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| author | Ulrich Drepper <drepper@redhat.com> | 2002-11-06 20:36:47 +0000 |
|---|---|---|
| committer | Ulrich Drepper <drepper@redhat.com> | 2002-11-06 20:36:47 +0000 |
| commit | 15a7d175bc5e1f869ca5874c9ee5d26377d8403f (patch) | |
| tree | b8f28abd5f40d2c157b398986bb141fe3be85089 /posix/regexec.c | |
| parent | 1b2c2628354003bd97af125a164e830c9d295e3a (diff) | |
| download | glibc-15a7d175bc5e1f869ca5874c9ee5d26377d8403f.tar.gz glibc-15a7d175bc5e1f869ca5874c9ee5d26377d8403f.tar.xz glibc-15a7d175bc5e1f869ca5874c9ee5d26377d8403f.zip | |
Update.
2002-11-06 Ulrich Drepper <drepper@redhat.com> * posix/regcomp.c: Use tabs instead of spaces. * posix/regexec.c: Likewise. * posix/regex_internal.h: Likewise. * posix/regcomp.c (re_compile_fastmap_iter): Use __wcrtomb not wctomb.
Diffstat (limited to 'posix/regexec.c')
| -rw-r--r-- | posix/regexec.c | 2718 |
1 files changed, 1359 insertions, 1359 deletions
diff --git a/posix/regexec.c b/posix/regexec.c index 17c469c47f..f7e0d7f062 100644 --- a/posix/regexec.c +++ b/posix/regexec.c @@ -47,136 +47,136 @@ static reg_errcode_t match_ctx_init (re_match_context_t *cache, int eflags, re_string_t *input, int n); static void match_ctx_free (re_match_context_t *cache); static reg_errcode_t match_ctx_add_entry (re_match_context_t *cache, int node, - int str_idx, int from, int to); + int str_idx, int from, int to); static void match_ctx_clear_flag (re_match_context_t *mctx); static void sift_ctx_init (re_sift_context_t *sctx, re_dfastate_t **sifted_sts, - re_dfastate_t **limited_sts, int last_node, - int last_str_idx, int check_subexp); + re_dfastate_t **limited_sts, int last_node, + int last_str_idx, int check_subexp); static reg_errcode_t re_search_internal (const regex_t *preg, - const char *string, int length, - int start, int range, int stop, - size_t nmatch, regmatch_t pmatch[], - int eflags); + const char *string, int length, + int start, int range, int stop, + size_t nmatch, regmatch_t pmatch[], + int eflags); static int re_search_2_stub (struct re_pattern_buffer *bufp, - const char *string1, int length1, - const char *string2, int length2, - int start, int range, struct re_registers *regs, - int stop, int ret_len); + const char *string1, int length1, + const char *string2, int length2, + int start, int range, struct re_registers *regs, + int stop, int ret_len); static int re_search_stub (struct re_pattern_buffer *bufp, - const char *string, int length, int start, - int range, int stop, struct re_registers *regs, - int ret_len); + const char *string, int length, int start, + int range, int stop, struct re_registers *regs, + int ret_len); static unsigned re_copy_regs (struct re_registers *regs, regmatch_t *pmatch, - int nregs, int regs_allocated); + int nregs, int regs_allocated); static inline re_dfastate_t *acquire_init_state_context (reg_errcode_t *err, - const regex_t *preg, - const re_match_context_t *mctx, - int idx); + const regex_t *preg, + const re_match_context_t *mctx, + int idx); static int check_matching (const regex_t *preg, re_match_context_t *mctx, - int fl_search, int fl_longest_match); + int fl_search, int fl_longest_match); static int check_halt_node_context (const re_dfa_t *dfa, int node, - unsigned int context); + unsigned int context); static int check_halt_state_context (const regex_t *preg, - const re_dfastate_t *state, - const re_match_context_t *mctx, int idx); + const re_dfastate_t *state, + const re_match_context_t *mctx, int idx); static void update_regs (re_dfa_t *dfa, regmatch_t *pmatch, int cur_node, - int cur_idx, int nmatch); + int cur_idx, int nmatch); static int proceed_next_node (const regex_t *preg, int nregs, regmatch_t *regs, - const re_match_context_t *mctx, - int *pidx, int node, re_node_set *eps_via_nodes, - struct re_fail_stack_t *fs); + const re_match_context_t *mctx, + int *pidx, int node, re_node_set *eps_via_nodes, + struct re_fail_stack_t *fs); static reg_errcode_t push_fail_stack (struct re_fail_stack_t *fs, - int str_idx, int *dests, int nregs, - regmatch_t *regs, - re_node_set *eps_via_nodes); + int str_idx, int *dests, int nregs, + regmatch_t *regs, + re_node_set *eps_via_nodes); static int pop_fail_stack (struct re_fail_stack_t *fs, int *pidx, int nregs, - regmatch_t *regs, re_node_set *eps_via_nodes); + regmatch_t *regs, re_node_set *eps_via_nodes); static reg_errcode_t set_regs (const regex_t *preg, - const re_match_context_t *mctx, - size_t nmatch, regmatch_t *pmatch, - int fl_backtrack); + const re_match_context_t *mctx, + size_t nmatch, regmatch_t *pmatch, + int fl_backtrack); static reg_errcode_t free_fail_stack_return (struct re_fail_stack_t *fs); #ifdef RE_ENABLE_I18N static int sift_states_iter_mb (const regex_t *preg, - const re_match_context_t *mctx, - re_sift_context_t *sctx, - int node_idx, int str_idx, int max_str_idx); + const re_match_context_t *mctx, + re_sift_context_t *sctx, + int node_idx, int str_idx, int max_str_idx); #endif /* RE_ENABLE_I18N */ static reg_errcode_t sift_states_backward (const regex_t *preg, - re_match_context_t *mctx, - re_sift_context_t *sctx); + re_match_context_t *mctx, + re_sift_context_t *sctx); static reg_errcode_t update_cur_sifted_state (const regex_t *preg, - re_match_context_t *mctx, - re_sift_context_t *sctx, - int str_idx, - re_node_set *dest_nodes); + re_match_context_t *mctx, + re_sift_context_t *sctx, + int str_idx, + re_node_set *dest_nodes); static reg_errcode_t add_epsilon_src_nodes (re_dfa_t *dfa, - re_node_set *dest_nodes, - const re_node_set *candidates); + re_node_set *dest_nodes, + const re_node_set *candidates); static reg_errcode_t sub_epsilon_src_nodes (re_dfa_t *dfa, int node, - re_node_set *dest_nodes, - const re_node_set *and_nodes); + re_node_set *dest_nodes, + const re_node_set *and_nodes); static int check_dst_limits (re_dfa_t *dfa, re_node_set *limits, - re_match_context_t *mctx, int dst_node, - int dst_idx, int src_node, int src_idx); + re_match_context_t *mctx, int dst_node, + int dst_idx, int src_node, int src_idx); static int check_dst_limits_calc_pos (re_dfa_t *dfa, re_match_context_t *mctx, - int limit, re_node_set *eclosures, - int subexp_idx, int node, int str_idx); + int limit, re_node_set *eclosures, + int subexp_idx, int node, int str_idx); static reg_errcode_t check_subexp_limits (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, - int str_idx); + re_node_set *dest_nodes, + const re_node_set *candidates, + re_node_set *limits, + struct re_backref_cache_entry *bkref_ents, + int str_idx); static reg_errcode_t search_subexp (const regex_t *preg, - re_match_context_t *mctx, - re_sift_context_t *sctx, int str_idx, - re_node_set *dest_nodes); + re_match_context_t *mctx, + re_sift_context_t *sctx, int str_idx, + re_node_set *dest_nodes); static reg_errcode_t sift_states_bkref (const regex_t *preg, - re_match_context_t *mctx, - re_sift_context_t *sctx, - int str_idx, re_node_set *dest_nodes); + re_match_context_t *mctx, + re_sift_context_t *sctx, + int str_idx, re_node_set *dest_nodes); static reg_errcode_t clean_state_log_if_need (re_match_context_t *mctx, - int next_state_log_idx); + int next_state_log_idx); static reg_errcode_t merge_state_array (re_dfa_t *dfa, re_dfastate_t **dst, - re_dfastate_t **src, int num); + re_dfastate_t **src, int num); static re_dfastate_t *transit_state (reg_errcode_t *err, const regex_t *preg, - re_match_context_t *mctx, - re_dfastate_t *state, int fl_search); + re_match_context_t *mctx, + re_dfastate_t *state, int fl_search); static re_dfastate_t *transit_state_sb (reg_errcode_t *err, const regex_t *preg, - re_dfastate_t *pstate, - int fl_search, - re_match_context_t *mctx); + re_dfastate_t *pstate, + int fl_search, + re_match_context_t *mctx); #ifdef RE_ENABLE_I18N static reg_errcode_t transit_state_mb (const regex_t *preg, - re_dfastate_t *pstate, - re_match_context_t *mctx); + re_dfastate_t *pstate, + re_match_context_t *mctx); #endif /* RE_ENABLE_I18N */ static reg_errcode_t transit_state_bkref (const regex_t *preg, - re_dfastate_t *pstate, - re_match_context_t *mctx); + re_dfastate_t *pstate, + re_match_context_t *mctx); static reg_errcode_t transit_state_bkref_loop (const regex_t *preg, - re_node_set *nodes, - re_dfastate_t **work_state_log, - re_match_context_t *mctx); + re_node_set *nodes, + re_dfastate_t **work_state_log, + re_match_context_t *mctx); static re_dfastate_t **build_trtable (const regex_t *dfa, - const re_dfastate_t *state, - int fl_search); + const re_dfastate_t *state, + int fl_search); #ifdef RE_ENABLE_I18N static int check_node_accept_bytes (const regex_t *preg, int node_idx, - const re_string_t *input, int idx); + const re_string_t *input, int idx); # ifdef _LIBC static unsigned int find_collation_sequence_value (const unsigned char *mbs, - size_t name_len); + size_t name_len); # endif /* _LIBC */ #endif /* RE_ENABLE_I18N */ static int group_nodes_into_DFAstates (const regex_t *dfa, - const re_dfastate_t *state, - re_node_set *states_node, - bitset *states_ch); + const re_dfastate_t *state, + re_node_set *states_node, + bitset *states_ch); static int check_node_accept (const regex_t *preg, const re_token_t *node, - const re_match_context_t *mctx, int idx); + const re_match_context_t *mctx, int idx); static reg_errcode_t extend_buffers (re_match_context_t *mctx); /* Entry point for POSIX code. */ @@ -207,10 +207,10 @@ regexec (preg, string, nmatch, pmatch, eflags) int length = strlen (string); if (preg->no_sub) err = re_search_internal (preg, string, length, 0, length, length, 0, - NULL, eflags); + NULL, eflags); else err = re_search_internal (preg, string, length, 0, length, length, nmatch, - pmatch, eflags); + pmatch, eflags); return err != REG_NOERROR; } #ifdef _LIBC @@ -280,7 +280,7 @@ re_match_2 (bufp, string1, length1, string2, length2, start, regs, stop) struct re_registers *regs; { return re_search_2_stub (bufp, string1, length1, string2, length2, - start, 0, regs, stop, 1); + start, 0, regs, stop, 1); } #ifdef _LIBC weak_alias (__re_match_2, re_match_2) @@ -294,7 +294,7 @@ re_search_2 (bufp, string1, length1, string2, length2, start, range, regs, stop) struct re_registers *regs; { return re_search_2_stub (bufp, string1, length1, string2, length2, - start, range, regs, stop, 0); + start, range, regs, stop, 0); } #ifdef _LIBC weak_alias (__re_search_2, re_search_2) @@ -302,7 +302,7 @@ weak_alias (__re_search_2, re_search_2) static int re_search_2_stub (bufp, string1, length1, string2, length2, start, range, regs, - stop, ret_len) + stop, ret_len) struct re_pattern_buffer *bufp; const char *string1, *string2; int length1, length2, start, range, stop, ret_len; @@ -320,14 +320,14 @@ re_search_2_stub (bufp, string1, length1, string2, length2, start, range, regs, if (length2 > 0) if (length1 > 0) { - char *s = re_malloc (char, len); - - if (BE (s == NULL, 0)) - return -2; - memcpy (s, string1, length1); - memcpy (s + length1, string2, length2); - str = s; - free_str = 1; + char *s = re_malloc (char, len); + + if (BE (s == NULL, 0)) + return -2; + memcpy (s, string1, length1); + memcpy (s + length1, string2, length2); + str = s; + free_str = 1; } else str = string2; @@ -335,7 +335,7 @@ re_search_2_stub (bufp, string1, length1, string2, length2, start, range, regs, str = string1; rval = re_search_stub (bufp, str, len, start, range, stop, regs, - ret_len); + ret_len); if (free_str) re_free ((char *) str); return rval; @@ -380,15 +380,15 @@ re_search_stub (bufp, string, length, start, range, stop, regs, ret_len) if (regs == NULL) nregs = 1; else if (BE (bufp->regs_allocated == REGS_FIXED && - regs->num_regs < bufp->re_nsub + 1, 0)) + regs->num_regs < bufp->re_nsub + 1, 0)) { nregs = regs->num_regs; if (BE (nregs < 1, 0)) - { - /* Nothing can be copied to regs. */ - regs = NULL; - nregs = 1; - } + { + /* Nothing can be copied to regs. */ + regs = NULL; + nregs = 1; + } } else nregs = bufp->re_nsub + 1; @@ -397,7 +397,7 @@ re_search_stub (bufp, string, length, start, range, stop, regs, ret_len) return -2; result = re_search_internal (bufp, string, length, start, range, stop, - nregs, pmatch, eflags); + nregs, pmatch, eflags); rval = 0; @@ -408,20 +408,20 @@ re_search_stub (bufp, string, length, start, range, stop, regs, ret_len) { /* If caller wants register contents data back, copy them. */ bufp->regs_allocated = re_copy_regs (regs, pmatch, nregs, - bufp->regs_allocated); + bufp->regs_allocated); if (BE (bufp->regs_allocated == REGS_UNALLOCATED, 0)) - rval = -2; + rval = -2; } if (BE (rval == 0, 1)) { if (ret_len) - { - assert (pmatch[0].rm_so == start); - rval = pmatch[0].rm_eo - start; - } + { + assert (pmatch[0].rm_so == start); + rval = pmatch[0].rm_eo - start; + } else - rval = pmatch[0].rm_so; + rval = pmatch[0].rm_so; } re_free (pmatch); return rval; @@ -444,36 +444,36 @@ re_copy_regs (regs, pmatch, nregs, regs_allocated) { /* No. So allocate them with malloc. */ regs->start = re_malloc (regoff_t, need_regs); if (BE (regs->start == NULL, 0)) - return REGS_UNALLOCATED; + return REGS_UNALLOCATED; regs->end = re_malloc (regoff_t, need_regs); if (BE (regs->end == NULL, 0)) - { - re_free (regs->start); - return REGS_UNALLOCATED; - } + { + re_free (regs->start); + return REGS_UNALLOCATED; + } regs->num_regs = need_regs; } else if (regs_allocated == REGS_REALLOCATE) { /* Yes. If we need more elements than were already - allocated, reallocate them. If we need fewer, just - leave it alone. */ + allocated, reallocate them. If we need fewer, just + leave it alone. */ if (need_regs > regs->num_regs) - { - regs->start = re_realloc (regs->start, regoff_t, need_regs); - if (BE (regs->start == NULL, 0)) - { - if (regs->end != NULL) - re_free (regs->end); - return REGS_UNALLOCATED; - } - regs->end = re_realloc (regs->end, regoff_t, need_regs); - if (BE (regs->end == NULL, 0)) - { - re_free (regs->start); - return REGS_UNALLOCATED; - } - regs->num_regs = need_regs; - } + { + regs->start = re_realloc (regs->start, regoff_t, need_regs); + if (BE (regs->start == NULL, 0)) + { + if (regs->end != NULL) + re_free (regs->end); + return REGS_UNALLOCATED; + } + regs->end = re_realloc (regs->end, regoff_t, need_regs); + if (BE (regs->end == NULL, 0)) + { + re_free (regs->start); + return REGS_UNALLOCATED; + } + regs->num_regs = need_regs; + } } else { @@ -563,7 +563,7 @@ static re_node_set empty_set; static reg_errcode_t re_search_internal (preg, string, length, start, range, stop, nmatch, pmatch, - eflags) + eflags) const regex_t *preg; const char *string; int length, start, range, stop, eflags; @@ -582,8 +582,8 @@ re_search_internal (preg, string, length, start, range, stop, nmatch, pmatch, /* Check if the DFA haven't been compiled. */ if (BE (preg->used == 0 || dfa->init_state == NULL - || dfa->init_state_word == NULL || dfa->init_state_nl == NULL - || dfa->init_state_begbuf == NULL, 0)) + || dfa->init_state_word == NULL || dfa->init_state_nl == NULL + || dfa->init_state_begbuf == NULL, 0)) return REG_NOMATCH; re_node_set_init_empty (&empty_set); @@ -593,7 +593,7 @@ re_search_internal (preg, string, length, start, range, stop, nmatch, pmatch, fl_longest_match = (nmatch != 0); err = re_string_allocate (&input, string, length, dfa->nodes_len + 1, - preg->translate, preg->syntax & RE_ICASE); + preg->translate, preg->syntax & RE_ICASE); if (BE (err != REG_NOERROR, 0)) goto free_return; input.stop = stop; @@ -610,10 +610,10 @@ re_search_internal (preg, string, length, start, range, stop, nmatch, pmatch, { mctx.state_log = re_malloc (re_dfastate_t *, dfa->nodes_len + 1); if (BE (mctx.state_log == NULL, 0)) - { - err = REG_ESPACE; - goto free_return; - } + { + err = REG_ESPACE; + goto free_return; + } } else mctx.state_log = NULL; @@ -625,7 +625,7 @@ re_search_internal (preg, string, length, start, range, stop, nmatch, pmatch, match_first = start; input.tip_context = ((eflags & REG_NOTBOL) ? CONTEXT_BEGBUF - : CONTEXT_NEWLINE | CONTEXT_BEGBUF); + : CONTEXT_NEWLINE | CONTEXT_BEGBUF); /* Check incrementally whether of not the input string match. */ incr = (range < 0) ? -1 : 1; @@ -715,14 +715,14 @@ re_search_internal (preg, string, length, start, range, stop, nmatch, pmatch, } /* Reconstruct the buffers so that the matcher can assume that - the matching starts from the begining of the buffer. */ + the matching starts from the begining of the buffer. */ err = re_string_reconstruct (&input, match_first, eflags, preg->newline_anchor); if (BE (err != REG_NOERROR, 0)) goto free_return; #ifdef RE_ENABLE_I18N /* Eliminate it when it is a component of a multibyte character - and isn't the head of a multibyte character. */ + and isn't the head of a multibyte character. */ if (sb || re_string_first_byte (&input, 0)) #endif { @@ -745,7 +745,7 @@ re_search_internal (preg, string, length, start, range, stop, nmatch, pmatch, /* Update counter. */ match_first += incr; if (match_first < left_lim || right_lim < match_first) - break; + break; } /* Set pmatch[] if we need. */ @@ -755,84 +755,84 @@ re_search_internal (preg, string, length, start, range, stop, nmatch, pmatch, /* Initialize registers. */ for (reg_idx = 0; reg_idx < nmatch; ++reg_idx) - pmatch[reg_idx].rm_so = pmatch[reg_idx].rm_eo = -1; + pmatch[reg_idx].rm_so = pmatch[reg_idx].rm_eo = -1; /* Set the points where matching start/end. */ pmatch[0].rm_so = 0; mctx.match_last = pmatch[0].rm_eo = match_last; if (!preg->no_sub && nmatch > 1) - { - /* We need the ranges of all the subexpressions. */ - int halt_node; - re_dfastate_t **sifted_states; - re_dfastate_t **lim_states = NULL; - re_dfastate_t *pstate = mctx.state_log[match_last]; - re_sift_context_t sctx; + { + /* We need the ranges of all the subexpressions. */ + int halt_node; + re_dfastate_t **sifted_states; + re_dfastate_t **lim_states = NULL; + re_dfastate_t *pstate = mctx.state_log[match_last]; + re_sift_context_t sctx; #ifdef DEBUG - assert (mctx.state_log != NULL); + assert (mctx.state_log != NULL); #endif - halt_node = check_halt_state_context (preg, pstate, &mctx, - match_last); - if (dfa->has_plural_match) - { - match_ctx_clear_flag (&mctx); - sifted_states = re_malloc (re_dfastate_t *, match_last + 1); - if (BE (sifted_states == NULL, 0)) - { - err = REG_ESPACE; - goto free_return; - } - if (dfa->nbackref) - { - lim_states = calloc (sizeof (re_dfastate_t *), - match_last + 1); - if (BE (lim_states == NULL, 0)) - { - re_free (sifted_states); - err = REG_ESPACE; - goto free_return; - } - } - sift_ctx_init (&sctx, sifted_states, lim_states, halt_node, - mctx.match_last, 0); - err = sift_states_backward (preg, &mctx, &sctx); - re_node_set_free (&sctx.limits); - if (BE (err != REG_NOERROR, 0)) - { - re_free (sifted_states); - re_free (lim_states); - goto free_return; - } - if (lim_states != NULL) - { - err = merge_state_array (dfa, sifted_states, lim_states, - match_last + 1); - re_free (lim_states); - if (BE (err != REG_NOERROR, 0)) - { - re_free (sifted_states); - goto free_return; - } - } - re_free (mctx.state_log); - mctx.state_log = sifted_states; - } - mctx.last_node = halt_node; - err = set_regs (preg, &mctx, nmatch, pmatch, - dfa->has_plural_match && dfa->nbackref > 0); - if (BE (err != REG_NOERROR, 0)) - goto free_return; - } + halt_node = check_halt_state_context (preg, pstate, &mctx, + match_last); + if (dfa->has_plural_match) + { + match_ctx_clear_flag (&mctx); + sifted_states = re_malloc (re_dfastate_t *, match_last + 1); + if (BE (sifted_states == NULL, 0)) + { + err = REG_ESPACE; + goto free_return; + } + if (dfa->nbackref) + { + lim_states = calloc (sizeof (re_dfastate_t *), + match_last + 1); + if (BE (lim_states == NULL, 0)) + { + re_free (sifted_states); + err = REG_ESPACE; + goto free_return; + } + } + sift_ctx_init (&sctx, sifted_states, lim_states, halt_node, + mctx.match_last, 0); + err = sift_states_backward (preg, &mctx, &sctx); + re_node_set_free (&sctx.limits); + if (BE (err != REG_NOERROR, 0)) + { + re_free (sifted_states); + re_free (lim_states); + goto free_return; + } + if (lim_states != NULL) + { + err = merge_state_array (dfa, sifted_states, lim_states, + match_last + 1); + re_free (lim_states); + if (BE (err != REG_NOERROR, 0)) + { + re_free (sifted_states); + goto free_return; + } + } + re_free (mctx.state_log); + mctx.state_log = sifted_states; + } + mctx.last_node = halt_node; + err = set_regs (preg, &mctx, nmatch, pmatch, + dfa->has_plural_match && dfa->nbackref > 0); + if (BE (err != REG_NOERROR, 0)) + goto free_return; + } /* At last, add the offset to the each registers, since we slided - the buffers so that We can assume that the matching starts from 0. */ + the buffers so that We can assume that the matching starts from 0. */ for (reg_idx = 0; reg_idx < nmatch; ++reg_idx) - if (pmatch[reg_idx].rm_so != -1) - { - pmatch[reg_idx].rm_so += match_first; - pmatch[reg_idx].rm_eo += match_first; - } + if (pmatch[reg_idx].rm_so != -1) + { + pmatch[reg_idx].rm_so += match_first; + pmatch[reg_idx].rm_eo += match_first; + } } err = (match_last == -1) ? REG_NOMATCH : REG_NOERROR; free_return: @@ -861,25 +861,25 @@ acquire_init_state_context (err, preg, mctx, idx) { unsigned int context; context = re_string_context_at (mctx->input, idx - 1, mctx->eflags, - preg->newline_anchor); + preg->newline_anchor); if (IS_WORD_CONTEXT (context)) - return dfa->init_state_word; + return dfa->init_state_word; else if (IS_ORDINARY_CONTEXT (context)) - return dfa->init_state; + return dfa->init_state; else if (IS_BEGBUF_CONTEXT (context) && IS_NEWLINE_CONTEXT (context)) - return dfa->init_state_begbuf; + return dfa->init_state_begbuf; else if (IS_NEWLINE_CONTEXT (context)) - return dfa->init_state_nl; + return dfa->init_state_nl; else if (IS_BEGBUF_CONTEXT (context)) - { - /* It is relatively rare case, then calculate on demand. */ - return re_acquire_state_context (err, dfa, - dfa->init_state->entrance_nodes, - context); - } + { + /* It is relatively rare case, then calculate on demand. */ + return re_acquire_state_context (err, dfa, + dfa->init_state->entrance_nodes, + context); + } else - /* Must not happen? */ - return dfa->init_state; + /* Must not happen? */ + return dfa->init_state; } else return dfa->init_state; @@ -917,103 +917,103 @@ check_matching (preg, mctx, fl_search, fl_longest_match) int i; re_dfa_t *dfa = (re_dfa_t *) preg->buffer; for (i = 0; i < cur_state->nodes.nelem; ++i) - { - int node = cur_state->nodes.elems[i]; - re_token_type_t type = dfa->nodes[node].type; - if (type == OP_BACK_REF) - { - int clexp_idx; - for (clexp_idx = 0; clexp_idx < cur_state->nodes.nelem; - ++clexp_idx) - { - re_token_t *clexp_node; - clexp_node = dfa->nodes + cur_state->nodes.elems[clexp_idx]; - if (clexp_node->type == OP_CLOSE_SUBEXP - && clexp_node->opr.idx + 1== dfa->nodes[node].opr.idx) - { - err = match_ctx_add_entry (mctx, node, 0, 0, 0); - if (BE (err != REG_NOERROR, 0)) - return -2; - break; - } - } - } - } + { + int node = cur_state->nodes.elems[i]; + re_token_type_t type = dfa->nodes[node].type; + if (type == OP_BACK_REF) + { + int clexp_idx; + for (clexp_idx = 0; clexp_idx < cur_state->nodes.nelem; + ++clexp_idx) + { + re_token_t *clexp_node; + clexp_node = dfa->nodes + cur_state->nodes.elems[clexp_idx]; + if (clexp_node->type == OP_CLOSE_SUBEXP + && clexp_node->opr.idx + 1== dfa->nodes[node].opr.idx) + { + err = match_ctx_add_entry (mctx, node, 0, 0, 0); + if (BE (err != REG_NOERROR, 0)) + return -2; + break; + } + } + } + } } /* If the RE accepts NULL string. */ if (cur_state->halt) { if (!cur_state->has_constraint - || check_halt_state_context (preg, cur_state, mctx, cur_str_idx)) - { - if (!fl_longest_match) - return cur_str_idx; - else - { - match_last = cur_str_idx; - match = 1; - } - } + || check_halt_state_context (preg, cur_state, mctx, cur_str_idx)) + { + if (!fl_longest_match) + return cur_str_idx; + else + { + match_last = cur_str_idx; + match = 1; + } + } } while (!re_string_eoi (mctx->input)) { cur_state = transit_state (&err, preg, mctx, cur_state, - fl_search && !match); + fl_search && !match); if (cur_state == NULL) /* Reached at the invalid state or an error. */ - { - cur_str_idx = re_string_cur_idx (mctx->input); - if (BE (err != REG_NOERROR, 0)) - return -2; - if (fl_search && !match) - { - /* Restart from initial state, since we are searching - the point from where matching start. */ + { + cur_str_idx = re_string_cur_idx (mctx->input); + if (BE (err != REG_NOERROR, 0)) + return -2; + if (fl_search && !match) + { + /* Restart from initial state, since we are searching + the point from where matching start. */ #ifdef RE_ENABLE_I18N - if (MB_CUR_MAX == 1 - || re_string_first_byte (mctx->input, cur_str_idx)) + if (MB_CUR_MAX == 1 + || re_string_first_byte (mctx->input, cur_str_idx)) #endif /* RE_ENABLE_I18N */ - cur_state = acquire_init_state_context (&err, preg, mctx, - cur_str_idx); - if (BE (cur_state == NULL && err != REG_NOERROR, 0)) - return -2; - if (mctx->state_log != NULL) - mctx->state_log[cur_str_idx] = cur_state; - } - else if (!fl_longest_match && match) - break; - else /* (fl_longest_match && match) || (!fl_search && !match) */ - { - if (mctx->state_log == NULL) - break; - else - { - int max = mctx->state_log_top; - for (; cur_str_idx <= max; ++cur_str_idx) - if (mctx->state_log[cur_str_idx] != NULL) - break; - if (cur_str_idx > max) - break; - } - } - } + cur_state = acquire_init_state_context (&err, preg, mctx, + cur_str_idx); + if (BE (cur_state == NULL && err != REG_NOERROR, 0)) + return -2; + if (mctx->state_log != NULL) + mctx->state_log[cur_str_idx] = cur_state; + } + else if (!fl_longest_match && match) + break; + else /* (fl_longest_match && match) || (!fl_search && !match) */ + { + if (mctx->state_log == NULL) + break; + else + { + int max = mctx->state_log_top; + for (; cur_str_idx <= max; ++cur_str_idx) + if (mctx->state_log[cur_str_idx] != NULL) + break; + if (cur_str_idx > max) + break; + } + } + } if (cur_state != NULL && cur_state->halt) - { - /* Reached at a halt state. - Check the halt state can satisfy the current context. */ - if (!cur_state->has_constraint - || check_halt_state_context (preg, cur_state, mctx, - re_string_cur_idx (mctx->input))) - { - /* We found an appropriate halt state. */ - match_last = re_string_cur_idx (mctx->input); - match = 1; - if (!fl_longest_match) - break; - } - } + { + /* Reached at a halt state. + Check the halt state can satisfy the current context. */ + if (!cur_state->has_constraint + || check_halt_state_context (preg, cur_state, mctx, + re_string_cur_idx (mctx->input))) + { + /* We found an appropriate halt state. */ + match_last = re_string_cur_idx (mctx->input); + match = 1; + if (!fl_longest_match) + break; + } + } } return match_last; } @@ -1054,7 +1054,7 @@ check_halt_state_context (preg, state, mctx, idx) assert (state->halt); #endif context = re_string_context_at (mctx->input, idx, mctx->eflags, - preg->newline_anchor); + preg->newline_anchor); for (i = 0; i < state->nodes.nelem; ++i) if (check_halt_node_context (dfa, state->nodes.elems[i], context)) return state->nodes.elems[i]; @@ -1084,24 +1084,24 @@ proceed_next_node (preg, nregs, regs, mctx, pidx, node, eps_via_nodes, fs) int ndest, dest_nodes[2]; err = re_node_set_insert (eps_via_nodes, node); if (BE (err < 0, 0)) - return -1; + return -1; /* Pick up valid destinations. */ for (ndest = 0, i = 0; i < dfa->edests[node].nelem; ++i) - { - int candidate = dfa->edests[node].elems[i]; - if (!re_node_set_contains (cur_nodes, candidate)) - continue; - dest_nodes[0] = (ndest == 0) ? candidate : dest_nodes[0]; - dest_nodes[1] = (ndest == 1) ? candidate : dest_nodes[1]; - ++ndest; - } + { + int candidate = dfa->edests[node].elems[i]; + if (!re_node_set_contains (cur_nodes, candidate)) + continue; + dest_nodes[0] = (ndest == 0) ? candidate : dest_nodes[0]; + dest_nodes[1] = (ndest == 1) ? candidate : dest_nodes[1]; + ++ndest; + } if (ndest <= 1) - return ndest == 0 ? -1 : (ndest == 1 ? dest_nodes[0] : 0); + return ndest == 0 ? -1 : (ndest == 1 ? dest_nodes[0] : 0); /* In order to avoid infinite loop like "(a*)*". */ if (re_node_set_contains (eps_via_nodes, dest_nodes[0])) - return dest_nodes[1]; + return dest_nodes[1]; if (fs != NULL) - push_fail_stack (fs, *pidx, dest_nodes, nregs, regs, eps_via_nodes); + push_fail_stack (fs, *pidx, dest_nodes, nregs, regs, eps_via_nodes); return dest_nodes[0]; } else @@ -1111,50 +1111,50 @@ proceed_next_node (preg, nregs, regs, mctx, pidx, node, eps_via_nodes, fs) #ifdef RE_ENABLE_I18N if (ACCEPT_MB_NODE (type)) - naccepted = check_node_accept_bytes (preg, node, mctx->input, *pidx); + naccepted = check_node_accept_bytes (preg, node, mctx->input, *pidx); else #endif /* RE_ENABLE_I18N */ if (type == OP_BACK_REF) - { - int subexp_idx = dfa->nodes[node].opr.idx; - naccepted = regs[subexp_idx].rm_eo - regs[subexp_idx].rm_so; - if (fs != NULL) - { - if (regs[subexp_idx].rm_so == -1 || regs[subexp_idx].rm_eo == -1) - return -1; - else if (naccepted) - { - char *buf = re_string_get_buffer (mctx->input); - if (strncmp (buf + regs[subexp_idx].rm_so, buf + *pidx, - naccepted) != 0) - return -1; - } - } - - if (naccepted == 0) - { - err = re_node_set_insert (eps_via_nodes, node); - if (BE (err < 0, 0)) - return -2; - dest_node = dfa->edests[node].elems[0]; - if (re_node_set_contains (&mctx->state_log[*pidx]->nodes, - dest_node)) - return dest_node; - } - } + { + int subexp_idx = dfa->nodes[node].opr.idx; + naccepted = regs[subexp_idx].rm_eo - regs[subexp_idx].rm_so; + if (fs != NULL) + { + if (regs[subexp_idx].rm_so == -1 || regs[subexp_idx].rm_eo == -1) + return -1; + else if (naccepted) + { + char *buf = re_string_get_buffer (mctx->input); + if (strncmp (buf + regs[subexp_idx].rm_so, buf + *pidx, + naccepted) != 0) + return -1; + } + } + + if (naccepted == 0) + { + err = re_node_set_insert (eps_via_nodes, node); + if (BE (err < 0, 0)) + return -2; + dest_node = dfa->edests[node].elems[0]; + if (re_node_set_contains (&mctx->state_log[*pidx]->nodes, + dest_node)) + return dest_node; + } + } if (naccepted != 0 - || check_node_accept (preg, dfa->nodes + node, mctx, *pidx)) - { - dest_node = dfa->nexts[node]; - *pidx = (naccepted == 0) ? *pidx + 1 : *pidx + naccepted; - if (fs && (*pidx > mctx->match_last || mctx->state_log[*pidx] == NULL - || !re_node_set_contains (&mctx->state_log[*pidx]->nodes, - dest_node))) - return -1; - re_node_set_empty (eps_via_nodes); - return dest_node; - } + || check_node_accept (preg, dfa->nodes + node, mctx, *pidx)) + { + dest_node = dfa->nexts[node]; + *pidx = (naccepted == 0) ? *pidx + 1 : *pidx + naccepted; + if (fs && (*pidx > mctx->match_last || mctx->state_log[*pidx] == NULL + || !re_node_set_contains (&mctx->state_log[*pidx]->nodes, + dest_node))) + return -1; + re_node_set_empty (eps_via_nodes); + return dest_node; + } } return -1; } @@ -1173,9 +1173,9 @@ push_fail_stack (fs, str_idx, dests, nregs, regs, eps_via_nodes) struct re_fail_stack_ent_t *new_array; fs->alloc *= 2; new_array = realloc (fs->stack, (sizeof (struct re_fail_stack_ent_t) - * fs->alloc)); + * fs->alloc)); if (new_array == NULL) - return REG_ESPACE; + return REG_ESPACE; fs->stack = new_array; } fs->stack[num].idx = str_idx; @@ -1239,45 +1239,45 @@ set_regs (preg, mctx, nmatch, pmatch, fl_backtrack) { update_regs (dfa, pmatch, cur_node, idx, real_nmatch); if (idx == pmatch[0].rm_eo && cur_node == mctx->last_node) - { - int reg_idx; - if (fs) - { - for (reg_idx = 0; reg_idx < nmatch; ++reg_idx) - if (pmatch[reg_idx].rm_so > -1 && pmatch[reg_idx].rm_eo == -1) - break; - if (reg_idx == nmatch) - { - re_node_set_free (&eps_via_nodes); - return free_fail_stack_return (fs); - } - cur_node = pop_fail_stack (fs, &idx, nmatch, pmatch, - &eps_via_nodes); - } - else - { - re_node_set_free (&eps_via_nodes); - return REG_NOERROR; - } - } + { + int reg_idx; + if (fs) + { + for (reg_idx = 0; reg_idx < nmatch; ++reg_idx) + if (pmatch[reg_idx].rm_so > -1 && pmatch[reg_idx].rm_eo == -1) + break; + if (reg_idx == nmatch) + { + re_node_set_free (&eps_via_nodes); + return free_fail_stack_return (fs); + } + cur_node = pop_fail_stack (fs, &idx, nmatch, pmatch, + &eps_via_nodes); + } + else + { + re_node_set_free (&eps_via_nodes); + return REG_NOERROR; + } + } /* Proceed to next node. */ cur_node = proceed_next_node (preg, nmatch, pmatch, mctx, &idx, cur_node, - &eps_via_nodes, fs); + &eps_via_nodes, fs); if (BE (cur_node < 0, 0)) - { - if (cur_node == -2) - return REG_ESPACE; - if (fs) - cur_node = pop_fail_stack (fs, &idx, nmatch, pmatch, - &eps_via_nodes); - else - { - re_node_set_free (&eps_via_nodes); - return REG_NOMATCH; - } - } + { + if (cur_node == -2) + return REG_ESPACE; + if (fs) + cur_node = pop_fail_stack (fs, &idx, nmatch, pmatch, + &eps_via_nodes); + else + { + re_node_set_free (&eps_via_nodes); + return REG_NOMATCH; + } + } } re_node_set_free (&eps_via_nodes); return free_fail_stack_return (fs); @@ -1291,10 +1291,10 @@ free_fail_stack_return (fs) { int fs_idx; for (fs_idx = 0; fs_idx < fs->num; ++fs_idx) - { - re_node_set_free (&fs->stack[fs_idx].eps_via_nodes); - re_free (fs->stack[fs_idx].regs); - } + { + re_node_set_free (&fs->stack[fs_idx].eps_via_nodes); + re_free (fs->stack[fs_idx].regs); + } re_free (fs->stack); } return REG_NOERROR; @@ -1332,19 +1332,19 @@ update_regs (dfa, pmatch, cur_node, cur_idx, nmatch) Rules: We throw away the Node `a' in the STATE_LOG[STR_IDX] if... 1. When STR_IDX == MATCH_LAST(the last index in the state_log): - If `a' isn't the LAST_NODE and `a' can't epsilon transit to - the LAST_NODE, we throw away the node `a'. + If `a' isn't the LAST_NODE and `a' can't epsilon transit to + the LAST_NODE, we throw away the node `a'. 2. When 0 <= STR_IDX < MATCH_LAST and `a' accepts - string `s' and transit to `b': - i. If 'b' isn't in the STATE_LOG[STR_IDX+strlen('s')], we throw - away the node `a'. - ii. If 'b' is in the STATE_LOG[STR_IDX+strlen('s')] but 'b' is - throwed away, we throw away the node `a'. + string `s' and transit to `b': + i. If 'b' isn't in the STATE_LOG[STR_IDX+strlen('s')], we throw + away the node `a'. + ii. If 'b' is in the STATE_LOG[STR_IDX+strlen('s')] but 'b' is + throwed away, we throw away the node `a'. 3. When 0 <= STR_IDX < n and 'a' epsilon transit to 'b': - i. If 'b' isn't in the STATE_LOG[STR_IDX], we throw away the - node `a'. - ii. If 'b' is in the STATE_LOG[STR_IDX] but 'b' is throwed away, - we throw away the node `a'. */ + i. If 'b' isn't in the STATE_LOG[STR_IDX], we throw away the + node `a'. + ii. If 'b' is in the STATE_LOG[STR_IDX] but 'b' is throwed away, + we throw away the node `a'. */ #define STATE_NODE_CONTAINS(state,node) \ ((state) != NULL && re_node_set_contains (&(state)->nodes, node)) @@ -1383,74 +1383,74 @@ sift_states_backward (preg, mctx, sctx) /* Update counters. */ null_cnt = (sctx->sifted_states[str_idx] == NULL) ? null_cnt + 1 : 0; if (null_cnt > mctx->max_mb_elem_len) - { - memset (sctx->sifted_states, '\0', - sizeof (re_dfastate_t *) * str_idx); - re_node_set_free (&cur_dest); - return REG_NOERROR; - } + { + memset (sctx->sifted_states, '\0', + sizeof (re_dfastate_t *) * str_idx); + re_node_set_free (&cur_dest); + return REG_NOERROR; + } re_node_set_empty (&cur_dest); --str_idx; cur_src = ((mctx->state_log[str_idx] == NULL) ? &empty_set - : &mctx->state_log[str_idx]->nodes); + : &mctx->state_log[str_idx]->nodes); /* Then build the next sifted state. - We build the next sifted state on `cur_dest', and update - `sifted_states[str_idx]' with `cur_dest'. - Note: - `cur_dest' is the sifted state from `state_log[str_idx + 1]'. - `cur_src' points the node_set of the old `state_log[str_idx]'. */ + We build the next sifted state on `cur_dest', and update + `sifted_states[str_idx]' with `cur_dest'. + Note: + `cur_dest' is the sifted state from `state_log[str_idx + 1]'. + `cur_src' points the node_set of the old `state_log[str_idx]'. */ for (i = 0; i < cur_src->nelem; i++) - { - int prev_node = cur_src->elems[i]; - int naccepted = 0; - re_token_type_t type = dfa->nodes[prev_node].type; + { + int prev_node = cur_src->elems[i]; + int naccepted = 0; + re_token_type_t type = dfa->nodes[prev_node].type; - if (IS_EPSILON_NODE(type)) - continue; + if (IS_EPSILON_NODE(type)) + continue; #ifdef RE_ENABLE_I18N - /* If the node may accept `multi byte'. */ - if (ACCEPT_MB_NODE (type)) - naccepted = sift_states_iter_mb (preg, mctx, sctx, prev_node, - str_idx, sctx->last_str_idx); + /* If the node may accept `multi byte'. */ + if (ACCEPT_MB_NODE (type)) + naccepted = sift_states_iter_mb (preg, mctx, sctx, prev_node, + str_idx, sctx->last_str_idx); #endif /* RE_ENABLE_I18N */ - /* We don't check backreferences here. - See update_cur_sifted_state(). */ - - if (!naccepted - && check_node_accept (preg, dfa->nodes + prev_node, mctx, - str_idx) - && STATE_NODE_CONTAINS (sctx->sifted_states[str_idx + 1], - dfa->nexts[prev_node])) - naccepted = 1; - - if (naccepted == 0) - continue; - - if (sctx->limits.nelem) - { - int to_idx = str_idx + naccepted; - if (check_dst_limits (dfa, &sctx->limits, mctx, - dfa->nexts[prev_node], to_idx, - prev_node, str_idx)) - continue; - } - ret = re_node_set_insert (&cur_dest, prev_node); - if (BE (ret == -1, 0)) - { - err = REG_ESPACE; - goto free_return; - } - } + /* We don't check backreferences here. + See update_cur_sifted_state(). */ + + if (!naccepted + && check_node_accept (preg, dfa->nodes + prev_node, mctx, + str_idx) + && STATE_NODE_CONTAINS (sctx->sifted_states[str_idx + 1], + dfa->nexts[prev_node])) + naccepted = 1; + + if (naccepted == 0) + continue; + + if (sctx->limits.nelem) + { + int to_idx = str_idx + naccepted; + if (check_dst_limits (dfa, &sctx->limits, mctx, + dfa->nexts[prev_node], to_idx, + prev_node, str_idx)) + continue; + } + ret = re_node_set_insert (&cur_dest, prev_node); + if (BE (ret == -1, 0)) + { + err = REG_ESPACE; + goto free_return; + } + } /* Add all the nodes which satisfy the following conditions: - - It can epsilon transit to a node in CUR_DEST. - - It is in CUR_SRC. - And update state_log. */ + - It can epsilon transit to a node in CUR_DEST. + - It is in CUR_SRC. + And update state_log. */ err = update_cur_sifted_state (preg, mctx, sctx, str_idx, &cur_dest); if (BE (err != REG_NOERROR, 0)) - goto free_return; + goto free_return; } err = REG_NOERROR; free_return: @@ -1469,18 +1469,18 @@ clean_state_log_if_need (mctx, next_state_log_idx) if (next_state_log_idx >= mctx->input->bufs_len || (next_state_log_idx >= mctx->input->valid_len - && mctx->input->valid_len < mctx->input->len)) + && mctx->input->valid_len < mctx->input->len)) { reg_errcode_t err; err = extend_buffers (mctx); if (BE (err != REG_NOERROR, 0)) - return err; + return err; } if (top < next_state_log_idx) { memset (mctx->state_log + top + 1, '\0', - sizeof (re_dfastate_t *) * (next_state_log_idx - top)); + sizeof (re_dfastate_t *) * (next_state_log_idx - top)); mctx->state_log_top = next_state_log_idx; } return REG_NOERROR; @@ -1498,19 +1498,19 @@ merge_state_array (dfa, dst, src, num) for (st_idx = 0; st_idx < num; ++st_idx) { if (dst[st_idx] == NULL) - dst[st_idx] = src[st_idx]; + dst[st_idx] = src[st_idx]; else if (src[st_idx] != NULL) - { - re_node_set merged_set; - err = re_node_set_init_union (&merged_set, &dst[st_idx]->nodes, - &src[st_idx]->nodes); - if (BE (err != REG_NOERROR, 0)) - return err; - dst[st_idx] = re_acquire_state (&err, dfa, &merged_set); - re_node_set_free (&merged_set); - if (BE (err != REG_NOERROR, 0)) - return err; - } + { + re_node_set merged_set; + err = re_node_set_init_union (&merged_set, &dst[st_idx]->nodes, + &src[st_idx]->nodes); + if (BE (err != REG_NOERROR, 0)) + return err; + dst[st_idx] = re_acquire_state (&err, dfa, &merged_set); + re_node_set_free (&merged_set); + if (BE (err != REG_NOERROR, 0)) + return err; + } } return REG_NOERROR; } @@ -1527,7 +1527,7 @@ update_cur_sifted_state (preg, mctx, sctx, str_idx, dest_nodes) re_dfa_t *dfa = (re_dfa_t *)preg->buffer; const re_node_set *candidates; candidates = ((mctx->state_log[str_idx] == NULL) ? &empty_set - : &mctx->state_log[str_idx]->nodes); + : &mctx->state_log[str_idx]->nodes); /* At first, add the nodes which can epsilon transit to a node in DEST_NODE. */ @@ -1542,9 +1542,9 @@ update_cur_sifted_state (preg, mctx, sctx, str_idx, dest_nodes) if (dest_nodes->nelem && sctx->limits.nelem) { err = check_subexp_limits (dfa, dest_nodes, candidates, &sctx->limits, - mctx->bkref_ents, str_idx); + mctx->bkref_ents, str_idx); if (BE (err != REG_NOERROR, 0)) - return err; + return err; } /* Update state_log. */ @@ -1558,7 +1558,7 @@ update_cur_sifted_state (preg, mctx, sctx, str_idx, dest_nodes) { err = search_subexp (preg, mctx, sctx, str_idx, dest_nodes); if (BE (err != REG_NOERROR, 0)) - return err; + return err; } if ((mctx->state_log[str_idx] != NULL @@ -1566,7 +1566,7 @@ update_cur_sifted_state (preg, mctx, sctx, str_idx, dest_nodes) { err = sift_states_bkref (preg, mctx, sctx, str_idx, dest_nodes); if (BE (err != REG_NOERROR, 0)) - return err; + return err; } return REG_NOERROR; } @@ -1587,13 +1587,13 @@ add_epsilon_src_nodes (dfa, dest_nodes, candidates) for (src_idx = 0; src_idx < src_copy.nelem; ++src_idx) { err = re_node_set_add_intersect (dest_nodes, candidates, - dfa->inveclosures - + src_copy.elems[src_idx]); + dfa->inveclosures + + src_copy.elems[src_idx]); if (BE (err != REG_NOERROR, 0)) - { - re_node_set_free (&src_copy); - return err; - } + { + re_node_set_free (&src_copy); + return err; + } } re_node_set_free (&src_copy); return REG_NOERROR; @@ -1613,38 +1613,38 @@ sub_epsilon_src_nodes (dfa, node, dest_nodes, candidates) re_node_set_init_empty (&except_nodes); for (ecl_idx = 0; ecl_idx < inv_eclosure->nelem; ++ecl_idx) { - int cur_node = inv_eclosure->elems[ecl_idx]; - if (cur_node == node) - continue; - if (IS_EPSILON_NODE (dfa->nodes[cur_node].type)) - { - int edst1 = dfa->edests[cur_node].elems[0]; - int edst2 = ((dfa->edests[cur_node].nelem > 1) - ? dfa->edests[cur_node].elems[1] : -1); - if ((!re_node_set_contains (inv_eclosure, edst1) - && re_node_set_contains (dest_nodes, edst1)) - || (edst2 > 0 - && !re_node_set_contains (inv_eclosure, edst2) - && re_node_set_contains (dest_nodes, edst2))) - { - err = re_node_set_add_intersect (&except_nodes, candidates, - dfa->inveclosures + cur_node); - if (BE (err != REG_NOERROR, 0)) - { - re_node_set_free (&except_nodes); - return err; - } - } - } + int cur_node = inv_eclosure->elems[ecl_idx]; + if (cur_node == node) + continue; + if (IS_EPSILON_NODE (dfa->nodes[cur_node].type)) + { + int edst1 = dfa->edests[cur_node].elems[0]; + int edst2 = ((dfa->edests[cur_node].nelem > 1) + ? dfa->edests[cur_node].elems[1] : -1); + if ((!re_node_set_contains (inv_eclosure, edst1) + && re_node_set_contains (dest_nodes, edst1)) + || (edst2 > 0 + && !re_node_set_contains (inv_eclosure, edst2) + && re_node_set_contains (dest_nodes, edst2))) + { + err = re_node_set_add_intersect (&except_nodes, candidates, + dfa->inveclosures + cur_node); + if (BE (err != REG_NOERROR, 0)) + { + re_node_set_free (&except_nodes); + return err; + } + } + } } for (ecl_idx = 0; ecl_idx < inv_eclosure->nelem; ++ecl_idx) { - int cur_node = inv_eclosure->elems[ecl_idx]; - if (!re_node_set_contains (&except_nodes, cur_node)) - { - int idx = re_node_set_contains (dest_nodes, cur_node) - 1; - re_node_set_remove_at (dest_nodes, idx); - } + int cur_node = inv_eclosure->elems[ecl_idx]; + if (!re_node_set_contains (&except_nodes, cur_node)) + { + int idx = re_node_set_contains (dest_nodes, cur_node) - 1; + re_node_set_remove_at (dest_nodes, idx); + } } re_node_set_free (&except_nodes); return REG_NOERROR; @@ -1667,27 +1667,27 @@ check_dst_limits (dfa, limits, mctx, dst_node, dst_idx, src_node, src_idx) subexp_idx = dfa->nodes[ent->node].opr.idx - 1; dst_pos = check_dst_limits_calc_pos (dfa, mctx, limits->elems[lim_idx], - dfa->eclosures + dst_node, - subexp_idx, dst_node, dst_idx); + dfa->eclosures + dst_node, + subexp_idx, dst_node, dst_idx); src_pos = check_dst_limits_calc_pos (dfa, mctx, limits->elems[lim_idx], - dfa->eclosures + src_node, - subexp_idx, src_node, src_idx); + dfa->eclosures + src_node, + subexp_idx, src_node, src_idx); /* In case of: - <src> <dst> ( <subexp> ) - ( <subexp> ) <src> <dst> - ( <subexp1> <src> <subexp2> <dst> <subexp3> ) */ + <src> <dst> ( <subexp> ) + ( <subexp> ) <src> <dst> + ( <subexp1> <src> <subexp2> <dst> <subexp3> ) */ if (src_pos == dst_pos) - continue; /* This is unrelated limitation. */ + continue; /* This is unrelated limitation. */ else - return 1; + return 1; } return 0; } static int check_dst_limits_calc_pos (dfa, mctx, limit, eclosures, subexp_idx, node, - str_idx) + str_idx) re_dfa_t *dfa; re_match_context_t *mctx; re_node_set *eclosures; @@ -1695,48 +1695,48 @@ check_dst_limits_calc_pos (dfa, mctx, limit, eclosures, subexp_idx, node, { struct re_backref_cache_entry *lim = mctx->bkref_ents + limit; int pos = (str_idx < lim->subexp_from ? -1 - : (lim->subexp_to < str_idx ? 1 : 0)); + : (lim->subexp_to < str_idx ? 1 : 0)); if (pos == 0 && (str_idx == lim->subexp_from || str_idx == lim->subexp_to)) { int node_idx; for (node_idx = 0; node_idx < eclosures->nelem; ++node_idx) - { - int node = eclosures->elems[node_idx]; - re_token_type_t type= dfa->nodes[node].type; - if (type == OP_BACK_REF) - { - int bi; - for (bi = 0; bi < mctx->nbkref_ents; ++bi) - { - struct re_backref_cache_entry *ent = mctx->bkref_ents + bi; - if (ent->node == node && ent->subexp_from == ent->subexp_to - && ent->str_idx == str_idx) - { - int cpos, dst; - dst = dfa->edests[node].elems[0]; - cpos = check_dst_limits_calc_pos (dfa, mctx, limit, - dfa->eclosures + dst, - subexp_idx, dst, - str_idx); - if ((str_idx == lim->subexp_from && cpos == -1) - || (str_idx == lim->subexp_to && cpos == 0)) - return cpos; - } - } - } - if (type == OP_OPEN_SUBEXP && subexp_idx == dfa->nodes[node].opr.idx - && str_idx == lim->subexp_from) - { - pos = -1; - break; - } - if (type == OP_CLOSE_SUBEXP && subexp_idx == dfa->nodes[node].opr.idx - && str_idx == lim->subexp_to) - break; - } + { + int node = eclosures->elems[node_idx]; + re_token_type_t type= dfa->nodes[node].type; + if (type == OP_BACK_REF) + { + int bi; + for (bi = 0; bi < mctx->nbkref_ents; ++bi) + { + struct re_backref_cache_entry *ent = mctx->bkref_ents + bi; + if (ent->node == node && ent->subexp_from == ent->subexp_to + && ent->str_idx == str_idx) + { + int cpos, dst; + dst = dfa->edests[node].elems[0]; + cpos = check_dst_limits_calc_pos (dfa, mctx, limit, + dfa->eclosures + dst, + subexp_idx, dst, + str_idx); + if ((str_idx == lim->subexp_from && cpos == -1) + || (str_idx == lim->subexp_to && cpos == 0)) + return cpos; + } + } + } + if (type == OP_OPEN_SUBEXP && subexp_idx == dfa->nodes[node].opr.idx + && str_idx == lim->subexp_from) + { + pos = -1; + break; + } + if (type == OP_CLOSE_SUBEXP && subexp_idx == dfa->nodes[node].opr.idx + && str_idx == lim->subexp_to) + break; + } if (node_idx == eclosures->nelem && str_idx == lim->subexp_to) - pos = 1; + pos = 1; } return pos; } @@ -1763,74 +1763,74 @@ check_subexp_limits (dfa, dest_nodes, candidates, limits, bkref_ents, str_idx) ent = bkref_ents + limits->elems[lim_idx]; if (str_idx <= ent->subexp_from || ent->str_idx < str_idx) - continue; /* This is unrelated limitation. */ + continue; /* This is unrelated limitation. */ subexp_idx = dfa->nodes[ent->node].opr.idx - 1; if (ent->subexp_to == str_idx) - { - int ops_node = -1; - int cls_node = -1; - for (node_idx = 0; node_idx < dest_nodes->nelem; ++node_idx) - { - int node = dest_nodes->elems[node_idx]; - re_token_type_t type= dfa->nodes[node].type; - if (type == OP_OPEN_SUBEXP - && subexp_idx == dfa->nodes[node].opr.idx) - ops_node = node; - else if (type == OP_CLOSE_SUBEXP - && subexp_idx == dfa->nodes[node].opr.idx) - cls_node = node; - } - - /* Check the limitation of the open subexpression. */ - /* Note that (ent->subexp_to = str_idx != ent->subexp_from). */ - if (ops_node >= 0) - { - err = sub_epsilon_src_nodes(dfa, ops_node, dest_nodes, - candidates); - if (BE (err != REG_NOERROR, 0)) - return err; - } - /* Check the limitation of the close subexpression. */ - for (node_idx = 0; node_idx < dest_nodes->nelem; ++node_idx) - { - int node = dest_nodes->elems[node_idx]; - if (!re_node_set_contains (dfa->inveclosures + node, cls_node) - && !re_node_set_contains (dfa->eclosures + node, cls_node)) - { - /* It is against this limitation. - Remove it form the current sifted state. */ - err = sub_epsilon_src_nodes(dfa, node, dest_nodes, - candidates); - if (BE (err != REG_NOERROR, 0)) - return err; - --node_idx; - } - } - } + { + int ops_node = -1; + int cls_node = -1; + for (node_idx = 0; node_idx < dest_nodes->nelem; ++node_idx) + { + int node = dest_nodes->elems[node_idx]; + re_token_type_t type= dfa->nodes[node].type; + if (type == OP_OPEN_SUBEXP + && subexp_idx == dfa->nodes[node].opr.idx) + ops_node = node; + else if (type == OP_CLOSE_SUBEXP + && subexp_idx == dfa->nodes[node].opr.idx) + cls_node = node; + } + + /* Check the limitation of the open subexpression. */ + /* Note that (ent->subexp_to = str_idx != ent->subexp_from). */ + if (ops_node >= 0) + { + err = sub_epsilon_src_nodes(dfa, ops_node, dest_nodes, + candidates); + if (BE (err != REG_NOERROR, 0)) + return err; + } + /* Check the limitation of the close subexpression. */ + for (node_idx = 0; node_idx < dest_nodes->nelem; ++node_idx) + { + int node = dest_nodes->elems[node_idx]; + if (!re_node_set_contains (dfa->inveclosures + node, cls_node) + && !re_node_set_contains (dfa->eclosures + node, cls_node)) + { + /* It is against this limitation. + Remove it form the current sifted state. */ + err = sub_epsilon_src_nodes(dfa, node, dest_nodes, + candidates); + if (BE (err != REG_NOERROR, 0)) + return err; + --node_idx; + } + } + } else /* (ent->subexp_to != str_idx) */ - { - for (node_idx = 0; node_idx < dest_nodes->nelem; ++node_idx) - { - int node = dest_nodes->elems[node_idx]; - re_token_type_t type= dfa->nodes[node].type; - if (type == OP_CLOSE_SUBEXP || type == OP_OPEN_SUBEXP) - { - if (subexp_idx != dfa->nodes[node].opr.idx) - continue; - if ((type == OP_CLOSE_SUBEXP && ent->subexp_to != str_idx) - || (type == OP_OPEN_SUBEXP)) - { - /* It is against this limitation. - Remove it form the current sifted state. */ - err = sub_epsilon_src_nodes(dfa, node, dest_nodes, - candidates); - if (BE (err != REG_NOERROR, 0)) - return err; - } - } - } - } + { + for (node_idx = 0; node_idx < dest_nodes->nelem; ++node_idx) + { + int node = dest_nodes->elems[node_idx]; + re_token_type_t type= dfa->nodes[node].type; + if (type == OP_CLOSE_SUBEXP || type == OP_OPEN_SUBEXP) + { + if (subexp_idx != dfa->nodes[node].opr.idx) + continue; + if ((type == OP_CLOSE_SUBEXP && ent->subexp_to != str_idx) + || (type == OP_OPEN_SUBEXP)) + { + /* It is against this limitation. + Remove it form the current sifted state. */ + err = sub_epsilon_src_nodes(dfa, node, dest_nodes, + candidates); + if (BE (err != REG_NOERROR, 0)) + return err; + } + } + } + } } return REG_NOERROR; } @@ -1854,7 +1854,7 @@ search_subexp (preg, mctx, sctx, str_idx, dest_nodes) const re_node_set *candidates; re_dfastate_t **lim_states = NULL; candidates = ((mctx->state_log[str_idx] == NULL) ? &empty_set - : &mctx->state_log[str_idx]->nodes); + : &mctx->state_log[str_idx]->nodes); local_sctx.sifted_states = NULL; /* Mark that it hasn't been initialized. */ for (node_idx = 0; node_idx < dest_nodes->nelem; ++node_idx) @@ -1864,104 +1864,104 @@ search_subexp (preg, mctx, sctx, str_idx, dest_nodes) type = dfa->nodes[node].type; if (type == OP_CLOSE_SUBEXP - && sctx->check_subexp == dfa->nodes[node].opr.idx + 1) - { - re_dfastate_t *cur_state; - /* Found the bottom of the subexpression, then search for the - top of it. */ - if (local_sctx.sifted_states == NULL) - { - /* It hasn't been initialized yet, initialize it now. */ - local_sctx = *sctx; - err = re_node_set_init_copy (&local_sctx.limits, &sctx->limits); - if (BE (err != REG_NOERROR, 0)) - goto free_return; - } - local_sctx.check_subexp = -sctx->check_subexp; - local_sctx.limited_states = sctx->limited_states; - local_sctx.last_node = node; - local_sctx.last_str_idx = local_sctx.cls_subexp_idx = str_idx; - cur_state = local_sctx.sifted_states[str_idx]; - err = sift_states_backward (preg, mctx, &local_sctx); - local_sctx.sifted_states[str_idx] = cur_state; - if (BE (err != REG_NOERROR, 0)) - goto free_return; - /* There must not 2 same node in a node set. */ - break; - } + && sctx->check_subexp == dfa->nodes[node].opr.idx + 1) + { + re_dfastate_t *cur_state; + /* Found the bottom of the subexpression, then search for the + top of it. */ + if (local_sctx.sifted_states == NULL) + { + /* It hasn't been initialized yet, initialize it now. */ + local_sctx = *sctx; + err = re_node_set_init_copy (&local_sctx.limits, &sctx->limits); + if (BE (err != REG_NOERROR, 0)) + goto free_return; + } + local_sctx.check_subexp = -sctx->check_subexp; + local_sctx.limited_states = sctx->limited_states; + local_sctx.last_node = node; + local_sctx.last_str_idx = local_sctx.cls_subexp_idx = str_idx; + cur_state = local_sctx.sifted_states[str_idx]; + err = sift_states_backward (preg, mctx, &local_sctx); + local_sctx.sifted_states[str_idx] = cur_state; + if (BE (err != REG_NOERROR, 0)) + goto free_return; + /* There must not 2 same node in a node set. */ + break; + } else if (type == OP_OPEN_SUBEXP - && -sctx->check_subexp == dfa->nodes[node].opr.idx + 1) - { - /* Found the top of the subexpression, check that the - backreference can match the input string. */ - char *buf; - int dest_str_idx; - int bkref_str_idx = re_string_cur_idx (mctx->input); - int subexp_len = sctx->cls_subexp_idx - str_idx; - if (subexp_len < 0 || bkref_str_idx + subexp_len > mctx->input->len) - break; - - if (bkref_str_idx + subexp_len > mctx->input->valid_len - && mctx->input->valid_len < mctx->input->len) - { - reg_errcode_t err; - err = extend_buffers (mctx); - if (BE (err != REG_NOERROR, 0)) - goto free_return; - } - buf = (char *) re_string_get_buffer (mctx->input); - if (strncmp (buf + str_idx, buf + bkref_str_idx, subexp_len) != 0) - break; - - if (sctx->limits.nelem && str_idx > 0) - { - re_dfastate_t *cur_state = sctx->sifted_states[str_idx]; - if (lim_states == NULL) - { - lim_states = re_malloc (re_dfastate_t *, str_idx + 1); - if (BE (lim_states == NULL, 0)) - { - err = REG_ESPACE; - goto free_return; - } - } - if (local_sctx.sifted_states == NULL) - { - /* It hasn't been initialized yet, initialize it now. */ - local_sctx = *sctx; - err = re_node_set_init_copy (&local_sctx.limits, - &sctx->limits); - if (BE (err != REG_NOERROR, 0)) - goto free_return; - } - local_sctx.check_subexp = 0; - local_sctx.last_node = node; - local_sctx.last_str_idx = str_idx; - local_sctx.limited_states = lim_states; - memset (lim_states, '\0', - sizeof (re_dfastate_t*) * (str_idx + 1)); - err = sift_states_backward (preg, mctx, &local_sctx); - if (BE (err != REG_NOERROR, 0)) - goto free_return; - if (local_sctx.sifted_states[0] == NULL - && local_sctx.limited_states[0] == NULL) - { - sctx->sifted_states[str_idx] = cur_state; - break; - } - sctx->sifted_states[str_idx] = cur_state; - } - /* Successfully matched, add a new cache entry. */ - dest_str_idx = bkref_str_idx + subexp_len; - err = match_ctx_add_entry (mctx, sctx->cur_bkref, bkref_str_idx, - str_idx, sctx->cls_subexp_idx); - if (BE (err != REG_NOERROR, 0)) - goto free_return; - err = clean_state_log_if_need (mctx, dest_str_idx); - if (BE (err != REG_NOERROR, 0)) - goto free_return; - break; - } + && -sctx->check_subexp == dfa->nodes[node].opr.idx + 1) + { + /* Found the top of the subexpression, check that the + backreference can match the input string. */ + char *buf; + int dest_str_idx; + int bkref_str_idx = re_string_cur_idx (mctx->input); + int subexp_len = sctx->cls_subexp_idx - str_idx; + if (subexp_len < 0 || bkref_str_idx + subexp_len > mctx->input->len) + break; + + if (bkref_str_idx + subexp_len > mctx->input->valid_len + && mctx->input->valid_len < mctx->input->len) + { + reg_errcode_t err; + err = extend_buffers (mctx); + if (BE (err != REG_NOERROR, 0)) + goto free_return; + } + buf = (char *) re_string_get_buffer (mctx->input); + if (strncmp (buf + str_idx, buf + bkref_str_idx, subexp_len) != 0) + break; + + if (sctx->limits.nelem && str_idx > 0) + { + re_dfastate_t *cur_state = sctx->sifted_states[str_idx]; + if (lim_states == NULL) + { + lim_states = re_malloc (re_dfastate_t *, str_idx + 1); + if (BE (lim_states == NULL, 0)) + { + err = REG_ESPACE; + goto free_return; + } + } + if (local_sctx.sifted_states == NULL) + { + /* It hasn't been initialized yet, initialize it now. */ + local_sctx = *sctx; + err = re_node_set_init_copy (&local_sctx.limits, + &sctx->limits); + if (BE (err != REG_NOERROR, 0)) + goto free_return; + } + local_sctx.check_subexp = 0; + local_sctx.last_node = node; + local_sctx.last_str_idx = str_idx; + local_sctx.limited_states = lim_states; + memset (lim_states, '\0', + sizeof (re_dfastate_t*) * (str_idx + 1)); + err = sift_states_backward (preg, mctx, &local_sctx); + if (BE (err != REG_NOERROR, 0)) + goto free_return; + if (local_sctx.sifted_states[0] == NULL + && local_sctx.limited_states[0] == NULL) + { + sctx->sifted_states[str_idx] = cur_state; + break; + } + sctx->sifted_states[str_idx] = cur_state; + } + /* Successfully matched, add a new cache entry. */ + dest_str_idx = bkref_str_idx + subexp_len; + err = match_ctx_add_entry (mctx, sctx->cur_bkref, bkref_str_idx, + str_idx, sctx->cls_subexp_idx); + if (BE (err != REG_NOERROR, 0)) + goto free_return; + err = clean_state_log_if_need (mctx, dest_str_idx); + if (BE (err != REG_NOERROR, 0)) + goto free_return; + break; + } } /* Remove the top/bottom of the sub expression we processed. */ @@ -1969,11 +1969,11 @@ search_subexp (preg, mctx, sctx, str_idx, dest_nodes) { err = sub_epsilon_src_nodes(dfa, node, dest_nodes, candidates); if (BE (err != REG_NOERROR, 0)) - goto free_return; + goto free_return; /* Update state_log. */ sctx->sifted_states[str_idx] = re_acquire_state (&err, dfa, dest_nodes); if (BE (err != REG_NOERROR, 0)) - goto free_return; + goto free_return; } err = REG_NOERROR; free_return: @@ -1998,7 +1998,7 @@ sift_states_bkref (preg, mctx, sctx, str_idx, dest_nodes) re_sift_context_t local_sctx; const re_node_set *candidates; candidates = ((mctx->state_log[str_idx] == NULL) ? &empty_set - : &mctx->state_log[str_idx]->nodes); + : &mctx->state_log[str_idx]->nodes); local_sctx.sifted_states = NULL; /* Mark that it hasn't been initialized. */ for (node_idx = 0; node_idx < candidates->nelem; ++node_idx) @@ -2008,107 +2008,107 @@ sift_states_bkref (preg, mctx, sctx, str_idx, dest_nodes) node = candidates->elems[node_idx]; type = dfa->nodes[node].type; if (node == sctx->cur_bkref && str_idx == cur_bkref_idx) - continue; + continue; /* Avoid infinite loop for the REs like "()\1+". */ if (node == sctx->last_node && str_idx == sctx->last_str_idx) - continue; + continue; if (type == OP_BACK_REF) - { - int enabled_idx; - for (enabled_idx = 0; enabled_idx < mctx->nbkref_ents; ++enabled_idx) - { - int disabled_idx, subexp_len, to_idx, dst_node; - struct re_backref_cache_entry *entry; - entry = mctx->bkref_ents + enabled_idx; - subexp_len = entry->subexp_to - entry->subexp_from; - to_idx = str_idx + subexp_len; - dst_node = (subexp_len ? dfa->nexts[node] - : dfa->edests[node].elems[0]); - - if (entry->node != node || entry->str_idx != str_idx - || to_idx > sctx->last_str_idx - || sctx->sifted_states[to_idx] == NULL) - continue; - if (!STATE_NODE_CONTAINS (sctx->sifted_states[to_idx], dst_node)) - continue; - - if (check_dst_limits (dfa, &sctx->limits, mctx, node, - str_idx, dst_node, to_idx)) - continue; - if (sctx->check_subexp == dfa->nodes[node].opr.idx) - { - char *buf; - buf = (char *) re_string_get_buffer (mctx->input); - if (strncmp (buf + entry->subexp_from, - buf + cur_bkref_idx, subexp_len) != 0) - continue; - err = match_ctx_add_entry (mctx, sctx->cur_bkref, - cur_bkref_idx, entry->subexp_from, - entry->subexp_to); - if (BE (err != REG_NOERROR, 0)) + { + int enabled_idx; + for (enabled_idx = 0; enabled_idx < mctx->nbkref_ents; ++enabled_idx) + { + int disabled_idx, subexp_len, to_idx, dst_node; + struct re_backref_cache_entry *entry; + entry = mctx->bkref_ents + enabled_idx; + subexp_len = entry->subexp_to - entry->subexp_from; + to_idx = str_idx + subexp_len; + dst_node = (subexp_len ? dfa->nexts[node] + : dfa->edests[node].elems[0]); + + if (entry->node != node || entry->str_idx != str_idx + || to_idx > sctx->last_str_idx + || sctx->sifted_states[to_idx] == NULL) + continue; + if (!STATE_NODE_CONTAINS (sctx->sifted_states[to_idx], dst_node)) + continue; + + if (check_dst_limits (dfa, &sctx->limits, mctx, node, + str_idx, dst_node, to_idx)) + continue; + if (sctx->check_subexp == dfa->nodes[node].opr.idx) + { + char *buf; + buf = (char *) re_string_get_buffer (mctx->input); + if (strncmp (buf + entry->subexp_from, + buf + cur_bkref_idx, subexp_len) != 0) + continue; + err = match_ctx_add_entry (mctx, sctx->cur_bkref, + cur_bkref_idx, entry->subexp_from, + entry->subexp_to); + if (BE (err != REG_NOERROR, 0)) goto free_return; - err = clean_state_log_if_need (mctx, cur_bkref_idx - + subexp_len); - if (BE (err != REG_NOERROR, 0)) + err = clean_state_log_if_need (mctx, cur_bkref_idx + + subexp_len); + if (BE (err != REG_NOERROR, 0)) goto free_return; - } - else - { - re_dfastate_t *cur_state; - entry->flag = 0; - for (disabled_idx = enabled_idx + 1; - disabled_idx < mctx->nbkref_ents; ++disabled_idx) - { - struct re_backref_cache_entry *entry2; - entry2 = mctx->bkref_ents + disabled_idx; - if (entry2->node != node || entry2->str_idx != str_idx) - continue; - entry2->flag = 1; - } - - if (local_sctx.sifted_states == NULL) - { - local_sctx = *sctx; - err = re_node_set_init_copy (&local_sctx.limits, - &sctx->limits); - if (BE (err != REG_NOERROR, 0)) + } + else + { + re_dfastate_t *cur_state; + entry->flag = 0; + for (disabled_idx = enabled_idx + 1; + disabled_idx < mctx->nbkref_ents; ++disabled_idx) + { + struct re_backref_cache_entry *entry2; + entry2 = mctx->bkref_ents + disabled_idx; + if (entry2->node != node || entry2->str_idx != str_idx) + continue; + entry2->flag = 1; + } + + if (local_sctx.sifted_states == NULL) + { + local_sctx = *sctx; + err = re_node_set_init_copy (&local_sctx.limits, + &sctx->limits); + if (BE (err != REG_NOERROR, 0)) goto free_return; - } - local_sctx.last_node = node; - local_sctx.last_str_idx = str_idx; - err = re_node_set_insert (&local_sctx.limits, enabled_idx); - if (BE (err < 0, 0)) + } + local_sctx.last_node = node; + local_sctx.last_str_idx = str_idx; + err = re_node_set_insert (&local_sctx.limits, enabled_idx); + if (BE (err < 0, 0)) { err = REG_ESPACE; goto free_return; } - cur_state = local_sctx.sifted_states[str_idx]; - err = sift_states_backward (preg, mctx, &local_sctx); - if (BE (err != REG_NOERROR, 0)) + cur_state = local_sctx.sifted_states[str_idx]; + err = sift_states_backward (preg, mctx, &local_sctx); + if (BE (err != REG_NOERROR, 0)) goto free_return; - if (sctx->limited_states != NULL) - { - err = merge_state_array (dfa, sctx->limited_states, - local_sctx.sifted_states, - str_idx + 1); - if (BE (err != REG_NOERROR, 0)) - goto free_return; - } - local_sctx.sifted_states[str_idx] = cur_state; - re_node_set_remove (&local_sctx.limits, enabled_idx); + if (sctx->limited_states != NULL) + { + err = merge_state_array (dfa, sctx->limited_states, + local_sctx.sifted_states, + str_idx + 1); + if (BE (err != REG_NOERROR, 0)) + goto free_return; + } + local_sctx.sifted_states[str_idx] = cur_state; + re_node_set_remove (&local_sctx.limits, enabled_idx); /* We must not use the variable entry here, since mctx->bkref_ents might be realloced. */ mctx->bkref_ents[enabled_idx].flag = 1; - } - } - for (enabled_idx = 0; enabled_idx < mctx->nbkref_ents; ++enabled_idx) - { - struct re_backref_cache_entry *entry; - entry = mctx->bkref_ents + enabled_idx; - if (entry->node == node && entry->str_idx == str_idx) - entry->flag = 0; - } - } + } + } + for (enabled_idx = 0; enabled_idx < mctx->nbkref_ents; ++enabled_idx) + { + struct re_backref_cache_entry *entry; + entry = mctx->bkref_ents + enabled_idx; + if (entry->node == node && entry->str_idx == str_idx) + entry->flag = 0; + } + } } err = REG_NOERROR; free_return: @@ -2135,7 +2135,7 @@ sift_states_iter_mb (preg, mctx, sctx, node_idx, str_idx, max_str_idx) naccepted = check_node_accept_bytes (preg, node_idx, mctx->input, str_idx); if (naccepted > 0 && str_idx + naccepted <= max_str_idx && !STATE_NODE_CONTAINS (sctx->sifted_states[str_idx + naccepted], - dfa->nexts[node_idx])) + dfa->nexts[node_idx])) /* The node can't accept the `multi byte', or the destination was already throwed away, then the node could't accept the current input `multi byte'. */ @@ -2168,11 +2168,11 @@ transit_state (err, preg, mctx, state, fl_search) if (re_string_cur_idx (mctx->input) + 1 >= mctx->input->bufs_len || (re_string_cur_idx (mctx->input) + 1 >= mctx->input->valid_len - && mctx->input->valid_len < mctx->input->len)) + && mctx->input->valid_len < mctx->input->len)) { *err = extend_buffers (mctx); if (BE (*err != REG_NOERROR, 0)) - return NULL; + return NULL; } *err = REG_NOERROR; @@ -2186,36 +2186,36 @@ transit_state (err, preg, mctx, state, fl_search) #ifdef RE_ENABLE_I18N /* If the current state can accept multibyte. */ if (state->accept_mb) - { - *err = transit_state_mb (preg, state, mctx); - if (BE (*err != REG_NOERROR, 0)) - return NULL; - } + { + *err = transit_state_mb (preg, state, mctx); + if (BE (*err != REG_NOERROR, 0)) + return NULL; + } #endif /* RE_ENABLE_I18N */ /* Then decide the next state with the single byte. */ if (1) - { - /* Use transition table */ - ch = re_string_fetch_byte (mctx->input); - trtable = fl_search ? state->trtable_search : state->trtable; - if (trtable == NULL) - { - trtable = build_trtable (preg, state, fl_search); - if (fl_search) - state->trtable_search = trtable; - else - state->trtable = trtable; - } - next_state = trtable[ch]; - } + { + /* Use transition table */ + ch = re_string_fetch_byte (mctx->input); + trtable = fl_search ? state->trtable_search : state->trtable; + if (trtable == NULL) + { + trtable = build_trtable (preg, state, fl_search); + if (fl_search) + state->trtable_search = trtable; + else + state->trtable = trtable; + } + next_state = trtable[ch]; + } else - { - /* don't use transition table */ - next_state = transit_state_sb (err, preg, state, fl_search, mctx); - if (BE (next_state == NULL && err != REG_NOERROR, 0)) - return NULL; - } + { + /* don't use transition table */ + next_state = transit_state_sb (err, preg, state, fl_search, mctx); + if (BE (next_state == NULL && err != REG_NOERROR, 0)) + return NULL; + } } /* Update the state_log if we need. */ @@ -2223,57 +2223,57 @@ transit_state (err, preg, mctx, state, fl_search) { int cur_idx = re_string_cur_idx (mctx->input); if (cur_idx > mctx->state_log_top) - { - mctx->state_log[cur_idx] = next_state; - mctx->state_log_top = cur_idx; - } + { + mctx->state_log[cur_idx] = next_state; + mctx->state_log_top = cur_idx; + } else if (mctx->state_log[cur_idx] == 0) - { - mctx->state_log[cur_idx] = next_state; - } + { + mctx->state_log[cur_idx] = next_state; + } else - { - re_dfastate_t *pstate; - unsigned int context; - re_node_set next_nodes, *log_nodes, *table_nodes = NULL; - /* If (state_log[cur_idx] != 0), it implies that cur_idx is - the destination of a multibyte char/collating element/ - back reference. Then the next state is the union set of - these destinations and the results of the transition table. */ - pstate = mctx->state_log[cur_idx]; - log_nodes = pstate->entrance_nodes; - if (next_state != NULL) - { - table_nodes = next_state->entrance_nodes; - *err = re_node_set_init_union (&next_nodes, table_nodes, - log_nodes); - if (BE (*err != REG_NOERROR, 0)) - return NULL; - } - else - next_nodes = *log_nodes; - /* Note: We already add the nodes of the initial state, - then we don't need to add them here. */ - - context = re_string_context_at (mctx->input, - re_string_cur_idx (mctx->input) - 1, - mctx->eflags, preg->newline_anchor); - next_state = mctx->state_log[cur_idx] - = re_acquire_state_context (err, dfa, &next_nodes, context); - /* We don't need to check errors here, since the return value of - this function is next_state and ERR is already set. */ - - if (table_nodes != NULL) - re_node_set_free (&next_nodes); - } + { + re_dfastate_t *pstate; + unsigned int context; + re_node_set next_nodes, *log_nodes, *table_nodes = NULL; + /* If (state_log[cur_idx] != 0), it implies that cur_idx is + the destination of a multibyte char/collating element/ + back reference. Then the next state is the union set of + these destinations and the results of the transition table. */ + pstate = mctx->state_log[cur_idx]; + log_nodes = pstate->entrance_nodes; + if (next_state != NULL) + { + table_nodes = next_state->entrance_nodes; + *err = re_node_set_init_union (&next_nodes, table_nodes, + log_nodes); + if (BE (*err != REG_NOERROR, 0)) + return NULL; + } + else + next_nodes = *log_nodes; + /* Note: We already add the nodes of the initial state, + then we don't need to add them here. */ + + context = re_string_context_at (mctx->input, + re_string_cur_idx (mctx->input) - 1, + mctx->eflags, preg->newline_anchor); + next_state = mctx->state_log[cur_idx] + = re_acquire_state_context (err, dfa, &next_nodes, context); + /* We don't need to check errors here, since the return value of + this function is next_state and ERR is already set. */ + + if (table_nodes != NULL) + re_node_set_free (&next_nodes); + } /* If the next state has back references. */ if (next_state != NULL && next_state->has_backref) - { - *err = transit_state_bkref (preg, next_state, mctx); - if (BE (*err != REG_NOERROR, 0)) - return NULL; - next_state = mctx->state_log[cur_idx]; - } + { + *err = transit_state_bkref (preg, next_state, mctx); + if (BE (*err != REG_NOERROR, 0)) + return NULL; + next_state = mctx->state_log[cur_idx]; + } } return next_state; } @@ -2304,41 +2304,41 @@ transit_state_sb (err, preg, state, fl_search, mctx) { int cur_node = state->nodes.elems[node_cnt]; if (check_node_accept (preg, dfa->nodes + cur_node, mctx, cur_str_idx)) - { - *err = re_node_set_merge (&next_nodes, - dfa->eclosures + dfa->nexts[cur_node]); - if (BE (*err != REG_NOERROR, 0)) - { - re_node_set_free (&next_nodes); - return NULL; - } - } + { + *err = re_node_set_merge (&next_nodes, + dfa->eclosures + dfa->nexts[cur_node]); + if (BE (*err != REG_NOERROR, 0)) + { + re_node_set_free (&next_nodes); + return NULL; + } + } } if (fl_search) { #ifdef RE_ENABLE_I18N int not_initial = 0; if (MB_CUR_MAX > 1) - for (node_cnt = 0; node_cnt < next_nodes.nelem; ++node_cnt) - if (dfa->nodes[next_nodes.elems[node_cnt]].type == CHARACTER) - { - not_initial = dfa->nodes[next_nodes.elems[node_cnt]].mb_partial; - break; - } + for (node_cnt = 0; node_cnt < next_nodes.nelem; ++node_cnt) + if (dfa->nodes[next_nodes.elems[node_cnt]].type == CHARACTER) + { + not_initial = dfa->nodes[next_nodes.elems[node_cnt]].mb_partial; + break; + } if (!not_initial) #endif - { - *err = re_node_set_merge (&next_nodes, - dfa->init_state->entrance_nodes); - if (BE (*err != REG_NOERROR, 0)) - { - re_node_set_free (&next_nodes); - return NULL; - } - } + { + *err = re_node_set_merge (&next_nodes, + dfa->init_state->entrance_nodes); + if (BE (*err != REG_NOERROR, 0)) + { + re_node_set_free (&next_nodes); + return NULL; + } + } } context = re_string_context_at (mctx->input, cur_str_idx, mctx->eflags, - preg->newline_anchor); + preg->newline_anchor); next_state = re_acquire_state_context (err, dfa, &next_nodes, context); /* We don't need to check errors here, since the return value of this function is next_state and ERR is already set. */ @@ -2368,54 +2368,54 @@ transit_state_mb (preg, pstate, mctx) re_dfastate_t *dest_state; if (dfa->nodes[cur_node_idx].constraint) - { - context = re_string_context_at (mctx->input, - re_string_cur_idx (mctx->input), - mctx->eflags, preg->newline_anchor); - if (NOT_SATISFY_NEXT_CONSTRAINT (dfa->nodes[cur_node_idx].constraint, - context)) - continue; - } + { + context = re_string_context_at (mctx->input, + re_string_cur_idx (mctx->input), + mctx->eflags, preg->newline_anchor); + if (NOT_SATISFY_NEXT_CONSTRAINT (dfa->nodes[cur_node_idx].constraint, + context)) + continue; + } /* How many bytes the node can accepts? */ if (ACCEPT_MB_NODE (dfa->nodes[cur_node_idx].type)) - naccepted = check_node_accept_bytes (preg, cur_node_idx, mctx->input, - re_string_cur_idx (mctx->input)); + naccepted = check_node_accept_bytes (preg, cur_node_idx, mctx->input, + re_string_cur_idx (mctx->input)); if (naccepted == 0) - continue; + continue; /* The node can accepts `naccepted' bytes. */ dest_idx = re_string_cur_idx (mctx->input) + naccepted; mctx->max_mb_elem_len = ((mctx->max_mb_elem_len < naccepted) ? naccepted - : mctx->max_mb_elem_len); + : mctx->max_mb_elem_len); err = clean_state_log_if_need (mctx, dest_idx); if (BE (err != REG_NOERROR, 0)) - return err; + return err; #ifdef DEBUG assert (dfa->nexts[cur_node_idx] != -1); #endif /* `cur_node_idx' may point the entity of the OP_CONTEXT_NODE, - then we use pstate->nodes.elems[i] instead. */ + then we use pstate->nodes.elems[i] instead. */ new_nodes = dfa->eclosures + dfa->nexts[pstate->nodes.elems[i]]; dest_state = mctx->state_log[dest_idx]; if (dest_state == NULL) - dest_nodes = *new_nodes; + dest_nodes = *new_nodes; else - { - err = re_node_set_init_union (&dest_nodes, - dest_state->entrance_nodes, new_nodes); - if (BE (err != REG_NOERROR, 0)) - return err; - } + { + err = re_node_set_init_union (&dest_nodes, + dest_state->entrance_nodes, new_nodes); + if (BE (err != REG_NOERROR, 0)) + return err; + } context = re_string_context_at (mctx->input, dest_idx - 1, mctx->eflags, - preg->newline_anchor); + preg->newline_anchor); mctx->state_log[dest_idx] - = re_acquire_state_context (&err, dfa, &dest_nodes, context); + = re_acquire_state_context (&err, dfa, &dest_nodes, context); if (dest_state != NULL) - re_node_set_free (&dest_nodes); + re_node_set_free (&dest_nodes); if (BE (mctx->state_log[dest_idx] == NULL && err != REG_NOERROR, 0)) - return err; + return err; } return REG_NOERROR; } @@ -2431,7 +2431,7 @@ transit_state_bkref (preg, pstate, mctx) re_dfastate_t **work_state_log; work_state_log = re_malloc (re_dfastate_t *, - re_string_cur_idx (mctx->input) + 1); + re_string_cur_idx (mctx->input) + 1); if (BE (work_state_log == NULL, 0)) return REG_ESPACE; @@ -2468,92 +2468,92 @@ transit_state_bkref_loop (preg, nodes, work_state_log, mctx) /* Check whether `node' is a backreference or not. */ if (node->type == OP_BACK_REF) - subexp_idx = node->opr.idx; + subexp_idx = node->opr.idx; else - continue; + continue; if (node->constraint) - { - context = re_string_context_at (mctx->input, cur_str_idx, - mctx->eflags, preg->newline_anchor); - if (NOT_SATISFY_NEXT_CONSTRAINT (node->constraint, context)) - continue; - } + { + context = re_string_context_at (mctx->input, cur_str_idx, + mctx->eflags, preg->newline_anchor); + if (NOT_SATISFY_NEXT_CONSTRAINT (node->constraint, context)) + continue; + } /* `node' is a backreference. - Check the substring which the substring matched. */ + Check the substring which the substring matched. */ sift_ctx_init (&sctx, work_state_log, NULL, node_idx, cur_str_idx, - subexp_idx); + subexp_idx); sctx.cur_bkref = node_idx; match_ctx_clear_flag (mctx); err = sift_states_backward (preg, mctx, &sctx); if (BE (err != REG_NOERROR, 0)) - goto free_return; + goto free_return; /* And add the epsilon closures (which is `new_dest_nodes') of - the backreference to appropriate state_log. */ + the backreference to appropriate state_log. */ #ifdef DEBUG assert (dfa->nexts[node_idx] != -1); #endif for (bkc_idx = 0; bkc_idx < mctx->nbkref_ents; ++bkc_idx) - { - int subexp_len; - re_dfastate_t *dest_state; - struct re_backref_cache_entry *bkref_ent; - bkref_ent = mctx->bkref_ents + bkc_idx; - if (bkref_ent->node != node_idx || bkref_ent->str_idx != cur_str_idx) - continue; - subexp_len = bkref_ent->subexp_to - bkref_ent->subexp_from; - new_dest_nodes = (subexp_len == 0 - ? dfa->eclosures + dfa->edests[node_idx].elems[0] - : dfa->eclosures + dfa->nexts[node_idx]); - dest_str_idx = (cur_str_idx + bkref_ent->subexp_to - - bkref_ent->subexp_from); - context = (IS_WORD_CHAR (re_string_byte_at (mctx->input, - dest_str_idx - 1)) - ? CONTEXT_WORD : 0); - dest_state = mctx->state_log[dest_str_idx]; - prev_nelem = ((mctx->state_log[cur_str_idx] == NULL) ? 0 - : mctx->state_log[cur_str_idx]->nodes.nelem); - /* Add `new_dest_node' to state_log. */ - if (dest_state == NULL) - { - mctx->state_log[dest_str_idx] - = re_acquire_state_context (&err, dfa, new_dest_nodes, - context); - if (BE (mctx->state_log[dest_str_idx] == NULL - && err != REG_NOERROR, 0)) - goto free_return; - } - else - { - re_node_set dest_nodes; - err = re_node_set_init_union (&dest_nodes, - dest_state->entrance_nodes, - new_dest_nodes); - if (BE (err != REG_NOERROR, 0)) - { - re_node_set_free (&dest_nodes); - goto free_return; - } - mctx->state_log[dest_str_idx] - = re_acquire_state_context (&err, dfa, &dest_nodes, context); - re_node_set_free (&dest_nodes); - if (BE (mctx->state_log[dest_str_idx] == NULL - && err != REG_NOERROR, 0)) - goto free_return; - } - /* We need to check recursively if the backreference can epsilon - transit. */ - if (subexp_len == 0 - && mctx->state_log[cur_str_idx]->nodes.nelem > prev_nelem) - { - err = transit_state_bkref_loop (preg, new_dest_nodes, - work_state_log, mctx); - if (BE (err != REG_NOERROR, 0)) - goto free_return; - } - } + { + int subexp_len; + re_dfastate_t *dest_state; + struct re_backref_cache_entry *bkref_ent; + bkref_ent = mctx->bkref_ents + bkc_idx; + if (bkref_ent->node != node_idx || bkref_ent->str_idx != cur_str_idx) + continue; + subexp_len = bkref_ent->subexp_to - bkref_ent->subexp_from; + new_dest_nodes = (subexp_len == 0 + ? dfa->eclosures + dfa->edests[node_idx].elems[0] + : dfa->eclosures + dfa->nexts[node_idx]); + dest_str_idx = (cur_str_idx + bkref_ent->subexp_to + - bkref_ent->subexp_from); + context = (IS_WORD_CHAR (re_string_byte_at (mctx->input, + dest_str_idx - 1)) + ? CONTEXT_WORD : 0); + dest_state = mctx->state_log[dest_str_idx]; + prev_nelem = ((mctx->state_log[cur_str_idx] == NULL) ? 0 + : mctx->state_log[cur_str_idx]->nodes.nelem); + /* Add `new_dest_node' to state_log. */ + if (dest_state == NULL) + { + mctx->state_log[dest_str_idx] + = re_acquire_state_context (&err, dfa, new_dest_nodes, + context); + if (BE (mctx->state_log[dest_str_idx] == NULL + && err != REG_NOERROR, 0)) + goto free_return; + } + else + { + re_node_set dest_nodes; + err = re_node_set_init_union (&dest_nodes, + dest_state->entrance_nodes, + new_dest_nodes); + if (BE (err != REG_NOERROR, 0)) + { + re_node_set_free (&dest_nodes); + goto free_return; + } + mctx->state_log[dest_str_idx] + = re_acquire_state_context (&err, dfa, &dest_nodes, context); + re_node_set_free (&dest_nodes); + if (BE (mctx->state_log[dest_str_idx] == NULL + && err != REG_NOERROR, 0)) + goto free_return; + } + /* We need to check recursively if the backreference can epsilon + transit. */ + if (subexp_len == 0 + && mctx->state_log[cur_str_idx]->nodes.nelem > prev_nelem) + { + err = transit_state_bkref_loop (preg, new_dest_nodes, + work_state_log, mctx); + if (BE (err != REG_NOERROR, 0)) + goto free_return; + } + } } err = REG_NOERROR; free_return: @@ -2663,56 +2663,56 @@ out_free: re_node_set_empty (&follows); /* Merge the follows of this destination states. */ for (j = 0; j < dests_node[i].nelem; ++j) - { - next_node = dfa->nexts[dests_node[i].elems[j]]; - if (next_node != -1) - { - err = re_node_set_merge (&follows, dfa->eclosures + next_node); - if (BE (err != REG_NOERROR, 0)) + { + next_node = dfa->nexts[dests_node[i].elems[j]]; + if (next_node != -1) + { + err = re_node_set_merge (&follows, dfa->eclosures + next_node); + if (BE (err != REG_NOERROR, 0)) goto out_free; - } - } + } + } /* If search flag is set, merge the initial state. */ if (fl_search) - { + { #ifdef RE_ENABLE_I18N - int not_initial = 0; - for (j = 0; j < follows.nelem; ++j) - if (dfa->nodes[follows.elems[j]].type == CHARACTER) - { - not_initial = dfa->nodes[follows.elems[j]].mb_partial; - break; - } - if (!not_initial) + int not_initial = 0; + for (j = 0; j < follows.nelem; ++j) + if (dfa->nodes[follows.elems[j]].type == CHARACTER) + { + not_initial = dfa->nodes[follows.elems[j]].mb_partial; + break; + } + if (!not_initial) #endif - { - err = re_node_set_merge (&follows, - dfa->init_state->entrance_nodes); - if (BE (err != REG_NOERROR, 0)) - goto out_free; - } - } + { + err = re_node_set_merge (&follows, + dfa->init_state->entrance_nodes); + if (BE (err != REG_NOERROR, 0)) + goto out_free; + } + } dest_states[i] = re_acquire_state_context (&err, dfa, &follows, 0); if (BE (dest_states[i] == NULL && err != REG_NOERROR, 0)) - goto out_free; + goto out_free; /* If the new state has context constraint, - build appropriate states for these contexts. */ + build appropriate states for these contexts. */ if (dest_states[i]->has_constraint) - { - dest_states_word[i] = re_acquire_state_context (&err, dfa, &follows, - CONTEXT_WORD); - if (BE (dest_states_word[i] == NULL && err != REG_NOERROR, 0)) - goto out_free; - dest_states_nl[i] = re_acquire_state_context (&err, dfa, &follows, - CONTEXT_NEWLINE); - if (BE (dest_states_nl[i] == NULL && err != REG_NOERROR, 0)) - goto out_free; - } + { + dest_states_word[i] = re_acquire_state_context (&err, dfa, &follows, + CONTEXT_WORD); + if (BE (dest_states_word[i] == NULL && err != REG_NOERROR, 0)) + goto out_free; + dest_states_nl[i] = re_acquire_state_context (&err, dfa, &follows, + CONTEXT_NEWLINE); + if (BE (dest_states_nl[i] == NULL && err != REG_NOERROR, 0)) + goto out_free; + } else - { - dest_states_word[i] = dest_states[i]; - dest_states_nl[i] = dest_states[i]; - } + { + dest_states_word[i] = dest_states[i]; + dest_states_nl[i] = dest_states[i]; + } bitset_merge (acceptable, dests_ch[i]); } @@ -2721,46 +2721,46 @@ out_free: for (i = 0, ch = 0; i < BITSET_UINTS; ++i) for (j = 0; j < UINT_BITS; ++j, ++ch) if ((acceptable[i] >> j) & 1) - { - /* The current state accepts the character ch. */ - if (IS_WORD_CHAR (ch)) - { - for (k = 0; k < ndests; ++k) - if ((dests_ch[k][i] >> j) & 1) - { - /* k-th destination accepts the word character ch. */ - trtable[ch] = dest_states_word[k]; - /* There must be only one destination which accepts - character ch. See group_nodes_into_DFAstates. */ - break; - } - } - else /* not WORD_CHAR */ - { - for (k = 0; k < ndests; ++k) - if ((dests_ch[k][i] >> j) & 1) - { - /* k-th destination accepts the non-word character ch. */ - trtable[ch] = dest_states[k]; - /* There must be only one destination which accepts - character ch. See group_nodes_into_DFAstates. */ - break; - } - } - } + { + /* The current state accepts the character ch. */ + if (IS_WORD_CHAR (ch)) + { + for (k = 0; k < ndests; ++k) + if ((dests_ch[k][i] >> j) & 1) + { + /* k-th destination accepts the word character ch. */ + trtable[ch] = dest_states_word[k]; + /* There must be only one destination which accepts + character ch. See group_nodes_into_DFAstates. */ + break; + } + } + else /* not WORD_CHAR */ + { + for (k = 0; k < ndests; ++k) + if ((dests_ch[k][i] >> j) & 1) + { + /* k-th destination accepts the non-word character ch. */ + trtable[ch] = dest_states[k]; + /* There must be only one destination which accepts + character ch. See group_nodes_into_DFAstates. */ + break; + } + } + } /* new line */ if (bitset_contain (acceptable, NEWLINE_CHAR)) { /* The current state accepts newline character. */ for (k = 0; k < ndests; ++k) - if (bitset_contain (dests_ch[k], NEWLINE_CHAR)) - { - /* k-th destination accepts newline character. */ - trtable[NEWLINE_CHAR] = dest_states_nl[k]; - /* There must be only one destination which accepts - newline. See group_nodes_into_DFAstates. */ - break; - } + if (bitset_contain (dests_ch[k], NEWLINE_CHAR)) + { + /* k-th destination accepts newline character. */ + trtable[NEWLINE_CHAR] = dest_states_nl[k]; + /* There must be only one destination which accepts + newline. See group_nodes_into_DFAstates. */ + break; + } } if (dest_states_malloced) @@ -2806,103 +2806,103 @@ group_nodes_into_DFAstates (preg, state, dests_node, dests_ch) /* Enumerate all single byte character this node can accept. */ if (type == CHARACTER) - bitset_set (accepts, node->opr.c); + bitset_set (accepts, node->opr.c); else if (type == SIMPLE_BRACKET) - { - bitset_merge (accepts, node->opr.sbcset); - } + { + bitset_merge (accepts, node->opr.sbcset); + } else if (type == OP_PERIOD) - { - bitset_set_all (accepts); - if (!(preg->syntax & RE_DOT_NEWLINE)) - bitset_clear (accepts, '\n'); - if (preg->syntax & RE_DOT_NOT_NULL) - bitset_clear (accepts, '\0'); - } + { + bitset_set_all (accepts); + if (!(preg->syntax & RE_DOT_NEWLINE)) + bitset_clear (accepts, '\n'); + if (preg->syntax & RE_DOT_NOT_NULL) + bitset_clear (accepts, '\0'); + } else - continue; + continue; /* Check the `accepts' and sift the characters which are not - match it the context. */ + match it the context. */ if (constraint) - { - if (constraint & NEXT_WORD_CONSTRAINT) - for (j = 0; j < BITSET_UINTS; ++j) - accepts[j] &= dfa->word_char[j]; - if (constraint & NEXT_NOTWORD_CONSTRAINT) - for (j = 0; j < BITSET_UINTS; ++j) - accepts[j] &= ~dfa->word_char[j]; - if (constraint & NEXT_NEWLINE_CONSTRAINT) - { - int accepts_newline = bitset_contain (accepts, NEWLINE_CHAR); - bitset_empty (accepts); - if (accepts_newline) - bitset_set (accepts, NEWLINE_CHAR); - else - continue; - } - } + { + if (constraint & NEXT_WORD_CONSTRAINT) + for (j = 0; j < BITSET_UINTS; ++j) + accepts[j] &= dfa->word_char[j]; + if (constraint & NEXT_NOTWORD_CONSTRAINT) + for (j = 0; j < BITSET_UINTS; ++j) + accepts[j] &= ~dfa->word_char[j]; + if (constraint & NEXT_NEWLINE_CONSTRAINT) + { + int accepts_newline = bitset_contain (accepts, NEWLINE_CHAR); + bitset_empty (accepts); + if (accepts_newline) + bitset_set (accepts, NEWLINE_CHAR); + else + continue; + } + } /* Then divide `accepts' into DFA states, or create a new - state. */ + state. */ for (j = 0; j < ndests; ++j) - { - bitset intersec; /* Intersection sets, see below. */ - bitset remains; - /* Flags, see below. */ - int has_intersec, not_subset, not_consumed; - - /* Optimization, skip if this state doesn't accept the character. */ - if (type == CHARACTER && !bitset_contain (dests_ch[j], node->opr.c)) - continue; - - /* Enumerate the intersection set of this state and `accepts'. */ - has_intersec = 0; - for (k = 0; k < BITSET_UINTS; ++k) - has_intersec |= intersec[k] = accepts[k] & dests_ch[j][k]; - /* And skip if the intersection set is empty. */ - if (!has_intersec) - continue; - - /* Then check if this state is a subset of `accepts'. */ - not_subset = not_consumed = 0; - for (k = 0; k < BITSET_UINTS; ++k) - { - not_subset |= remains[k] = ~accepts[k] & dests_ch[j][k]; - not_consumed |= accepts[k] = accepts[k] & ~dests_ch[j][k]; - } - - /* If this state isn't a subset of `accepts', create a - new group state, which has the `remains'. */ - if (not_subset) - { - bitset_copy (dests_ch[ndests], remains); - bitset_copy (dests_ch[j], intersec); - err = re_node_set_init_copy (dests_node + ndests, &dests_node[j]); - if (BE (err != REG_NOERROR, 0)) - goto error_return; - ++ndests; - } - - /* Put the position in the current group. */ - err = re_node_set_insert (&dests_node[j], cur_nodes->elems[i]); - if (BE (err < 0, 0)) - goto error_return; - - /* If all characters are consumed, go to next node. */ - if (!not_consumed) - break; - } + { + bitset intersec; /* Intersection sets, see below. */ + bitset remains; + /* Flags, see below. */ + int has_intersec, not_subset, not_consumed; + + /* Optimization, skip if this state doesn't accept the character. */ + if (type == CHARACTER && !bitset_contain (dests_ch[j], node->opr.c)) + continue; + + /* Enumerate the intersection set of this state and `accepts'. */ + has_intersec = 0; + for (k = 0; k < BITSET_UINTS; ++k) + has_intersec |= intersec[k] = accepts[k] & dests_ch[j][k]; + /* And skip if the intersection set is empty. */ + if (!has_intersec) + continue; + + /* Then check if this state is a subset of `accepts'. */ + not_subset = not_consumed = 0; + for (k = 0; k < BITSET_UINTS; ++k) + { + not_subset |= remains[k] = ~accepts[k] & dests_ch[j][k]; + not_consumed |= accepts[k] = accepts[k] & ~dests_ch[j][k]; + } + + /* If this state isn't a subset of `accepts', create a + new group state, which has the `remains'. */ + if (not_subset) + { + bitset_copy (dests_ch[ndests], remains); + bitset_copy (dests_ch[j], intersec); + err = re_node_set_init_copy (dests_node + ndests, &dests_node[j]); + if (BE (err != REG_NOERROR, 0)) + goto error_return; + ++ndests; + } + + /* Put the position in the current group. */ + err = re_node_set_insert (&dests_node[j], cur_nodes->elems[i]); + if (BE (err < 0, 0)) + goto error_return; + + /* If all characters are consumed, go to next node. */ + if (!not_consumed) + break; + } /* Some characters remain, create a new group. */ if (j == ndests) - { - bitset_copy (dests_ch[ndests], accepts); - err = re_node_set_init_1 (dests_node + ndests, cur_nodes->elems[i]); - if (BE (err != REG_NOERROR, 0)) - goto error_return; - ++ndests; - bitset_empty (accepts); - } + { + bitset_copy (dests_ch[ndests], accepts); + err = re_node_set_init_1 (dests_node + ndests, cur_nodes->elems[i]); + if (BE (err != REG_NOERROR, 0)) + goto error_return; + ++ndests; + bitset_empty (accepts); + } } return ndests; error_return: @@ -2941,10 +2941,10 @@ check_node_accept_bytes (preg, node_idx, input, str_idx) { /* '.' accepts any one character except the following two cases. */ if ((!(preg->syntax & RE_DOT_NEWLINE) && - re_string_byte_at (input, str_idx) == '\n') || - ((preg->syntax & RE_DOT_NOT_NULL) && - re_string_byte_at (input, str_idx) == '\0')) - return 0; + re_string_byte_at (input, str_idx) == '\n') || + ((preg->syntax & RE_DOT_NOT_NULL) && + re_string_byte_at (input, str_idx) == '\0')) + return 0; return char_len; } else if (node->type == COMPLEX_BRACKET) @@ -2955,145 +2955,145 @@ check_node_accept_bytes (preg, node_idx, input, str_idx) # endif /* _LIBC */ int match_len = 0; wchar_t wc = ((cset->nranges || cset->nchar_classes || cset->nmbchars) - ? re_string_wchar_at (input, str_idx) : 0); + ? re_string_wchar_at (input, str_idx) : 0); /* match with multibyte character? */ for (i = 0; i < cset->nmbchars; ++i) - if (wc == cset->mbchars[i]) - { - match_len = char_len; - goto check_node_accept_bytes_match; - } + if (wc == cset->mbchars[i]) + { + match_len = char_len; + goto check_node_accept_bytes_match; + } /* match with character_class? */ for (i = 0; i < cset->nchar_classes; ++i) - { - wctype_t wt = cset->char_classes[i]; - if (__iswctype (wc, wt)) - { - match_len = char_len; - goto check_node_accept_bytes_match; - } - } + { + wctype_t wt = cset->char_classes[i]; + if (__iswctype (wc, wt)) + { + match_len = char_len; + goto check_node_accept_bytes_match; + } + } # ifdef _LIBC if (nrules != 0) - { - unsigned int in_collseq = 0; - const int32_t *table, *indirect; - const unsigned char *weights, *extra; - const char *collseqwc; - int32_t idx; - /* This #include defines a local function! */ + { + unsigned int in_collseq = 0; + const int32_t *table, *indirect; + const unsigned char *weights, *extra; + const char *collseqwc; + int32_t idx; + /* This #include defines a local function! */ # include <locale/weight.h> - /* match with collating_symbol? */ - if (cset->ncoll_syms) - extra = (const unsigned char *) - _NL_CURRENT (LC_COLLATE, _NL_COLLATE_SYMB_EXTRAMB); - for (i = 0; i < cset->ncoll_syms; ++i) - { - const unsigned char *coll_sym = extra + cset->coll_syms[i]; - /* Compare the length of input collating element and - the length of current collating element. */ - if (*coll_sym != elem_len) - continue; - /* Compare each bytes. */ - for (j = 0; j < *coll_sym; j++) - if (pin[j] != coll_sym[1 + j]) - break; - if (j == *coll_sym) - { - /* Match if every bytes is equal. */ - match_len = j; - goto check_node_accept_bytes_match; - } - } - - if (cset->nranges) - { - if (elem_len <= char_len) - { - collseqwc = _NL_CURRENT (LC_COLLATE, _NL_COLLATE_COLLSEQWC); - in_collseq = collseq_table_lookup (collseqwc, wc); - } - else - in_collseq = find_collation_sequence_value (pin, elem_len); - } - /* match with range expression? */ - for (i = 0; i < cset->nranges; ++i) - if (cset->range_starts[i] <= in_collseq - && in_collseq <= cset->range_ends[i]) - { - match_len = elem_len; - goto check_node_accept_bytes_match; - } - - /* match with equivalence_class? */ - if (cset->nequiv_classes) - { - const unsigned char *cp = pin; - table = (const int32_t *) - _NL_CURRENT (LC_COLLATE, _NL_COLLATE_TABLEMB); - weights = (const unsigned char *) - _NL_CURRENT (LC_COLLATE, _NL_COLLATE_WEIGHTMB); - extra = (const unsigned char *) - _NL_CURRENT (LC_COLLATE, _NL_COLLATE_EXTRAMB); - indirect = (const int32_t *) - _NL_CURRENT (LC_COLLATE, _NL_COLLATE_INDIRECTMB); - idx = findidx (&cp); - if (idx > 0) - for (i = 0; i < cset->nequiv_classes; ++i) - { - int32_t equiv_class_idx = cset->equiv_classes[i]; - size_t weight_len = weights[idx]; - if (weight_len == weights[equiv_class_idx]) - { - int cnt = 0; - while (cnt <= weight_len - && (weights[equiv_class_idx + 1 + cnt] - == weights[idx + 1 + cnt])) - ++cnt; - if (cnt > weight_len) - { - match_len = elem_len; - goto check_node_accept_bytes_match; - } - } - } - } - } + /* match with collating_symbol? */ + if (cset->ncoll_syms) + extra = (const unsigned char *) + _NL_CURRENT (LC_COLLATE, _NL_COLLATE_SYMB_EXTRAMB); + for (i = 0; i < cset->ncoll_syms; ++i) + { + const unsigned char *coll_sym = extra + cset->coll_syms[i]; + /* Compare the length of input collating element and + the length of current collating element. */ + if (*coll_sym != elem_len) + continue; + /* Compare each bytes. */ + for (j = 0; j < *coll_sym; j++) + if (pin[j] != coll_sym[1 + j]) + break; + if (j == *coll_sym) + { + /* Match if every bytes is equal. */ + match_len = j; + goto check_node_accept_bytes_match; + } + } + + if (cset->nranges) + { + if (elem_len <= char_len) + { + collseqwc = _NL_CURRENT (LC_COLLATE, _NL_COLLATE_COLLSEQWC); + in_collseq = collseq_table_lookup (collseqwc, wc); + } + else + in_collseq = find_collation_sequence_value (pin, elem_len); + } + /* match with range expression? */ + for (i = 0; i < cset->nranges; ++i) + if (cset->range_starts[i] <= in_collseq + && in_collseq <= cset->range_ends[i]) + { + match_len = elem_len; + goto check_node_accept_bytes_match; + } + + /* match with equivalence_class? */ + if (cset->nequiv_classes) + { + const unsigned char *cp = pin; + table = (const int32_t *) + _NL_CURRENT (LC_COLLATE, _NL_COLLATE_TABLEMB); + weights = (const unsigned char *) + _NL_CURRENT (LC_COLLATE, _NL_COLLATE_WEIGHTMB); + extra = (const unsigned char *) + _NL_CURRENT (LC_COLLATE, _NL_COLLATE_EXTRAMB); + indirect = (const int32_t *) + _NL_CURRENT (LC_COLLATE, _NL_COLLATE_INDIRECTMB); + idx = findidx (&cp); + if (idx > 0) + for (i = 0; i < cset->nequiv_classes; ++i) + { + int32_t equiv_class_idx = cset->equiv_classes[i]; + size_t weight_len = weights[idx]; + if (weight_len == weights[equiv_class_idx]) + { + int cnt = 0; + while (cnt <= weight_len + && (weights[equiv_class_idx + 1 + cnt] + == weights[idx + 1 + cnt])) + ++cnt; + if (cnt > weight_len) + { + match_len = elem_len; + goto check_node_accept_bytes_match; + } + } + } + } + } else # endif /* _LIBC */ - { - /* match with range expression? */ + { + /* match with range expression? */ #if __GNUC__ >= 2 - wchar_t cmp_buf[] = {L'\0', L'\0', wc, L'\0', L'\0', L'\0'}; + wchar_t cmp_buf[] = {L'\0', L'\0', wc, L'\0', L'\0', L'\0'}; #else - wchar_t cmp_buf[] = {L'\0', L'\0', L'\0', L'\0', L'\0', L'\0'}; - cmp_buf[2] = wc; + wchar_t cmp_buf[] = {L'\0', L'\0', L'\0', L'\0', L'\0', L'\0'}; + cmp_buf[2] = wc; #endif - for (i = 0; i < cset->nranges; ++i) - { - cmp_buf[0] = cset->range_starts[i]; - cmp_buf[4] = cset->range_ends[i]; - if (wcscoll (cmp_buf, cmp_buf + 2) <= 0 - && wcscoll (cmp_buf + 2, cmp_buf + 4) <= 0) - { - match_len = char_len; - goto check_node_accept_bytes_match; - } - } - } + for (i = 0; i < cset->nranges; ++i) + { + cmp_buf[0] = cset->range_starts[i]; + cmp_buf[4] = cset->range_ends[i]; + if (wcscoll (cmp_buf, cmp_buf + 2) <= 0 + && wcscoll (cmp_buf + 2, cmp_buf + 4) <= 0) + { + match_len = char_len; + goto check_node_accept_bytes_match; + } + } + } check_node_accept_bytes_match: if (!cset->non_match) - return match_len; + return match_len; else - { - if (match_len > 0) - return 0; - else - return (elem_len > char_len) ? elem_len : char_len; - } + { + if (match_len > 0) + return 0; + else + return (elem_len > char_len) ? elem_len : char_len; + } } return 0; } @@ -3108,50 +3108,50 @@ find_collation_sequence_value (mbs, mbs_len) if (nrules == 0) { if (mbs_len == 1) - { - /* No valid character. Match it as a single byte character. */ - const unsigned char *collseq = (const unsigned char *) - _NL_CURRENT (LC_COLLATE, _NL_COLLATE_COLLSEQMB); - return collseq[mbs[0]]; - } + { + /* No valid character. Match it as a single byte character. */ + const unsigned char *collseq = (const unsigned char *) + _NL_CURRENT (LC_COLLATE, _NL_COLLATE_COLLSEQMB); + return collseq[mbs[0]]; + } return UINT_MAX; } else { int32_t idx; const unsigned char *extra = (const unsigned char *) - _NL_CURRENT (LC_COLLATE, _NL_COLLATE_SYMB_EXTRAMB); + _NL_CURRENT (LC_COLLATE, _NL_COLLATE_SYMB_EXTRAMB); for (idx = 0; ;) - { - int mbs_cnt, found = 0; - int32_t elem_mbs_len; - /* Skip the name of collating element name. */ - idx = idx + extra[idx] + 1; - elem_mbs_len = extra[idx++]; - if (mbs_len == elem_mbs_len) - { - for (mbs_cnt = 0; mbs_cnt < elem_mbs_len; ++mbs_cnt) - if (extra[idx + mbs_cnt] != mbs[mbs_cnt]) - break; - if (mbs_cnt == elem_mbs_len) - /* Found the entry. */ - found = 1; - } - /* Skip the byte sequence of the collating element. */ - idx += elem_mbs_len; - /* Adjust for the alignment. */ - idx = (idx + 3) & ~3; - /* Skip the collation sequence value. */ - idx += sizeof (uint32_t); - /* Skip the wide char sequence of the collating element. */ - idx = idx + sizeof (uint32_t) * (extra[idx] + 1); - /* If we found the entry, return the sequence value. */ - if (found) - return *(uint32_t *) (extra + idx); - /* Skip the collation sequence value. */ - idx += sizeof (uint32_t); - } + { + int mbs_cnt, found = 0; + int32_t elem_mbs_len; + /* Skip the name of collating element name. */ + idx = idx + extra[idx] + 1; + elem_mbs_len = extra[idx++]; + if (mbs_len == elem_mbs_len) + { + for (mbs_cnt = 0; mbs_cnt < elem_mbs_len; ++mbs_cnt) + if (extra[idx + mbs_cnt] != mbs[mbs_cnt]) + break; + if (mbs_cnt == elem_mbs_len) + /* Found the entry. */ + found = 1; + } + /* Skip the byte sequence of the collating element. */ + idx += elem_mbs_len; + /* Adjust for the alignment. */ + idx = (idx + 3) & ~3; + /* Skip the collation sequence value. */ + idx += sizeof (uint32_t); + /* Skip the wide char sequence of the collating element. */ + idx = idx + sizeof (uint32_t) * (extra[idx] + 1); + /* If we found the entry, return the sequence value. */ + if (found) + return *(uint32_t *) (extra + idx); + /* Skip the collation sequence value. */ + idx += sizeof (uint32_t); + } } } # endif /* _LIBC */ @@ -3171,12 +3171,12 @@ check_node_accept (preg, node, mctx, idx) if (node->constraint) { /* The node has constraints. Check whether the current context - satisfies the constraints. */ + satisfies the constraints. */ unsigned int context = re_string_context_at (mctx->input, idx, - mctx->eflags, - preg->newline_anchor); + mctx->eflags, + preg->newline_anchor); if (NOT_SATISFY_NEXT_CONSTRAINT (node->constraint, context)) - return 0; + return 0; } ch = re_string_byte_at (mctx->input, idx); if (node->type == CHARACTER) @@ -3185,7 +3185,7 @@ check_node_accept (preg, node, mctx, idx) return bitset_contain (node->opr.sbcset, ch); else if (node->type == OP_PERIOD) return !((ch == '\n' && !(preg->syntax & RE_DOT_NEWLINE)) - || (ch == '\0' && (preg->syntax & RE_DOT_NOT_NULL))); + || (ch == '\0' && (preg->syntax & RE_DOT_NOT_NULL))); else return 0; } @@ -3209,9 +3209,9 @@ extend_buffers (mctx) /* And double the length of state_log. */ re_dfastate_t **new_array; new_array = re_realloc (mctx->state_log, re_dfastate_t *, - pstr->bufs_len * 2); + pstr->bufs_len * 2); if (BE (new_array == NULL, 0)) - return REG_ESPACE; + return REG_ESPACE; mctx->state_log = new_array; } @@ -3220,24 +3220,24 @@ extend_buffers (mctx) { #ifdef RE_ENABLE_I18N if (MB_CUR_MAX > 1) - build_wcs_upper_buffer (pstr); + build_wcs_upper_buffer (pstr); else #endif /* RE_ENABLE_I18N */ - build_upper_buffer (pstr); + build_upper_buffer (pstr); } else { #ifdef RE_ENABLE_I18N if (MB_CUR_MAX > 1) - build_wcs_buffer (pstr); + build_wcs_buffer (pstr); else #endif /* RE_ENABLE_I18N */ - { - if (pstr->trans != NULL) - re_string_translate_buffer (pstr); - else - pstr->valid_len = pstr->bufs_len; - } + { + if (pstr->trans != NULL) + re_string_translate_buffer (pstr); + else + pstr->valid_len = pstr->bufs_len; + } } return REG_NOERROR; } @@ -3258,7 +3258,7 @@ match_ctx_init (mctx, eflags, input, n) { mctx->bkref_ents = re_malloc (struct re_backref_cache_entry, n); if (BE (mctx->bkref_ents == NULL, 0)) - return REG_ESPACE; + return REG_ESPACE; } else mctx->bkref_ents = NULL; @@ -3286,15 +3286,15 @@ match_ctx_add_entry (mctx, node, str_idx, from, to) { struct re_backref_cache_entry* new_entry; new_entry = re_realloc (mctx->bkref_ents, struct re_backref_cache_entry, - mctx->abkref_ents * 2); + mctx->abkref_ents * 2); if (BE (new_entry == NULL, 0)) - { - re_free (mctx->bkref_ents); - return REG_ESPACE; - } + { + re_free (mctx->bkref_ents); + return REG_ESPACE; + } mctx->bkref_ents = new_entry; memset (mctx->bkref_ents + mctx->nbkref_ents, '\0', - sizeof (struct re_backref_cache_entry) * mctx->abkref_ents); + sizeof (struct re_backref_cache_entry) * mctx->abkref_ents); mctx->abkref_ents *= 2; } mctx->bkref_ents[mctx->nbkref_ents].node = node; @@ -3320,7 +3320,7 @@ match_ctx_clear_flag (mctx) static void sift_ctx_init (sctx, sifted_sts, limited_sts, last_node, last_str_idx, - check_subexp) + check_subexp) re_sift_context_t *sctx; re_dfastate_t **sifted_sts, **limited_sts; int last_node, last_str_idx, check_subexp; |