8dSHiroo HAYASHI return err;
2513*820c1a8dSHiroo HAYASHI }
2514*820c1a8dSHiroo HAYASHI return REG_NOERROR;
2515*820c1a8dSHiroo HAYASHI }
2516*820c1a8dSHiroo HAYASHI #endif /* RE_ENABLE_I18N */
2517*820c1a8dSHiroo HAYASHI
2518*820c1a8dSHiroo HAYASHI static reg_errcode_t
transit_state_bkref(re_match_context_t * mctx,const re_node_set * nodes)2519*820c1a8dSHiroo HAYASHI transit_state_bkref (re_match_context_t *mctx, const re_node_set *nodes)
2520*820c1a8dSHiroo HAYASHI {
2521*820c1a8dSHiroo HAYASHI const re_dfa_t *const dfa = mctx->dfa;
2522*820c1a8dSHiroo HAYASHI reg_errcode_t err;
2523*820c1a8dSHiroo HAYASHI Idx i;
2524*820c1a8dSHiroo HAYASHI Idx cur_str_idx = re_string_cur_idx (&mctx->input);
2525*820c1a8dSHiroo HAYASHI
2526*820c1a8dSHiroo HAYASHI for (i = 0; i < nodes->nelem; ++i)
2527*820c1a8dSHiroo HAYASHI {
2528*820c1a8dSHiroo HAYASHI Idx dest_str_idx, prev_nelem, bkc_idx;
2529*820c1a8dSHiroo HAYASHI Idx node_idx = nodes->elems[i];
2530*820c1a8dSHiroo HAYASHI unsigned int context;
2531*820c1a8dSHiroo HAYASHI const re_token_t *node = dfa->nodes + node_idx;
2532*820c1a8dSHiroo HAYASHI re_node_set *new_dest_nodes;
2533*820c1a8dSHiroo HAYASHI
2534*820c1a8dSHiroo HAYASHI /* Check whether 'node' is a backreference or not. */
2535*820c1a8dSHiroo HAYASHI if (node->type != OP_BACK_REF)
2536*820c1a8dSHiroo HAYASHI continue;
2537*820c1a8dSHiroo HAYASHI
2538*820c1a8dSHiroo HAYASHI if (node->constraint)
2539*820c1a8dSHiroo HAYASHI {
2540*820c1a8dSHiroo HAYASHI context = re_string_context_at (&mctx->input, cur_str_idx,
2541*820c1a8dSHiroo HAYASHI mctx->eflags);
2542*820c1a8dSHiroo HAYASHI if (NOT_SATISFY_NEXT_CONSTRAINT (node->constraint, context))
2543*820c1a8dSHiroo HAYASHI continue;
2544*820c1a8dSHiroo HAYASHI }
2545*820c1a8dSHiroo HAYASHI
2546*820c1a8dSHiroo HAYASHI /* 'node' is a backreference.
2547*820c1a8dSHiroo HAYASHI Check the substring which the substring matched. */
2548*820c1a8dSHiroo HAYASHI bkc_idx = mctx->nbkref_ents;
2549*820c1a8dSHiroo HAYASHI err = get_subexp (mctx, node_idx, cur_str_idx);
2550*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2551*820c1a8dSHiroo HAYASHI goto free_return;
2552*820c1a8dSHiroo HAYASHI
2553*820c1a8dSHiroo HAYASHI /* And add the epsilon closures (which is 'new_dest_nodes') of
2554*820c1a8dSHiroo HAYASHI the backreference to appropriate state_log. */
2555*820c1a8dSHiroo HAYASHI DEBUG_ASSERT (dfa->nexts[node_idx] != -1);
2556*820c1a8dSHiroo HAYASHI for (; bkc_idx < mctx->nbkref_ents; ++bkc_idx)
2557*820c1a8dSHiroo HAYASHI {
2558*820c1a8dSHiroo HAYASHI Idx subexp_len;
2559*820c1a8dSHiroo HAYASHI re_dfastate_t *dest_state;
2560*820c1a8dSHiroo HAYASHI struct re_backref_cache_entry *bkref_ent;
2561*820c1a8dSHiroo HAYASHI bkref_ent = mctx->bkref_ents + bkc_idx;
2562*820c1a8dSHiroo HAYASHI if (bkref_ent->node != node_idx || bkref_ent->str_idx != cur_str_idx)
2563*820c1a8dSHiroo HAYASHI continue;
2564*820c1a8dSHiroo HAYASHI subexp_len = bkref_ent->subexp_to - bkref_ent->subexp_from;
2565*820c1a8dSHiroo HAYASHI new_dest_nodes = (subexp_len == 0
2566*820c1a8dSHiroo HAYASHI ? dfa->eclosures + dfa->edests[node_idx].elems[0]
2567*820c1a8dSHiroo HAYASHI : dfa->eclosures + dfa->nexts[node_idx]);
2568*820c1a8dSHiroo HAYASHI dest_str_idx = (cur_str_idx + bkref_ent->subexp_to
2569*820c1a8dSHiroo HAYASHI - bkref_ent->subexp_from);
2570*820c1a8dSHiroo HAYASHI context = re_string_context_at (&mctx->input, dest_str_idx - 1,
2571*820c1a8dSHiroo HAYASHI mctx->eflags);
2572*820c1a8dSHiroo HAYASHI dest_state = mctx->state_log[dest_str_idx];
2573*820c1a8dSHiroo HAYASHI prev_nelem = ((mctx->state_log[cur_str_idx] == NULL) ? 0
2574*820c1a8dSHiroo HAYASHI : mctx->state_log[cur_str_idx]->nodes.nelem);
2575*820c1a8dSHiroo HAYASHI /* Add 'new_dest_node' to state_log. */
2576*820c1a8dSHiroo HAYASHI if (dest_state == NULL)
2577*820c1a8dSHiroo HAYASHI {
2578*820c1a8dSHiroo HAYASHI mctx->state_log[dest_str_idx]
2579*820c1a8dSHiroo HAYASHI = re_acquire_state_context (&err, dfa, new_dest_nodes,
2580*820c1a8dSHiroo HAYASHI context);
2581*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (mctx->state_log[dest_str_idx] == NULL
2582*820c1a8dSHiroo HAYASHI && err != REG_NOERROR))
2583*820c1a8dSHiroo HAYASHI goto free_return;
2584*820c1a8dSHiroo HAYASHI }
2585*820c1a8dSHiroo HAYASHI else
2586*820c1a8dSHiroo HAYASHI {
2587*820c1a8dSHiroo HAYASHI re_node_set dest_nodes;
2588*820c1a8dSHiroo HAYASHI err = re_node_set_init_union (&dest_nodes,
2589*820c1a8dSHiroo HAYASHI dest_state->entrance_nodes,
2590*820c1a8dSHiroo HAYASHI new_dest_nodes);
2591*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2592*820c1a8dSHiroo HAYASHI {
2593*820c1a8dSHiroo HAYASHI re_node_set_free (&dest_nodes);
2594*820c1a8dSHiroo HAYASHI goto free_return;
2595*820c1a8dSHiroo HAYASHI }
2596*820c1a8dSHiroo HAYASHI mctx->state_log[dest_str_idx]
2597*820c1a8dSHiroo HAYASHI = re_acquire_state_context (&err, dfa, &dest_nodes, context);
2598*820c1a8dSHiroo HAYASHI re_node_set_free (&dest_nodes);
2599*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (mctx->state_log[dest_str_idx] == NULL
2600*820c1a8dSHiroo HAYASHI && err != REG_NOERROR))
2601*820c1a8dSHiroo HAYASHI goto free_return;
2602*820c1a8dSHiroo HAYASHI }
2603*820c1a8dSHiroo HAYASHI /* We need to check recursively if the backreference can epsilon
2604*820c1a8dSHiroo HAYASHI transit. */
2605*820c1a8dSHiroo HAYASHI if (subexp_len == 0
2606*820c1a8dSHiroo HAYASHI && mctx->state_log[cur_str_idx]->nodes.nelem > prev_nelem)
2607*820c1a8dSHiroo HAYASHI {
2608*820c1a8dSHiroo HAYASHI err = check_subexp_matching_top (mctx, new_dest_nodes,
2609*820c1a8dSHiroo HAYASHI cur_str_idx);
2610*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2611*820c1a8dSHiroo HAYASHI goto free_return;
2612*820c1a8dSHiroo HAYASHI err = transit_state_bkref (mctx, new_dest_nodes);
2613*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2614*820c1a8dSHiroo HAYASHI goto free_return;
2615*820c1a8dSHiroo HAYASHI }
2616*820c1a8dSHiroo HAYASHI }
2617*820c1a8dSHiroo HAYASHI }
2618*820c1a8dSHiroo HAYASHI err = REG_NOERROR;
2619*820c1a8dSHiroo HAYASHI free_return:
2620*820c1a8dSHiroo HAYASHI return err;
2621*820c1a8dSHiroo HAYASHI }
2622*820c1a8dSHiroo HAYASHI
2623*820c1a8dSHiroo HAYASHI /* Enumerate all the candidates which the backreference BKREF_NODE can match
2624*820c1a8dSHiroo HAYASHI at BKREF_STR_IDX, and register them by match_ctx_add_entry().
2625*820c1a8dSHiroo HAYASHI Note that we might collect inappropriate candidates here.
2626*820c1a8dSHiroo HAYASHI However, the cost of checking them strictly here is too high, then we
2627*820c1a8dSHiroo HAYASHI delay these checking for prune_impossible_nodes(). */
2628*820c1a8dSHiroo HAYASHI
2629*820c1a8dSHiroo HAYASHI static reg_errcode_t
2630*820c1a8dSHiroo HAYASHI __attribute_warn_unused_result__
get_subexp(re_match_context_t * mctx,Idx bkref_node,Idx bkref_str_idx)2631*820c1a8dSHiroo HAYASHI get_subexp (re_match_context_t *mctx, Idx bkref_node, Idx bkref_str_idx)
2632*820c1a8dSHiroo HAYASHI {
2633*820c1a8dSHiroo HAYASHI const re_dfa_t *const dfa = mctx->dfa;
2634*820c1a8dSHiroo HAYASHI Idx subexp_num, sub_top_idx;
2635*820c1a8dSHiroo HAYASHI const char *buf = (const char *) re_string_get_buffer (&mctx->input);
2636*820c1a8dSHiroo HAYASHI /* Return if we have already checked BKREF_NODE at BKREF_STR_IDX. */
2637*820c1a8dSHiroo HAYASHI Idx cache_idx = search_cur_bkref_entry (mctx, bkref_str_idx);
2638*820c1a8dSHiroo HAYASHI if (cache_idx != -1)
2639*820c1a8dSHiroo HAYASHI {
2640*820c1a8dSHiroo HAYASHI const struct re_backref_cache_entry *entry
2641*820c1a8dSHiroo HAYASHI = mctx->bkref_ents + cache_idx;
2642*820c1a8dSHiroo HAYASHI do
2643*820c1a8dSHiroo HAYASHI if (entry->node == bkref_node)
2644*820c1a8dSHiroo HAYASHI return REG_NOERROR; /* We already checked it. */
2645*820c1a8dSHiroo HAYASHI while (entry++->more);
2646*820c1a8dSHiroo HAYASHI }
2647*820c1a8dSHiroo HAYASHI
2648*820c1a8dSHiroo HAYASHI subexp_num = dfa->nodes[bkref_node].opr.idx;
2649*820c1a8dSHiroo HAYASHI
2650*820c1a8dSHiroo HAYASHI /* For each sub expression */
2651*820c1a8dSHiroo HAYASHI for (sub_top_idx = 0; sub_top_idx < mctx->nsub_tops; ++sub_top_idx)
2652*820c1a8dSHiroo HAYASHI {
2653*820c1a8dSHiroo HAYASHI reg_errcode_t err;
2654*820c1a8dSHiroo HAYASHI re_sub_match_top_t *sub_top = mctx->sub_tops[sub_top_idx];
2655*820c1a8dSHiroo HAYASHI re_sub_match_last_t *sub_last;
2656*820c1a8dSHiroo HAYASHI Idx sub_last_idx, sl_str, bkref_str_off;
2657*820c1a8dSHiroo HAYASHI
2658*820c1a8dSHiroo HAYASHI if (dfa->nodes[sub_top->node].opr.idx != subexp_num)
2659*820c1a8dSHiroo HAYASHI continue; /* It isn't related. */
2660*820c1a8dSHiroo HAYASHI
2661*820c1a8dSHiroo HAYASHI sl_str = sub_top->str_idx;
2662*820c1a8dSHiroo HAYASHI bkref_str_off = bkref_str_idx;
2663*820c1a8dSHiroo HAYASHI /* At first, check the last node of sub expressions we already
2664*820c1a8dSHiroo HAYASHI evaluated. */
2665*820c1a8dSHiroo HAYASHI for (sub_last_idx = 0; sub_last_idx < sub_top->nlasts; ++sub_last_idx)
2666*820c1a8dSHiroo HAYASHI {
2667*820c1a8dSHiroo HAYASHI regoff_t sl_str_diff;
2668*820c1a8dSHiroo HAYASHI sub_last = sub_top->lasts[sub_last_idx];
2669*820c1a8dSHiroo HAYASHI sl_str_diff = sub_last->str_idx - sl_str;
2670*820c1a8dSHiroo HAYASHI /* The matched string by the sub expression match with the substring
2671*820c1a8dSHiroo HAYASHI at the back reference? */
2672*820c1a8dSHiroo HAYASHI if (sl_str_diff > 0)
2673*820c1a8dSHiroo HAYASHI {
2674*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (bkref_str_off + sl_str_diff
2675*820c1a8dSHiroo HAYASHI > mctx->input.valid_len))
2676*820c1a8dSHiroo HAYASHI {
2677*820c1a8dSHiroo HAYASHI /* Not enough chars for a successful match. */
2678*820c1a8dSHiroo HAYASHI if (bkref_str_off + sl_str_diff > mctx->input.len)
2679*820c1a8dSHiroo HAYASHI break;
2680*820c1a8dSHiroo HAYASHI
2681*820c1a8dSHiroo HAYASHI err = clean_state_log_if_needed (mctx,
2682*820c1a8dSHiroo HAYASHI bkref_str_off
2683*820c1a8dSHiroo HAYASHI + sl_str_diff);
2684*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2685*820c1a8dSHiroo HAYASHI return err;
2686*820c1a8dSHiroo HAYASHI buf = (const char *) re_string_get_buffer (&mctx->input);
2687*820c1a8dSHiroo HAYASHI }
2688*820c1a8dSHiroo HAYASHI if (memcmp (buf + bkref_str_off, buf + sl_str, sl_str_diff) != 0)
2689*820c1a8dSHiroo HAYASHI /* We don't need to search this sub expression any more. */
2690*820c1a8dSHiroo HAYASHI break;
2691*820c1a8dSHiroo HAYASHI }
2692*820c1a8dSHiroo HAYASHI bkref_str_off += sl_str_diff;
2693*820c1a8dSHiroo HAYASHI sl_str += sl_str_diff;
2694*820c1a8dSHiroo HAYASHI err = get_subexp_sub (mctx, sub_top, sub_last, bkref_node,
2695*820c1a8dSHiroo HAYASHI bkref_str_idx);
2696*820c1a8dSHiroo HAYASHI
2697*820c1a8dSHiroo HAYASHI /* Reload buf, since the preceding call might have reallocated
2698*820c1a8dSHiroo HAYASHI the buffer. */
2699*820c1a8dSHiroo HAYASHI buf = (const char *) re_string_get_buffer (&mctx->input);
2700*820c1a8dSHiroo HAYASHI
2701*820c1a8dSHiroo HAYASHI if (err == REG_NOMATCH)
2702*820c1a8dSHiroo HAYASHI continue;
2703*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2704*820c1a8dSHiroo HAYASHI return err;
2705*820c1a8dSHiroo HAYASHI }
2706*820c1a8dSHiroo HAYASHI
2707*820c1a8dSHiroo HAYASHI if (sub_last_idx < sub_top->nlasts)
2708*820c1a8dSHiroo HAYASHI continue;
2709*820c1a8dSHiroo HAYASHI if (sub_last_idx > 0)
2710*820c1a8dSHiroo HAYASHI ++sl_str;
2711*820c1a8dSHiroo HAYASHI /* Then, search for the other last nodes of the sub expression. */
2712*820c1a8dSHiroo HAYASHI for (; sl_str <= bkref_str_idx; ++sl_str)
2713*820c1a8dSHiroo HAYASHI {
2714*820c1a8dSHiroo HAYASHI Idx cls_node;
2715*820c1a8dSHiroo HAYASHI regoff_t sl_str_off;
2716*820c1a8dSHiroo HAYASHI const re_node_set *nodes;
2717*820c1a8dSHiroo HAYASHI sl_str_off = sl_str - sub_top->str_idx;
2718*820c1a8dSHiroo HAYASHI /* The matched string by the sub expression match with the substring
2719*820c1a8dSHiroo HAYASHI at the back reference? */
2720*820c1a8dSHiroo HAYASHI if (sl_str_off > 0)
2721*820c1a8dSHiroo HAYASHI {
2722*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (bkref_str_off >= mctx->input.valid_len))
2723*820c1a8dSHiroo HAYASHI {
2724*820c1a8dSHiroo HAYASHI /* If we are at the end of the input, we cannot match. */
2725*820c1a8dSHiroo HAYASHI if (bkref_str_off >= mctx->input.len)
2726*820c1a8dSHiroo HAYASHI break;
2727*820c1a8dSHiroo HAYASHI
2728*820c1a8dSHiroo HAYASHI err = extend_buffers (mctx, bkref_str_off + 1);
2729*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2730*820c1a8dSHiroo HAYASHI return err;
2731*820c1a8dSHiroo HAYASHI
2732*820c1a8dSHiroo HAYASHI buf = (const char *) re_string_get_buffer (&mctx->input);
2733*820c1a8dSHiroo HAYASHI }
2734*820c1a8dSHiroo HAYASHI if (buf [bkref_str_off++] != buf[sl_str - 1])
2735*820c1a8dSHiroo HAYASHI break; /* We don't need to search this sub expression
2736*820c1a8dSHiroo HAYASHI any more. */
2737*820c1a8dSHiroo HAYASHI }
2738*820c1a8dSHiroo HAYASHI if (mctx->state_log[sl_str] == NULL)
2739*820c1a8dSHiroo HAYASHI continue;
2740*820c1a8dSHiroo HAYASHI /* Does this state have a ')' of the sub expression? */
2741*820c1a8dSHiroo HAYASHI nodes = &mctx->state_log[sl_str]->nodes;
2742*820c1a8dSHiroo HAYASHI cls_node = find_subexp_node (dfa, nodes, subexp_num,
2743*820c1a8dSHiroo HAYASHI OP_CLOSE_SUBEXP);
2744*820c1a8dSHiroo HAYASHI if (cls_node == -1)
2745*820c1a8dSHiroo HAYASHI continue; /* No. */
2746*820c1a8dSHiroo HAYASHI if (sub_top->path == NULL)
2747*820c1a8dSHiroo HAYASHI {
2748*820c1a8dSHiroo HAYASHI sub_top->path = calloc (sizeof (state_array_t),
2749*820c1a8dSHiroo HAYASHI sl_str - sub_top->str_idx + 1);
2750*820c1a8dSHiroo HAYASHI if (sub_top->path == NULL)
2751*820c1a8dSHiroo HAYASHI return REG_ESPACE;
2752*820c1a8dSHiroo HAYASHI }
2753*820c1a8dSHiroo HAYASHI /* Can the OP_OPEN_SUBEXP node arrive the OP_CLOSE_SUBEXP node
2754*820c1a8dSHiroo HAYASHI in the current context? */
2755*820c1a8dSHiroo HAYASHI err = check_arrival (mctx, sub_top->path, sub_top->node,
2756*820c1a8dSHiroo HAYASHI sub_top->str_idx, cls_node, sl_str,
2757*820c1a8dSHiroo HAYASHI OP_CLOSE_SUBEXP);
2758*820c1a8dSHiroo HAYASHI if (err == REG_NOMATCH)
2759*820c1a8dSHiroo HAYASHI continue;
2760*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2761*820c1a8dSHiroo HAYASHI return err;
2762*820c1a8dSHiroo HAYASHI sub_last = match_ctx_add_sublast (sub_top, cls_node, sl_str);
2763*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (sub_last == NULL))
2764*820c1a8dSHiroo HAYASHI return REG_ESPACE;
2765*820c1a8dSHiroo HAYASHI err = get_subexp_sub (mctx, sub_top, sub_last, bkref_node,
2766*820c1a8dSHiroo HAYASHI bkref_str_idx);
2767*820c1a8dSHiroo HAYASHI buf = (const char *) re_string_get_buffer (&mctx->input);
2768*820c1a8dSHiroo HAYASHI if (err == REG_NOMATCH)
2769*820c1a8dSHiroo HAYASHI continue;
2770*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2771*820c1a8dSHiroo HAYASHI return err;
2772*820c1a8dSHiroo HAYASHI }
2773*820c1a8dSHiroo HAYASHI }
2774*820c1a8dSHiroo HAYASHI return REG_NOERROR;
2775*820c1a8dSHiroo HAYASHI }
2776*820c1a8dSHiroo HAYASHI
2777*820c1a8dSHiroo HAYASHI /* Helper functions for get_subexp(). */
2778*820c1a8dSHiroo HAYASHI
2779*820c1a8dSHiroo HAYASHI /* Check SUB_LAST can arrive to the back reference BKREF_NODE at BKREF_STR.
2780*820c1a8dSHiroo HAYASHI If it can arrive, register the sub expression expressed with SUB_TOP
2781*820c1a8dSHiroo HAYASHI and SUB_LAST. */
2782*820c1a8dSHiroo HAYASHI
2783*820c1a8dSHiroo HAYASHI static reg_errcode_t
get_subexp_sub(re_match_context_t * mctx,const re_sub_match_top_t * sub_top,re_sub_match_last_t * sub_last,Idx bkref_node,Idx bkref_str)2784*820c1a8dSHiroo HAYASHI get_subexp_sub (re_match_context_t *mctx, const re_sub_match_top_t *sub_top,
2785*820c1a8dSHiroo HAYASHI re_sub_match_last_t *sub_last, Idx bkref_node, Idx bkref_str)
2786*820c1a8dSHiroo HAYASHI {
2787*820c1a8dSHiroo HAYASHI reg_errcode_t err;
2788*820c1a8dSHiroo HAYASHI Idx to_idx;
2789*820c1a8dSHiroo HAYASHI /* Can the subexpression arrive the back reference? */
2790*820c1a8dSHiroo HAYASHI err = check_arrival (mctx, &sub_last->path, sub_last->node,
2791*820c1a8dSHiroo HAYASHI sub_last->str_idx, bkref_node, bkref_str,
2792*820c1a8dSHiroo HAYASHI OP_OPEN_SUBEXP);
2793*820c1a8dSHiroo HAYASHI if (err != REG_NOERROR)
2794*820c1a8dSHiroo HAYASHI return err;
2795*820c1a8dSHiroo HAYASHI err = match_ctx_add_entry (mctx, bkref_node, bkref_str, sub_top->str_idx,
2796*820c1a8dSHiroo HAYASHI sub_last->str_idx);
2797*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2798*820c1a8dSHiroo HAYASHI return err;
2799*820c1a8dSHiroo HAYASHI to_idx = bkref_str + sub_last->str_idx - sub_top->str_idx;
2800*820c1a8dSHiroo HAYASHI return clean_state_log_if_needed (mctx, to_idx);
2801*820c1a8dSHiroo HAYASHI }
2802*820c1a8dSHiroo HAYASHI
2803*820c1a8dSHiroo HAYASHI /* Find the first node which is '(' or ')' and whose index is SUBEXP_IDX.
2804*820c1a8dSHiroo HAYASHI Search '(' if FL_OPEN, or search ')' otherwise.
2805*820c1a8dSHiroo HAYASHI TODO: This function isn't efficient...
2806*820c1a8dSHiroo HAYASHI Because there might be more than one nodes whose types are
2807*820c1a8dSHiroo HAYASHI OP_OPEN_SUBEXP and whose index is SUBEXP_IDX, we must check all
2808*820c1a8dSHiroo HAYASHI nodes.
2809*820c1a8dSHiroo HAYASHI E.g. RE: (a){2} */
2810*820c1a8dSHiroo HAYASHI
2811*820c1a8dSHiroo HAYASHI static Idx
find_subexp_node(const re_dfa_t * dfa,const re_node_set * nodes,Idx subexp_idx,int type)2812*820c1a8dSHiroo HAYASHI find_subexp_node (const re_dfa_t *dfa, const re_node_set *nodes,
2813*820c1a8dSHiroo HAYASHI Idx subexp_idx, int type)
2814*820c1a8dSHiroo HAYASHI {
2815*820c1a8dSHiroo HAYASHI Idx cls_idx;
2816*820c1a8dSHiroo HAYASHI for (cls_idx = 0; cls_idx < nodes->nelem; ++cls_idx)
2817*820c1a8dSHiroo HAYASHI {
2818*820c1a8dSHiroo HAYASHI Idx cls_node = nodes->elems[cls_idx];
2819*820c1a8dSHiroo HAYASHI const re_token_t *node = dfa->nodes + cls_node;
2820*820c1a8dSHiroo HAYASHI if (node->type == type
2821*820c1a8dSHiroo HAYASHI && node->opr.idx == subexp_idx)
2822*820c1a8dSHiroo HAYASHI return cls_node;
2823*820c1a8dSHiroo HAYASHI }
2824*820c1a8dSHiroo HAYASHI return -1;
2825*820c1a8dSHiroo HAYASHI }
2826*820c1a8dSHiroo HAYASHI
2827*820c1a8dSHiroo HAYASHI /* Check whether the node TOP_NODE at TOP_STR can arrive to the node
2828*820c1a8dSHiroo HAYASHI LAST_NODE at LAST_STR. We record the path onto PATH since it will be
2829*820c1a8dSHiroo HAYASHI heavily reused.
2830*820c1a8dSHiroo HAYASHI Return REG_NOERROR if it can arrive, REG_NOMATCH if it cannot,
2831*820c1a8dSHiroo HAYASHI REG_ESPACE if memory is exhausted. */
2832*820c1a8dSHiroo HAYASHI
2833*820c1a8dSHiroo HAYASHI static reg_errcode_t
2834*820c1a8dSHiroo HAYASHI __attribute_warn_unused_result__
check_arrival(re_match_context_t * mctx,state_array_t * path,Idx top_node,Idx top_str,Idx last_node,Idx last_str,int type)2835*820c1a8dSHiroo HAYASHI check_arrival (re_match_context_t *mctx, state_array_t *path, Idx top_node,
2836*820c1a8dSHiroo HAYASHI Idx top_str, Idx last_node, Idx last_str, int type)
2837*820c1a8dSHiroo HAYASHI {
2838*820c1a8dSHiroo HAYASHI const re_dfa_t *const dfa = mctx->dfa;
2839*820c1a8dSHiroo HAYASHI reg_errcode_t err = REG_NOERROR;
2840*820c1a8dSHiroo HAYASHI Idx subexp_num, backup_cur_idx, str_idx, null_cnt;
2841*820c1a8dSHiroo HAYASHI re_dfastate_t *cur_state = NULL;
2842*820c1a8dSHiroo HAYASHI re_node_set *cur_nodes, next_nodes;
2843*820c1a8dSHiroo HAYASHI re_dfastate_t **backup_state_log;
2844*820c1a8dSHiroo HAYASHI unsigned int context;
2845*820c1a8dSHiroo HAYASHI
2846*820c1a8dSHiroo HAYASHI subexp_num = dfa->nodes[top_node].opr.idx;
2847*820c1a8dSHiroo HAYASHI /* Extend the buffer if we need. */
2848*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (path->alloc < last_str + mctx->max_mb_elem_len + 1))
2849*820c1a8dSHiroo HAYASHI {
2850*820c1a8dSHiroo HAYASHI re_dfastate_t **new_array;
2851*820c1a8dSHiroo HAYASHI Idx old_alloc = path->alloc;
2852*820c1a8dSHiroo HAYASHI Idx incr_alloc = last_str + mctx->max_mb_elem_len + 1;
2853*820c1a8dSHiroo HAYASHI Idx new_alloc;
2854*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (IDX_MAX - old_alloc < incr_alloc))
2855*820c1a8dSHiroo HAYASHI return REG_ESPACE;
2856*820c1a8dSHiroo HAYASHI new_alloc = old_alloc + incr_alloc;
2857*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (SIZE_MAX / sizeof (re_dfastate_t *) < new_alloc))
2858*820c1a8dSHiroo HAYASHI return REG_ESPACE;
2859*820c1a8dSHiroo HAYASHI new_array = re_realloc (path->array, re_dfastate_t *, new_alloc);
2860*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (new_array == NULL))
2861*820c1a8dSHiroo HAYASHI return REG_ESPACE;
2862*820c1a8dSHiroo HAYASHI path->array = new_array;
2863*820c1a8dSHiroo HAYASHI path->alloc = new_alloc;
2864*820c1a8dSHiroo HAYASHI memset (new_array + old_alloc, '\0',
2865*820c1a8dSHiroo HAYASHI sizeof (re_dfastate_t *) * (path->alloc - old_alloc));
2866*820c1a8dSHiroo HAYASHI }
2867*820c1a8dSHiroo HAYASHI
2868*820c1a8dSHiroo HAYASHI str_idx = path->next_idx ? path->next_idx : top_str;
2869*820c1a8dSHiroo HAYASHI
2870*820c1a8dSHiroo HAYASHI /* Temporary modify MCTX. */
2871*820c1a8dSHiroo HAYASHI backup_state_log = mctx->state_log;
2872*820c1a8dSHiroo HAYASHI backup_cur_idx = mctx->input.cur_idx;
2873*820c1a8dSHiroo HAYASHI mctx->state_log = path->array;
2874*820c1a8dSHiroo HAYASHI mctx->input.cur_idx = str_idx;
2875*820c1a8dSHiroo HAYASHI
2876*820c1a8dSHiroo HAYASHI /* Setup initial node set. */
2877*820c1a8dSHiroo HAYASHI context = re_string_context_at (&mctx->input, str_idx - 1, mctx->eflags);
2878*820c1a8dSHiroo HAYASHI if (str_idx == top_str)
2879*820c1a8dSHiroo HAYASHI {
2880*820c1a8dSHiroo HAYASHI err = re_node_set_init_1 (&next_nodes, top_node);
2881*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2882*820c1a8dSHiroo HAYASHI return err;
2883*820c1a8dSHiroo HAYASHI err = check_arrival_expand_ecl (dfa, &next_nodes, subexp_num, type);
2884*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2885*820c1a8dSHiroo HAYASHI {
2886*820c1a8dSHiroo HAYASHI re_node_set_free (&next_nodes);
2887*820c1a8dSHiroo HAYASHI return err;
2888*820c1a8dSHiroo HAYASHI }
2889*820c1a8dSHiroo HAYASHI }
2890*820c1a8dSHiroo HAYASHI else
2891*820c1a8dSHiroo HAYASHI {
2892*820c1a8dSHiroo HAYASHI cur_state = mctx->state_log[str_idx];
2893*820c1a8dSHiroo HAYASHI if (cur_state && cur_state->has_backref)
2894*820c1a8dSHiroo HAYASHI {
2895*820c1a8dSHiroo HAYASHI err = re_node_set_init_copy (&next_nodes, &cur_state->nodes);
2896*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2897*820c1a8dSHiroo HAYASHI return err;
2898*820c1a8dSHiroo HAYASHI }
2899*820c1a8dSHiroo HAYASHI else
2900*820c1a8dSHiroo HAYASHI re_node_set_init_empty (&next_nodes);
2901*820c1a8dSHiroo HAYASHI }
2902*820c1a8dSHiroo HAYASHI if (str_idx == top_str || (cur_state && cur_state->has_backref))
2903*820c1a8dSHiroo HAYASHI {
2904*820c1a8dSHiroo HAYASHI if (next_nodes.nelem)
2905*820c1a8dSHiroo HAYASHI {
2906*820c1a8dSHiroo HAYASHI err = expand_bkref_cache (mctx, &next_nodes, str_idx,
2907*820c1a8dSHiroo HAYASHI subexp_num, type);
2908*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2909*820c1a8dSHiroo HAYASHI {
2910*820c1a8dSHiroo HAYASHI re_node_set_free (&next_nodes);
2911*820c1a8dSHiroo HAYASHI return err;
2912*820c1a8dSHiroo HAYASHI }
2913*820c1a8dSHiroo HAYASHI }
2914*820c1a8dSHiroo HAYASHI cur_state = re_acquire_state_context (&err, dfa, &next_nodes, context);
2915*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (cur_state == NULL && err != REG_NOERROR))
2916*820c1a8dSHiroo HAYASHI {
2917*820c1a8dSHiroo HAYASHI re_node_set_free (&next_nodes);
2918*820c1a8dSHiroo HAYASHI return err;
2919*820c1a8dSHiroo HAYASHI }
2920*820c1a8dSHiroo HAYASHI mctx->state_log[str_idx] = cur_state;
2921*820c1a8dSHiroo HAYASHI }
2922*820c1a8dSHiroo HAYASHI
2923*820c1a8dSHiroo HAYASHI for (null_cnt = 0; str_idx < last_str && null_cnt <= mctx->max_mb_elem_len;)
2924*820c1a8dSHiroo HAYASHI {
2925*820c1a8dSHiroo HAYASHI re_node_set_empty (&next_nodes);
2926*820c1a8dSHiroo HAYASHI if (mctx->state_log[str_idx + 1])
2927*820c1a8dSHiroo HAYASHI {
2928*820c1a8dSHiroo HAYASHI err = re_node_set_merge (&next_nodes,
2929*820c1a8dSHiroo HAYASHI &mctx->state_log[str_idx + 1]->nodes);
2930*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2931*820c1a8dSHiroo HAYASHI {
2932*820c1a8dSHiroo HAYASHI re_node_set_free (&next_nodes);
2933*820c1a8dSHiroo HAYASHI return err;
2934*820c1a8dSHiroo HAYASHI }
2935*820c1a8dSHiroo HAYASHI }
2936*820c1a8dSHiroo HAYASHI if (cur_state)
2937*820c1a8dSHiroo HAYASHI {
2938*820c1a8dSHiroo HAYASHI err = check_arrival_add_next_nodes (mctx, str_idx,
2939*820c1a8dSHiroo HAYASHI &cur_state->non_eps_nodes,
2940*820c1a8dSHiroo HAYASHI &next_nodes);
2941*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2942*820c1a8dSHiroo HAYASHI {
2943*820c1a8dSHiroo HAYASHI re_node_set_free (&next_nodes);
2944*820c1a8dSHiroo HAYASHI return err;
2945*820c1a8dSHiroo HAYASHI }
2946*820c1a8dSHiroo HAYASHI }
2947*820c1a8dSHiroo HAYASHI ++str_idx;
2948*820c1a8dSHiroo HAYASHI if (next_nodes.nelem)
2949*820c1a8dSHiroo HAYASHI {
2950*820c1a8dSHiroo HAYASHI err = check_arrival_expand_ecl (dfa, &next_nodes, subexp_num, type);
2951*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2952*820c1a8dSHiroo HAYASHI {
2953*820c1a8dSHiroo HAYASHI re_node_set_free (&next_nodes);
2954*820c1a8dSHiroo HAYASHI return err;
2955*820c1a8dSHiroo HAYASHI }
2956*820c1a8dSHiroo HAYASHI err = expand_bkref_cache (mctx, &next_nodes, str_idx,
2957*820c1a8dSHiroo HAYASHI subexp_num, type);
2958*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
2959*820c1a8dSHiroo HAYASHI {
2960*820c1a8dSHiroo HAYASHI re_node_set_free (&next_nodes);
2961*820c1a8dSHiroo HAYASHI return err;
2962*820c1a8dSHiroo HAYASHI }
2963*820c1a8dSHiroo HAYASHI }
2964*820c1a8dSHiroo HAYASHI context = re_string_context_at (&mctx->input, str_idx - 1, mctx->eflags);
2965*820c1a8dSHiroo HAYASHI cur_state = re_acquire_state_context (&err, dfa, &next_nodes, context);
2966*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (cur_state == NULL && err != REG_NOERROR))
2967*820c1a8dSHiroo HAYASHI {
2968*820c1a8dSHiroo HAYASHI re_node_set_free (&next_nodes);
2969*820c1a8dSHiroo HAYASHI return err;
2970*820c1a8dSHiroo HAYASHI }
2971*820c1a8dSHiroo HAYASHI mctx->state_log[str_idx] = cur_state;
2972*820c1a8dSHiroo HAYASHI null_cnt = cur_state == NULL ? null_cnt + 1 : 0;
2973*820c1a8dSHiroo HAYASHI }
2974*820c1a8dSHiroo HAYASHI re_node_set_free (&next_nodes);
2975*820c1a8dSHiroo HAYASHI cur_nodes = (mctx->state_log[last_str] == NULL ? NULL
2976*820c1a8dSHiroo HAYASHI : &mctx->state_log[last_str]->nodes);
2977*820c1a8dSHiroo HAYASHI path->next_idx = str_idx;
2978*820c1a8dSHiroo HAYASHI
2979*820c1a8dSHiroo HAYASHI /* Fix MCTX. */
2980*820c1a8dSHiroo HAYASHI mctx->state_log = backup_state_log;
2981*820c1a8dSHiroo HAYASHI mctx->input.cur_idx = backup_cur_idx;
2982*820c1a8dSHiroo HAYASHI
2983*820c1a8dSHiroo HAYASHI /* Then check the current node set has the node LAST_NODE. */
2984*820c1a8dSHiroo HAYASHI if (cur_nodes != NULL && re_node_set_contains (cur_nodes, last_node))
2985*820c1a8dSHiroo HAYASHI return REG_NOERROR;
2986*820c1a8dSHiroo HAYASHI
2987*820c1a8dSHiroo HAYASHI return REG_NOMATCH;
2988*820c1a8dSHiroo HAYASHI }
2989*820c1a8dSHiroo HAYASHI
2990*820c1a8dSHiroo HAYASHI /* Helper functions for check_arrival. */
2991*820c1a8dSHiroo HAYASHI
2992*820c1a8dSHiroo HAYASHI /* Calculate the destination nodes of CUR_NODES at STR_IDX, and append them
2993*820c1a8dSHiroo HAYASHI to NEXT_NODES.
2994*820c1a8dSHiroo HAYASHI TODO: This function is similar to the functions transit_state*(),
2995*820c1a8dSHiroo HAYASHI however this function has many additional works.
2996*820c1a8dSHiroo HAYASHI Can't we unify them? */
2997*820c1a8dSHiroo HAYASHI
2998*820c1a8dSHiroo HAYASHI static reg_errcode_t
2999*820c1a8dSHiroo HAYASHI __attribute_warn_unused_result__
check_arrival_add_next_nodes(re_match_context_t * mctx,Idx str_idx,re_node_set * cur_nodes,re_node_set * next_nodes)3000*820c1a8dSHiroo HAYASHI check_arrival_add_next_nodes (re_match_context_t *mctx, Idx str_idx,
3001*820c1a8dSHiroo HAYASHI re_node_set *cur_nodes, re_node_set *next_nodes)
3002*820c1a8dSHiroo HAYASHI {
3003*820c1a8dSHiroo HAYASHI const re_dfa_t *const dfa = mctx->dfa;
3004*820c1a8dSHiroo HAYASHI bool ok;
3005*820c1a8dSHiroo HAYASHI Idx cur_idx;
3006*820c1a8dSHiroo HAYASHI #ifdef RE_ENABLE_I18N
3007*820c1a8dSHiroo HAYASHI reg_errcode_t err = REG_NOERROR;
3008*820c1a8dSHiroo HAYASHI #endif
3009*820c1a8dSHiroo HAYASHI re_node_set union_set;
3010*820c1a8dSHiroo HAYASHI re_node_set_init_empty (&union_set);
3011*820c1a8dSHiroo HAYASHI for (cur_idx = 0; cur_idx < cur_nodes->nelem; ++cur_idx)
3012*820c1a8dSHiroo HAYASHI {
3013*820c1a8dSHiroo HAYASHI int naccepted = 0;
3014*820c1a8dSHiroo HAYASHI Idx cur_node = cur_nodes->elems[cur_idx];
3015*820c1a8dSHiroo HAYASHI DEBUG_ASSERT (!IS_EPSILON_NODE (dfa->nodes[cur_node].type));
3016*820c1a8dSHiroo HAYASHI
3017*820c1a8dSHiroo HAYASHI #ifdef RE_ENABLE_I18N
3018*820c1a8dSHiroo HAYASHI /* If the node may accept "multi byte". */
3019*820c1a8dSHiroo HAYASHI if (dfa->nodes[cur_node].accept_mb)
3020*820c1a8dSHiroo HAYASHI {
3021*820c1a8dSHiroo HAYASHI naccepted = check_node_accept_bytes (dfa, cur_node, &mctx->input,
3022*820c1a8dSHiroo HAYASHI str_idx);
3023*820c1a8dSHiroo HAYASHI if (naccepted > 1)
3024*820c1a8dSHiroo HAYASHI {
3025*820c1a8dSHiroo HAYASHI re_dfastate_t *dest_state;
3026*820c1a8dSHiroo HAYASHI Idx next_node = dfa->nexts[cur_node];
3027*820c1a8dSHiroo HAYASHI Idx next_idx = str_idx + naccepted;
3028*820c1a8dSHiroo HAYASHI dest_state = mctx->state_log[next_idx];
3029*820c1a8dSHiroo HAYASHI re_node_set_empty (&union_set);
3030*820c1a8dSHiroo HAYASHI if (dest_state)
3031*820c1a8dSHiroo HAYASHI {
3032*820c1a8dSHiroo HAYASHI err = re_node_set_merge (&union_set, &dest_state->nodes);
3033*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
3034*820c1a8dSHiroo HAYASHI {
3035*820c1a8dSHiroo HAYASHI re_node_set_free (&union_set);
3036*820c1a8dSHiroo HAYASHI return err;
3037*820c1a8dSHiroo HAYASHI }
3038*820c1a8dSHiroo HAYASHI }
3039*820c1a8dSHiroo HAYASHI ok = re_node_set_insert (&union_set, next_node);
3040*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (! ok))
3041*820c1a8dSHiroo HAYASHI {
3042*820c1a8dSHiroo HAYASHI re_node_set_free (&union_set);
3043*820c1a8dSHiroo HAYASHI return REG_ESPACE;
3044*820c1a8dSHiroo HAYASHI }
3045*820c1a8dSHiroo HAYASHI mctx->state_log[next_idx] = re_acquire_state (&err, dfa,
3046*820c1a8dSHiroo HAYASHI &union_set);
3047*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (mctx->state_log[next_idx] == NULL
3048*820c1a8dSHiroo HAYASHI && err != REG_NOERROR))
3049*820c1a8dSHiroo HAYASHI {
3050*820c1a8dSHiroo HAYASHI re_node_set_free (&union_set);
3051*820c1a8dSHiroo HAYASHI return err;
3052*820c1a8dSHiroo HAYASHI }
3053*820c1a8dSHiroo HAYASHI }
3054*820c1a8dSHiroo HAYASHI }
3055*820c1a8dSHiroo HAYASHI #endif /* RE_ENABLE_I18N */
3056*820c1a8dSHiroo HAYASHI if (naccepted
3057*820c1a8dSHiroo HAYASHI || check_node_accept (mctx, dfa->nodes + cur_node, str_idx))
3058*820c1a8dSHiroo HAYASHI {
3059*820c1a8dSHiroo HAYASHI ok = re_node_set_insert (next_nodes, dfa->nexts[cur_node]);
3060*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (! ok))
3061*820c1a8dSHiroo HAYASHI {
3062*820c1a8dSHiroo HAYASHI re_node_set_free (&union_set);
3063*820c1a8dSHiroo HAYASHI return REG_ESPACE;
3064*820c1a8dSHiroo HAYASHI }
3065*820c1a8dSHiroo HAYASHI }
3066*820c1a8dSHiroo HAYASHI }
3067*820c1a8dSHiroo HAYASHI re_node_set_free (&union_set);
3068*820c1a8dSHiroo HAYASHI return REG_NOERROR;
3069*820c1a8dSHiroo HAYASHI }
3070*820c1a8dSHiroo HAYASHI
3071*820c1a8dSHiroo HAYASHI /* For all the nodes in CUR_NODES, add the epsilon closures of them to
3072*820c1a8dSHiroo HAYASHI CUR_NODES, however exclude the nodes which are:
3073*820c1a8dSHiroo HAYASHI - inside the sub expression whose number is EX_SUBEXP, if FL_OPEN.
3074*820c1a8dSHiroo HAYASHI - out of the sub expression whose number is EX_SUBEXP, if !FL_OPEN.
3075*820c1a8dSHiroo HAYASHI */
3076*820c1a8dSHiroo HAYASHI
3077*820c1a8dSHiroo HAYASHI static reg_errcode_t
check_arrival_expand_ecl(const re_dfa_t * dfa,re_node_set * cur_nodes,Idx ex_subexp,int type)3078*820c1a8dSHiroo HAYASHI check_arrival_expand_ecl (const re_dfa_t *dfa, re_node_set *cur_nodes,
3079*820c1a8dSHiroo HAYASHI Idx ex_subexp, int type)
3080*820c1a8dSHiroo HAYASHI {
3081*820c1a8dSHiroo HAYASHI reg_errcode_t err;
3082*820c1a8dSHiroo HAYASHI Idx idx, outside_node;
3083*820c1a8dSHiroo HAYASHI re_node_set new_nodes;
3084*820c1a8dSHiroo HAYASHI DEBUG_ASSERT (cur_nodes->nelem);
3085*820c1a8dSHiroo HAYASHI err = re_node_set_alloc (&new_nodes, cur_nodes->nelem);
3086*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
3087*820c1a8dSHiroo HAYASHI return err;
3088*820c1a8dSHiroo HAYASHI /* Create a new node set NEW_NODES with the nodes which are epsilon
3089*820c1a8dSHiroo HAYASHI closures of the node in CUR_NODES. */
3090*820c1a8dSHiroo HAYASHI
3091*820c1a8dSHiroo HAYASHI for (idx = 0; idx < cur_nodes->nelem; ++idx)
3092*820c1a8dSHiroo HAYASHI {
3093*820c1a8dSHiroo HAYASHI Idx cur_node = cur_nodes->elems[idx];
3094*820c1a8dSHiroo HAYASHI const re_node_set *eclosure = dfa->eclosures + cur_node;
3095*820c1a8dSHiroo HAYASHI outside_node = find_subexp_node (dfa, eclosure, ex_subexp, type);
3096*820c1a8dSHiroo HAYASHI if (outside_node == -1)
3097*820c1a8dSHiroo HAYASHI {
3098*820c1a8dSHiroo HAYASHI /* There are no problematic nodes, just merge them. */
3099*820c1a8dSHiroo HAYASHI err = re_node_set_merge (&new_nodes, eclosure);
3100*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
3101*820c1a8dSHiroo HAYASHI {
3102*820c1a8dSHiroo HAYASHI re_node_set_free (&new_nodes);
3103*820c1a8dSHiroo HAYASHI return err;
3104*820c1a8dSHiroo HAYASHI }
3105*820c1a8dSHiroo HAYASHI }
3106*820c1a8dSHiroo HAYASHI else
3107*820c1a8dSHiroo HAYASHI {
3108*820c1a8dSHiroo HAYASHI /* There are problematic nodes, re-calculate incrementally. */
3109*820c1a8dSHiroo HAYASHI err = check_arrival_expand_ecl_sub (dfa, &new_nodes, cur_node,
3110*820c1a8dSHiroo HAYASHI ex_subexp, type);
3111*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
3112*820c1a8dSHiroo HAYASHI {
3113*820c1a8dSHiroo HAYASHI re_node_set_free (&new_nodes);
3114*820c1a8dSHiroo HAYASHI return err;
3115*820c1a8dSHiroo HAYASHI }
3116*820c1a8dSHiroo HAYASHI }
3117*820c1a8dSHiroo HAYASHI }
3118*820c1a8dSHiroo HAYASHI re_node_set_free (cur_nodes);
3119*820c1a8dSHiroo HAYASHI *cur_nodes = new_nodes;
3120*820c1a8dSHiroo HAYASHI return REG_NOERROR;
3121*820c1a8dSHiroo HAYASHI }
3122*820c1a8dSHiroo HAYASHI
3123*820c1a8dSHiroo HAYASHI /* Helper function for check_arrival_expand_ecl.
3124*820c1a8dSHiroo HAYASHI Check incrementally the epsilon closure of TARGET, and if it isn't
3125*820c1a8dSHiroo HAYASHI problematic append it to DST_NODES. */
3126*820c1a8dSHiroo HAYASHI
3127*820c1a8dSHiroo HAYASHI static reg_errcode_t
3128*820c1a8dSHiroo HAYASHI __attribute_warn_unused_result__
check_arrival_expand_ecl_sub(const re_dfa_t * dfa,re_node_set * dst_nodes,Idx target,Idx ex_subexp,int type)3129*820c1a8dSHiroo HAYASHI check_arrival_expand_ecl_sub (const re_dfa_t *dfa, re_node_set *dst_nodes,
3130*820c1a8dSHiroo HAYASHI Idx target, Idx ex_subexp, int type)
3131*820c1a8dSHiroo HAYASHI {
3132*820c1a8dSHiroo HAYASHI Idx cur_node;
3133*820c1a8dSHiroo HAYASHI for (cur_node = target; !re_node_set_contains (dst_nodes, cur_node);)
3134*820c1a8dSHiroo HAYASHI {
3135*820c1a8dSHiroo HAYASHI bool ok;
3136*820c1a8dSHiroo HAYASHI
3137*820c1a8dSHiroo HAYASHI if (dfa->nodes[cur_node].type == type
3138*820c1a8dSHiroo HAYASHI && dfa->nodes[cur_node].opr.idx == ex_subexp)
3139*820c1a8dSHiroo HAYASHI {
3140*820c1a8dSHiroo HAYASHI if (type == OP_CLOSE_SUBEXP)
3141*820c1a8dSHiroo HAYASHI {
3142*820c1a8dSHiroo HAYASHI ok = re_node_set_insert (dst_nodes, cur_node);
3143*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (! ok))
3144*820c1a8dSHiroo HAYASHI return REG_ESPACE;
3145*820c1a8dSHiroo HAYASHI }
3146*820c1a8dSHiroo HAYASHI break;
3147*820c1a8dSHiroo HAYASHI }
3148*820c1a8dSHiroo HAYASHI ok = re_node_set_insert (dst_nodes, cur_node);
3149*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (! ok))
3150*820c1a8dSHiroo HAYASHI return REG_ESPACE;
3151*820c1a8dSHiroo HAYASHI if (dfa->edests[cur_node].nelem == 0)
3152*820c1a8dSHiroo HAYASHI break;
3153*820c1a8dSHiroo HAYASHI if (dfa->edests[cur_node].nelem == 2)
3154*820c1a8dSHiroo HAYASHI {
3155*820c1a8dSHiroo HAYASHI reg_errcode_t err;
3156*820c1a8dSHiroo HAYASHI err = check_arrival_expand_ecl_sub (dfa, dst_nodes,
3157*820c1a8dSHiroo HAYASHI dfa->edests[cur_node].elems[1],
3158*820c1a8dSHiroo HAYASHI ex_subexp, type);
3159*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
3160*820c1a8dSHiroo HAYASHI return err;
3161*820c1a8dSHiroo HAYASHI }
3162*820c1a8dSHiroo HAYASHI cur_node = dfa->edests[cur_node].elems[0];
3163*820c1a8dSHiroo HAYASHI }
3164*820c1a8dSHiroo HAYASHI return REG_NOERROR;
3165*820c1a8dSHiroo HAYASHI }
3166*820c1a8dSHiroo HAYASHI
3167*820c1a8dSHiroo HAYASHI
3168*820c1a8dSHiroo HAYASHI /* For all the back references in the current state, calculate the
3169*820c1a8dSHiroo HAYASHI destination of the back references by the appropriate entry
3170*820c1a8dSHiroo HAYASHI in MCTX->BKREF_ENTS. */
3171*820c1a8dSHiroo HAYASHI
3172*820c1a8dSHiroo HAYASHI static reg_errcode_t
3173*820c1a8dSHiroo HAYASHI __attribute_warn_unused_result__
expand_bkref_cache(re_match_context_t * mctx,re_node_set * cur_nodes,Idx cur_str,Idx subexp_num,int type)3174*820c1a8dSHiroo HAYASHI expand_bkref_cache (re_match_context_t *mctx, re_node_set *cur_nodes,
3175*820c1a8dSHiroo HAYASHI Idx cur_str, Idx subexp_num, int type)
3176*820c1a8dSHiroo HAYASHI {
3177*820c1a8dSHiroo HAYASHI const re_dfa_t *const dfa = mctx->dfa;
3178*820c1a8dSHiroo HAYASHI reg_errcode_t err;
3179*820c1a8dSHiroo HAYASHI Idx cache_idx_start = search_cur_bkref_entry (mctx, cur_str);
3180*820c1a8dSHiroo HAYASHI struct re_backref_cache_entry *ent;
3181*820c1a8dSHiroo HAYASHI
3182*820c1a8dSHiroo HAYASHI if (cache_idx_start == -1)
3183*820c1a8dSHiroo HAYASHI return REG_NOERROR;
3184*820c1a8dSHiroo HAYASHI
3185*820c1a8dSHiroo HAYASHI restart:
3186*820c1a8dSHiroo HAYASHI ent = mctx->bkref_ents + cache_idx_start;
3187*820c1a8dSHiroo HAYASHI do
3188*820c1a8dSHiroo HAYASHI {
3189*820c1a8dSHiroo HAYASHI Idx to_idx, next_node;
3190*820c1a8dSHiroo HAYASHI
3191*820c1a8dSHiroo HAYASHI /* Is this entry ENT is appropriate? */
3192*820c1a8dSHiroo HAYASHI if (!re_node_set_contains (cur_nodes, ent->node))
3193*820c1a8dSHiroo HAYASHI continue; /* No. */
3194*820c1a8dSHiroo HAYASHI
3195*820c1a8dSHiroo HAYASHI to_idx = cur_str + ent->subexp_to - ent->subexp_from;
3196*820c1a8dSHiroo HAYASHI /* Calculate the destination of the back reference, and append it
3197*820c1a8dSHiroo HAYASHI to MCTX->STATE_LOG. */
3198*820c1a8dSHiroo HAYASHI if (to_idx == cur_str)
3199*820c1a8dSHiroo HAYASHI {
3200*820c1a8dSHiroo HAYASHI /* The backreference did epsilon transit, we must re-check all the
3201*820c1a8dSHiroo HAYASHI node in the current state. */
3202*820c1a8dSHiroo HAYASHI re_node_set new_dests;
3203*820c1a8dSHiroo HAYASHI reg_errcode_t err2, err3;
3204*820c1a8dSHiroo HAYASHI next_node = dfa->edests[ent->node].elems[0];
3205*820c1a8dSHiroo HAYASHI if (re_node_set_contains (cur_nodes, next_node))
3206*820c1a8dSHiroo HAYASHI continue;
3207*820c1a8dSHiroo HAYASHI err = re_node_set_init_1 (&new_dests, next_node);
3208*820c1a8dSHiroo HAYASHI err2 = check_arrival_expand_ecl (dfa, &new_dests, subexp_num, type);
3209*820c1a8dSHiroo HAYASHI err3 = re_node_set_merge (cur_nodes, &new_dests);
3210*820c1a8dSHiroo HAYASHI re_node_set_free (&new_dests);
3211*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR || err2 != REG_NOERROR
3212*820c1a8dSHiroo HAYASHI || err3 != REG_NOERROR))
3213*820c1a8dSHiroo HAYASHI {
3214*820c1a8dSHiroo HAYASHI err = (err != REG_NOERROR ? err
3215*820c1a8dSHiroo HAYASHI : (err2 != REG_NOERROR ? err2 : err3));
3216*820c1a8dSHiroo HAYASHI return err;
3217*820c1a8dSHiroo HAYASHI }
3218*820c1a8dSHiroo HAYASHI /* TODO: It is still inefficient... */
3219*820c1a8dSHiroo HAYASHI goto restart;
3220*820c1a8dSHiroo HAYASHI }
3221*820c1a8dSHiroo HAYASHI else
3222*820c1a8dSHiroo HAYASHI {
3223*820c1a8dSHiroo HAYASHI re_node_set union_set;
3224*820c1a8dSHiroo HAYASHI next_node = dfa->nexts[ent->node];
3225*820c1a8dSHiroo HAYASHI if (mctx->state_log[to_idx])
3226*820c1a8dSHiroo HAYASHI {
3227*820c1a8dSHiroo HAYASHI bool ok;
3228*820c1a8dSHiroo HAYASHI if (re_node_set_contains (&mctx->state_log[to_idx]->nodes,
3229*820c1a8dSHiroo HAYASHI next_node))
3230*820c1a8dSHiroo HAYASHI continue;
3231*820c1a8dSHiroo HAYASHI err = re_node_set_init_copy (&union_set,
3232*820c1a8dSHiroo HAYASHI &mctx->state_log[to_idx]->nodes);
3233*820c1a8dSHiroo HAYASHI ok = re_node_set_insert (&union_set, next_node);
3234*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR || ! ok))
3235*820c1a8dSHiroo HAYASHI {
3236*820c1a8dSHiroo HAYASHI re_node_set_free (&union_set);
3237*820c1a8dSHiroo HAYASHI err = err != REG_NOERROR ? err : REG_ESPACE;
3238*820c1a8dSHiroo HAYASHI return err;
3239*820c1a8dSHiroo HAYASHI }
3240*820c1a8dSHiroo HAYASHI }
3241*820c1a8dSHiroo HAYASHI else
3242*820c1a8dSHiroo HAYASHI {
3243*820c1a8dSHiroo HAYASHI err = re_node_set_init_1 (&union_set, next_node);
3244*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
3245*820c1a8dSHiroo HAYASHI return err;
3246*820c1a8dSHiroo HAYASHI }
3247*820c1a8dSHiroo HAYASHI mctx->state_log[to_idx] = re_acquire_state (&err, dfa, &union_set);
3248*820c1a8dSHiroo HAYASHI re_node_set_free (&union_set);
3249*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (mctx->state_log[to_idx] == NULL
3250*820c1a8dSHiroo HAYASHI && err != REG_NOERROR))
3251*820c1a8dSHiroo HAYASHI return err;
3252*820c1a8dSHiroo HAYASHI }
3253*820c1a8dSHiroo HAYASHI }
3254*820c1a8dSHiroo HAYASHI while (ent++->more);
3255*820c1a8dSHiroo HAYASHI return REG_NOERROR;
3256*820c1a8dSHiroo HAYASHI }
3257*820c1a8dSHiroo HAYASHI
3258*820c1a8dSHiroo HAYASHI /* Build transition table for the state.
3259*820c1a8dSHiroo HAYASHI Return true if successful. */
3260*820c1a8dSHiroo HAYASHI
3261*820c1a8dSHiroo HAYASHI static bool __attribute_noinline__
build_trtable(const re_dfa_t * dfa,re_dfastate_t * state)3262*820c1a8dSHiroo HAYASHI build_trtable (const re_dfa_t *dfa, re_dfastate_t *state)
3263*820c1a8dSHiroo HAYASHI {
3264*820c1a8dSHiroo HAYASHI reg_errcode_t err;
3265*820c1a8dSHiroo HAYASHI Idx i, j;
3266*820c1a8dSHiroo HAYASHI int ch;
3267*820c1a8dSHiroo HAYASHI bool need_word_trtable = false;
3268*820c1a8dSHiroo HAYASHI bitset_word_t elem, mask;
3269*820c1a8dSHiroo HAYASHI Idx ndests; /* Number of the destination states from 'state'. */
3270*820c1a8dSHiroo HAYASHI re_dfastate_t **trtable;
3271*820c1a8dSHiroo HAYASHI re_dfastate_t *dest_states[SBC_MAX];
3272*820c1a8dSHiroo HAYASHI re_dfastate_t *dest_states_word[SBC_MAX];
3273*820c1a8dSHiroo HAYASHI re_dfastate_t *dest_states_nl[SBC_MAX];
3274*820c1a8dSHiroo HAYASHI re_node_set follows;
3275*820c1a8dSHiroo HAYASHI bitset_t acceptable;
3276*820c1a8dSHiroo HAYASHI
3277*820c1a8dSHiroo HAYASHI /* We build DFA states which corresponds to the destination nodes
3278*820c1a8dSHiroo HAYASHI from 'state'. 'dests_node[i]' represents the nodes which i-th
3279*820c1a8dSHiroo HAYASHI destination state contains, and 'dests_ch[i]' represents the
3280*820c1a8dSHiroo HAYASHI characters which i-th destination state accepts. */
3281*820c1a8dSHiroo HAYASHI re_node_set dests_node[SBC_MAX];
3282*820c1a8dSHiroo HAYASHI bitset_t dests_ch[SBC_MAX];
3283*820c1a8dSHiroo HAYASHI
3284*820c1a8dSHiroo HAYASHI /* Initialize transition table. */
3285*820c1a8dSHiroo HAYASHI state->word_trtable = state->trtable = NULL;
3286*820c1a8dSHiroo HAYASHI
3287*820c1a8dSHiroo HAYASHI /* At first, group all nodes belonging to 'state' into several
3288*820c1a8dSHiroo HAYASHI destinations. */
3289*820c1a8dSHiroo HAYASHI ndests = group_nodes_into_DFAstates (dfa, state, dests_node, dests_ch);
3290*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (ndests <= 0))
3291*820c1a8dSHiroo HAYASHI {
3292*820c1a8dSHiroo HAYASHI /* Return false in case of an error, true otherwise. */
3293*820c1a8dSHiroo HAYASHI if (ndests == 0)
3294*820c1a8dSHiroo HAYASHI {
3295*820c1a8dSHiroo HAYASHI state->trtable = (re_dfastate_t **)
3296*820c1a8dSHiroo HAYASHI calloc (sizeof (re_dfastate_t *), SBC_MAX);
3297*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (state->trtable == NULL))
3298*820c1a8dSHiroo HAYASHI return false;
3299*820c1a8dSHiroo HAYASHI return true;
3300*820c1a8dSHiroo HAYASHI }
3301*820c1a8dSHiroo HAYASHI return false;
3302*820c1a8dSHiroo HAYASHI }
3303*820c1a8dSHiroo HAYASHI
3304*820c1a8dSHiroo HAYASHI err = re_node_set_alloc (&follows, ndests + 1);
3305*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
3306*820c1a8dSHiroo HAYASHI {
3307*820c1a8dSHiroo HAYASHI out_free:
3308*820c1a8dSHiroo HAYASHI re_node_set_free (&follows);
3309*820c1a8dSHiroo HAYASHI for (i = 0; i < ndests; ++i)
3310*820c1a8dSHiroo HAYASHI re_node_set_free (dests_node + i);
3311*820c1a8dSHiroo HAYASHI return false;
3312*820c1a8dSHiroo HAYASHI }
3313*820c1a8dSHiroo HAYASHI
3314*820c1a8dSHiroo HAYASHI bitset_empty (acceptable);
3315*820c1a8dSHiroo HAYASHI
3316*820c1a8dSHiroo HAYASHI /* Then build the states for all destinations. */
3317*820c1a8dSHiroo HAYASHI for (i = 0; i < ndests; ++i)
3318*820c1a8dSHiroo HAYASHI {
3319*820c1a8dSHiroo HAYASHI Idx next_node;
3320*820c1a8dSHiroo HAYASHI re_node_set_empty (&follows);
3321*820c1a8dSHiroo HAYASHI /* Merge the follows of this destination states. */
3322*820c1a8dSHiroo HAYASHI for (j = 0; j < dests_node[i].nelem; ++j)
3323*820c1a8dSHiroo HAYASHI {
3324*820c1a8dSHiroo HAYASHI next_node = dfa->nexts[dests_node[i].elems[j]];
3325*820c1a8dSHiroo HAYASHI if (next_node != -1)
3326*820c1a8dSHiroo HAYASHI {
3327*820c1a8dSHiroo HAYASHI err = re_node_set_merge (&follows, dfa->eclosures + next_node);
3328*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
3329*820c1a8dSHiroo HAYASHI goto out_free;
3330*820c1a8dSHiroo HAYASHI }
3331*820c1a8dSHiroo HAYASHI }
3332*820c1a8dSHiroo HAYASHI dest_states[i] = re_acquire_state_context (&err, dfa, &follows, 0);
3333*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (dest_states[i] == NULL && err != REG_NOERROR))
3334*820c1a8dSHiroo HAYASHI goto out_free;
3335*820c1a8dSHiroo HAYASHI /* If the new state has context constraint,
3336*820c1a8dSHiroo HAYASHI build appropriate states for these contexts. */
3337*820c1a8dSHiroo HAYASHI if (dest_states[i]->has_constraint)
3338*820c1a8dSHiroo HAYASHI {
3339*820c1a8dSHiroo HAYASHI dest_states_word[i] = re_acquire_state_context (&err, dfa, &follows,
3340*820c1a8dSHiroo HAYASHI CONTEXT_WORD);
3341*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (dest_states_word[i] == NULL
3342*820c1a8dSHiroo HAYASHI && err != REG_NOERROR))
3343*820c1a8dSHiroo HAYASHI goto out_free;
3344*820c1a8dSHiroo HAYASHI
3345*820c1a8dSHiroo HAYASHI if (dest_states[i] != dest_states_word[i] && dfa->mb_cur_max > 1)
3346*820c1a8dSHiroo HAYASHI need_word_trtable = true;
3347*820c1a8dSHiroo HAYASHI
3348*820c1a8dSHiroo HAYASHI dest_states_nl[i] = re_acquire_state_context (&err, dfa, &follows,
3349*820c1a8dSHiroo HAYASHI CONTEXT_NEWLINE);
3350*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (dest_states_nl[i] == NULL && err != REG_NOERROR))
3351*820c1a8dSHiroo HAYASHI goto out_free;
3352*820c1a8dSHiroo HAYASHI }
3353*820c1a8dSHiroo HAYASHI else
3354*820c1a8dSHiroo HAYASHI {
3355*820c1a8dSHiroo HAYASHI dest_states_word[i] = dest_states[i];
3356*820c1a8dSHiroo HAYASHI dest_states_nl[i] = dest_states[i];
3357*820c1a8dSHiroo HAYASHI }
3358*820c1a8dSHiroo HAYASHI bitset_merge (acceptable, dests_ch[i]);
3359*820c1a8dSHiroo HAYASHI }
3360*820c1a8dSHiroo HAYASHI
3361*820c1a8dSHiroo HAYASHI if (!__glibc_unlikely (need_word_trtable))
3362*820c1a8dSHiroo HAYASHI {
3363*820c1a8dSHiroo HAYASHI /* We don't care about whether the following character is a word
3364*820c1a8dSHiroo HAYASHI character, or we are in a single-byte character set so we can
3365*820c1a8dSHiroo HAYASHI discern by looking at the character code: allocate a
3366*820c1a8dSHiroo HAYASHI 256-entry transition table. */
3367*820c1a8dSHiroo HAYASHI trtable = state->trtable =
3368*820c1a8dSHiroo HAYASHI (re_dfastate_t **) calloc (sizeof (re_dfastate_t *), SBC_MAX);
3369*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (trtable == NULL))
3370*820c1a8dSHiroo HAYASHI goto out_free;
3371*820c1a8dSHiroo HAYASHI
3372*820c1a8dSHiroo HAYASHI /* For all characters ch...: */
3373*820c1a8dSHiroo HAYASHI for (i = 0; i < BITSET_WORDS; ++i)
3374*820c1a8dSHiroo HAYASHI for (ch = i * BITSET_WORD_BITS, elem = acceptable[i], mask = 1;
3375*820c1a8dSHiroo HAYASHI elem;
3376*820c1a8dSHiroo HAYASHI mask <<= 1, elem >>= 1, ++ch)
3377*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (elem & 1))
3378*820c1a8dSHiroo HAYASHI {
3379*820c1a8dSHiroo HAYASHI /* There must be exactly one destination which accepts
3380*820c1a8dSHiroo HAYASHI character ch. See group_nodes_into_DFAstates. */
3381*820c1a8dSHiroo HAYASHI for (j = 0; (dests_ch[j][i] & mask) == 0; ++j)
3382*820c1a8dSHiroo HAYASHI ;
3383*820c1a8dSHiroo HAYASHI
3384*820c1a8dSHiroo HAYASHI /* j-th destination accepts the word character ch. */
3385*820c1a8dSHiroo HAYASHI if (dfa->word_char[i] & mask)
3386*820c1a8dSHiroo HAYASHI trtable[ch] = dest_states_word[j];
3387*820c1a8dSHiroo HAYASHI else
3388*820c1a8dSHiroo HAYASHI trtable[ch] = dest_states[j];
3389*820c1a8dSHiroo HAYASHI }
3390*820c1a8dSHiroo HAYASHI }
3391*820c1a8dSHiroo HAYASHI else
3392*820c1a8dSHiroo HAYASHI {
3393*820c1a8dSHiroo HAYASHI /* We care about whether the following character is a word
3394*820c1a8dSHiroo HAYASHI character, and we are in a multi-byte character set: discern
3395*820c1a8dSHiroo HAYASHI by looking at the character code: build two 256-entry
3396*820c1a8dSHiroo HAYASHI transition tables, one starting at trtable[0] and one
3397*820c1a8dSHiroo HAYASHI starting at trtable[SBC_MAX]. */
3398*820c1a8dSHiroo HAYASHI trtable = state->word_trtable =
3399*820c1a8dSHiroo HAYASHI (re_dfastate_t **) calloc (sizeof (re_dfastate_t *), 2 * SBC_MAX);
3400*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (trtable == NULL))
3401*820c1a8dSHiroo HAYASHI goto out_free;
3402*820c1a8dSHiroo HAYASHI
3403*820c1a8dSHiroo HAYASHI /* For all characters ch...: */
3404*820c1a8dSHiroo HAYASHI for (i = 0; i < BITSET_WORDS; ++i)
3405*820c1a8dSHiroo HAYASHI for (ch = i * BITSET_WORD_BITS, elem = acceptable[i], mask = 1;
3406*820c1a8dSHiroo HAYASHI elem;
3407*820c1a8dSHiroo HAYASHI mask <<= 1, elem >>= 1, ++ch)
3408*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (elem & 1))
3409*820c1a8dSHiroo HAYASHI {
3410*820c1a8dSHiroo HAYASHI /* There must be exactly one destination which accepts
3411*820c1a8dSHiroo HAYASHI character ch. See group_nodes_into_DFAstates. */
3412*820c1a8dSHiroo HAYASHI for (j = 0; (dests_ch[j][i] & mask) == 0; ++j)
3413*820c1a8dSHiroo HAYASHI ;
3414*820c1a8dSHiroo HAYASHI
3415*820c1a8dSHiroo HAYASHI /* j-th destination accepts the word character ch. */
3416*820c1a8dSHiroo HAYASHI trtable[ch] = dest_states[j];
3417*820c1a8dSHiroo HAYASHI trtable[ch + SBC_MAX] = dest_states_word[j];
3418*820c1a8dSHiroo HAYASHI }
3419*820c1a8dSHiroo HAYASHI }
3420*820c1a8dSHiroo HAYASHI
3421*820c1a8dSHiroo HAYASHI /* new line */
3422*820c1a8dSHiroo HAYASHI if (bitset_contain (acceptable, NEWLINE_CHAR))
3423*820c1a8dSHiroo HAYASHI {
3424*820c1a8dSHiroo HAYASHI /* The current state accepts newline character. */
3425*820c1a8dSHiroo HAYASHI for (j = 0; j < ndests; ++j)
3426*820c1a8dSHiroo HAYASHI if (bitset_contain (dests_ch[j], NEWLINE_CHAR))
3427*820c1a8dSHiroo HAYASHI {
3428*820c1a8dSHiroo HAYASHI /* k-th destination accepts newline character. */
3429*820c1a8dSHiroo HAYASHI trtable[NEWLINE_CHAR] = dest_states_nl[j];
3430*820c1a8dSHiroo HAYASHI if (need_word_trtable)
3431*820c1a8dSHiroo HAYASHI trtable[NEWLINE_CHAR + SBC_MAX] = dest_states_nl[j];
3432*820c1a8dSHiroo HAYASHI /* There must be only one destination which accepts
3433*820c1a8dSHiroo HAYASHI newline. See group_nodes_into_DFAstates. */
3434*820c1a8dSHiroo HAYASHI break;
3435*820c1a8dSHiroo HAYASHI }
3436*820c1a8dSHiroo HAYASHI }
3437*820c1a8dSHiroo HAYASHI
3438*820c1a8dSHiroo HAYASHI re_node_set_free (&follows);
3439*820c1a8dSHiroo HAYASHI for (i = 0; i < ndests; ++i)
3440*820c1a8dSHiroo HAYASHI re_node_set_free (dests_node + i);
3441*820c1a8dSHiroo HAYASHI return true;
3442*820c1a8dSHiroo HAYASHI }
3443*820c1a8dSHiroo HAYASHI
3444*820c1a8dSHiroo HAYASHI /* Group all nodes belonging to STATE into several destinations.
3445*820c1a8dSHiroo HAYASHI Then for all destinations, set the nodes belonging to the destination
3446*820c1a8dSHiroo HAYASHI to DESTS_NODE[i] and set the characters accepted by the destination
3447*820c1a8dSHiroo HAYASHI to DEST_CH[i]. Return the number of destinations if successful,
3448*820c1a8dSHiroo HAYASHI -1 on internal error. */
3449*820c1a8dSHiroo HAYASHI
3450*820c1a8dSHiroo HAYASHI static Idx
group_nodes_into_DFAstates(const re_dfa_t * dfa,const re_dfastate_t * state,re_node_set * dests_node,bitset_t * dests_ch)3451*820c1a8dSHiroo HAYASHI group_nodes_into_DFAstates (const re_dfa_t *dfa, const re_dfastate_t *state,
3452*820c1a8dSHiroo HAYASHI re_node_set *dests_node, bitset_t *dests_ch)
3453*820c1a8dSHiroo HAYASHI {
3454*820c1a8dSHiroo HAYASHI reg_errcode_t err;
3455*820c1a8dSHiroo HAYASHI bool ok;
3456*820c1a8dSHiroo HAYASHI Idx i, j, k;
3457*820c1a8dSHiroo HAYASHI Idx ndests; /* Number of the destinations from 'state'. */
3458*820c1a8dSHiroo HAYASHI bitset_t accepts; /* Characters a node can accept. */
3459*820c1a8dSHiroo HAYASHI const re_node_set *cur_nodes = &state->nodes;
3460*820c1a8dSHiroo HAYASHI bitset_empty (accepts);
3461*820c1a8dSHiroo HAYASHI ndests = 0;
3462*820c1a8dSHiroo HAYASHI
3463*820c1a8dSHiroo HAYASHI /* For all the nodes belonging to 'state', */
3464*820c1a8dSHiroo HAYASHI for (i = 0; i < cur_nodes->nelem; ++i)
3465*820c1a8dSHiroo HAYASHI {
3466*820c1a8dSHiroo HAYASHI re_token_t *node = &dfa->nodes[cur_nodes->elems[i]];
3467*820c1a8dSHiroo HAYASHI re_token_type_t type = node->type;
3468*820c1a8dSHiroo HAYASHI unsigned int constraint = node->constraint;
3469*820c1a8dSHiroo HAYASHI
3470*820c1a8dSHiroo HAYASHI /* Enumerate all single byte character this node can accept. */
3471*820c1a8dSHiroo HAYASHI if (type == CHARACTER)
3472*820c1a8dSHiroo HAYASHI bitset_set (accepts, node->opr.c);
3473*820c1a8dSHiroo HAYASHI else if (type == SIMPLE_BRACKET)
3474*820c1a8dSHiroo HAYASHI {
3475*820c1a8dSHiroo HAYASHI bitset_merge (accepts, node->opr.sbcset);
3476*820c1a8dSHiroo HAYASHI }
3477*820c1a8dSHiroo HAYASHI else if (type == OP_PERIOD)
3478*820c1a8dSHiroo HAYASHI {
3479*820c1a8dSHiroo HAYASHI #ifdef RE_ENABLE_I18N
3480*820c1a8dSHiroo HAYASHI if (dfa->mb_cur_max > 1)
3481*820c1a8dSHiroo HAYASHI bitset_merge (accepts, dfa->sb_char);
3482*820c1a8dSHiroo HAYASHI else
3483*820c1a8dSHiroo HAYASHI #endif
3484*820c1a8dSHiroo HAYASHI bitset_set_all (accepts);
3485*820c1a8dSHiroo HAYASHI if (!(dfa->syntax & RE_DOT_NEWLINE))
3486*820c1a8dSHiroo HAYASHI bitset_clear (accepts, '\n');
3487*820c1a8dSHiroo HAYASHI if (dfa->syntax & RE_DOT_NOT_NULL)
3488*820c1a8dSHiroo HAYASHI bitset_clear (accepts, '\0');
3489*820c1a8dSHiroo HAYASHI }
3490*820c1a8dSHiroo HAYASHI #ifdef RE_ENABLE_I18N
3491*820c1a8dSHiroo HAYASHI else if (type == OP_UTF8_PERIOD)
3492*820c1a8dSHiroo HAYASHI {
3493*820c1a8dSHiroo HAYASHI if (ASCII_CHARS % BITSET_WORD_BITS == 0)
3494*820c1a8dSHiroo HAYASHI memset (accepts, -1, ASCII_CHARS / CHAR_BIT);
3495*820c1a8dSHiroo HAYASHI else
3496*820c1a8dSHiroo HAYASHI bitset_merge (accepts, utf8_sb_map);
3497*820c1a8dSHiroo HAYASHI if (!(dfa->syntax & RE_DOT_NEWLINE))
3498*820c1a8dSHiroo HAYASHI bitset_clear (accepts, '\n');
3499*820c1a8dSHiroo HAYASHI if (dfa->syntax & RE_DOT_NOT_NULL)
3500*820c1a8dSHiroo HAYASHI bitset_clear (accepts, '\0');
3501*820c1a8dSHiroo HAYASHI }
3502*820c1a8dSHiroo HAYASHI #endif
3503*820c1a8dSHiroo HAYASHI else
3504*820c1a8dSHiroo HAYASHI continue;
3505*820c1a8dSHiroo HAYASHI
3506*820c1a8dSHiroo HAYASHI /* Check the 'accepts' and sift the characters which are not
3507*820c1a8dSHiroo HAYASHI match it the context. */
3508*820c1a8dSHiroo HAYASHI if (constraint)
3509*820c1a8dSHiroo HAYASHI {
3510*820c1a8dSHiroo HAYASHI if (constraint & NEXT_NEWLINE_CONSTRAINT)
3511*820c1a8dSHiroo HAYASHI {
3512*820c1a8dSHiroo HAYASHI bool accepts_newline = bitset_contain (accepts, NEWLINE_CHAR);
3513*820c1a8dSHiroo HAYASHI bitset_empty (accepts);
3514*820c1a8dSHiroo HAYASHI if (accepts_newline)
3515*820c1a8dSHiroo HAYASHI bitset_set (accepts, NEWLINE_CHAR);
3516*820c1a8dSHiroo HAYASHI else
3517*820c1a8dSHiroo HAYASHI continue;
3518*820c1a8dSHiroo HAYASHI }
3519*820c1a8dSHiroo HAYASHI if (constraint & NEXT_ENDBUF_CONSTRAINT)
3520*820c1a8dSHiroo HAYASHI {
3521*820c1a8dSHiroo HAYASHI bitset_empty (accepts);
3522*820c1a8dSHiroo HAYASHI continue;
3523*820c1a8dSHiroo HAYASHI }
3524*820c1a8dSHiroo HAYASHI
3525*820c1a8dSHiroo HAYASHI if (constraint & NEXT_WORD_CONSTRAINT)
3526*820c1a8dSHiroo HAYASHI {
3527*820c1a8dSHiroo HAYASHI bitset_word_t any_set = 0;
3528*820c1a8dSHiroo HAYASHI if (type == CHARACTER && !node->word_char)
3529*820c1a8dSHiroo HAYASHI {
3530*820c1a8dSHiroo HAYASHI bitset_empty (accepts);
3531*820c1a8dSHiroo HAYASHI continue;
3532*820c1a8dSHiroo HAYASHI }
3533*820c1a8dSHiroo HAYASHI #ifdef RE_ENABLE_I18N
3534*820c1a8dSHiroo HAYASHI if (dfa->mb_cur_max > 1)
3535*820c1a8dSHiroo HAYASHI for (j = 0; j < BITSET_WORDS; ++j)
3536*820c1a8dSHiroo HAYASHI any_set |= (accepts[j] &= (dfa->word_char[j] | ~dfa->sb_char[j]));
3537*820c1a8dSHiroo HAYASHI else
3538*820c1a8dSHiroo HAYASHI #endif
3539*820c1a8dSHiroo HAYASHI for (j = 0; j < BITSET_WORDS; ++j)
3540*820c1a8dSHiroo HAYASHI any_set |= (accepts[j] &= dfa->word_char[j]);
3541*820c1a8dSHiroo HAYASHI if (!any_set)
3542*820c1a8dSHiroo HAYASHI continue;
3543*820c1a8dSHiroo HAYASHI }
3544*820c1a8dSHiroo HAYASHI if (constraint & NEXT_NOTWORD_CONSTRAINT)
3545*820c1a8dSHiroo HAYASHI {
3546*820c1a8dSHiroo HAYASHI bitset_word_t any_set = 0;
3547*820c1a8dSHiroo HAYASHI if (type == CHARACTER && node->word_char)
3548*820c1a8dSHiroo HAYASHI {
3549*820c1a8dSHiroo HAYASHI bitset_empty (accepts);
3550*820c1a8dSHiroo HAYASHI continue;
3551*820c1a8dSHiroo HAYASHI }
3552*820c1a8dSHiroo HAYASHI #ifdef RE_ENABLE_I18N
3553*820c1a8dSHiroo HAYASHI if (dfa->mb_cur_max > 1)
3554*820c1a8dSHiroo HAYASHI for (j = 0; j < BITSET_WORDS; ++j)
3555*820c1a8dSHiroo HAYASHI any_set |= (accepts[j] &= ~(dfa->word_char[j] & dfa->sb_char[j]));
3556*820c1a8dSHiroo HAYASHI else
3557*820c1a8dSHiroo HAYASHI #endif
3558*820c1a8dSHiroo HAYASHI for (j = 0; j < BITSET_WORDS; ++j)
3559*820c1a8dSHiroo HAYASHI any_set |= (accepts[j] &= ~dfa->word_char[j]);
3560*820c1a8dSHiroo HAYASHI if (!any_set)
3561*820c1a8dSHiroo HAYASHI continue;
3562*820c1a8dSHiroo HAYASHI }
3563*820c1a8dSHiroo HAYASHI }
3564*820c1a8dSHiroo HAYASHI
3565*820c1a8dSHiroo HAYASHI /* Then divide 'accepts' into DFA states, or create a new
3566*820c1a8dSHiroo HAYASHI state. Above, we make sure that accepts is not empty. */
3567*820c1a8dSHiroo HAYASHI for (j = 0; j < ndests; ++j)
3568*820c1a8dSHiroo HAYASHI {
3569*820c1a8dSHiroo HAYASHI bitset_t intersec; /* Intersection sets, see below. */
3570*820c1a8dSHiroo HAYASHI bitset_t remains;
3571*820c1a8dSHiroo HAYASHI /* Flags, see below. */
3572*820c1a8dSHiroo HAYASHI bitset_word_t has_intersec, not_subset, not_consumed;
3573*820c1a8dSHiroo HAYASHI
3574*820c1a8dSHiroo HAYASHI /* Optimization, skip if this state doesn't accept the character. */
3575*820c1a8dSHiroo HAYASHI if (type == CHARACTER && !bitset_contain (dests_ch[j], node->opr.c))
3576*820c1a8dSHiroo HAYASHI continue;
3577*820c1a8dSHiroo HAYASHI
3578*820c1a8dSHiroo HAYASHI /* Enumerate the intersection set of this state and 'accepts'. */
3579*820c1a8dSHiroo HAYASHI has_intersec = 0;
3580*820c1a8dSHiroo HAYASHI for (k = 0; k < BITSET_WORDS; ++k)
3581*820c1a8dSHiroo HAYASHI has_intersec |= intersec[k] = accepts[k] & dests_ch[j][k];
3582*820c1a8dSHiroo HAYASHI /* And skip if the intersection set is empty. */
3583*820c1a8dSHiroo HAYASHI if (!has_intersec)
3584*820c1a8dSHiroo HAYASHI continue;
3585*820c1a8dSHiroo HAYASHI
3586*820c1a8dSHiroo HAYASHI /* Then check if this state is a subset of 'accepts'. */
3587*820c1a8dSHiroo HAYASHI not_subset = not_consumed = 0;
3588*820c1a8dSHiroo HAYASHI for (k = 0; k < BITSET_WORDS; ++k)
3589*820c1a8dSHiroo HAYASHI {
3590*820c1a8dSHiroo HAYASHI not_subset |= remains[k] = ~accepts[k] & dests_ch[j][k];
3591*820c1a8dSHiroo HAYASHI not_consumed |= accepts[k] = accepts[k] & ~dests_ch[j][k];
3592*820c1a8dSHiroo HAYASHI }
3593*820c1a8dSHiroo HAYASHI
3594*820c1a8dSHiroo HAYASHI /* If this state isn't a subset of 'accepts', create a
3595*820c1a8dSHiroo HAYASHI new group state, which has the 'remains'. */
3596*820c1a8dSHiroo HAYASHI if (not_subset)
3597*820c1a8dSHiroo HAYASHI {
3598*820c1a8dSHiroo HAYASHI bitset_copy (dests_ch[ndests], remains);
3599*820c1a8dSHiroo HAYASHI bitset_copy (dests_ch[j], intersec);
3600*820c1a8dSHiroo HAYASHI err = re_node_set_init_copy (dests_node + ndests, &dests_node[j]);
3601*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
3602*820c1a8dSHiroo HAYASHI goto error_return;
3603*820c1a8dSHiroo HAYASHI ++ndests;
3604*820c1a8dSHiroo HAYASHI }
3605*820c1a8dSHiroo HAYASHI
3606*820c1a8dSHiroo HAYASHI /* Put the position in the current group. */
3607*820c1a8dSHiroo HAYASHI ok = re_node_set_insert (&dests_node[j], cur_nodes->elems[i]);
3608*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (! ok))
3609*820c1a8dSHiroo HAYASHI goto error_return;
3610*820c1a8dSHiroo HAYASHI
3611*820c1a8dSHiroo HAYASHI /* If all characters are consumed, go to next node. */
3612*820c1a8dSHiroo HAYASHI if (!not_consumed)
3613*820c1a8dSHiroo HAYASHI break;
3614*820c1a8dSHiroo HAYASHI }
3615*820c1a8dSHiroo HAYASHI /* Some characters remain, create a new group. */
3616*820c1a8dSHiroo HAYASHI if (j == ndests)
3617*820c1a8dSHiroo HAYASHI {
3618*820c1a8dSHiroo HAYASHI bitset_copy (dests_ch[ndests], accepts);
3619*820c1a8dSHiroo HAYASHI err = re_node_set_init_1 (dests_node + ndests, cur_nodes->elems[i]);
3620*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (err != REG_NOERROR))
3621*820c1a8dSHiroo HAYASHI goto error_return;
3622*820c1a8dSHiroo HAYASHI ++ndests;
3623*820c1a8dSHiroo HAYASHI bitset_empty (accepts);
3624*820c1a8dSHiroo HAYASHI }
3625*820c1a8dSHiroo HAYASHI }
3626*820c1a8dSHiroo HAYASHI assume (ndests <= SBC_MAX);
3627*820c1a8dSHiroo HAYASHI return ndests;
3628*820c1a8dSHiroo HAYASHI error_return:
3629*820c1a8dSHiroo HAYASHI for (j = 0; j < ndests; ++j)
3630*820c1a8dSHiroo HAYASHI re_node_set_free (dests_node + j);
3631*820c1a8dSHiroo HAYASHI return -1;
3632*820c1a8dSHiroo HAYASHI }
3633*820c1a8dSHiroo HAYASHI
3634*820c1a8dSHiroo HAYASHI #ifdef RE_ENABLE_I18N
3635*820c1a8dSHiroo HAYASHI /* Check how many bytes the node 'dfa->nodes[node_idx]' accepts.
3636*820c1a8dSHiroo HAYASHI Return the number of the bytes the node accepts.
3637*820c1a8dSHiroo HAYASHI STR_IDX is the current index of the input string.
3638*820c1a8dSHiroo HAYASHI
3639*820c1a8dSHiroo HAYASHI This function handles the nodes which can accept one character, or
3640*820c1a8dSHiroo HAYASHI one collating element like '.', '[a-z]', opposite to the other nodes
3641*820c1a8dSHiroo HAYASHI can only accept one byte. */
3642*820c1a8dSHiroo HAYASHI
3643*820c1a8dSHiroo HAYASHI # ifdef _LIBC
3644*820c1a8dSHiroo HAYASHI # include <locale/weight.h>
3645*820c1a8dSHiroo HAYASHI # endif
3646*820c1a8dSHiroo HAYASHI
3647*820c1a8dSHiroo HAYASHI static int
check_node_accept_bytes(const re_dfa_t * dfa,Idx node_idx,const re_string_t * input,Idx str_idx)3648*820c1a8dSHiroo HAYASHI check_node_accept_bytes (const re_dfa_t *dfa, Idx node_idx,
3649*820c1a8dSHiroo HAYASHI const re_string_t *input, Idx str_idx)
3650*820c1a8dSHiroo HAYASHI {
3651*820c1a8dSHiroo HAYASHI const re_token_t *node = dfa->nodes + node_idx;
3652*820c1a8dSHiroo HAYASHI int char_len, elem_len;
3653*820c1a8dSHiroo HAYASHI Idx i;
3654*820c1a8dSHiroo HAYASHI
3655*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (node->type == OP_UTF8_PERIOD))
3656*820c1a8dSHiroo HAYASHI {
3657*820c1a8dSHiroo HAYASHI unsigned char c = re_string_byte_at (input, str_idx), d;
3658*820c1a8dSHiroo HAYASHI if (__glibc_likely (c < 0xc2))
3659*820c1a8dSHiroo HAYASHI return 0;
3660*820c1a8dSHiroo HAYASHI
3661*820c1a8dSHiroo HAYASHI if (str_idx + 2 > input->len)
3662*820c1a8dSHiroo HAYASHI return 0;
3663*820c1a8dSHiroo HAYASHI
3664*820c1a8dSHiroo HAYASHI d = re_string_byte_at (input, str_idx + 1);
3665*820c1a8dSHiroo HAYASHI if (c < 0xe0)
3666*820c1a8dSHiroo HAYASHI return (d < 0x80 || d > 0xbf) ? 0 : 2;
3667*820c1a8dSHiroo HAYASHI else if (c < 0xf0)
3668*820c1a8dSHiroo HAYASHI {
3669*820c1a8dSHiroo HAYASHI char_len = 3;
3670*820c1a8dSHiroo HAYASHI if (c == 0xe0 && d < 0xa0)
3671*820c1a8dSHiroo HAYASHI return 0;
3672*820c1a8dSHiroo HAYASHI }
3673*820c1a8dSHiroo HAYASHI else if (c < 0xf8)
3674*820c1a8dSHiroo HAYASHI {
3675*820c1a8dSHiroo HAYASHI char_len = 4;
3676*820c1a8dSHiroo HAYASHI if (c == 0xf0 && d < 0x90)
3677*820c1a8dSHiroo HAYASHI return 0;
3678*820c1a8dSHiroo HAYASHI }
3679*820c1a8dSHiroo HAYASHI else if (c < 0xfc)
3680*820c1a8dSHiroo HAYASHI {
3681*820c1a8dSHiroo HAYASHI char_len = 5;
3682*820c1a8dSHiroo HAYASHI if (c == 0xf8 && d < 0x88)
3683*820c1a8dSHiroo HAYASHI return 0;
3684*820c1a8dSHiroo HAYASHI }
3685*820c1a8dSHiroo HAYASHI else if (c < 0xfe)
3686*820c1a8dSHiroo HAYASHI {
3687*820c1a8dSHiroo HAYASHI char_len = 6;
3688*820c1a8dSHiroo HAYASHI if (c == 0xfc && d < 0x84)
3689*820c1a8dSHiroo HAYASHI return 0;
3690*820c1a8dSHiroo HAYASHI }
3691*820c1a8dSHiroo HAYASHI else
3692*820c1a8dSHiroo HAYASHI return 0;
3693*820c1a8dSHiroo HAYASHI
3694*820c1a8dSHiroo HAYASHI if (str_idx + char_len > input->len)
3695*820c1a8dSHiroo HAYASHI return 0;
3696*820c1a8dSHiroo HAYASHI
3697*820c1a8dSHiroo HAYASHI for (i = 1; i < char_len; ++i)
3698*820c1a8dSHiroo HAYASHI {
3699*820c1a8dSHiroo HAYASHI d = re_string_byte_at (input, str_idx + i);
3700*820c1a8dSHiroo HAYASHI if (d < 0x80 || d > 0xbf)
3701*820c1a8dSHiroo HAYASHI return 0;
3702*820c1a8dSHiroo HAYASHI }
3703*820c1a8dSHiroo HAYASHI return char_len;
3704*820c1a8dSHiroo HAYASHI }
3705*820c1a8dSHiroo HAYASHI
3706*820c1a8dSHiroo HAYASHI char_len = re_string_char_size_at (input, str_idx);
3707*820c1a8dSHiroo HAYASHI if (node->type == OP_PERIOD)
3708*820c1a8dSHiroo HAYASHI {
3709*820c1a8dSHiroo HAYASHI if (char_len <= 1)
3710*820c1a8dSHiroo HAYASHI return 0;
3711*820c1a8dSHiroo HAYASHI /* FIXME: I don't think this if is needed, as both '\n'
3712*820c1a8dSHiroo HAYASHI and '\0' are char_len == 1. */
3713*820c1a8dSHiroo HAYASHI /* '.' accepts any one character except the following two cases. */
3714*820c1a8dSHiroo HAYASHI if ((!(dfa->syntax & RE_DOT_NEWLINE)
3715*820c1a8dSHiroo HAYASHI && re_string_byte_at (input, str_idx) == '\n')
3716*820c1a8dSHiroo HAYASHI || ((dfa->syntax & RE_DOT_NOT_NULL)
3717*820c1a8dSHiroo HAYASHI && re_string_byte_at (input, str_idx) == '\0'))
3718*820c1a8dSHiroo HAYASHI return 0;
3719*820c1a8dSHiroo HAYASHI return char_len;
3720*820c1a8dSHiroo HAYASHI }
3721*820c1a8dSHiroo HAYASHI
3722*820c1a8dSHiroo HAYASHI elem_len = re_string_elem_size_at (input, str_idx);
3723*820c1a8dSHiroo HAYASHI if ((elem_len <= 1 && char_len <= 1) || char_len == 0)
3724*820c1a8dSHiroo HAYASHI return 0;
3725*820c1a8dSHiroo HAYASHI
3726*820c1a8dSHiroo HAYASHI if (node->type == COMPLEX_BRACKET)
3727*820c1a8dSHiroo HAYASHI {
3728*820c1a8dSHiroo HAYASHI const re_charset_t *cset = node->opr.mbcset;
3729*820c1a8dSHiroo HAYASHI # ifdef _LIBC
3730*820c1a8dSHiroo HAYASHI const unsigned char *pin
3731*820c1a8dSHiroo HAYASHI = ((const unsigned char *) re_string_get_buffer (input) + str_idx);
3732*820c1a8dSHiroo HAYASHI Idx j;
3733*820c1a8dSHiroo HAYASHI uint32_t nrules;
3734*820c1a8dSHiroo HAYASHI # endif /* _LIBC */
3735*820c1a8dSHiroo HAYASHI int match_len = 0;
3736*820c1a8dSHiroo HAYASHI wchar_t wc = ((cset->nranges || cset->nchar_classes || cset->nmbchars)
3737*820c1a8dSHiroo HAYASHI ? re_string_wchar_at (input, str_idx) : 0);
3738*820c1a8dSHiroo HAYASHI
3739*820c1a8dSHiroo HAYASHI /* match with multibyte character? */
3740*820c1a8dSHiroo HAYASHI for (i = 0; i < cset->nmbchars; ++i)
3741*820c1a8dSHiroo HAYASHI if (wc == cset->mbchars[i])
3742*820c1a8dSHiroo HAYASHI {
3743*820c1a8dSHiroo HAYASHI match_len = char_len;
3744*820c1a8dSHiroo HAYASHI goto check_node_accept_bytes_match;
3745*820c1a8dSHiroo HAYASHI }
3746*820c1a8dSHiroo HAYASHI /* match with character_class? */
3747*820c1a8dSHiroo HAYASHI for (i = 0; i < cset->nchar_classes; ++i)
3748*820c1a8dSHiroo HAYASHI {
3749*820c1a8dSHiroo HAYASHI wctype_t wt = cset->char_classes[i];
3750*820c1a8dSHiroo HAYASHI if (__iswctype (wc, wt))
3751*820c1a8dSHiroo HAYASHI {
3752*820c1a8dSHiroo HAYASHI match_len = char_len;
3753*820c1a8dSHiroo HAYASHI goto check_node_accept_bytes_match;
3754*820c1a8dSHiroo HAYASHI }
3755*820c1a8dSHiroo HAYASHI }
3756*820c1a8dSHiroo HAYASHI
3757*820c1a8dSHiroo HAYASHI # ifdef _LIBC
3758*820c1a8dSHiroo HAYASHI nrules = _NL_CURRENT_WORD (LC_COLLATE, _NL_COLLATE_NRULES);
3759*820c1a8dSHiroo HAYASHI if (nrules != 0)
3760*820c1a8dSHiroo HAYASHI {
3761*820c1a8dSHiroo HAYASHI unsigned int in_collseq = 0;
3762*820c1a8dSHiroo HAYASHI const int32_t *table, *indirect;
3763*820c1a8dSHiroo HAYASHI const unsigned char *weights, *extra;
3764*820c1a8dSHiroo HAYASHI const char *collseqwc;
3765*820c1a8dSHiroo HAYASHI
3766*820c1a8dSHiroo HAYASHI /* match with collating_symbol? */
3767*820c1a8dSHiroo HAYASHI if (cset->ncoll_syms)
3768*820c1a8dSHiroo HAYASHI extra = (const unsigned char *)
3769*820c1a8dSHiroo HAYASHI _NL_CURRENT (LC_COLLATE, _NL_COLLATE_SYMB_EXTRAMB);
3770*820c1a8dSHiroo HAYASHI for (i = 0; i < cset->ncoll_syms; ++i)
3771*820c1a8dSHiroo HAYASHI {
3772*820c1a8dSHiroo HAYASHI const unsigned char *coll_sym = extra + cset->coll_syms[i];
3773*820c1a8dSHiroo HAYASHI /* Compare the length of input collating element and
3774*820c1a8dSHiroo HAYASHI the length of current collating element. */
3775*820c1a8dSHiroo HAYASHI if (*coll_sym != elem_len)
3776*820c1a8dSHiroo HAYASHI continue;
3777*820c1a8dSHiroo HAYASHI /* Compare each bytes. */
3778*820c1a8dSHiroo HAYASHI for (j = 0; j < *coll_sym; j++)
3779*820c1a8dSHiroo HAYASHI if (pin[j] != coll_sym[1 + j])
3780*820c1a8dSHiroo HAYASHI break;
3781*820c1a8dSHiroo HAYASHI if (j == *coll_sym)
3782*820c1a8dSHiroo HAYASHI {
3783*820c1a8dSHiroo HAYASHI /* Match if every bytes is equal. */
3784*820c1a8dSHiroo HAYASHI match_len = j;
3785*820c1a8dSHiroo HAYASHI goto check_node_accept_bytes_match;
3786*820c1a8dSHiroo HAYASHI }
3787*820c1a8dSHiroo HAYASHI }
3788*820c1a8dSHiroo HAYASHI
3789*820c1a8dSHiroo HAYASHI if (cset->nranges)
3790*820c1a8dSHiroo HAYASHI {
3791*820c1a8dSHiroo HAYASHI if (elem_len <= char_len)
3792*820c1a8dSHiroo HAYASHI {
3793*820c1a8dSHiroo HAYASHI collseqwc = _NL_CURRENT (LC_COLLATE, _NL_COLLATE_COLLSEQWC);
3794*820c1a8dSHiroo HAYASHI in_collseq = __collseq_table_lookup (collseqwc, wc);
3795*820c1a8dSHiroo HAYASHI }
3796*820c1a8dSHiroo HAYASHI else
3797*820c1a8dSHiroo HAYASHI in_collseq = find_collation_sequence_value (pin, elem_len);
3798*820c1a8dSHiroo HAYASHI }
3799*820c1a8dSHiroo HAYASHI /* match with range expression? */
3800*820c1a8dSHiroo HAYASHI /* FIXME: Implement rational ranges here, too. */
3801*820c1a8dSHiroo HAYASHI for (i = 0; i < cset->nranges; ++i)
3802*820c1a8dSHiroo HAYASHI if (cset->range_starts[i] <= in_collseq
3803*820c1a8dSHiroo HAYASHI && in_collseq <= cset->range_ends[i])
3804*820c1a8dSHiroo HAYASHI {
3805*820c1a8dSHiroo HAYASHI match_len = elem_len;
3806*820c1a8dSHiroo HAYASHI goto check_node_accept_bytes_match;
3807*820c1a8dSHiroo HAYASHI }
3808*820c1a8dSHiroo HAYASHI
3809*820c1a8dSHiroo HAYASHI /* match with equivalence_class? */
3810*820c1a8dSHiroo HAYASHI if (cset->nequiv_classes)
3811*820c1a8dSHiroo HAYASHI {
3812*820c1a8dSHiroo HAYASHI const unsigned char *cp = pin;
3813*820c1a8dSHiroo HAYASHI table = (const int32_t *)
3814*820c1a8dSHiroo HAYASHI _NL_CURRENT (LC_COLLATE, _NL_COLLATE_TABLEMB);
3815*820c1a8dSHiroo HAYASHI weights = (const unsigned char *)
3816*820c1a8dSHiroo HAYASHI _NL_CURRENT (LC_COLLATE, _NL_COLLATE_WEIGHTMB);
3817*820c1a8dSHiroo HAYASHI extra = (const unsigned char *)
3818*820c1a8dSHiroo HAYASHI _NL_CURRENT (LC_COLLATE, _NL_COLLATE_EXTRAMB);
3819*820c1a8dSHiroo HAYASHI indirect = (const int32_t *)
3820*820c1a8dSHiroo HAYASHI _NL_CURRENT (LC_COLLATE, _NL_COLLATE_INDIRECTMB);
3821*820c1a8dSHiroo HAYASHI int32_t idx = findidx (table, indirect, extra, &cp, elem_len);
3822*820c1a8dSHiroo HAYASHI int32_t rule = idx >> 24;
3823*820c1a8dSHiroo HAYASHI idx &= 0xffffff;
3824*820c1a8dSHiroo HAYASHI if (idx > 0)
3825*820c1a8dSHiroo HAYASHI {
3826*820c1a8dSHiroo HAYASHI size_t weight_len = weights[idx];
3827*820c1a8dSHiroo HAYASHI for (i = 0; i < cset->nequiv_classes; ++i)
3828*820c1a8dSHiroo HAYASHI {
3829*820c1a8dSHiroo HAYASHI int32_t equiv_class_idx = cset->equiv_classes[i];
3830*820c1a8dSHiroo HAYASHI int32_t equiv_class_rule = equiv_class_idx >> 24;
3831*820c1a8dSHiroo HAYASHI equiv_class_idx &= 0xffffff;
3832*820c1a8dSHiroo HAYASHI if (weights[equiv_class_idx] == weight_len
3833*820c1a8dSHiroo HAYASHI && equiv_class_rule == rule
3834*820c1a8dSHiroo HAYASHI && memcmp (weights + idx + 1,
3835*820c1a8dSHiroo HAYASHI weights + equiv_class_idx + 1,
3836*820c1a8dSHiroo HAYASHI weight_len) == 0)
3837*820c1a8dSHiroo HAYASHI {
3838*820c1a8dSHiroo HAYASHI match_len = elem_len;
3839*820c1a8dSHiroo HAYASHI goto check_node_accept_bytes_match;
3840*820c1a8dSHiroo HAYASHI }
3841*820c1a8dSHiroo HAYASHI }
3842*820c1a8dSHiroo HAYASHI }
3843*820c1a8dSHiroo HAYASHI }
3844*820c1a8dSHiroo HAYASHI }
3845*820c1a8dSHiroo HAYASHI else
3846*820c1a8dSHiroo HAYASHI # endif /* _LIBC */
3847*820c1a8dSHiroo HAYASHI {
3848*820c1a8dSHiroo HAYASHI /* match with range expression? */
3849*820c1a8dSHiroo HAYASHI for (i = 0; i < cset->nranges; ++i)
3850*820c1a8dSHiroo HAYASHI {
3851*820c1a8dSHiroo HAYASHI if (cset->range_starts[i] <= wc && wc <= cset->range_ends[i])
3852*820c1a8dSHiroo HAYASHI {
3853*820c1a8dSHiroo HAYASHI match_len = char_len;
3854*820c1a8dSHiroo HAYASHI goto check_node_accept_bytes_match;
3855*820c1a8dSHiroo HAYASHI }
3856*820c1a8dSHiroo HAYASHI }
3857*820c1a8dSHiroo HAYASHI }
3858*820c1a8dSHiroo HAYASHI check_node_accept_bytes_match:
3859*820c1a8dSHiroo HAYASHI if (!cset->non_match)
3860*820c1a8dSHiroo HAYASHI return match_len;
3861*820c1a8dSHiroo HAYASHI else
3862*820c1a8dSHiroo HAYASHI {
3863*820c1a8dSHiroo HAYASHI if (match_len > 0)
3864*820c1a8dSHiroo HAYASHI return 0;
3865*820c1a8dSHiroo HAYASHI else
3866*820c1a8dSHiroo HAYASHI return (elem_len > char_len) ? elem_len : char_len;
3867*820c1a8dSHiroo HAYASHI }
3868*820c1a8dSHiroo HAYASHI }
3869*820c1a8dSHiroo HAYASHI return 0;
3870*820c1a8dSHiroo HAYASHI }
3871*820c1a8dSHiroo HAYASHI
3872*820c1a8dSHiroo HAYASHI # ifdef _LIBC
3873*820c1a8dSHiroo HAYASHI static unsigned int
find_collation_sequence_value(const unsigned char * mbs,size_t mbs_len)3874*820c1a8dSHiroo HAYASHI find_collation_sequence_value (const unsigned char *mbs, size_t mbs_len)
3875*820c1a8dSHiroo HAYASHI {
3876*820c1a8dSHiroo HAYASHI uint32_t nrules = _NL_CURRENT_WORD (LC_COLLATE, _NL_COLLATE_NRULES);
3877*820c1a8dSHiroo HAYASHI if (nrules == 0)
3878*820c1a8dSHiroo HAYASHI {
3879*820c1a8dSHiroo HAYASHI if (mbs_len == 1)
3880*820c1a8dSHiroo HAYASHI {
3881*820c1a8dSHiroo HAYASHI /* No valid character. Match it as a single byte character. */
3882*820c1a8dSHiroo HAYASHI const unsigned char *collseq = (const unsigned char *)
3883*820c1a8dSHiroo HAYASHI _NL_CURRENT (LC_COLLATE, _NL_COLLATE_COLLSEQMB);
3884*820c1a8dSHiroo HAYASHI return collseq[mbs[0]];
3885*820c1a8dSHiroo HAYASHI }
3886*820c1a8dSHiroo HAYASHI return UINT_MAX;
3887*820c1a8dSHiroo HAYASHI }
3888*820c1a8dSHiroo HAYASHI else
3889*820c1a8dSHiroo HAYASHI {
3890*820c1a8dSHiroo HAYASHI int32_t idx;
3891*820c1a8dSHiroo HAYASHI const unsigned char *extra = (const unsigned char *)
3892*820c1a8dSHiroo HAYASHI _NL_CURRENT (LC_COLLATE, _NL_COLLATE_SYMB_EXTRAMB);
3893*820c1a8dSHiroo HAYASHI int32_t extrasize = (const unsigned char *)
3894*820c1a8dSHiroo HAYASHI _NL_CURRENT (LC_COLLATE, _NL_COLLATE_SYMB_EXTRAMB + 1) - extra;
3895*820c1a8dSHiroo HAYASHI
3896*820c1a8dSHiroo HAYASHI for (idx = 0; idx < extrasize;)
3897*820c1a8dSHiroo HAYASHI {
3898*820c1a8dSHiroo HAYASHI int mbs_cnt;
3899*820c1a8dSHiroo HAYASHI bool found = false;
3900*820c1a8dSHiroo HAYASHI int32_t elem_mbs_len;
3901*820c1a8dSHiroo HAYASHI /* Skip the name of collating element name. */
3902*820c1a8dSHiroo HAYASHI idx = idx + extra[idx] + 1;
3903*820c1a8dSHiroo HAYASHI elem_mbs_len = extra[idx++];
3904*820c1a8dSHiroo HAYASHI if (mbs_len == elem_mbs_len)
3905*820c1a8dSHiroo HAYASHI {
3906*820c1a8dSHiroo HAYASHI for (mbs_cnt = 0; mbs_cnt < elem_mbs_len; ++mbs_cnt)
3907*820c1a8dSHiroo HAYASHI if (extra[idx + mbs_cnt] != mbs[mbs_cnt])
3908*820c1a8dSHiroo HAYASHI break;
3909*820c1a8dSHiroo HAYASHI if (mbs_cnt == elem_mbs_len)
3910*820c1a8dSHiroo HAYASHI /* Found the entry. */
3911*820c1a8dSHiroo HAYASHI found = true;
3912*820c1a8dSHiroo HAYASHI }
3913*820c1a8dSHiroo HAYASHI /* Skip the byte sequence of the collating element. */
3914*820c1a8dSHiroo HAYASHI idx += elem_mbs_len;
3915*820c1a8dSHiroo HAYASHI /* Adjust for the alignment. */
3916*820c1a8dSHiroo HAYASHI idx = (idx + 3) & ~3;
3917*820c1a8dSHiroo HAYASHI /* Skip the collation sequence value. */
3918*820c1a8dSHiroo HAYASHI idx += sizeof (uint32_t);
3919*820c1a8dSHiroo HAYASHI /* Skip the wide char sequence of the collating element. */
3920*820c1a8dSHiroo HAYASHI idx = idx + sizeof (uint32_t) * (*(int32_t *) (extra + idx) + 1);
3921*820c1a8dSHiroo HAYASHI /* If we found the entry, return the sequence value. */
3922*820c1a8dSHiroo HAYASHI if (found)
3923*820c1a8dSHiroo HAYASHI return *(uint32_t *) (extra + idx);
3924*820c1a8dSHiroo HAYASHI /* Skip the collation sequence value. */
3925*820c1a8dSHiroo HAYASHI idx += sizeof (uint32_t);
3926*820c1a8dSHiroo HAYASHI }
3927*820c1a8dSHiroo HAYASHI return UINT_MAX;
3928*820c1a8dSHiroo HAYASHI }
3929*820c1a8dSHiroo HAYASHI }
3930*820c1a8dSHiroo HAYASHI # endif /* _LIBC */
3931*820c1a8dSHiroo HAYASHI #endif /* RE_ENABLE_I18N */
3932*820c1a8dSHiroo HAYASHI
3933*820c1a8dSHiroo HAYASHI /* Check whether the node accepts the byte which is IDX-th
3934*820c1a8dSHiroo HAYASHI byte of the INPUT. */
3935*820c1a8dSHiroo HAYASHI
3936*820c1a8dSHiroo HAYASHI static bool
check_node_accept(const re_match_context_t * mctx,const re_token_t * node,Idx idx)3937*820c1a8dSHiroo HAYASHI check_node_accept (const re_match_context_t *mctx, const re_token_t *node,
3938*820c1a8dSHiroo HAYASHI Idx idx)
3939*820c1a8dSHiroo HAYASHI {
3940*820c1a8dSHiroo HAYASHI unsigned char ch;
3941*820c1a8dSHiroo HAYASHI ch = re_string_byte_at (&mctx->input, idx);
3942*820c1a8dSHiroo HAYASHI switch (node->type)
3943*820c1a8dSHiroo HAYASHI {
3944*820c1a8dSHiroo HAYASHI case CHARACTER:
3945*820c1a8dSHiroo HAYASHI if (node->opr.c != ch)
3946*820c1a8dSHiroo HAYASHI return false;
3947*820c1a8dSHiroo HAYASHI break;
3948*820c1a8dSHiroo HAYASHI
3949*820c1a8dSHiroo HAYASHI case SIMPLE_BRACKET:
3950*820c1a8dSHiroo HAYASHI if (!bitset_contain (node->opr.sbcset, ch))
3951*820c1a8dSHiroo HAYASHI return false;
3952*820c1a8dSHiroo HAYASHI break;
3953*820c1a8dSHiroo HAYASHI
3954*820c1a8dSHiroo HAYASHI #ifdef RE_ENABLE_I18N
3955*820c1a8dSHiroo HAYASHI case OP_UTF8_PERIOD:
3956*820c1a8dSHiroo HAYASHI if (ch >= ASCII_CHARS)
3957*820c1a8dSHiroo HAYASHI return false;
3958*820c1a8dSHiroo HAYASHI FALLTHROUGH;
3959*820c1a8dSHiroo HAYASHI #endif
3960*820c1a8dSHiroo HAYASHI case OP_PERIOD:
3961*820c1a8dSHiroo HAYASHI if ((ch == '\n' && !(mctx->dfa->syntax & RE_DOT_NEWLINE))
3962*820c1a8dSHiroo HAYASHI || (ch == '\0' && (mctx->dfa->syntax & RE_DOT_NOT_NULL)))
3963*820c1a8dSHiroo HAYASHI return false;
3964*820c1a8dSHiroo HAYASHI break;
3965*820c1a8dSHiroo HAYASHI
3966*820c1a8dSHiroo HAYASHI default:
3967*820c1a8dSHiroo HAYASHI return false;
3968*820c1a8dSHiroo HAYASHI }
3969*820c1a8dSHiroo HAYASHI
3970*820c1a8dSHiroo HAYASHI if (node->constraint)
3971*820c1a8dSHiroo HAYASHI {
3972*820c1a8dSHiroo HAYASHI /* The node has constraints. Check whether the current context
3973*820c1a8dSHiroo HAYASHI satisfies the constraints. */
3974*820c1a8dSHiroo HAYASHI unsigned int context = re_string_context_at (&mctx->input, idx,
3975*820c1a8dSHiroo HAYASHI mctx->eflags);
3976*820c1a8dSHiroo HAYASHI if (NOT_SATISFY_NEXT_CONSTRAINT (node->constraint, context))
3977*820c1a8dSHiroo HAYASHI return false;
3978*820c1a8dSHiroo HAYASHI }
3979*820c1a8dSHiroo HAYASHI
3980*820c1a8dSHiroo HAYASHI return true;
3981*820c1a8dSHiroo HAYASHI }
3982*820c1a8dSHiroo HAYASHI
3983*820c1a8dSHiroo HAYASHI /* Extend the buffers, if the buffers have run out. */
3984*820c1a8dSHiroo HAYASHI
3985*820c1a8dSHiroo HAYASHI static reg_errcode_t
3986*820c1a8dSHiroo HAYASHI __attribute_warn_unused_result__
extend_buffers(re_match_context_t * mctx,int min_len)3987*820c1a8dSHiroo HAYASHI extend_buffers (re_match_context_t *mctx, int min_len)
3988*820c1a8dSHiroo HAYASHI {
3989*820c1a8dSHiroo HAYASHI reg_errcode_t ret;
3990*820c1a8dSHiroo HAYASHI re_string_t *pstr = &mctx->input;
3991*820c1a8dSHiroo HAYASHI
3992*820c1a8dSHiroo HAYASHI /* Avoid overflow. */
3993*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (MIN (IDX_MAX, SIZE_MAX / sizeof (re_dfastate_t *)) / 2
3994*820c1a8dSHiroo HAYASHI <= pstr->bufs_len))
3995*820c1a8dSHiroo HAYASHI return REG_ESPACE;
3996*820c1a8dSHiroo HAYASHI
3997*820c1a8dSHiroo HAYASHI /* Double the lengths of the buffers, but allocate at least MIN_LEN. */
3998*820c1a8dSHiroo HAYASHI ret = re_string_realloc_buffers (pstr,
3999*820c1a8dSHiroo HAYASHI MAX (min_len,
4000*820c1a8dSHiroo HAYASHI MIN (pstr->len, pstr->bufs_len * 2)));
4001*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (ret != REG_NOERROR))
4002*820c1a8dSHiroo HAYASHI return ret;
4003*820c1a8dSHiroo HAYASHI
4004*820c1a8dSHiroo HAYASHI if (mctx->state_log != NULL)
4005*820c1a8dSHiroo HAYASHI {
4006*820c1a8dSHiroo HAYASHI /* And double the length of state_log. */
4007*820c1a8dSHiroo HAYASHI /* XXX We have no indication of the size of this buffer. If this
4008*820c1a8dSHiroo HAYASHI allocation fail we have no indication that the state_log array
4009*820c1a8dSHiroo HAYASHI does not have the right size. */
4010*820c1a8dSHiroo HAYASHI re_dfastate_t **new_array = re_realloc (mctx->state_log, re_dfastate_t *,
4011*820c1a8dSHiroo HAYASHI pstr->bufs_len + 1);
4012*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (new_array == NULL))
4013*820c1a8dSHiroo HAYASHI return REG_ESPACE;
4014*820c1a8dSHiroo HAYASHI mctx->state_log = new_array;
4015*820c1a8dSHiroo HAYASHI }
4016*820c1a8dSHiroo HAYASHI
4017*820c1a8dSHiroo HAYASHI /* Then reconstruct the buffers. */
4018*820c1a8dSHiroo HAYASHI if (pstr->icase)
4019*820c1a8dSHiroo HAYASHI {
4020*820c1a8dSHiroo HAYASHI #ifdef RE_ENABLE_I18N
4021*820c1a8dSHiroo HAYASHI if (pstr->mb_cur_max > 1)
4022*820c1a8dSHiroo HAYASHI {
4023*820c1a8dSHiroo HAYASHI ret = build_wcs_upper_buffer (pstr);
4024*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (ret != REG_NOERROR))
4025*820c1a8dSHiroo HAYASHI return ret;
4026*820c1a8dSHiroo HAYASHI }
4027*820c1a8dSHiroo HAYASHI else
4028*820c1a8dSHiroo HAYASHI #endif /* RE_ENABLE_I18N */
4029*820c1a8dSHiroo HAYASHI build_upper_buffer (pstr);
4030*820c1a8dSHiroo HAYASHI }
4031*820c1a8dSHiroo HAYASHI else
4032*820c1a8dSHiroo HAYASHI {
4033*820c1a8dSHiroo HAYASHI #ifdef RE_ENABLE_I18N
4034*820c1a8dSHiroo HAYASHI if (pstr->mb_cur_max > 1)
4035*820c1a8dSHiroo HAYASHI build_wcs_buffer (pstr);
4036*820c1a8dSHiroo HAYASHI else
4037*820c1a8dSHiroo HAYASHI #endif /* RE_ENABLE_I18N */
4038*820c1a8dSHiroo HAYASHI {
4039*820c1a8dSHiroo HAYASHI if (pstr->trans != NULL)
4040*820c1a8dSHiroo HAYASHI re_string_translate_buffer (pstr);
4041*820c1a8dSHiroo HAYASHI }
4042*820c1a8dSHiroo HAYASHI }
4043*820c1a8dSHiroo HAYASHI return REG_NOERROR;
4044*820c1a8dSHiroo HAYASHI }
4045*820c1a8dSHiroo HAYASHI
4046*820c1a8dSHiroo HAYASHI
4047*820c1a8dSHiroo HAYASHI /* Functions for matching context. */
4048*820c1a8dSHiroo HAYASHI
4049*820c1a8dSHiroo HAYASHI /* Initialize MCTX. */
4050*820c1a8dSHiroo HAYASHI
4051*820c1a8dSHiroo HAYASHI static reg_errcode_t
4052*820c1a8dSHiroo HAYASHI __attribute_warn_unused_result__
match_ctx_init(re_match_context_t * mctx,int eflags,Idx n)4053*820c1a8dSHiroo HAYASHI match_ctx_init (re_match_context_t *mctx, int eflags, Idx n)
4054*820c1a8dSHiroo HAYASHI {
4055*820c1a8dSHiroo HAYASHI mctx->eflags = eflags;
4056*820c1a8dSHiroo HAYASHI mctx->match_last = -1;
4057*820c1a8dSHiroo HAYASHI if (n > 0)
4058*820c1a8dSHiroo HAYASHI {
4059*820c1a8dSHiroo HAYASHI /* Avoid overflow. */
4060*820c1a8dSHiroo HAYASHI size_t max_object_size =
4061*820c1a8dSHiroo HAYASHI MAX (sizeof (struct re_backref_cache_entry),
4062*820c1a8dSHiroo HAYASHI sizeof (re_sub_match_top_t *));
4063*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (MIN (IDX_MAX, SIZE_MAX / max_object_size) < n))
4064*820c1a8dSHiroo HAYASHI return REG_ESPACE;
4065*820c1a8dSHiroo HAYASHI
4066*820c1a8dSHiroo HAYASHI mctx->bkref_ents = re_malloc (struct re_backref_cache_entry, n);
4067*820c1a8dSHiroo HAYASHI mctx->sub_tops = re_malloc (re_sub_match_top_t *, n);
4068*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (mctx->bkref_ents == NULL || mctx->sub_tops == NULL))
4069*820c1a8dSHiroo HAYASHI return REG_ESPACE;
4070*820c1a8dSHiroo HAYASHI }
4071*820c1a8dSHiroo HAYASHI /* Already zero-ed by the caller.
4072*820c1a8dSHiroo HAYASHI else
4073*820c1a8dSHiroo HAYASHI mctx->bkref_ents = NULL;
4074*820c1a8dSHiroo HAYASHI mctx->nbkref_ents = 0;
4075*820c1a8dSHiroo HAYASHI mctx->nsub_tops = 0; */
4076*820c1a8dSHiroo HAYASHI mctx->abkref_ents = n;
4077*820c1a8dSHiroo HAYASHI mctx->max_mb_elem_len = 1;
4078*820c1a8dSHiroo HAYASHI mctx->asub_tops = n;
4079*820c1a8dSHiroo HAYASHI return REG_NOERROR;
4080*820c1a8dSHiroo HAYASHI }
4081*820c1a8dSHiroo HAYASHI
4082*820c1a8dSHiroo HAYASHI /* Clean the entries which depend on the current input in MCTX.
4083*820c1a8dSHiroo HAYASHI This function must be invoked when the matcher changes the start index
4084*820c1a8dSHiroo HAYASHI of the input, or changes the input string. */
4085*820c1a8dSHiroo HAYASHI
4086*820c1a8dSHiroo HAYASHI static void
match_ctx_clean(re_match_context_t * mctx)4087*820c1a8dSHiroo HAYASHI match_ctx_clean (re_match_context_t *mctx)
4088*820c1a8dSHiroo HAYASHI {
4089*820c1a8dSHiroo HAYASHI Idx st_idx;
4090*820c1a8dSHiroo HAYASHI for (st_idx = 0; st_idx < mctx->nsub_tops; ++st_idx)
4091*820c1a8dSHiroo HAYASHI {
4092*820c1a8dSHiroo HAYASHI Idx sl_idx;
4093*820c1a8dSHiroo HAYASHI re_sub_match_top_t *top = mctx->sub_tops[st_idx];
4094*820c1a8dSHiroo HAYASHI for (sl_idx = 0; sl_idx < top->nlasts; ++sl_idx)
4095*820c1a8dSHiroo HAYASHI {
4096*820c1a8dSHiroo HAYASHI re_sub_match_last_t *last = top->lasts[sl_idx];
4097*820c1a8dSHiroo HAYASHI re_free (last->path.array);
4098*820c1a8dSHiroo HAYASHI re_free (last);
4099*820c1a8dSHiroo HAYASHI }
4100*820c1a8dSHiroo HAYASHI re_free (top->lasts);
4101*820c1a8dSHiroo HAYASHI if (top->path)
4102*820c1a8dSHiroo HAYASHI {
4103*820c1a8dSHiroo HAYASHI re_free (top->path->array);
4104*820c1a8dSHiroo HAYASHI re_free (top->path);
4105*820c1a8dSHiroo HAYASHI }
4106*820c1a8dSHiroo HAYASHI re_free (top);
4107*820c1a8dSHiroo HAYASHI }
4108*820c1a8dSHiroo HAYASHI
4109*820c1a8dSHiroo HAYASHI mctx->nsub_tops = 0;
4110*820c1a8dSHiroo HAYASHI mctx->nbkref_ents = 0;
4111*820c1a8dSHiroo HAYASHI }
4112*820c1a8dSHiroo HAYASHI
4113*820c1a8dSHiroo HAYASHI /* Free all the memory associated with MCTX. */
4114*820c1a8dSHiroo HAYASHI
4115*820c1a8dSHiroo HAYASHI static void
match_ctx_free(re_match_context_t * mctx)4116*820c1a8dSHiroo HAYASHI match_ctx_free (re_match_context_t *mctx)
4117*820c1a8dSHiroo HAYASHI {
4118*820c1a8dSHiroo HAYASHI /* First, free all the memory associated with MCTX->SUB_TOPS. */
4119*820c1a8dSHiroo HAYASHI match_ctx_clean (mctx);
4120*820c1a8dSHiroo HAYASHI re_free (mctx->sub_tops);
4121*820c1a8dSHiroo HAYASHI re_free (mctx->bkref_ents);
4122*820c1a8dSHiroo HAYASHI }
4123*820c1a8dSHiroo HAYASHI
4124*820c1a8dSHiroo HAYASHI /* Add a new backreference entry to MCTX.
4125*820c1a8dSHiroo HAYASHI Note that we assume that caller never call this function with duplicate
4126*820c1a8dSHiroo HAYASHI entry, and call with STR_IDX which isn't smaller than any existing entry.
4127*820c1a8dSHiroo HAYASHI */
4128*820c1a8dSHiroo HAYASHI
4129*820c1a8dSHiroo HAYASHI static reg_errcode_t
4130*820c1a8dSHiroo HAYASHI __attribute_warn_unused_result__
match_ctx_add_entry(re_match_context_t * mctx,Idx node,Idx str_idx,Idx from,Idx to)4131*820c1a8dSHiroo HAYASHI match_ctx_add_entry (re_match_context_t *mctx, Idx node, Idx str_idx, Idx from,
4132*820c1a8dSHiroo HAYASHI Idx to)
4133*820c1a8dSHiroo HAYASHI {
4134*820c1a8dSHiroo HAYASHI if (mctx->nbkref_ents >= mctx->abkref_ents)
4135*820c1a8dSHiroo HAYASHI {
4136*820c1a8dSHiroo HAYASHI struct re_backref_cache_entry* new_entry;
4137*820c1a8dSHiroo HAYASHI new_entry = re_realloc (mctx->bkref_ents, struct re_backref_cache_entry,
4138*820c1a8dSHiroo HAYASHI mctx->abkref_ents * 2);
4139*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (new_entry == NULL))
4140*820c1a8dSHiroo HAYASHI {
4141*820c1a8dSHiroo HAYASHI re_free (mctx->bkref_ents);
4142*820c1a8dSHiroo HAYASHI return REG_ESPACE;
4143*820c1a8dSHiroo HAYASHI }
4144*820c1a8dSHiroo HAYASHI mctx->bkref_ents = new_entry;
4145*820c1a8dSHiroo HAYASHI memset (mctx->bkref_ents + mctx->nbkref_ents, '\0',
4146*820c1a8dSHiroo HAYASHI sizeof (struct re_backref_cache_entry) * mctx->abkref_ents);
4147*820c1a8dSHiroo HAYASHI mctx->abkref_ents *= 2;
4148*820c1a8dSHiroo HAYASHI }
4149*820c1a8dSHiroo HAYASHI if (mctx->nbkref_ents > 0
4150*820c1a8dSHiroo HAYASHI && mctx->bkref_ents[mctx->nbkref_ents - 1].str_idx == str_idx)
4151*820c1a8dSHiroo HAYASHI mctx->bkref_ents[mctx->nbkref_ents - 1].more = 1;
4152*820c1a8dSHiroo HAYASHI
4153*820c1a8dSHiroo HAYASHI mctx->bkref_ents[mctx->nbkref_ents].node = node;
4154*820c1a8dSHiroo HAYASHI mctx->bkref_ents[mctx->nbkref_ents].str_idx = str_idx;
4155*820c1a8dSHiroo HAYASHI mctx->bkref_ents[mctx->nbkref_ents].subexp_from = from;
4156*820c1a8dSHiroo HAYASHI mctx->bkref_ents[mctx->nbkref_ents].subexp_to = to;
4157*820c1a8dSHiroo HAYASHI
4158*820c1a8dSHiroo HAYASHI /* This is a cache that saves negative results of check_dst_limits_calc_pos.
4159*820c1a8dSHiroo HAYASHI If bit N is clear, means that this entry won't epsilon-transition to
4160*820c1a8dSHiroo HAYASHI an OP_OPEN_SUBEXP or OP_CLOSE_SUBEXP for the N+1-th subexpression. If
4161*820c1a8dSHiroo HAYASHI it is set, check_dst_limits_calc_pos_1 will recurse and try to find one
4162*820c1a8dSHiroo HAYASHI such node.
4163*820c1a8dSHiroo HAYASHI
4164*820c1a8dSHiroo HAYASHI A backreference does not epsilon-transition unless it is empty, so set
4165*820c1a8dSHiroo HAYASHI to all zeros if FROM != TO. */
4166*820c1a8dSHiroo HAYASHI mctx->bkref_ents[mctx->nbkref_ents].eps_reachable_subexps_map
4167*820c1a8dSHiroo HAYASHI = (from == to ? -1 : 0);
4168*820c1a8dSHiroo HAYASHI
4169*820c1a8dSHiroo HAYASHI mctx->bkref_ents[mctx->nbkref_ents++].more = 0;
4170*820c1a8dSHiroo HAYASHI if (mctx->max_mb_elem_len < to - from)
4171*820c1a8dSHiroo HAYASHI mctx->max_mb_elem_len = to - from;
4172*820c1a8dSHiroo HAYASHI return REG_NOERROR;
4173*820c1a8dSHiroo HAYASHI }
4174*820c1a8dSHiroo HAYASHI
4175*820c1a8dSHiroo HAYASHI /* Return the first entry with the same str_idx, or -1 if none is
4176*820c1a8dSHiroo HAYASHI found. Note that MCTX->BKREF_ENTS is already sorted by MCTX->STR_IDX. */
4177*820c1a8dSHiroo HAYASHI
4178*820c1a8dSHiroo HAYASHI static Idx
search_cur_bkref_entry(const re_match_context_t * mctx,Idx str_idx)4179*820c1a8dSHiroo HAYASHI search_cur_bkref_entry (const re_match_context_t *mctx, Idx str_idx)
4180*820c1a8dSHiroo HAYASHI {
4181*820c1a8dSHiroo HAYASHI Idx left, right, mid, last;
4182*820c1a8dSHiroo HAYASHI last = right = mctx->nbkref_ents;
4183*820c1a8dSHiroo HAYASHI for (left = 0; left < right;)
4184*820c1a8dSHiroo HAYASHI {
4185*820c1a8dSHiroo HAYASHI mid = (left + right) / 2;
4186*820c1a8dSHiroo HAYASHI if (mctx->bkref_ents[mid].str_idx < str_idx)
4187*820c1a8dSHiroo HAYASHI left = mid + 1;
4188*820c1a8dSHiroo HAYASHI else
4189*820c1a8dSHiroo HAYASHI right = mid;
4190*820c1a8dSHiroo HAYASHI }
4191*820c1a8dSHiroo HAYASHI if (left < last && mctx->bkref_ents[left].str_idx == str_idx)
4192*820c1a8dSHiroo HAYASHI return left;
4193*820c1a8dSHiroo HAYASHI else
4194*820c1a8dSHiroo HAYASHI return -1;
4195*820c1a8dSHiroo HAYASHI }
4196*820c1a8dSHiroo HAYASHI
4197*820c1a8dSHiroo HAYASHI /* Register the node NODE, whose type is OP_OPEN_SUBEXP, and which matches
4198*820c1a8dSHiroo HAYASHI at STR_IDX. */
4199*820c1a8dSHiroo HAYASHI
4200*820c1a8dSHiroo HAYASHI static reg_errcode_t
4201*820c1a8dSHiroo HAYASHI __attribute_warn_unused_result__
match_ctx_add_subtop(re_match_context_t * mctx,Idx node,Idx str_idx)4202*820c1a8dSHiroo HAYASHI match_ctx_add_subtop (re_match_context_t *mctx, Idx node, Idx str_idx)
4203*820c1a8dSHiroo HAYASHI {
4204*820c1a8dSHiroo HAYASHI DEBUG_ASSERT (mctx->sub_tops != NULL);
4205*820c1a8dSHiroo HAYASHI DEBUG_ASSERT (mctx->asub_tops > 0);
4206*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (mctx->nsub_tops == mctx->asub_tops))
4207*820c1a8dSHiroo HAYASHI {
4208*820c1a8dSHiroo HAYASHI Idx new_asub_tops = mctx->asub_tops * 2;
4209*820c1a8dSHiroo HAYASHI re_sub_match_top_t **new_array = re_realloc (mctx->sub_tops,
4210*820c1a8dSHiroo HAYASHI re_sub_match_top_t *,
4211*820c1a8dSHiroo HAYASHI new_asub_tops);
4212*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (new_array == NULL))
4213*820c1a8dSHiroo HAYASHI return REG_ESPACE;
4214*820c1a8dSHiroo HAYASHI mctx->sub_tops = new_array;
4215*820c1a8dSHiroo HAYASHI mctx->asub_tops = new_asub_tops;
4216*820c1a8dSHiroo HAYASHI }
4217*820c1a8dSHiroo HAYASHI mctx->sub_tops[mctx->nsub_tops] = calloc (1, sizeof (re_sub_match_top_t));
4218*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (mctx->sub_tops[mctx->nsub_tops] == NULL))
4219*820c1a8dSHiroo HAYASHI return REG_ESPACE;
4220*820c1a8dSHiroo HAYASHI mctx->sub_tops[mctx->nsub_tops]->node = node;
4221*820c1a8dSHiroo HAYASHI mctx->sub_tops[mctx->nsub_tops++]->str_idx = str_idx;
4222*820c1a8dSHiroo HAYASHI return REG_NOERROR;
4223*820c1a8dSHiroo HAYASHI }
4224*820c1a8dSHiroo HAYASHI
4225*820c1a8dSHiroo HAYASHI /* Register the node NODE, whose type is OP_CLOSE_SUBEXP, and which matches
4226*820c1a8dSHiroo HAYASHI at STR_IDX, whose corresponding OP_OPEN_SUBEXP is SUB_TOP.
4227*820c1a8dSHiroo HAYASHI Return the new entry if successful, NULL if memory is exhausted. */
4228*820c1a8dSHiroo HAYASHI
4229*820c1a8dSHiroo HAYASHI static re_sub_match_last_t *
match_ctx_add_sublast(re_sub_match_top_t * subtop,Idx node,Idx str_idx)4230*820c1a8dSHiroo HAYASHI match_ctx_add_sublast (re_sub_match_top_t *subtop, Idx node, Idx str_idx)
4231*820c1a8dSHiroo HAYASHI {
4232*820c1a8dSHiroo HAYASHI re_sub_match_last_t *new_entry;
4233*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (subtop->nlasts == subtop->alasts))
4234*820c1a8dSHiroo HAYASHI {
4235*820c1a8dSHiroo HAYASHI Idx new_alasts = 2 * subtop->alasts + 1;
4236*820c1a8dSHiroo HAYASHI re_sub_match_last_t **new_array = re_realloc (subtop->lasts,
4237*820c1a8dSHiroo HAYASHI re_sub_match_last_t *,
4238*820c1a8dSHiroo HAYASHI new_alasts);
4239*820c1a8dSHiroo HAYASHI if (__glibc_unlikely (new_array == NULL))
4240*820c1a8dSHiroo HAYASHI return NULL;
4241*820c1a8dSHiroo HAYASHI subtop->lasts = new_array;
4242*820c1a8dSHiroo HAYASHI subtop->alasts = new_alasts;
4243*820c1a8dSHiroo HAYASHI }
4244*820c1a8dSHiroo HAYASHI new_entry = calloc (1, sizeof (re_sub_match_last_t));
4245*820c1a8dSHiroo HAYASHI if (__glibc_likely (new_entry != NULL))
4246*820c1a8dSHiroo HAYASHI {
4247*820c1a8dSHiroo HAYASHI subtop->lasts[subtop->nlasts] = new_entry;
4248*820c1a8dSHiroo HAYASHI new_entry->node = node;
4249*820c1a8dSHiroo HAYASHI new_entry->str_idx = str_idx;
4250*820c1a8dSHiroo HAYASHI ++subtop->nlasts;
4251*820c1a8dSHiroo HAYASHI }
4252*820c1a8dSHiroo HAYASHI return new_entry;
4253*820c1a8dSHiroo HAYASHI }
4254*820c1a8dSHiroo HAYASHI
4255*820c1a8dSHiroo HAYASHI static void
sift_ctx_init(re_sift_context_t * sctx,re_dfastate_t ** sifted_sts,re_dfastate_t ** limited_sts,Idx last_node,Idx last_str_idx)4256*820c1a8dSHiroo HAYASHI sift_ctx_init (re_sift_context_t *sctx, re_dfastate_t **sifted_sts,
4257*820c1a8dSHiroo HAYASHI re_dfastate_t **limited_sts, Idx last_node, Idx last_str_idx)
4258*820c1a8dSHiroo HAYASHI {
4259*820c1a8dSHiroo HAYASHI sctx->sifted_states = sifted_sts;
4260*820c1a8dSHiroo HAYASHI sctx->limited_states = limited_sts;
4261*820c1a8dSHiroo HAYASHI sctx->last_node = last_node;
4262*820c1a8dSHiroo HAYASHI sctx->last_str_idx = last_str_idx;
4263*820c1a8dSHiroo HAYASHI re_node_set_init_empty (&sctx->limits);
4264*820c1a8dSHiroo HAYASHI }
4265