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- /* Extended regular expression matching and search library.
- Copyright (C) 2002, 2003, 2004, 2005 Free Software Foundation, Inc.
- This file is part of the GNU C Library.
- Contributed by Isamu Hasegawa <isamu@yamato.ibm.com>.
- The GNU C Library is free software; you can redistribute it and/or
- modify it under the terms of the GNU Lesser General Public
- License as published by the Free Software Foundation; either
- version 2.1 of the License, or (at your option) any later version.
- The GNU C Library is distributed in the hope that it will be useful,
- but WITHOUT ANY WARRANTY; without even the implied warranty of
- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
- Lesser General Public License for more details.
- You should have received a copy of the GNU Lesser General Public
- License along with the GNU C Library; if not, write to the Free
- Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
- 02111-1307 USA. */
- static reg_errcode_t re_compile_internal (regex_t *preg, const char * pattern,
- size_t length, reg_syntax_t syntax);
- static void re_compile_fastmap_iter (regex_t *bufp,
- const re_dfastate_t *init_state,
- char *fastmap);
- static reg_errcode_t init_dfa (re_dfa_t *dfa, size_t pat_len);
- #ifdef RE_ENABLE_I18N
- static void free_charset (re_charset_t *cset);
- #endif /* RE_ENABLE_I18N */
- static void free_workarea_compile (regex_t *preg);
- static reg_errcode_t create_initial_state (re_dfa_t *dfa);
- #ifdef RE_ENABLE_I18N
- static void optimize_utf8 (re_dfa_t *dfa);
- #endif
- static reg_errcode_t analyze (regex_t *preg);
- static reg_errcode_t preorder (bin_tree_t *root,
- reg_errcode_t (fn (void *, bin_tree_t *)),
- void *extra);
- static reg_errcode_t postorder (bin_tree_t *root,
- reg_errcode_t (fn (void *, bin_tree_t *)),
- void *extra);
- static reg_errcode_t optimize_subexps (void *extra, bin_tree_t *node);
- static reg_errcode_t lower_subexps (void *extra, bin_tree_t *node);
- static bin_tree_t *lower_subexp (reg_errcode_t *err, regex_t *preg,
- bin_tree_t *node);
- static reg_errcode_t calc_first (void *extra, bin_tree_t *node);
- static reg_errcode_t calc_next (void *extra, bin_tree_t *node);
- static reg_errcode_t link_nfa_nodes (void *extra, bin_tree_t *node);
- static int duplicate_node (re_dfa_t *dfa, int org_idx, unsigned int constraint);
- static int search_duplicated_node (const re_dfa_t *dfa, int org_node,
- unsigned int constraint);
- static reg_errcode_t calc_eclosure (re_dfa_t *dfa);
- static reg_errcode_t calc_eclosure_iter (re_node_set *new_set, re_dfa_t *dfa,
- int node, int root);
- static reg_errcode_t calc_inveclosure (re_dfa_t *dfa);
- static int fetch_number (re_string_t *input, re_token_t *token,
- reg_syntax_t syntax);
- static int peek_token (re_token_t *token, re_string_t *input,
- reg_syntax_t syntax) internal_function;
- static bin_tree_t *parse (re_string_t *regexp, regex_t *preg,
- reg_syntax_t syntax, reg_errcode_t *err);
- static bin_tree_t *parse_reg_exp (re_string_t *regexp, regex_t *preg,
- re_token_t *token, reg_syntax_t syntax,
- int nest, reg_errcode_t *err);
- static bin_tree_t *parse_branch (re_string_t *regexp, regex_t *preg,
- re_token_t *token, reg_syntax_t syntax,
- int nest, reg_errcode_t *err);
- static bin_tree_t *parse_expression (re_string_t *regexp, regex_t *preg,
- re_token_t *token, reg_syntax_t syntax,
- int nest, reg_errcode_t *err);
- static bin_tree_t *parse_sub_exp (re_string_t *regexp, regex_t *preg,
- re_token_t *token, reg_syntax_t syntax,
- int nest, reg_errcode_t *err);
- static bin_tree_t *parse_dup_op (bin_tree_t *dup_elem, re_string_t *regexp,
- re_dfa_t *dfa, re_token_t *token,
- reg_syntax_t syntax, reg_errcode_t *err);
- static bin_tree_t *parse_bracket_exp (re_string_t *regexp, re_dfa_t *dfa,
- re_token_t *token, reg_syntax_t syntax,
- reg_errcode_t *err);
- static reg_errcode_t parse_bracket_element (bracket_elem_t *elem,
- re_string_t *regexp,
- re_token_t *token, int token_len,
- re_dfa_t *dfa,
- reg_syntax_t syntax,
- int accept_hyphen);
- static reg_errcode_t parse_bracket_symbol (bracket_elem_t *elem,
- re_string_t *regexp,
- re_token_t *token);
- #ifdef RE_ENABLE_I18N
- static reg_errcode_t build_equiv_class (bitset_t sbcset,
- re_charset_t *mbcset,
- int *equiv_class_alloc,
- const unsigned char *name);
- static reg_errcode_t build_charclass (RE_TRANSLATE_TYPE trans,
- bitset_t sbcset,
- re_charset_t *mbcset,
- int *char_class_alloc,
- const unsigned char *class_name,
- reg_syntax_t syntax);
- #else /* not RE_ENABLE_I18N */
- static reg_errcode_t build_equiv_class (bitset_t sbcset,
- const unsigned char *name);
- static reg_errcode_t build_charclass (RE_TRANSLATE_TYPE trans,
- bitset_t sbcset,
- const unsigned char *class_name,
- reg_syntax_t syntax);
- #endif /* not RE_ENABLE_I18N */
- static bin_tree_t *build_charclass_op (re_dfa_t *dfa,
- RE_TRANSLATE_TYPE trans,
- const unsigned char *class_name,
- const unsigned char *extra,
- int non_match, reg_errcode_t *err);
- static bin_tree_t *create_tree (re_dfa_t *dfa,
- bin_tree_t *left, bin_tree_t *right,
- re_token_type_t type);
- static bin_tree_t *create_token_tree (re_dfa_t *dfa,
- bin_tree_t *left, bin_tree_t *right,
- const re_token_t *token);
- static bin_tree_t *duplicate_tree (const bin_tree_t *src, re_dfa_t *dfa);
- static void free_token (re_token_t *node);
- static reg_errcode_t free_tree (void *extra, bin_tree_t *node);
- static reg_errcode_t mark_opt_subexp (void *extra, bin_tree_t *node);
- /* This table gives an error message for each of the error codes listed
- in regex.h. Obviously the order here has to be same as there.
- POSIX doesn't require that we do anything for REG_NOERROR,
- but why not be nice? */
- const char __re_error_msgid[] attribute_hidden =
- {
- #define REG_NOERROR_IDX 0
- gettext_noop ("Success") /* REG_NOERROR */
- "\0"
- #define REG_NOMATCH_IDX (REG_NOERROR_IDX + sizeof "Success")
- gettext_noop ("No match") /* REG_NOMATCH */
- "\0"
- #define REG_BADPAT_IDX (REG_NOMATCH_IDX + sizeof "No match")
- gettext_noop ("Invalid regular expression") /* REG_BADPAT */
- "\0"
- #define REG_ECOLLATE_IDX (REG_BADPAT_IDX + sizeof "Invalid regular expression")
- gettext_noop ("Invalid collation character") /* REG_ECOLLATE */
- "\0"
- #define REG_ECTYPE_IDX (REG_ECOLLATE_IDX + sizeof "Invalid collation character")
- gettext_noop ("Invalid character class name") /* REG_ECTYPE */
- "\0"
- #define REG_EESCAPE_IDX (REG_ECTYPE_IDX + sizeof "Invalid character class name")
- gettext_noop ("Trailing backslash") /* REG_EESCAPE */
- "\0"
- #define REG_ESUBREG_IDX (REG_EESCAPE_IDX + sizeof "Trailing backslash")
- gettext_noop ("Invalid back reference") /* REG_ESUBREG */
- "\0"
- #define REG_EBRACK_IDX (REG_ESUBREG_IDX + sizeof "Invalid back reference")
- gettext_noop ("Unmatched [ or [^") /* REG_EBRACK */
- "\0"
- #define REG_EPAREN_IDX (REG_EBRACK_IDX + sizeof "Unmatched [ or [^")
- gettext_noop ("Unmatched ( or \\(") /* REG_EPAREN */
- "\0"
- #define REG_EBRACE_IDX (REG_EPAREN_IDX + sizeof "Unmatched ( or \\(")
- gettext_noop ("Unmatched \\{") /* REG_EBRACE */
- "\0"
- #define REG_BADBR_IDX (REG_EBRACE_IDX + sizeof "Unmatched \\{")
- gettext_noop ("Invalid content of \\{\\}") /* REG_BADBR */
- "\0"
- #define REG_ERANGE_IDX (REG_BADBR_IDX + sizeof "Invalid content of \\{\\}")
- gettext_noop ("Invalid range end") /* REG_ERANGE */
- "\0"
- #define REG_ESPACE_IDX (REG_ERANGE_IDX + sizeof "Invalid range end")
- gettext_noop ("Memory exhausted") /* REG_ESPACE */
- "\0"
- #define REG_BADRPT_IDX (REG_ESPACE_IDX + sizeof "Memory exhausted")
- gettext_noop ("Invalid preceding regular expression") /* REG_BADRPT */
- "\0"
- #define REG_EEND_IDX (REG_BADRPT_IDX + sizeof "Invalid preceding regular expression")
- gettext_noop ("Premature end of regular expression") /* REG_EEND */
- "\0"
- #define REG_ESIZE_IDX (REG_EEND_IDX + sizeof "Premature end of regular expression")
- gettext_noop ("Regular expression too big") /* REG_ESIZE */
- "\0"
- #define REG_ERPAREN_IDX (REG_ESIZE_IDX + sizeof "Regular expression too big")
- gettext_noop ("Unmatched ) or \\)") /* REG_ERPAREN */
- };
- const size_t __re_error_msgid_idx[] attribute_hidden =
- {
- REG_NOERROR_IDX,
- REG_NOMATCH_IDX,
- REG_BADPAT_IDX,
- REG_ECOLLATE_IDX,
- REG_ECTYPE_IDX,
- REG_EESCAPE_IDX,
- REG_ESUBREG_IDX,
- REG_EBRACK_IDX,
- REG_EPAREN_IDX,
- REG_EBRACE_IDX,
- REG_BADBR_IDX,
- REG_ERANGE_IDX,
- REG_ESPACE_IDX,
- REG_BADRPT_IDX,
- REG_EEND_IDX,
- REG_ESIZE_IDX,
- REG_ERPAREN_IDX
- };
- /* Entry points for GNU code. */
- /* re_compile_pattern is the GNU regular expression compiler: it
- compiles PATTERN (of length LENGTH) and puts the result in BUFP.
- Returns 0 if the pattern was valid, otherwise an error string.
- Assumes the `allocated' (and perhaps `buffer') and `translate' fields
- are set in BUFP on entry. */
- const char *
- re_compile_pattern (pattern, length, bufp)
- const char *pattern;
- size_t length;
- struct re_pattern_buffer *bufp;
- {
- reg_errcode_t ret;
- /* And GNU code determines whether or not to get register information
- by passing null for the REGS argument to re_match, etc., not by
- setting no_sub, unless RE_NO_SUB is set. */
- bufp->no_sub = !!(re_syntax_options & RE_NO_SUB);
- /* Match anchors at newline. */
- bufp->newline_anchor = 1;
- ret = re_compile_internal (bufp, pattern, length, re_syntax_options);
- if (!ret)
- return NULL;
- return gettext (__re_error_msgid + __re_error_msgid_idx[(int) ret]);
- }
- #if defined _LIBC || defined __UCLIBC__
- strong_alias(__re_compile_pattern, re_compile_pattern)
- #endif
- /* Set by `re_set_syntax' to the current regexp syntax to recognize. Can
- also be assigned to arbitrarily: each pattern buffer stores its own
- syntax, so it can be changed between regex compilations. */
- /* This has no initializer because initialized variables in Emacs
- become read-only after dumping. */
- reg_syntax_t re_syntax_options;
- /* Specify the precise syntax of regexps for compilation. This provides
- for compatibility for various utilities which historically have
- different, incompatible syntaxes.
- The argument SYNTAX is a bit mask comprised of the various bits
- defined in regex.h. We return the old syntax. */
- reg_syntax_t
- re_set_syntax (syntax)
- reg_syntax_t syntax;
- {
- reg_syntax_t ret = re_syntax_options;
- re_syntax_options = syntax;
- return ret;
- }
- #if defined _LIBC || defined __UCLIBC__
- strong_alias(__re_set_syntax, re_set_syntax)
- #endif
- int
- re_compile_fastmap (bufp)
- struct re_pattern_buffer *bufp;
- {
- re_dfa_t *dfa = (re_dfa_t *) bufp->buffer;
- char *fastmap = bufp->fastmap;
- memset (fastmap, '\0', sizeof (char) * SBC_MAX);
- re_compile_fastmap_iter (bufp, dfa->init_state, fastmap);
- if (dfa->init_state != dfa->init_state_word)
- re_compile_fastmap_iter (bufp, dfa->init_state_word, fastmap);
- if (dfa->init_state != dfa->init_state_nl)
- re_compile_fastmap_iter (bufp, dfa->init_state_nl, fastmap);
- if (dfa->init_state != dfa->init_state_begbuf)
- re_compile_fastmap_iter (bufp, dfa->init_state_begbuf, fastmap);
- bufp->fastmap_accurate = 1;
- return 0;
- }
- #if defined _LIBC || defined __UCLIBC__
- strong_alias(__re_compile_fastmap, re_compile_fastmap)
- #endif
- static inline void
- __attribute ((always_inline))
- re_set_fastmap (char *fastmap, int icase, int ch)
- {
- fastmap[ch] = 1;
- if (icase)
- fastmap[__tolower (ch)] = 1;
- }
- /* Helper function for re_compile_fastmap.
- Compile fastmap for the initial_state INIT_STATE. */
- static void
- re_compile_fastmap_iter (regex_t *bufp, const re_dfastate_t *init_state,
- char *fastmap)
- {
- re_dfa_t *dfa = (re_dfa_t *) bufp->buffer;
- int node_cnt;
- int icase = (dfa->mb_cur_max == 1 && (bufp->syntax & RE_ICASE));
- for (node_cnt = 0; node_cnt < init_state->nodes.nelem; ++node_cnt)
- {
- int node = init_state->nodes.elems[node_cnt];
- re_token_type_t type = dfa->nodes[node].type;
- if (type == CHARACTER)
- {
- re_set_fastmap (fastmap, icase, dfa->nodes[node].opr.c);
- #ifdef RE_ENABLE_I18N
- if ((bufp->syntax & RE_ICASE) && dfa->mb_cur_max > 1)
- {
- unsigned char *buf = alloca (dfa->mb_cur_max), *p;
- wchar_t wc;
- mbstate_t state;
- p = buf;
- *p++ = dfa->nodes[node].opr.c;
- while (++node < dfa->nodes_len
- && dfa->nodes[node].type == CHARACTER
- && dfa->nodes[node].mb_partial)
- *p++ = dfa->nodes[node].opr.c;
- memset (&state, '\0', sizeof (state));
- if (mbrtowc (&wc, (const char *) buf, p - buf,
- &state) == p - buf
- && (__wcrtomb ((char *) buf, towlower (wc), &state)
- != (size_t) -1))
- re_set_fastmap (fastmap, 0, buf[0]);
- }
- #endif
- }
- else if (type == SIMPLE_BRACKET)
- {
- int i, ch;
- for (i = 0, ch = 0; i < BITSET_WORDS; ++i)
- {
- int j;
- bitset_word_t w = dfa->nodes[node].opr.sbcset[i];
- for (j = 0; j < BITSET_WORD_BITS; ++j, ++ch)
- if (w & ((bitset_word_t) 1 << j))
- re_set_fastmap (fastmap, icase, ch);
- }
- }
- #ifdef RE_ENABLE_I18N
- else if (type == COMPLEX_BRACKET)
- {
- int i;
- re_charset_t *cset = dfa->nodes[node].opr.mbcset;
- if (cset->non_match || cset->ncoll_syms || cset->nequiv_classes
- || cset->nranges || cset->nchar_classes)
- {
- # ifdef _LIBC
- if (_NL_CURRENT_WORD (LC_COLLATE, _NL_COLLATE_NRULES) != 0)
- {
- /* In this case we want to catch the bytes which are
- the first byte of any collation elements.
- e.g. In da_DK, we want to catch 'a' since "aa"
- is a valid collation element, and don't catch
- 'b' since 'b' is the only collation element
- which starts from 'b'. */
- const int32_t *table = (const int32_t *)
- _NL_CURRENT (LC_COLLATE, _NL_COLLATE_TABLEMB);
- for (i = 0; i < SBC_MAX; ++i)
- if (table[i] < 0)
- re_set_fastmap (fastmap, icase, i);
- }
- # else
- if (dfa->mb_cur_max > 1)
- for (i = 0; i < SBC_MAX; ++i)
- if (__btowc (i) == WEOF)
- re_set_fastmap (fastmap, icase, i);
- # endif /* not _LIBC */
- }
- for (i = 0; i < cset->nmbchars; ++i)
- {
- char buf[256];
- mbstate_t state;
- memset (&state, '\0', sizeof (state));
- if (__wcrtomb (buf, cset->mbchars[i], &state) != (size_t) -1)
- re_set_fastmap (fastmap, icase, *(unsigned char *) buf);
- if ((bufp->syntax & RE_ICASE) && dfa->mb_cur_max > 1)
- {
- if (__wcrtomb (buf, towlower (cset->mbchars[i]), &state)
- != (size_t) -1)
- re_set_fastmap (fastmap, 0, *(unsigned char *) buf);
- }
- }
- }
- #endif /* RE_ENABLE_I18N */
- else if (type == OP_PERIOD
- #ifdef RE_ENABLE_I18N
- || type == OP_UTF8_PERIOD
- #endif /* RE_ENABLE_I18N */
- || type == END_OF_RE)
- {
- memset (fastmap, '\1', sizeof (char) * SBC_MAX);
- if (type == END_OF_RE)
- bufp->can_be_null = 1;
- return;
- }
- }
- }
- /* Entry point for POSIX code. */
- /* regcomp takes a regular expression as a string and compiles it.
- PREG is a regex_t *. We do not expect any fields to be initialized,
- since POSIX says we shouldn't. Thus, we set
- `buffer' to the compiled pattern;
- `used' to the length of the compiled pattern;
- `syntax' to RE_SYNTAX_POSIX_EXTENDED if the
- REG_EXTENDED bit in CFLAGS is set; otherwise, to
- RE_SYNTAX_POSIX_BASIC;
- `newline_anchor' to REG_NEWLINE being set in CFLAGS;
- `fastmap' to an allocated space for the fastmap;
- `fastmap_accurate' to zero;
- `re_nsub' to the number of subexpressions in PATTERN.
- PATTERN is the address of the pattern string.
- CFLAGS is a series of bits which affect compilation.
- If REG_EXTENDED is set, we use POSIX extended syntax; otherwise, we
- use POSIX basic syntax.
- If REG_NEWLINE is set, then . and [^...] don't match newline.
- Also, regexec will try a match beginning after every newline.
- If REG_ICASE is set, then we considers upper- and lowercase
- versions of letters to be equivalent when matching.
- If REG_NOSUB is set, then when PREG is passed to regexec, that
- routine will report only success or failure, and nothing about the
- registers.
- It returns 0 if it succeeds, nonzero if it doesn't. (See regex.h for
- the return codes and their meanings.) */
- int
- regcomp (preg, pattern, cflags)
- regex_t *__restrict preg;
- const char *__restrict pattern;
- int cflags;
- {
- reg_errcode_t ret;
- reg_syntax_t syntax = ((cflags & REG_EXTENDED) ? RE_SYNTAX_POSIX_EXTENDED
- : RE_SYNTAX_POSIX_BASIC);
- preg->buffer = NULL;
- preg->allocated = 0;
- preg->used = 0;
- /* Try to allocate space for the fastmap. */
- preg->fastmap = re_malloc (char, SBC_MAX);
- if (BE (preg->fastmap == NULL, 0))
- return REG_ESPACE;
- syntax |= (cflags & REG_ICASE) ? RE_ICASE : 0;
- /* If REG_NEWLINE is set, newlines are treated differently. */
- if (cflags & REG_NEWLINE)
- { /* REG_NEWLINE implies neither . nor [^...] match newline. */
- syntax &= ~RE_DOT_NEWLINE;
- syntax |= RE_HAT_LISTS_NOT_NEWLINE;
- /* It also changes the matching behavior. */
- preg->newline_anchor = 1;
- }
- else
- preg->newline_anchor = 0;
- preg->no_sub = !!(cflags & REG_NOSUB);
- preg->translate = NULL;
- ret = re_compile_internal (preg, pattern, strlen (pattern), syntax);
- /* POSIX doesn't distinguish between an unmatched open-group and an
- unmatched close-group: both are REG_EPAREN. */
- if (ret == REG_ERPAREN)
- ret = REG_EPAREN;
- /* We have already checked preg->fastmap != NULL. */
- if (BE (ret == REG_NOERROR, 1))
- /* Compute the fastmap now, since regexec cannot modify the pattern
- buffer. This function never fails in this implementation. */
- (void) re_compile_fastmap (preg);
- else
- {
- /* Some error occurred while compiling the expression. */
- re_free (preg->fastmap);
- preg->fastmap = NULL;
- }
- return (int) ret;
- }
- #if defined _LIBC || defined __UCLIBC__
- strong_alias(__regcomp, regcomp)
- #endif
- /* Returns a message corresponding to an error code, ERRCODE, returned
- from either regcomp or regexec. We don't use PREG here. */
- size_t
- regerror (errcode, preg, errbuf, errbuf_size)
- int errcode;
- const regex_t *__restrict preg;
- char *__restrict errbuf;
- size_t errbuf_size;
- {
- const char *msg;
- size_t msg_size;
- if (BE (errcode < 0
- || errcode >= (int) (sizeof (__re_error_msgid_idx)
- / sizeof (__re_error_msgid_idx[0])), 0))
- /* Only error codes returned by the rest of the code should be passed
- to this routine. If we are given anything else, or if other regex
- code generates an invalid error code, then the program has a bug.
- Dump core so we can fix it. */
- abort ();
- msg = gettext (__re_error_msgid + __re_error_msgid_idx[errcode]);
- msg_size = strlen (msg) + 1; /* Includes the null. */
- if (BE (errbuf_size != 0, 1))
- {
- if (BE (msg_size > errbuf_size, 0))
- {
- #if defined HAVE_MEMPCPY || defined _LIBC
- *((char *) __mempcpy (errbuf, msg, errbuf_size - 1)) = '\0';
- #else
- memcpy (errbuf, msg, errbuf_size - 1);
- errbuf[errbuf_size - 1] = 0;
- #endif
- }
- else
- memcpy (errbuf, msg, msg_size);
- }
- return msg_size;
- }
- #if defined _LIBC || defined __UCLIBC__
- strong_alias(__regerror, regerror)
- #endif
- #ifdef RE_ENABLE_I18N
- /* This static array is used for the map to single-byte characters when
- UTF-8 is used. Otherwise we would allocate memory just to initialize
- it the same all the time. UTF-8 is the preferred encoding so this is
- a worthwhile optimization. */
- static const bitset_t utf8_sb_map =
- {
- /* Set the first 128 bits. */
- [0 ... 0x80 / BITSET_WORD_BITS - 1] = BITSET_WORD_MAX
- };
- #endif
- static void
- free_dfa_content (re_dfa_t *dfa)
- {
- int i, j;
- if (dfa->nodes)
- for (i = 0; i < dfa->nodes_len; ++i)
- free_token (dfa->nodes + i);
- re_free (dfa->nexts);
- for (i = 0; i < dfa->nodes_len; ++i)
- {
- if (dfa->eclosures != NULL)
- re_node_set_free (dfa->eclosures + i);
- if (dfa->inveclosures != NULL)
- re_node_set_free (dfa->inveclosures + i);
- if (dfa->edests != NULL)
- re_node_set_free (dfa->edests + i);
- }
- re_free (dfa->edests);
- re_free (dfa->eclosures);
- re_free (dfa->inveclosures);
- re_free (dfa->nodes);
- if (dfa->state_table)
- for (i = 0; i <= dfa->state_hash_mask; ++i)
- {
- struct re_state_table_entry *entry = dfa->state_table + i;
- for (j = 0; j < entry->num; ++j)
- {
- re_dfastate_t *state = entry->array[j];
- free_state (state);
- }
- re_free (entry->array);
- }
- re_free (dfa->state_table);
- #ifdef RE_ENABLE_I18N
- if (dfa->sb_char != utf8_sb_map)
- re_free (dfa->sb_char);
- #endif
- re_free (dfa->subexp_map);
- #ifdef DEBUG
- re_free (dfa->re_str);
- #endif
- re_free (dfa);
- }
- /* Free dynamically allocated space used by PREG. */
- void
- regfree (preg)
- regex_t *preg;
- {
- re_dfa_t *dfa = (re_dfa_t *) preg->buffer;
- if (BE (dfa != NULL, 1))
- free_dfa_content (dfa);
- preg->buffer = NULL;
- preg->allocated = 0;
- re_free (preg->fastmap);
- preg->fastmap = NULL;
- re_free (preg->translate);
- preg->translate = NULL;
- }
- #if defined _LIBC || defined __UCLIBC__
- strong_alias(__regfree, regfree)
- #endif
- /* Entry points compatible with 4.2 BSD regex library. We don't define
- them unless specifically requested. */
- #if defined _REGEX_RE_COMP || defined _LIBC || defined __UCLIBC__
- /* BSD has one and only one pattern buffer. */
- static struct re_pattern_buffer re_comp_buf;
- char *
- # if defined _LIBC || defined __UCLIBC__
- /* Make these definitions weak in libc, so POSIX programs can redefine
- these names if they don't use our functions, and still use
- regcomp/regexec above without link errors. */
- weak_function
- # endif
- re_comp (s)
- const char *s;
- {
- reg_errcode_t ret;
- char *fastmap;
- if (!s)
- {
- if (!re_comp_buf.buffer)
- return gettext ("No previous regular expression");
- return 0;
- }
- if (re_comp_buf.buffer)
- {
- fastmap = re_comp_buf.fastmap;
- re_comp_buf.fastmap = NULL;
- __regfree (&re_comp_buf);
- memset (&re_comp_buf, '\0', sizeof (re_comp_buf));
- re_comp_buf.fastmap = fastmap;
- }
- if (re_comp_buf.fastmap == NULL)
- {
- re_comp_buf.fastmap = (char *) malloc (SBC_MAX);
- if (re_comp_buf.fastmap == NULL)
- return (char *) gettext (__re_error_msgid
- + __re_error_msgid_idx[(int) REG_ESPACE]);
- }
- /* Since `re_exec' always passes NULL for the `regs' argument, we
- don't need to initialize the pattern buffer fields which affect it. */
- /* Match anchors at newlines. */
- re_comp_buf.newline_anchor = 1;
- ret = re_compile_internal (&re_comp_buf, s, strlen (s), re_syntax_options);
- if (!ret)
- return NULL;
- /* Yes, we're discarding `const' here if !HAVE_LIBINTL. */
- return (char *) gettext (__re_error_msgid + __re_error_msgid_idx[(int) ret]);
- }
- #ifdef _LIBC
- libc_freeres_fn (free_mem)
- {
- __regfree (&re_comp_buf);
- }
- #endif
- #endif /* _REGEX_RE_COMP */
- /* Internal entry point.
- Compile the regular expression PATTERN, whose length is LENGTH.
- SYNTAX indicate regular expression's syntax. */
- static reg_errcode_t
- re_compile_internal (regex_t *preg, const char * pattern, size_t length,
- reg_syntax_t syntax)
- {
- reg_errcode_t err = REG_NOERROR;
- re_dfa_t *dfa;
- re_string_t regexp;
- /* Initialize the pattern buffer. */
- preg->fastmap_accurate = 0;
- preg->syntax = syntax;
- preg->not_bol = preg->not_eol = 0;
- preg->used = 0;
- preg->re_nsub = 0;
- preg->can_be_null = 0;
- preg->regs_allocated = REGS_UNALLOCATED;
- /* Initialize the dfa. */
- dfa = (re_dfa_t *) preg->buffer;
- if (BE (preg->allocated < sizeof (re_dfa_t), 0))
- {
- /* If zero allocated, but buffer is non-null, try to realloc
- enough space. This loses if buffer's address is bogus, but
- that is the user's responsibility. If ->buffer is NULL this
- is a simple allocation. */
- dfa = re_realloc (preg->buffer, re_dfa_t, 1);
- if (dfa == NULL)
- return REG_ESPACE;
- preg->allocated = sizeof (re_dfa_t);
- preg->buffer = (unsigned char *) dfa;
- }
- preg->used = sizeof (re_dfa_t);
- err = init_dfa (dfa, length);
- if (BE (err != REG_NOERROR, 0))
- {
- free_dfa_content (dfa);
- preg->buffer = NULL;
- preg->allocated = 0;
- return err;
- }
- #ifdef DEBUG
- /* Note: length+1 will not overflow since it is checked in init_dfa. */
- dfa->re_str = re_malloc (char, length + 1);
- strncpy (dfa->re_str, pattern, length + 1);
- #endif
- __libc_lock_init (dfa->lock);
- err = re_string_construct (®exp, pattern, length, preg->translate,
- syntax & RE_ICASE, dfa);
- if (BE (err != REG_NOERROR, 0))
- {
- re_compile_internal_free_return:
- free_workarea_compile (preg);
- re_string_destruct (®exp);
- free_dfa_content (dfa);
- preg->buffer = NULL;
- preg->allocated = 0;
- return err;
- }
- /* Parse the regular expression, and build a structure tree. */
- preg->re_nsub = 0;
- dfa->str_tree = parse (®exp, preg, syntax, &err);
- if (BE (dfa->str_tree == NULL, 0))
- goto re_compile_internal_free_return;
- /* Analyze the tree and create the nfa. */
- err = analyze (preg);
- if (BE (err != REG_NOERROR, 0))
- goto re_compile_internal_free_return;
- #ifdef RE_ENABLE_I18N
- /* If possible, do searching in single byte encoding to speed things up. */
- if (dfa->is_utf8 && !(syntax & RE_ICASE) && preg->translate == NULL)
- optimize_utf8 (dfa);
- #endif
- /* Then create the initial state of the dfa. */
- err = create_initial_state (dfa);
- /* Release work areas. */
- free_workarea_compile (preg);
- re_string_destruct (®exp);
- if (BE (err != REG_NOERROR, 0))
- {
- free_dfa_content (dfa);
- preg->buffer = NULL;
- preg->allocated = 0;
- }
- return err;
- }
- /* Initialize DFA. We use the length of the regular expression PAT_LEN
- as the initial length of some arrays. */
- static reg_errcode_t
- init_dfa (re_dfa_t *dfa, size_t pat_len)
- {
- unsigned int table_size;
- #ifndef _LIBC
- char *codeset_name;
- #endif
- memset (dfa, '\0', sizeof (re_dfa_t));
- /* Force allocation of str_tree_storage the first time. */
- dfa->str_tree_storage_idx = BIN_TREE_STORAGE_SIZE;
- /* Avoid overflows. */
- if (pat_len == SIZE_MAX)
- return REG_ESPACE;
- dfa->nodes_alloc = pat_len + 1;
- dfa->nodes = re_malloc (re_token_t, dfa->nodes_alloc);
- /* table_size = 2 ^ ceil(log pat_len) */
- for (table_size = 1; ; table_size <<= 1)
- if (table_size > pat_len)
- break;
- dfa->state_table = calloc (sizeof (struct re_state_table_entry), table_size);
- dfa->state_hash_mask = table_size - 1;
- #ifdef __UCLIBC_HAS_WCHAR__
- # undef MB_CUR_MAX
- # define MB_CUR_MAX (_stdlib_mb_cur_max ())
- extern size_t _stdlib_mb_cur_max (void) __THROW __wur;
- libc_hidden_proto(_stdlib_mb_cur_max)
- dfa->mb_cur_max = MB_CUR_MAX;
- #else
- dfa->mb_cur_max = 1;
- #endif
- #ifdef _LIBC
- if (dfa->mb_cur_max == 6
- && strcmp (_NL_CURRENT (LC_CTYPE, _NL_CTYPE_CODESET_NAME), "UTF-8") == 0)
- dfa->is_utf8 = 1;
- dfa->map_notascii = (_NL_CURRENT_WORD (LC_CTYPE, _NL_CTYPE_MAP_TO_NONASCII)
- != 0);
- #else
- # ifdef HAVE_LANGINFO_CODESET
- codeset_name = nl_langinfo (CODESET);
- # else
- codeset_name = getenv ("LC_ALL");
- if (codeset_name == NULL || codeset_name[0] == '\0')
- codeset_name = getenv ("LC_CTYPE");
- if (codeset_name == NULL || codeset_name[0] == '\0')
- codeset_name = getenv ("LANG");
- if (codeset_name == NULL)
- codeset_name = "";
- else if (strchr (codeset_name, '.') != NULL)
- codeset_name = strchr (codeset_name, '.') + 1;
- # endif
- if (strcasecmp (codeset_name, "UTF-8") == 0
- || strcasecmp (codeset_name, "UTF8") == 0)
- dfa->is_utf8 = 1;
- /* We check exhaustively in the loop below if this charset is a
- superset of ASCII. */
- dfa->map_notascii = 0;
- #endif
- #ifdef RE_ENABLE_I18N
- if (dfa->mb_cur_max > 1)
- {
- if (dfa->is_utf8)
- dfa->sb_char = (re_bitset_ptr_t) utf8_sb_map;
- else
- {
- int i, j, ch;
- dfa->sb_char = (re_bitset_ptr_t) calloc (sizeof (bitset_t), 1);
- if (BE (dfa->sb_char == NULL, 0))
- return REG_ESPACE;
- /* Set the bits corresponding to single byte chars. */
- for (i = 0, ch = 0; i < BITSET_WORDS; ++i)
- for (j = 0; j < BITSET_WORD_BITS; ++j, ++ch)
- {
- wint_t wch = __btowc (ch);
- if (wch != WEOF)
- dfa->sb_char[i] |= (bitset_word_t) 1 << j;
- # ifndef _LIBC
- if (isascii (ch) && wch != ch)
- dfa->map_notascii = 1;
- # endif
- }
- }
- }
- #endif
- if (BE (dfa->nodes == NULL || dfa->state_table == NULL, 0))
- return REG_ESPACE;
- return REG_NOERROR;
- }
- /* Initialize WORD_CHAR table, which indicate which character is
- "word". In this case "word" means that it is the word construction
- character used by some operators like "\<", "\>", etc. */
- static void
- internal_function
- init_word_char (re_dfa_t *dfa)
- {
- int i, j, ch;
- dfa->word_ops_used = 1;
- for (i = 0, ch = 0; i < BITSET_WORDS; ++i)
- for (j = 0; j < BITSET_WORD_BITS; ++j, ++ch)
- if (isalnum (ch) || ch == '_')
- dfa->word_char[i] |= (bitset_word_t) 1 << j;
- }
- /* Free the work area which are only used while compiling. */
- static void
- free_workarea_compile (regex_t *preg)
- {
- re_dfa_t *dfa = (re_dfa_t *) preg->buffer;
- bin_tree_storage_t *storage, *next;
- for (storage = dfa->str_tree_storage; storage; storage = next)
- {
- next = storage->next;
- re_free (storage);
- }
- dfa->str_tree_storage = NULL;
- dfa->str_tree_storage_idx = BIN_TREE_STORAGE_SIZE;
- dfa->str_tree = NULL;
- re_free (dfa->org_indices);
- dfa->org_indices = NULL;
- }
- /* Create initial states for all contexts. */
- static reg_errcode_t
- create_initial_state (re_dfa_t *dfa)
- {
- int first, i;
- reg_errcode_t err;
- re_node_set init_nodes;
- /* Initial states have the epsilon closure of the node which is
- the first node of the regular expression. */
- first = dfa->str_tree->first->node_idx;
- dfa->init_node = first;
- err = re_node_set_init_copy (&init_nodes, dfa->eclosures + first);
- if (BE (err != REG_NOERROR, 0))
- return err;
- /* The back-references which are in initial states can epsilon transit,
- since in this case all of the subexpressions can be null.
- Then we add epsilon closures of the nodes which are the next nodes of
- the back-references. */
- if (dfa->nbackref > 0)
- for (i = 0; i < init_nodes.nelem; ++i)
- {
- int node_idx = init_nodes.elems[i];
- re_token_type_t type = dfa->nodes[node_idx].type;
- int clexp_idx;
- if (type != OP_BACK_REF)
- continue;
- for (clexp_idx = 0; clexp_idx < init_nodes.nelem; ++clexp_idx)
- {
- re_token_t *clexp_node;
- clexp_node = dfa->nodes + init_nodes.elems[clexp_idx];
- if (clexp_node->type == OP_CLOSE_SUBEXP
- && clexp_node->opr.idx == dfa->nodes[node_idx].opr.idx)
- break;
- }
- if (clexp_idx == init_nodes.nelem)
- continue;
- if (type == OP_BACK_REF)
- {
- int dest_idx = dfa->edests[node_idx].elems[0];
- if (!re_node_set_contains (&init_nodes, dest_idx))
- {
- re_node_set_merge (&init_nodes, dfa->eclosures + dest_idx);
- i = 0;
- }
- }
- }
- /* It must be the first time to invoke acquire_state. */
- dfa->init_state = re_acquire_state_context (&err, dfa, &init_nodes, 0);
- /* We don't check ERR here, since the initial state must not be NULL. */
- if (BE (dfa->init_state == NULL, 0))
- return err;
- if (dfa->init_state->has_constraint)
- {
- dfa->init_state_word = re_acquire_state_context (&err, dfa, &init_nodes,
- CONTEXT_WORD);
- dfa->init_state_nl = re_acquire_state_context (&err, dfa, &init_nodes,
- CONTEXT_NEWLINE);
- dfa->init_state_begbuf = re_acquire_state_context (&err, dfa,
- &init_nodes,
- CONTEXT_NEWLINE
- | CONTEXT_BEGBUF);
- if (BE (dfa->init_state_word == NULL || dfa->init_state_nl == NULL
- || dfa->init_state_begbuf == NULL, 0))
- return err;
- }
- else
- dfa->init_state_word = dfa->init_state_nl
- = dfa->init_state_begbuf = dfa->init_state;
- re_node_set_free (&init_nodes);
- return REG_NOERROR;
- }
- #ifdef RE_ENABLE_I18N
- /* If it is possible to do searching in single byte encoding instead of UTF-8
- to speed things up, set dfa->mb_cur_max to 1, clear is_utf8 and change
- DFA nodes where needed. */
- static void
- optimize_utf8 (re_dfa_t *dfa)
- {
- int node, i, mb_chars = 0, has_period = 0;
- for (node = 0; node < dfa->nodes_len; ++node)
- switch (dfa->nodes[node].type)
- {
- case CHARACTER:
- if (dfa->nodes[node].opr.c >= 0x80)
- mb_chars = 1;
- break;
- case ANCHOR:
- switch (dfa->nodes[node].opr.idx)
- {
- case LINE_FIRST:
- case LINE_LAST:
- case BUF_FIRST:
- case BUF_LAST:
- break;
- default:
- /* Word anchors etc. cannot be handled. */
- return;
- }
- break;
- case OP_PERIOD:
- has_period = 1;
- break;
- case OP_BACK_REF:
- case OP_ALT:
- case END_OF_RE:
- case OP_DUP_ASTERISK:
- case OP_OPEN_SUBEXP:
- case OP_CLOSE_SUBEXP:
- break;
- case COMPLEX_BRACKET:
- return;
- case SIMPLE_BRACKET:
- /* Just double check. The non-ASCII range starts at 0x80. */
- assert (0x80 % BITSET_WORD_BITS == 0);
- for (i = 0x80 / BITSET_WORD_BITS; i < BITSET_WORDS; ++i)
- if (dfa->nodes[node].opr.sbcset[i])
- return;
- break;
- default:
- abort ();
- }
- if (mb_chars || has_period)
- for (node = 0; node < dfa->nodes_len; ++node)
- {
- if (dfa->nodes[node].type == CHARACTER
- && dfa->nodes[node].opr.c >= 0x80)
- dfa->nodes[node].mb_partial = 0;
- else if (dfa->nodes[node].type == OP_PERIOD)
- dfa->nodes[node].type = OP_UTF8_PERIOD;
- }
- /* The search can be in single byte locale. */
- dfa->mb_cur_max = 1;
- dfa->is_utf8 = 0;
- dfa->has_mb_node = dfa->nbackref > 0 || has_period;
- }
- #endif
- /* Analyze the structure tree, and calculate "first", "next", "edest",
- "eclosure", and "inveclosure". */
- static reg_errcode_t
- analyze (regex_t *preg)
- {
- re_dfa_t *dfa = (re_dfa_t *) preg->buffer;
- reg_errcode_t ret;
- /* Allocate arrays. */
- dfa->nexts = re_malloc (int, dfa->nodes_alloc);
- dfa->org_indices = re_malloc (int, dfa->nodes_alloc);
- dfa->edests = re_malloc (re_node_set, dfa->nodes_alloc);
- dfa->eclosures = re_malloc (re_node_set, dfa->nodes_alloc);
- if (BE (dfa->nexts == NULL || dfa->org_indices == NULL || dfa->edests == NULL
- || dfa->eclosures == NULL, 0))
- return REG_ESPACE;
- dfa->subexp_map = re_malloc (int, preg->re_nsub);
- if (dfa->subexp_map != NULL)
- {
- int i;
- for (i = 0; i < preg->re_nsub; i++)
- dfa->subexp_map[i] = i;
- preorder (dfa->str_tree, optimize_subexps, dfa);
- for (i = 0; i < preg->re_nsub; i++)
- if (dfa->subexp_map[i] != i)
- break;
- if (i == preg->re_nsub)
- {
- free (dfa->subexp_map);
- dfa->subexp_map = NULL;
- }
- }
- ret = postorder (dfa->str_tree, lower_subexps, preg);
- if (BE (ret != REG_NOERROR, 0))
- return ret;
- ret = postorder (dfa->str_tree, calc_first, dfa);
- if (BE (ret != REG_NOERROR, 0))
- return ret;
- preorder (dfa->str_tree, calc_next, dfa);
- ret = preorder (dfa->str_tree, link_nfa_nodes, dfa);
- if (BE (ret != REG_NOERROR, 0))
- return ret;
- ret = calc_eclosure (dfa);
- if (BE (ret != REG_NOERROR, 0))
- return ret;
- /* We only need this during the prune_impossible_nodes pass in regexec.c;
- skip it if p_i_n will not run, as calc_inveclosure can be quadratic. */
- if ((!preg->no_sub && preg->re_nsub > 0 && dfa->has_plural_match)
- || dfa->nbackref)
- {
- dfa->inveclosures = re_malloc (re_node_set, dfa->nodes_len);
- if (BE (dfa->inveclosures == NULL, 0))
- return REG_ESPACE;
- ret = calc_inveclosure (dfa);
- }
- return ret;
- }
- /* Our parse trees are very unbalanced, so we cannot use a stack to
- implement parse tree visits. Instead, we use parent pointers and
- some hairy code in these two functions. */
- static reg_errcode_t
- postorder (bin_tree_t *root, reg_errcode_t (fn (void *, bin_tree_t *)),
- void *extra)
- {
- bin_tree_t *node, *prev;
- for (node = root; ; )
- {
- /* Descend down the tree, preferably to the left (or to the right
- if that's the only child). */
- while (node->left || node->right)
- if (node->left)
- node = node->left;
- else
- node = node->right;
- do
- {
- reg_errcode_t err = fn (extra, node);
- if (BE (err != REG_NOERROR, 0))
- return err;
- if (node->parent == NULL)
- return REG_NOERROR;
- prev = node;
- node = node->parent;
- }
- /* Go up while we have a node that is reached from the right. */
- while (node->right == prev || node->right == NULL);
- node = node->right;
- }
- }
- static reg_errcode_t
- preorder (bin_tree_t *root, reg_errcode_t (fn (void *, bin_tree_t *)),
- void *extra)
- {
- bin_tree_t *node;
- for (node = root; ; )
- {
- reg_errcode_t err = fn (extra, node);
- if (BE (err != REG_NOERROR, 0))
- return err;
- /* Go to the left node, or up and to the right. */
- if (node->left)
- node = node->left;
- else
- {
- bin_tree_t *prev = NULL;
- while (node->right == prev || node->right == NULL)
- {
- prev = node;
- node = node->parent;
- if (!node)
- return REG_NOERROR;
- }
- node = node->right;
- }
- }
- }
- /* Optimization pass: if a SUBEXP is entirely contained, strip it and tell
- re_search_internal to map the inner one's opr.idx to this one's. Adjust
- backreferences as well. Requires a preorder visit. */
- static reg_errcode_t
- optimize_subexps (void *extra, bin_tree_t *node)
- {
- re_dfa_t *dfa = (re_dfa_t *) extra;
- if (node->token.type == OP_BACK_REF && dfa->subexp_map)
- {
- int idx = node->token.opr.idx;
- node->token.opr.idx = dfa->subexp_map[idx];
- dfa->used_bkref_map |= 1 << node->token.opr.idx;
- }
- else if (node->token.type == SUBEXP
- && node->left && node->left->token.type == SUBEXP)
- {
- int other_idx = node->left->token.opr.idx;
- node->left = node->left->left;
- if (node->left)
- node->left->parent = node;
- dfa->subexp_map[other_idx] = dfa->subexp_map[node->token.opr.idx];
- if (other_idx < BITSET_WORD_BITS)
- dfa->used_bkref_map &= ~((bitset_word_t) 1 << other_idx);
- }
- return REG_NOERROR;
- }
- /* Lowering pass: Turn each SUBEXP node into the appropriate concatenation
- of OP_OPEN_SUBEXP, the body of the SUBEXP (if any) and OP_CLOSE_SUBEXP. */
- static reg_errcode_t
- lower_subexps (void *extra, bin_tree_t *node)
- {
- regex_t *preg = (regex_t *) extra;
- reg_errcode_t err = REG_NOERROR;
- if (node->left && node->left->token.type == SUBEXP)
- {
- node->left = lower_subexp (&err, preg, node->left);
- if (node->left)
- node->left->parent = node;
- }
- if (node->right && node->right->token.type == SUBEXP)
- {
- node->right = lower_subexp (&err, preg, node->right);
- if (node->right)
- node->right->parent = node;
- }
- return err;
- }
- static bin_tree_t *
- lower_subexp (reg_errcode_t *err, regex_t *preg, bin_tree_t *node)
- {
- re_dfa_t *dfa = (re_dfa_t *) preg->buffer;
- bin_tree_t *body = node->left;
- bin_tree_t *op, *cls, *tree1, *tree;
- if (preg->no_sub
- /* We do not optimize empty subexpressions, because otherwise we may
- have bad CONCAT nodes with NULL children. This is obviously not
- very common, so we do not lose much. An example that triggers
- this case is the sed "script" /\(\)/x. */
- && node->left != NULL
- && (node->token.opr.idx >= BITSET_WORD_BITS
- || !(dfa->used_bkref_map
- & ((bitset_word_t) 1 << node->token.opr.idx))))
- return node->left;
- /* Convert the SUBEXP node to the concatenation of an
- OP_OPEN_SUBEXP, the contents, and an OP_CLOSE_SUBEXP. */
- op = create_tree (dfa, NULL, NULL, OP_OPEN_SUBEXP);
- cls = create_tree (dfa, NULL, NULL, OP_CLOSE_SUBEXP);
- tree1 = body ? create_tree (dfa, body, cls, CONCAT) : cls;
- tree = create_tree (dfa, op, tree1, CONCAT);
- if (BE (tree == NULL || tree1 == NULL || op == NULL || cls == NULL, 0))
- {
- *err = REG_ESPACE;
- return NULL;
- }
- op->token.opr.idx = cls->token.opr.idx = node->token.opr.idx;
- op->token.opt_subexp = cls->token.opt_subexp = node->token.opt_subexp;
- return tree;
- }
- /* Pass 1 in building the NFA: compute FIRST and create unlinked automaton
- nodes. Requires a postorder visit. */
- static reg_errcode_t
- calc_first (void *extra, bin_tree_t *node)
- {
- re_dfa_t *dfa = (re_dfa_t *) extra;
- if (node->token.type == CONCAT)
- {
- node->first = node->left->first;
- node->node_idx = node->left->node_idx;
- }
- else
- {
- node->first = node;
- node->node_idx = re_dfa_add_node (dfa, node->token);
- if (BE (node->node_idx == -1, 0))
- return REG_ESPACE;
- }
- return REG_NOERROR;
- }
- /* Pass 2: compute NEXT on the tree. Preorder visit. */
- static reg_errcode_t
- calc_next (void *extra, bin_tree_t *node)
- {
- switch (node->token.type)
- {
- case OP_DUP_ASTERISK:
- node->left->next = node;
- break;
- case CONCAT:
- node->left->next = node->right->first;
- node->right->next = node->next;
- break;
- default:
- if (node->left)
- node->left->next = node->next;
- if (node->right)
- node->right->next = node->next;
- break;
- }
- return REG_NOERROR;
- }
- /* Pass 3: link all DFA nodes to their NEXT node (any order will do). */
- static reg_errcode_t
- link_nfa_nodes (void *extra, bin_tree_t *node)
- {
- re_dfa_t *dfa = (re_dfa_t *) extra;
- int idx = node->node_idx;
- reg_errcode_t err = REG_NOERROR;
- switch (node->token.type)
- {
- case CONCAT:
- break;
- case END_OF_RE:
- assert (node->next == NULL);
- break;
- case OP_DUP_ASTERISK:
- case OP_ALT:
- {
- int left, right;
- dfa->has_plural_match = 1;
- if (node->left != NULL)
- left = node->left->first->node_idx;
- else
- left = node->next->node_idx;
- if (node->right != NULL)
- right = node->right->first->node_idx;
- else
- right = node->next->node_idx;
- assert (left > -1);
- assert (right > -1);
- err = re_node_set_init_2 (dfa->edests + idx, left, right);
- }
- break;
- case ANCHOR:
- case OP_OPEN_SUBEXP:
- case OP_CLOSE_SUBEXP:
- err = re_node_set_init_1 (dfa->edests + idx, node->next->node_idx);
- break;
- case OP_BACK_REF:
- dfa->nexts[idx] = node->next->node_idx;
- if (node->token.type == OP_BACK_REF)
- re_node_set_init_1 (dfa->edests + idx, dfa->nexts[idx]);
- break;
- default:
- assert (!IS_EPSILON_NODE (node->token.type));
- dfa->nexts[idx] = node->next->node_idx;
- break;
- }
- return err;
- }
- /* Duplicate the epsilon closure of the node ROOT_NODE.
- Note that duplicated nodes have constraint INIT_CONSTRAINT in addition
- to their own constraint. */
- static reg_errcode_t
- internal_function
- duplicate_node_closure (re_dfa_t *dfa, int top_org_node, int top_clone_node,
- int root_node, unsigned int init_constraint)
- {
- int org_node, clone_node, ret;
- unsigned int constraint = init_constraint;
- for (org_node = top_org_node, clone_node = top_clone_node;;)
- {
- int org_dest, clone_dest;
- if (dfa->nodes[org_node].type == OP_BACK_REF)
- {
- /* If the back reference epsilon-transit, its destination must
- also have the constraint. Then duplicate the epsilon closure
- of the destination of the back reference, and store it in
- edests of the back reference. */
- org_dest = dfa->nexts[org_node];
- re_node_set_empty (dfa->edests + clone_node);
- clone_dest = duplicate_node (dfa, org_dest, constraint);
- if (BE (clone_dest == -1, 0))
- return REG_ESPACE;
- dfa->nexts[clone_node] = dfa->nexts[org_node];
- ret = re_node_set_insert (dfa->edests + clone_node, clone_dest);
- if (BE (ret < 0, 0))
- return REG_ESPACE;
- }
- else if (dfa->edests[org_node].nelem == 0)
- {
- /* In case of the node can't epsilon-transit, don't duplicate the
- destination and store the original destination as the
- destination of the node. */
- dfa->nexts[clone_node] = dfa->nexts[org_node];
- break;
- }
- else if (dfa->edests[org_node].nelem == 1)
- {
- /* In case of the node can epsilon-transit, and it has only one
- destination. */
- org_dest = dfa->edests[org_node].elems[0];
- re_node_set_empty (dfa->edests + clone_node);
- if (dfa->nodes[org_node].type == ANCHOR)
- {
- /* In case of the node has another constraint, append it. */
- if (org_node == root_node && clone_node != org_node)
- {
- /* ...but if the node is root_node itself, it means the
- epsilon closure have a loop, then tie it to the
- destination of the root_node. */
- ret = re_node_set_insert (dfa->edests + clone_node,
- org_dest);
- if (BE (ret < 0, 0))
- return REG_ESPACE;
- break;
- }
- constraint |= dfa->nodes[org_node].opr.ctx_type;
- }
- clone_dest = duplicate_node (dfa, org_dest, constraint);
- if (BE (clone_dest == -1, 0))
- return REG_ESPACE;
- ret = re_node_set_insert (dfa->edests + clone_node, clone_dest);
- if (BE (ret < 0, 0))
- return REG_ESPACE;
- }
- else /* dfa->edests[org_node].nelem == 2 */
- {
- /* In case of the node can epsilon-transit, and it has two
- destinations. In the bin_tree_t and DFA, that's '|' and '*'. */
- org_dest = dfa->edests[org_node].elems[0];
- re_node_set_empty (dfa->edests + clone_node);
- /* Search for a duplicated node which satisfies the constraint. */
- clone_dest = search_duplicated_node (dfa, org_dest, constraint);
- if (clone_dest == -1)
- {
- /* There are no such a duplicated node, create a new one. */
- reg_errcode_t err;
- clone_dest = duplicate_node (dfa, org_dest, constraint);
- if (BE (clone_dest == -1, 0))
- return REG_ESPACE;
- ret = re_node_set_insert (dfa->edests + clone_node, clone_dest);
- if (BE (ret < 0, 0))
- return REG_ESPACE;
- err = duplicate_node_closure (dfa, org_dest, clone_dest,
- root_node, constraint);
- if (BE (err != REG_NOERROR, 0))
- return err;
- }
- else
- {
- /* There are a duplicated node which satisfy the constraint,
- use it to avoid infinite loop. */
- ret = re_node_set_insert (dfa->edests + clone_node, clone_dest);
- if (BE (ret < 0, 0))
- return REG_ESPACE;
- }
- org_dest = dfa->edests[org_node].elems[1];
- clone_dest = duplicate_node (dfa, org_dest, constraint);
- if (BE (clone_dest == -1, 0))
- return REG_ESPACE;
- ret = re_node_set_insert (dfa->edests + clone_node, clone_dest);
- if (BE (ret < 0, 0))
- return REG_ESPACE;
- }
- org_node = org_dest;
- clone_node = clone_dest;
- }
- return REG_NOERROR;
- }
- /* Search for a node which is duplicated from the node ORG_NODE, and
- satisfies the constraint CONSTRAINT. */
- static int
- search_duplicated_node (const re_dfa_t *dfa, int org_node,
- unsigned int constraint)
- {
- int idx;
- for (idx = dfa->nodes_len - 1; dfa->nodes[idx].duplicated && idx > 0; --idx)
- {
- if (org_node == dfa->org_indices[idx]
- && constraint == dfa->nodes[idx].constraint)
- return idx; /* Found. */
- }
- return -1; /* Not found. */
- }
- /* Duplicate the node whose index is ORG_IDX and set the constraint CONSTRAINT.
- Return the index of the new node, or -1 if insufficient storage is
- available. */
- static int
- duplicate_node (re_dfa_t *dfa, int org_idx, unsigned int constraint)
- {
- int dup_idx = re_dfa_add_node (dfa, dfa->nodes[org_idx]);
- if (BE (dup_idx != -1, 1))
- {
- dfa->nodes[dup_idx].constraint = constraint;
- if (dfa->nodes[org_idx].type == ANCHOR)
- dfa->nodes[dup_idx].constraint |= dfa->nodes[org_idx].opr.ctx_type;
- dfa->nodes[dup_idx].duplicated = 1;
- /* Store the index of the original node. */
- dfa->org_indices[dup_idx] = org_idx;
- }
- return dup_idx;
- }
- static reg_errcode_t
- calc_inveclosure (re_dfa_t *dfa)
- {
- int src, idx, ret;
- for (idx = 0; idx < dfa->nodes_len; ++idx)
- re_node_set_init_empty (dfa->inveclosures + idx);
- for (src = 0; src < dfa->nodes_len; ++src)
- {
- int *elems = dfa->eclosures[src].elems;
- for (idx = 0; idx < dfa->eclosures[src].nelem; ++idx)
- {
- ret = re_node_set_insert_last (dfa->inveclosures + elems[idx], src);
- if (BE (ret == -1, 0))
- return REG_ESPACE;
- }
- }
- return REG_NOERROR;
- }
- /* Calculate "eclosure" for all the node in DFA. */
- static reg_errcode_t
- calc_eclosure (re_dfa_t *dfa)
- {
- int node_idx, incomplete;
- #ifdef DEBUG
- assert (dfa->nodes_len > 0);
- #endif
- incomplete = 0;
- /* For each nodes, calculate epsilon closure. */
- for (node_idx = 0; ; ++node_idx)
- {
- reg_errcode_t err;
- re_node_set eclosure_elem;
- if (node_idx == dfa->nodes_len)
- {
- if (!incomplete)
- break;
- incomplete = 0;
- node_idx = 0;
- }
- #ifdef DEBUG
- assert (dfa->eclosures[node_idx].nelem != -1);
- #endif
- /* If we have already calculated, skip it. */
- if (dfa->eclosures[node_idx].nelem != 0)
- continue;
- /* Calculate epsilon closure of `node_idx'. */
- err = calc_eclosure_iter (&eclosure_elem, dfa, node_idx, 1);
- if (BE (err != REG_NOERROR, 0))
- return err;
- if (dfa->eclosures[node_idx].nelem == 0)
- {
- incomplete = 1;
- re_node_set_free (&eclosure_elem);
- }
- }
- return REG_NOERROR;
- }
- /* Calculate epsilon closure of NODE. */
- static reg_errcode_t
- calc_eclosure_iter (re_node_set *new_set, re_dfa_t *dfa, int node, int root)
- {
- reg_errcode_t err;
- unsigned int constraint;
- int i, incomplete;
- re_node_set eclosure;
- incomplete = 0;
- err = re_node_set_alloc (&eclosure, dfa->edests[node].nelem + 1);
- if (BE (err != REG_NOERROR, 0))
- return err;
- /* This indicates that we are calculating this node now.
- We reference this value to avoid infinite loop. */
- dfa->eclosures[node].nelem = -1;
- constraint = ((dfa->nodes[node].type == ANCHOR)
- ? dfa->nodes[node].opr.ctx_type : 0);
- /* If the current node has constraints, duplicate all nodes.
- Since they must inherit the constraints. */
- if (constraint
- && dfa->edests[node].nelem
- && !dfa->nodes[dfa->edests[node].elems[0]].duplicated)
- {
- int org_node, cur_node;
- org_node = cur_node = node;
- err = duplicate_node_closure (dfa, node, node, node, constraint);
- if (BE (err != REG_NOERROR, 0))
- return err;
- }
- /* Expand each epsilon destination nodes. */
- if (IS_EPSILON_NODE(dfa->nodes[node].type))
- for (i = 0; i < dfa->edests[node].nelem; ++i)
- {
- re_node_set eclosure_elem;
- int edest = dfa->edests[node].elems[i];
- /* If calculating the epsilon closure of `edest' is in progress,
- return intermediate result. */
- if (dfa->eclosures[edest].nelem == -1)
- {
- incomplete = 1;
- continue;
- }
- /* If we haven't calculated the epsilon closure of `edest' yet,
- calculate now. Otherwise use calculated epsilon closure. */
- if (dfa->eclosures[edest].nelem == 0)
- {
- err = calc_eclosure_iter (&eclosure_elem, dfa, edest, 0);
- if (BE (err != REG_NOERROR, 0))
- return err;
- }
- else
- eclosure_elem = dfa->eclosures[edest];
- /* Merge the epsilon closure of `edest'. */
- re_node_set_merge (&eclosure, &eclosure_elem);
- /* If the epsilon closure of `edest' is incomplete,
- the epsilon closure of this node is also incomplete. */
- if (dfa->eclosures[edest].nelem == 0)
- {
- incomplete = 1;
- re_node_set_free (&eclosure_elem);
- }
- }
- /* Epsilon closures include itself. */
- re_node_set_insert (&eclosure, node);
- if (incomplete && !root)
- dfa->eclosures[node].nelem = 0;
- else
- dfa->eclosures[node] = eclosure;
- *new_set = eclosure;
- return REG_NOERROR;
- }
- /* Functions for token which are used in the parser. */
- /* Fetch a token from INPUT.
- We must not use this function inside bracket expressions. */
- static void
- internal_function
- fetch_token (re_token_t *result, re_string_t *input, reg_syntax_t syntax)
- {
- re_string_skip_bytes (input, peek_token (result, input, syntax));
- }
- /* Peek a token from INPUT, and return the length of the token.
- We must not use this function inside bracket expressions. */
- static int
- internal_function
- peek_token (re_token_t *token, re_string_t *input, reg_syntax_t syntax)
- {
- unsigned char c;
- if (re_string_eoi (input))
- {
- token->type = END_OF_RE;
- return 0;
- }
- c = re_string_peek_byte (input, 0);
- token->opr.c = c;
- token->word_char = 0;
- #ifdef RE_ENABLE_I18N
- token->mb_partial = 0;
- if (input->mb_cur_max > 1 &&
- !re_string_first_byte (input, re_string_cur_idx (input)))
- {
- token->type = CHARACTER;
- token->mb_partial = 1;
- return 1;
- }
- #endif
- if (c == '\\')
- {
- unsigned char c2;
- if (re_string_cur_idx (input) + 1 >= re_string_length (input))
- {
- token->type = BACK_SLASH;
- return 1;
- }
- c2 = re_string_peek_byte_case (input, 1);
- token->opr.c = c2;
- token->type = CHARACTER;
- #ifdef RE_ENABLE_I18N
- if (input->mb_cur_max > 1)
- {
- wint_t wc = re_string_wchar_at (input,
- re_string_cur_idx (input) + 1);
- token->word_char = IS_WIDE_WORD_CHAR (wc) != 0;
- }
- else
- #endif
- token->word_char = IS_WORD_CHAR (c2) != 0;
- switch (c2)
- {
- case '|':
- if (!(syntax & RE_LIMITED_OPS) && !(syntax & RE_NO_BK_VBAR))
- token->type = OP_ALT;
- break;
- case '1': case '2': case '3': case '4': case '5':
- case '6': case '7': case '8': case '9':
- if (!(syntax & RE_NO_BK_REFS))
- {
- token->type = OP_BACK_REF;
- token->opr.idx = c2 - '1';
- }
- break;
- case '<':
- if (!(syntax & RE_NO_GNU_OPS))
- {
- token->type = ANCHOR;
- token->opr.ctx_type = WORD_FIRST;
- }
- break;
- case '>':
- if (!(syntax & RE_NO_GNU_OPS))
- {
- token->type = ANCHOR;
- token->opr.ctx_type = WORD_LAST;
- }
- break;
- case 'b':
- if (!(syntax & RE_NO_GNU_OPS))
- {
- token->type = ANCHOR;
- token->opr.ctx_type = WORD_DELIM;
- }
- break;
- case 'B':
- if (!(syntax & RE_NO_GNU_OPS))
- {
- token->type = ANCHOR;
- token->opr.ctx_type = NOT_WORD_DELIM;
- }
- break;
- case 'w':
- if (!(syntax & RE_NO_GNU_OPS))
- token->type = OP_WORD;
- break;
- case 'W':
- if (!(syntax & RE_NO_GNU_OPS))
- token->type = OP_NOTWORD;
- break;
- case 's':
- if (!(syntax & RE_NO_GNU_OPS))
- token->type = OP_SPACE;
- break;
- case 'S':
- if (!(syntax & RE_NO_GNU_OPS))
- token->type = OP_NOTSPACE;
- break;
- case '`':
- if (!(syntax & RE_NO_GNU_OPS))
- {
- token->type = ANCHOR;
- token->opr.ctx_type = BUF_FIRST;
- }
- break;
- case '\'':
- if (!(syntax & RE_NO_GNU_OPS))
- {
- token->type = ANCHOR;
- token->opr.ctx_type = BUF_LAST;
- }
- break;
- case '(':
- if (!(syntax & RE_NO_BK_PARENS))
- token->type = OP_OPEN_SUBEXP;
- break;
- case ')':
- if (!(syntax & RE_NO_BK_PARENS))
- token->type = OP_CLOSE_SUBEXP;
- break;
- case '+':
- if (!(syntax & RE_LIMITED_OPS) && (syntax & RE_BK_PLUS_QM))
- token->type = OP_DUP_PLUS;
- break;
- case '?':
- if (!(syntax & RE_LIMITED_OPS) && (syntax & RE_BK_PLUS_QM))
- token->type = OP_DUP_QUESTION;
- break;
- case '{':
- if ((syntax & RE_INTERVALS) && (!(syntax & RE_NO_BK_BRACES)))
- token->type = OP_OPEN_DUP_NUM;
- break;
- case '}':
- if ((syntax & RE_INTERVALS) && (!(syntax & RE_NO_BK_BRACES)))
- token->type = OP_CLOSE_DUP_NUM;
- break;
- default:
- break;
- }
- return 2;
- }
- token->type = CHARACTER;
- #ifdef RE_ENABLE_I18N
- if (input->mb_cur_max > 1)
- {
- wint_t wc = re_string_wchar_at (input, re_string_cur_idx (input));
- token->word_char = IS_WIDE_WORD_CHAR (wc) != 0;
- }
- else
- #endif
- token->word_char = IS_WORD_CHAR (token->opr.c);
- switch (c)
- {
- case '\n':
- if (syntax & RE_NEWLINE_ALT)
- token->type = OP_ALT;
- break;
- case '|':
- if (!(syntax & RE_LIMITED_OPS) && (syntax & RE_NO_BK_VBAR))
- token->type = OP_ALT;
- break;
- case '*':
- token->type = OP_DUP_ASTERISK;
- break;
- case '+':
- if (!(syntax & RE_LIMITED_OPS) && !(syntax & RE_BK_PLUS_QM))
- token->type = OP_DUP_PLUS;
- break;
- case '?':
- if (!(syntax & RE_LIMITED_OPS) && !(syntax & RE_BK_PLUS_QM))
- token->type = OP_DUP_QUESTION;
- break;
- case '{':
- if ((syntax & RE_INTERVALS) && (syntax & RE_NO_BK_BRACES))
- token->type = OP_OPEN_DUP_NUM;
- break;
- case '}':
- if ((syntax & RE_INTERVALS) && (syntax & RE_NO_BK_BRACES))
- token->type = OP_CLOSE_DUP_NUM;
- break;
- case '(':
- if (syntax & RE_NO_BK_PARENS)
- token->type = OP_OPEN_SUBEXP;
- break;
- case ')':
- if (syntax & RE_NO_BK_PARENS)
- token->type = OP_CLOSE_SUBEXP;
- break;
- case '[':
- token->type = OP_OPEN_BRACKET;
- break;
- case '.':
- token->type = OP_PERIOD;
- break;
- case '^':
- if (!(syntax & (RE_CONTEXT_INDEP_ANCHORS | RE_CARET_ANCHORS_HERE)) &&
- re_string_cur_idx (input) != 0)
- {
- char prev = re_string_peek_byte (input, -1);
- if (!(syntax & RE_NEWLINE_ALT) || prev != '\n')
- break;
- }
- token->type = ANCHOR;
- token->opr.ctx_type = LINE_FIRST;
- break;
- case '$':
- if (!(syntax & RE_CONTEXT_INDEP_ANCHORS) &&
- re_string_cur_idx (input) + 1 != re_string_length (input))
- {
- re_token_t next;
- re_string_skip_bytes (input, 1);
- peek_token (&next, input, syntax);
- re_string_skip_bytes (input, -1);
- if (next.type != OP_ALT && next.type != OP_CLOSE_SUBEXP)
- break;
- }
- token->type = ANCHOR;
- token->opr.ctx_type = LINE_LAST;
- break;
- default:
- break;
- }
- return 1;
- }
- /* Peek a token from INPUT, and return the length of the token.
- We must not use this function out of bracket expressions. */
- static int
- internal_function
- peek_token_bracket (re_token_t *token, re_string_t *input, reg_syntax_t syntax)
- {
- unsigned char c;
- if (re_string_eoi (input))
- {
- token->type = END_OF_RE;
- return 0;
- }
- c = re_string_peek_byte (input, 0);
- token->opr.c = c;
- #ifdef RE_ENABLE_I18N
- if (input->mb_cur_max > 1 &&
- !re_string_first_byte (input, re_string_cur_idx (input)))
- {
- token->type = CHARACTER;
- return 1;
- }
- #endif /* RE_ENABLE_I18N */
- if (c == '\\' && (syntax & RE_BACKSLASH_ESCAPE_IN_LISTS)
- && re_string_cur_idx (input) + 1 < re_string_length (input))
- {
- /* In this case, '\' escape a character. */
- unsigned char c2;
- re_string_skip_bytes (input, 1);
- c2 = re_string_peek_byte (input, 0);
- token->opr.c = c2;
- token->type = CHARACTER;
- return 1;
- }
- if (c == '[') /* '[' is a special char in a bracket exps. */
- {
- unsigned char c2;
- int token_len;
- if (re_string_cur_idx (input) + 1 < re_string_length (input))
- c2 = re_string_peek_byte (input, 1);
- else
- c2 = 0;
- token->opr.c = c2;
- token_len = 2;
- switch (c2)
- {
- case '.':
- token->type = OP_OPEN_COLL_ELEM;
- break;
- case '=':
- token->type = OP_OPEN_EQUIV_CLASS;
- break;
- case ':':
- if (syntax & RE_CHAR_CLASSES)
- {
- token->type = OP_OPEN_CHAR_CLASS;
- break;
- }
- /* else fall through. */
- default:
- token->type = CHARACTER;
- token->opr.c = c;
- token_len = 1;
- break;
- }
- return token_len;
- }
- switch (c)
- {
- case '-':
- token->type = OP_CHARSET_RANGE;
- break;
- case ']':
- token->type = OP_CLOSE_BRACKET;
- break;
- case '^':
- token->type = OP_NON_MATCH_LIST;
- break;
- default:
- token->type = CHARACTER;
- }
- return 1;
- }
- /* Functions for parser. */
- /* Entry point of the parser.
- Parse the regular expression REGEXP and return the structure tree.
- If an error is occured, ERR is set by error code, and return NULL.
- This function build the following tree, from regular expression <reg_exp>:
- CAT
- / \
- / \
- <reg_exp> EOR
- CAT means concatenation.
- EOR means end of regular expression. */
- static bin_tree_t *
- parse (re_string_t *regexp, regex_t *preg, reg_syntax_t syntax,
- reg_errcode_t *err)
- {
- re_dfa_t *dfa = (re_dfa_t *) preg->buffer;
- bin_tree_t *tree, *eor, *root;
- re_token_t current_token;
- dfa->syntax = syntax;
- fetch_token (¤t_token, regexp, syntax | RE_CARET_ANCHORS_HERE);
- tree = parse_reg_exp (regexp, preg, ¤t_token, syntax, 0, err);
- if (BE (*err != REG_NOERROR && tree == NULL, 0))
- return NULL;
- eor = create_tree (dfa, NULL, NULL, END_OF_RE);
- if (tree != NULL)
- root = create_tree (dfa, tree, eor, CONCAT);
- else
- root = eor;
- if (BE (eor == NULL || root == NULL, 0))
- {
- *err = REG_ESPACE;
- return NULL;
- }
- return root;
- }
- /* This function build the following tree, from regular expression
- <branch1>|<branch2>:
- ALT
- / \
- / \
- <branch1> <branch2>
- ALT means alternative, which represents the operator `|'. */
- static bin_tree_t *
- parse_reg_exp (re_string_t *regexp, regex_t *preg, re_token_t *token,
- reg_syntax_t syntax, int nest, reg_errcode_t *err)
- {
- re_dfa_t *dfa = (re_dfa_t *) preg->buffer;
- bin_tree_t *tree, *branch = NULL;
- tree = parse_branch (regexp, preg, token, syntax, nest, err);
- if (BE (*err != REG_NOERROR && tree == NULL, 0))
- return NULL;
- while (token->type == OP_ALT)
- {
- fetch_token (token, regexp, syntax | RE_CARET_ANCHORS_HERE);
- if (token->type != OP_ALT && token->type != END_OF_RE
- && (nest == 0 || token->type != OP_CLOSE_SUBEXP))
- {
- branch = parse_branch (regexp, preg, token, syntax, nest, err);
- if (BE (*err != REG_NOERROR && branch == NULL, 0))
- return NULL;
- }
- else
- branch = NULL;
- tree = create_tree (dfa, tree, branch, OP_ALT);
- if (BE (tree == NULL, 0))
- {
- *err = REG_ESPACE;
- return NULL;
- }
- }
- return tree;
- }
- /* This function build the following tree, from regular expression
- <exp1><exp2>:
- CAT
- / \
- / \
- <exp1> <exp2>
- CAT means concatenation. */
- static bin_tree_t *
- parse_branch (re_string_t *regexp, regex_t *preg, re_token_t *token,
- reg_syntax_t syntax, int nest, reg_errcode_t *err)
- {
- bin_tree_t *tree, *exp;
- re_dfa_t *dfa = (re_dfa_t *) preg->buffer;
- tree = parse_expression (regexp, preg, token, syntax, nest, err);
- if (BE (*err != REG_NOERROR && tree == NULL, 0))
- return NULL;
- while (token->type != OP_ALT && token->type != END_OF_RE
- && (nest == 0 || token->type != OP_CLOSE_SUBEXP))
- {
- exp = parse_expression (regexp, preg, token, syntax, nest, err);
- if (BE (*err != REG_NOERROR && exp == NULL, 0))
- {
- return NULL;
- }
- if (tree != NULL && exp != NULL)
- {
- tree = create_tree (dfa, tree, exp, CONCAT);
- if (tree == NULL)
- {
- *err = REG_ESPACE;
- return NULL;
- }
- }
- else if (tree == NULL)
- tree = exp;
- /* Otherwise exp == NULL, we don't need to create new tree. */
- }
- return tree;
- }
- /* This function build the following tree, from regular expression a*:
- *
- |
- a
- */
- static bin_tree_t *
- parse_expression (re_string_t *regexp, regex_t *preg, re_token_t *token,
- reg_syntax_t syntax, int nest, reg_errcode_t *err)
- {
- re_dfa_t *dfa = (re_dfa_t *) preg->buffer;
- bin_tree_t *tree;
- switch (token->type)
- {
- case CHARACTER:
- tree = create_token_tree (dfa, NULL, NULL, token);
- if (BE (tree == NULL, 0))
- {
- *err = REG_ESPACE;
- return NULL;
- }
- #ifdef RE_ENABLE_I18N
- if (dfa->mb_cur_max > 1)
- {
- while (!re_string_eoi (regexp)
- && !re_string_first_byte (regexp, re_string_cur_idx (regexp)))
- {
- bin_tree_t *mbc_remain;
- fetch_token (token, regexp, syntax);
- mbc_remain = create_token_tree (dfa, NULL, NULL, token);
- tree = create_tree (dfa, tree, mbc_remain, CONCAT);
- if (BE (mbc_remain == NULL || tree == NULL, 0))
- {
- *err = REG_ESPACE;
- return NULL;
- }
- }
- }
- #endif
- break;
- case OP_OPEN_SUBEXP:
- tree = parse_sub_exp (regexp, preg, token, syntax, nest + 1, err);
- if (BE (*err != REG_NOERROR && tree == NULL, 0))
- return NULL;
- break;
- case OP_OPEN_BRACKET:
- tree = parse_bracket_exp (regexp, dfa, token, syntax, err);
- if (BE (*err != REG_NOERROR && tree == NULL, 0))
- return NULL;
- break;
- case OP_BACK_REF:
- if (!BE (dfa->completed_bkref_map & (1 << token->opr.idx), 1))
- {
- *err = REG_ESUBREG;
- return NULL;
- }
- dfa->used_bkref_map |= 1 << token->opr.idx;
- tree = create_token_tree (dfa, NULL, NULL, token);
- if (BE (tree == NULL, 0))
- {
- *err = REG_ESPACE;
- return NULL;
- }
- ++dfa->nbackref;
- dfa->has_mb_node = 1;
- break;
- case OP_OPEN_DUP_NUM:
- if (syntax & RE_CONTEXT_INVALID_DUP)
- {
- *err = REG_BADRPT;
- return NULL;
- }
- /* FALLTHROUGH */
- case OP_DUP_ASTERISK:
- case OP_DUP_PLUS:
- case OP_DUP_QUESTION:
- if (syntax & RE_CONTEXT_INVALID_OPS)
- {
- *err = REG_BADRPT;
- return NULL;
- }
- else if (syntax & RE_CONTEXT_INDEP_OPS)
- {
- fetch_token (token, regexp, syntax);
- return parse_expression (regexp, preg, token, syntax, nest, err);
- }
- /* else fall through */
- case OP_CLOSE_SUBEXP:
- if ((token->type == OP_CLOSE_SUBEXP) &&
- !(syntax & RE_UNMATCHED_RIGHT_PAREN_ORD))
- {
- *err = REG_ERPAREN;
- return NULL;
- }
- /* else fall through */
- case OP_CLOSE_DUP_NUM:
- /* We treat it as a normal character. */
- /* Then we can these characters as normal characters. */
- token->type = CHARACTER;
- /* mb_partial and word_char bits should be initialized already
- by peek_token. */
- tree = create_token_tree (dfa, NULL, NULL, token);
- if (BE (tree == NULL, 0))
- {
- *err = REG_ESPACE;
- return NULL;
- }
- break;
- case ANCHOR:
- if ((token->opr.ctx_type
- & (WORD_DELIM | NOT_WORD_DELIM | WORD_FIRST | WORD_LAST))
- && dfa->word_ops_used == 0)
- init_word_char (dfa);
- if (token->opr.ctx_type == WORD_DELIM
- || token->opr.ctx_type == NOT_WORD_DELIM)
- {
- bin_tree_t *tree_first, *tree_last;
- if (token->opr.ctx_type == WORD_DELIM)
- {
- token->opr.ctx_type = WORD_FIRST;
- tree_first = create_token_tree (dfa, NULL, NULL, token);
- token->opr.ctx_type = WORD_LAST;
- }
- else
- {
- token->opr.ctx_type = INSIDE_WORD;
- tree_first = create_token_tree (dfa, NULL, NULL, token);
- token->opr.ctx_type = INSIDE_NOTWORD;
- }
- tree_last = create_token_tree (dfa, NULL, NULL, token);
- tree = create_tree (dfa, tree_first, tree_last, OP_ALT);
- if (BE (tree_first == NULL || tree_last == NULL || tree == NULL, 0))
- {
- *err = REG_ESPACE;
- return NULL;
- }
- }
- else
- {
- tree = create_token_tree (dfa, NULL, NULL, token);
- if (BE (tree == NULL, 0))
- {
- *err = REG_ESPACE;
- return NULL;
- }
- }
- /* We must return here, since ANCHORs can't be followed
- by repetition operators.
- eg. RE"^*" is invalid or "<ANCHOR(^)><CHAR(*)>",
- it must not be "<ANCHOR(^)><REPEAT(*)>". */
- fetch_token (token, regexp, syntax);
- return tree;
- case OP_PERIOD:
- tree = create_token_tree (dfa, NULL, NULL, token);
- if (BE (tree == NULL, 0))
- {
- *err = REG_ESPACE;
- return NULL;
- }
- if (dfa->mb_cur_max > 1)
- dfa->has_mb_node = 1;
- break;
- case OP_WORD:
- case OP_NOTWORD:
- tree = build_charclass_op (dfa, regexp->trans,
- (const unsigned char *) "alnum",
- (const unsigned char *) "_",
- token->type == OP_NOTWORD, err);
- if (BE (*err != REG_NOERROR && tree == NULL, 0))
- return NULL;
- break;
- case OP_SPACE:
- case OP_NOTSPACE:
- tree = build_charclass_op (dfa, regexp->trans,
- (const unsigned char *) "space",
- (const unsigned char *) "",
- token->type == OP_NOTSPACE, err);
- if (BE (*err != REG_NOERROR && tree == NULL, 0))
- return NULL;
- break;
- case OP_ALT:
- case END_OF_RE:
- return NULL;
- case BACK_SLASH:
- *err = REG_EESCAPE;
- return NULL;
- default:
- /* Must not happen? */
- #ifdef DEBUG
- assert (0);
- #endif
- return NULL;
- }
- fetch_token (token, regexp, syntax);
- while (token->type == OP_DUP_ASTERISK || token->type == OP_DUP_PLUS
- || token->type == OP_DUP_QUESTION || token->type == OP_OPEN_DUP_NUM)
- {
- tree = parse_dup_op (tree, regexp, dfa, token, syntax, err);
- if (BE (*err != REG_NOERROR && tree == NULL, 0))
- return NULL;
- /* In BRE consecutive duplications are not allowed. */
- if ((syntax & RE_CONTEXT_INVALID_DUP)
- && (token->type == OP_DUP_ASTERISK
- || token->type == OP_OPEN_DUP_NUM))
- {
- *err = REG_BADRPT;
- return NULL;
- }
- }
- return tree;
- }
- /* This function build the following tree, from regular expression
- (<reg_exp>):
- SUBEXP
- |
- <reg_exp>
- */
- static bin_tree_t *
- parse_sub_exp (re_string_t *regexp, regex_t *preg, re_token_t *token,
- reg_syntax_t syntax, int nest, reg_errcode_t *err)
- {
- re_dfa_t *dfa = (re_dfa_t *) preg->buffer;
- bin_tree_t *tree;
- size_t cur_nsub;
- cur_nsub = preg->re_nsub++;
- fetch_token (token, regexp, syntax | RE_CARET_ANCHORS_HERE);
- /* The subexpression may be a null string. */
- if (token->type == OP_CLOSE_SUBEXP)
- tree = NULL;
- else
- {
- tree = parse_reg_exp (regexp, preg, token, syntax, nest, err);
- if (BE (*err == REG_NOERROR && token->type != OP_CLOSE_SUBEXP, 0))
- *err = REG_EPAREN;
- if (BE (*err != REG_NOERROR, 0))
- return NULL;
- }
- if (cur_nsub <= '9' - '1')
- dfa->completed_bkref_map |= 1 << cur_nsub;
- tree = create_tree (dfa, tree, NULL, SUBEXP);
- if (BE (tree == NULL, 0))
- {
- *err = REG_ESPACE;
- return NULL;
- }
- tree->token.opr.idx = cur_nsub;
- return tree;
- }
- /* This function parse repetition operators like "*", "+", "{1,3}" etc. */
- static bin_tree_t *
- parse_dup_op (bin_tree_t *elem, re_string_t *regexp, re_dfa_t *dfa,
- re_token_t *token, reg_syntax_t syntax, reg_errcode_t *err)
- {
- bin_tree_t *tree = NULL, *old_tree = NULL;
- int i, start, end, start_idx = re_string_cur_idx (regexp);
- re_token_t start_token = *token;
- if (token->type == OP_OPEN_DUP_NUM)
- {
- end = 0;
- start = fetch_number (regexp, token, syntax);
- if (start == -1)
- {
- if (token->type == CHARACTER && token->opr.c == ',')
- start = 0; /* We treat "{,m}" as "{0,m}". */
- else
- {
- *err = REG_BADBR; /* <re>{} is invalid. */
- return NULL;
- }
- }
- if (BE (start != -2, 1))
- {
- /* We treat "{n}" as "{n,n}". */
- end = ((token->type == OP_CLOSE_DUP_NUM) ? start
- : ((token->type == CHARACTER && token->opr.c == ',')
- ? fetch_number (regexp, token, syntax) : -2));
- }
- if (BE (start == -2 || end == -2, 0))
- {
- /* Invalid sequence. */
- if (BE (!(syntax & RE_INVALID_INTERVAL_ORD), 0))
- {
- if (token->type == END_OF_RE)
- *err = REG_EBRACE;
- else
- *err = REG_BADBR;
- return NULL;
- }
- /* If the syntax bit is set, rollback. */
- re_string_set_index (regexp, start_idx);
- *token = start_token;
- token->type = CHARACTER;
- /* mb_partial and word_char bits should be already initialized by
- peek_token. */
- return elem;
- }
- if (BE (end != -1 && start > end, 0))
- {
- /* First number greater than second. */
- *err = REG_BADBR;
- return NULL;
- }
- }
- else
- {
- start = (token->type == OP_DUP_PLUS) ? 1 : 0;
- end = (token->type == OP_DUP_QUESTION) ? 1 : -1;
- }
- fetch_token (token, regexp, syntax);
- if (BE (elem == NULL, 0))
- return NULL;
- if (BE (start == 0 && end == 0, 0))
- {
- postorder (elem, free_tree, NULL);
- return NULL;
- }
- /* Extract "<re>{n,m}" to "<re><re>...<re><re>{0,<m-n>}". */
- if (BE (start > 0, 0))
- {
- tree = elem;
- for (i = 2; i <= start; ++i)
- {
- elem = duplicate_tree (elem, dfa);
- tree = create_tree (dfa, tree, elem, CONCAT);
- if (BE (elem == NULL || tree == NULL, 0))
- goto parse_dup_op_espace;
- }
- if (start == end)
- return tree;
- /* Duplicate ELEM before it is marked optional. */
- elem = duplicate_tree (elem, dfa);
- old_tree = tree;
- }
- else
- old_tree = NULL;
- if (elem->token.type == SUBEXP)
- postorder (elem, mark_opt_subexp, (void *) (long) elem->token.opr.idx);
- tree = create_tree (dfa, elem, NULL, (end == -1 ? OP_DUP_ASTERISK : OP_ALT));
- if (BE (tree == NULL, 0))
- goto parse_dup_op_espace;
- /* This loop is actually executed only when end != -1,
- to rewrite <re>{0,n} as (<re>(<re>...<re>?)?)?... We have
- already created the start+1-th copy. */
- for (i = start + 2; i <= end; ++i)
- {
- elem = duplicate_tree (elem, dfa);
- tree = create_tree (dfa, tree, elem, CONCAT);
- if (BE (elem == NULL || tree == NULL, 0))
- goto parse_dup_op_espace;
- tree = create_tree (dfa, tree, NULL, OP_ALT);
- if (BE (tree == NULL, 0))
- goto parse_dup_op_espace;
- }
- if (old_tree)
- tree = create_tree (dfa, old_tree, tree, CONCAT);
- return tree;
- parse_dup_op_espace:
- *err = REG_ESPACE;
- return NULL;
- }
- /* Size of the names for collating symbol/equivalence_class/character_class.
- I'm not sure, but maybe enough. */
- #define BRACKET_NAME_BUF_SIZE 32
- #ifndef _LIBC
- /* Local function for parse_bracket_exp only used in case of NOT _LIBC.
- Build the range expression which starts from START_ELEM, and ends
- at END_ELEM. The result are written to MBCSET and SBCSET.
- RANGE_ALLOC is the allocated size of mbcset->range_starts, and
- mbcset->range_ends, is a pointer argument sinse we may
- update it. */
- static reg_errcode_t
- internal_function
- # ifdef RE_ENABLE_I18N
- build_range_exp (bitset_t sbcset, re_charset_t *mbcset, int *range_alloc,
- bracket_elem_t *start_elem, bracket_elem_t *end_elem)
- # else /* not RE_ENABLE_I18N */
- build_range_exp (bitset_t sbcset, bracket_elem_t *start_elem,
- bracket_elem_t *end_elem)
- # endif /* not RE_ENABLE_I18N */
- {
- unsigned int start_ch, end_ch;
- /* Equivalence Classes and Character Classes can't be a range start/end. */
- if (BE (start_elem->type == EQUIV_CLASS || start_elem->type == CHAR_CLASS
- || end_elem->type == EQUIV_CLASS || end_elem->type == CHAR_CLASS,
- 0))
- return REG_ERANGE;
- /* We can handle no multi character collating elements without libc
- support. */
- if (BE ((start_elem->type == COLL_SYM
- && strlen ((char *) start_elem->opr.name) > 1)
- || (end_elem->type == COLL_SYM
- && strlen ((char *) end_elem->opr.name) > 1), 0))
- return REG_ECOLLATE;
- # ifdef RE_ENABLE_I18N
- {
- wchar_t wc;
- wint_t start_wc;
- wint_t end_wc;
- wchar_t cmp_buf[6] = {L'\0', L'\0', L'\0', L'\0', L'\0', L'\0'};
- start_ch = ((start_elem->type == SB_CHAR) ? start_elem->opr.ch
- : ((start_elem->type == COLL_SYM) ? start_elem->opr.name[0]
- : 0));
- end_ch = ((end_elem->type == SB_CHAR) ? end_elem->opr.ch
- : ((end_elem->type == COLL_SYM) ? end_elem->opr.name[0]
- : 0));
- start_wc = ((start_elem->type == SB_CHAR || start_elem->type == COLL_SYM)
- ? __btowc (start_ch) : start_elem->opr.wch);
- end_wc = ((end_elem->type == SB_CHAR || end_elem->type == COLL_SYM)
- ? __btowc (end_ch) : end_elem->opr.wch);
- if (start_wc == WEOF || end_wc == WEOF)
- return REG_ECOLLATE;
- cmp_buf[0] = start_wc;
- cmp_buf[4] = end_wc;
- if (wcscoll (cmp_buf, cmp_buf + 4) > 0)
- return REG_ERANGE;
- /* Got valid collation sequence values, add them as a new entry.
- However, for !_LIBC we have no collation elements: if the
- character set is single byte, the single byte character set
- that we build below suffices. parse_bracket_exp passes
- no MBCSET if dfa->mb_cur_max == 1. */
- if (mbcset)
- {
- /* Check the space of the arrays. */
- if (BE (*range_alloc == mbcset->nranges, 0))
- {
- /* There is not enough space, need realloc. */
- wchar_t *new_array_start, *new_array_end;
- int new_nranges;
- /* +1 in case of mbcset->nranges is 0. */
- new_nranges = 2 * mbcset->nranges + 1;
- /* Use realloc since mbcset->range_starts and mbcset->range_ends
- are NULL if *range_alloc == 0. */
- new_array_start = re_realloc (mbcset->range_starts, wchar_t,
- new_nranges);
- new_array_end = re_realloc (mbcset->range_ends, wchar_t,
- new_nranges);
- if (BE (new_array_start == NULL || new_array_end == NULL, 0))
- return REG_ESPACE;
- mbcset->range_starts = new_array_start;
- mbcset->range_ends = new_array_end;
- *range_alloc = new_nranges;
- }
- mbcset->range_starts[mbcset->nranges] = start_wc;
- mbcset->range_ends[mbcset->nranges++] = end_wc;
- }
- /* Build the table for single byte characters. */
- for (wc = 0; wc < SBC_MAX; ++wc)
- {
- cmp_buf[2] = wc;
- if (wcscoll (cmp_buf, cmp_buf + 2) <= 0
- && wcscoll (cmp_buf + 2, cmp_buf + 4) <= 0)
- bitset_set (sbcset, wc);
- }
- }
- # else /* not RE_ENABLE_I18N */
- {
- unsigned int ch;
- start_ch = ((start_elem->type == SB_CHAR ) ? start_elem->opr.ch
- : ((start_elem->type == COLL_SYM) ? start_elem->opr.name[0]
- : 0));
- end_ch = ((end_elem->type == SB_CHAR ) ? end_elem->opr.ch
- : ((end_elem->type == COLL_SYM) ? end_elem->opr.name[0]
- : 0));
- if (start_ch > end_ch)
- return REG_ERANGE;
- /* Build the table for single byte characters. */
- for (ch = 0; ch < SBC_MAX; ++ch)
- if (start_ch <= ch && ch <= end_ch)
- bitset_set (sbcset, ch);
- }
- # endif /* not RE_ENABLE_I18N */
- return REG_NOERROR;
- }
- #endif /* not _LIBC */
- #ifndef _LIBC
- /* Helper function for parse_bracket_exp only used in case of NOT _LIBC..
- Build the collating element which is represented by NAME.
- The result are written to MBCSET and SBCSET.
- COLL_SYM_ALLOC is the allocated size of mbcset->coll_sym, is a
- pointer argument since we may update it. */
- static reg_errcode_t
- internal_function
- # ifdef RE_ENABLE_I18N
- build_collating_symbol (bitset_t sbcset, re_charset_t *mbcset,
- int *coll_sym_alloc, const unsigned char *name)
- # else /* not RE_ENABLE_I18N */
- build_collating_symbol (bitset_t sbcset, const unsigned char *name)
- # endif /* not RE_ENABLE_I18N */
- {
- size_t name_len = strlen ((const char *) name);
- if (BE (name_len != 1, 0))
- return REG_ECOLLATE;
- else
- {
- bitset_set (sbcset, name[0]);
- return REG_NOERROR;
- }
- }
- #endif /* not _LIBC */
- /* This function parse bracket expression like "[abc]", "[a-c]",
- "[[.a-a.]]" etc. */
- static bin_tree_t *
- parse_bracket_exp (re_string_t *regexp, re_dfa_t *dfa, re_token_t *token,
- reg_syntax_t syntax, reg_errcode_t *err)
- {
- #ifdef _LIBC
- const unsigned char *collseqmb;
- const char *collseqwc;
- uint32_t nrules;
- int32_t table_size;
- const int32_t *symb_table;
- const unsigned char *extra;
- /* Local function for parse_bracket_exp used in _LIBC environement.
- Seek the collating symbol entry correspondings to NAME.
- Return the index of the symbol in the SYMB_TABLE. */
- auto inline int32_t
- __attribute ((always_inline))
- seek_collating_symbol_entry (name, name_len)
- const unsigned char *name;
- size_t name_len;
- {
- int32_t hash = elem_hash ((const char *) name, name_len);
- int32_t elem = hash % table_size;
- if (symb_table[2 * elem] != 0)
- {
- int32_t second = hash % (table_size - 2) + 1;
- do
- {
- /* First compare the hashing value. */
- if (symb_table[2 * elem] == hash
- /* Compare the length of the name. */
- && name_len == extra[symb_table[2 * elem + 1]]
- /* Compare the name. */
- && memcmp (name, &extra[symb_table[2 * elem + 1] + 1],
- name_len) == 0)
- {
- /* Yep, this is the entry. */
- break;
- }
- /* Next entry. */
- elem += second;
- }
- while (symb_table[2 * elem] != 0);
- }
- return elem;
- }
- /* Local function for parse_bracket_exp used in _LIBC environement.
- Look up the collation sequence value of BR_ELEM.
- Return the value if succeeded, UINT_MAX otherwise. */
- auto inline unsigned int
- __attribute ((always_inline))
- lookup_collation_sequence_value (br_elem)
- bracket_elem_t *br_elem;
- {
- if (br_elem->type == SB_CHAR)
- {
- /*
- if (MB_CUR_MAX == 1)
- */
- if (nrules == 0)
- return collseqmb[br_elem->opr.ch];
- else
- {
- wint_t wc = __btowc (br_elem->opr.ch);
- return __collseq_table_lookup (collseqwc, wc);
- }
- }
- else if (br_elem->type == MB_CHAR)
- {
- return __collseq_table_lookup (collseqwc, br_elem->opr.wch);
- }
- else if (br_elem->type == COLL_SYM)
- {
- size_t sym_name_len = strlen ((char *) br_elem->opr.name);
- if (nrules != 0)
- {
- int32_t elem, idx;
- elem = seek_collating_symbol_entry (br_elem->opr.name,
- sym_name_len);
- if (symb_table[2 * elem] != 0)
- {
- /* We found the entry. */
- idx = symb_table[2 * elem + 1];
- /* Skip the name of collating element name. */
- idx += 1 + extra[idx];
- /* Skip the byte sequence of the collating element. */
- idx += 1 + extra[idx];
- /* Adjust for the alignment. */
- idx = (idx + 3) & ~3;
- /* Skip the multibyte collation sequence value. */
- idx += sizeof (unsigned int);
- /* Skip the wide char sequence of the collating element. */
- idx += sizeof (unsigned int) *
- (1 + *(unsigned int *) (extra + idx));
- /* Return the collation sequence value. */
- return *(unsigned int *) (extra + idx);
- }
- else if (symb_table[2 * elem] == 0 && sym_name_len == 1)
- {
- /* No valid character. Match it as a single byte
- character. */
- return collseqmb[br_elem->opr.name[0]];
- }
- }
- else if (sym_name_len == 1)
- return collseqmb[br_elem->opr.name[0]];
- }
- return UINT_MAX;
- }
- /* Local function for parse_bracket_exp used in _LIBC environement.
- Build the range expression which starts from START_ELEM, and ends
- at END_ELEM. The result are written to MBCSET and SBCSET.
- RANGE_ALLOC is the allocated size of mbcset->range_starts, and
- mbcset->range_ends, is a pointer argument sinse we may
- update it. */
- auto inline reg_errcode_t
- __attribute ((always_inline))
- build_range_exp (sbcset, mbcset, range_alloc, start_elem, end_elem)
- re_charset_t *mbcset;
- int *range_alloc;
- bitset_t sbcset;
- bracket_elem_t *start_elem, *end_elem;
- {
- unsigned int ch;
- uint32_t start_collseq;
- uint32_t end_collseq;
- /* Equivalence Classes and Character Classes can't be a range
- start/end. */
- if (BE (start_elem->type == EQUIV_CLASS || start_elem->type == CHAR_CLASS
- || end_elem->type == EQUIV_CLASS || end_elem->type == CHAR_CLASS,
- 0))
- return REG_ERANGE;
- start_collseq = lookup_collation_sequence_value (start_elem);
- end_collseq = lookup_collation_sequence_value (end_elem);
- /* Check start/end collation sequence values. */
- if (BE (start_collseq == UINT_MAX || end_collseq == UINT_MAX, 0))
- return REG_ECOLLATE;
- if (BE ((syntax & RE_NO_EMPTY_RANGES) && start_collseq > end_collseq, 0))
- return REG_ERANGE;
- /* Got valid collation sequence values, add them as a new entry.
- However, if we have no collation elements, and the character set
- is single byte, the single byte character set that we
- build below suffices. */
- if (nrules > 0 || dfa->mb_cur_max > 1)
- {
- /* Check the space of the arrays. */
- if (BE (*range_alloc == mbcset->nranges, 0))
- {
- /* There is not enough space, need realloc. */
- uint32_t *new_array_start;
- uint32_t *new_array_end;
- int new_nranges;
- /* +1 in case of mbcset->nranges is 0. */
- new_nranges = 2 * mbcset->nranges + 1;
- new_array_start = re_realloc (mbcset->range_starts, uint32_t,
- new_nranges);
- new_array_end = re_realloc (mbcset->range_ends, uint32_t,
- new_nranges);
- if (BE (new_array_start == NULL || new_array_end == NULL, 0))
- return REG_ESPACE;
- mbcset->range_starts = new_array_start;
- mbcset->range_ends = new_array_end;
- *range_alloc = new_nranges;
- }
- mbcset->range_starts[mbcset->nranges] = start_collseq;
- mbcset->range_ends[mbcset->nranges++] = end_collseq;
- }
- /* Build the table for single byte characters. */
- for (ch = 0; ch < SBC_MAX; ch++)
- {
- uint32_t ch_collseq;
- /*
- if (MB_CUR_MAX == 1)
- */
- if (nrules == 0)
- ch_collseq = collseqmb[ch];
- else
- ch_collseq = __collseq_table_lookup (collseqwc, __btowc (ch));
- if (start_collseq <= ch_collseq && ch_collseq <= end_collseq)
- bitset_set (sbcset, ch);
- }
- return REG_NOERROR;
- }
- /* Local function for parse_bracket_exp used in _LIBC environement.
- Build the collating element which is represented by NAME.
- The result are written to MBCSET and SBCSET.
- COLL_SYM_ALLOC is the allocated size of mbcset->coll_sym, is a
- pointer argument sinse we may update it. */
- auto inline reg_errcode_t
- __attribute ((always_inline))
- build_collating_symbol (sbcset, mbcset, coll_sym_alloc, name)
- re_charset_t *mbcset;
- int *coll_sym_alloc;
- bitset_t sbcset;
- const unsigned char *name;
- {
- int32_t elem, idx;
- size_t name_len = strlen ((const char *) name);
- if (nrules != 0)
- {
- elem = seek_collating_symbol_entry (name, name_len);
- if (symb_table[2 * elem] != 0)
- {
- /* We found the entry. */
- idx = symb_table[2 * elem + 1];
- /* Skip the name of collating element name. */
- idx += 1 + extra[idx];
- }
- else if (symb_table[2 * elem] == 0 && name_len == 1)
- {
- /* No valid character, treat it as a normal
- character. */
- bitset_set (sbcset, name[0]);
- return REG_NOERROR;
- }
- else
- return REG_ECOLLATE;
- /* Got valid collation sequence, add it as a new entry. */
- /* Check the space of the arrays. */
- if (BE (*coll_sym_alloc == mbcset->ncoll_syms, 0))
- {
- /* Not enough, realloc it. */
- /* +1 in case of mbcset->ncoll_syms is 0. */
- int new_coll_sym_alloc = 2 * mbcset->ncoll_syms + 1;
- /* Use realloc since mbcset->coll_syms is NULL
- if *alloc == 0. */
- int32_t *new_coll_syms = re_realloc (mbcset->coll_syms, int32_t,
- new_coll_sym_alloc);
- if (BE (new_coll_syms == NULL, 0))
- return REG_ESPACE;
- mbcset->coll_syms = new_coll_syms;
- *coll_sym_alloc = new_coll_sym_alloc;
- }
- mbcset->coll_syms[mbcset->ncoll_syms++] = idx;
- return REG_NOERROR;
- }
- else
- {
- if (BE (name_len != 1, 0))
- return REG_ECOLLATE;
- else
- {
- bitset_set (sbcset, name[0]);
- return REG_NOERROR;
- }
- }
- }
- #endif
- re_token_t br_token;
- re_bitset_ptr_t sbcset;
- #ifdef RE_ENABLE_I18N
- re_charset_t *mbcset;
- int coll_sym_alloc = 0, range_alloc = 0, mbchar_alloc = 0;
- int equiv_class_alloc = 0, char_class_alloc = 0;
- #endif /* not RE_ENABLE_I18N */
- int non_match = 0;
- bin_tree_t *work_tree;
- int token_len;
- int first_round = 1;
- #ifdef _LIBC
- collseqmb = (const unsigned char *)
- _NL_CURRENT (LC_COLLATE, _NL_COLLATE_COLLSEQMB);
- nrules = _NL_CURRENT_WORD (LC_COLLATE, _NL_COLLATE_NRULES);
- if (nrules)
- {
- /*
- if (MB_CUR_MAX > 1)
- */
- collseqwc = _NL_CURRENT (LC_COLLATE, _NL_COLLATE_COLLSEQWC);
- table_size = _NL_CURRENT_WORD (LC_COLLATE, _NL_COLLATE_SYMB_HASH_SIZEMB);
- symb_table = (const int32_t *) _NL_CURRENT (LC_COLLATE,
- _NL_COLLATE_SYMB_TABLEMB);
- extra = (const unsigned char *) _NL_CURRENT (LC_COLLATE,
- _NL_COLLATE_SYMB_EXTRAMB);
- }
- #endif
- sbcset = (re_bitset_ptr_t) calloc (sizeof (bitset_t), 1);
- #ifdef RE_ENABLE_I18N
- mbcset = (re_charset_t *) calloc (sizeof (re_charset_t), 1);
- #endif /* RE_ENABLE_I18N */
- #ifdef RE_ENABLE_I18N
- if (BE (sbcset == NULL || mbcset == NULL, 0))
- #else
- if (BE (sbcset == NULL, 0))
- #endif /* RE_ENABLE_I18N */
- {
- *err = REG_ESPACE;
- return NULL;
- }
- token_len = peek_token_bracket (token, regexp, syntax);
- if (BE (token->type == END_OF_RE, 0))
- {
- *err = REG_BADPAT;
- goto parse_bracket_exp_free_return;
- }
- if (token->type == OP_NON_MATCH_LIST)
- {
- #ifdef RE_ENABLE_I18N
- mbcset->non_match = 1;
- #endif /* not RE_ENABLE_I18N */
- non_match = 1;
- if (syntax & RE_HAT_LISTS_NOT_NEWLINE)
- bitset_set (sbcset, '\0');
- re_string_skip_bytes (regexp, token_len); /* Skip a token. */
- token_len = peek_token_bracket (token, regexp, syntax);
- if (BE (token->type == END_OF_RE, 0))
- {
- *err = REG_BADPAT;
- goto parse_bracket_exp_free_return;
- }
- }
- /* We treat the first ']' as a normal character. */
- if (token->type == OP_CLOSE_BRACKET)
- token->type = CHARACTER;
- while (1)
- {
- bracket_elem_t start_elem, end_elem;
- unsigned char start_name_buf[BRACKET_NAME_BUF_SIZE];
- unsigned char end_name_buf[BRACKET_NAME_BUF_SIZE];
- reg_errcode_t ret;
- int token_len2 = 0, is_range_exp = 0;
- re_token_t token2;
- start_elem.opr.name = start_name_buf;
- ret = parse_bracket_element (&start_elem, regexp, token, token_len, dfa,
- syntax, first_round);
- if (BE (ret != REG_NOERROR, 0))
- {
- *err = ret;
- goto parse_bracket_exp_free_return;
- }
- first_round = 0;
- /* Get information about the next token. We need it in any case. */
- token_len = peek_token_bracket (token, regexp, syntax);
- /* Do not check for ranges if we know they are not allowed. */
- if (start_elem.type != CHAR_CLASS && start_elem.type != EQUIV_CLASS)
- {
- if (BE (token->type == END_OF_RE, 0))
- {
- *err = REG_EBRACK;
- goto parse_bracket_exp_free_return;
- }
- if (token->type == OP_CHARSET_RANGE)
- {
- re_string_skip_bytes (regexp, token_len); /* Skip '-'. */
- token_len2 = peek_token_bracket (&token2, regexp, syntax);
- if (BE (token2.type == END_OF_RE, 0))
- {
- *err = REG_EBRACK;
- goto parse_bracket_exp_free_return;
- }
- if (token2.type == OP_CLOSE_BRACKET)
- {
- /* We treat the last '-' as a normal character. */
- re_string_skip_bytes (regexp, -token_len);
- token->type = CHARACTER;
- }
- else
- is_range_exp = 1;
- }
- }
- if (is_range_exp == 1)
- {
- end_elem.opr.name = end_name_buf;
- ret = parse_bracket_element (&end_elem, regexp, &token2, token_len2,
- dfa, syntax, 1);
- if (BE (ret != REG_NOERROR, 0))
- {
- *err = ret;
- goto parse_bracket_exp_free_return;
- }
- token_len = peek_token_bracket (token, regexp, syntax);
- #ifdef _LIBC
- *err = build_range_exp (sbcset, mbcset, &range_alloc,
- &start_elem, &end_elem);
- #else
- # ifdef RE_ENABLE_I18N
- *err = build_range_exp (sbcset,
- dfa->mb_cur_max > 1 ? mbcset : NULL,
- &range_alloc, &start_elem, &end_elem);
- # else
- *err = build_range_exp (sbcset, &start_elem, &end_elem);
- # endif
- #endif /* RE_ENABLE_I18N */
- if (BE (*err != REG_NOERROR, 0))
- goto parse_bracket_exp_free_return;
- }
- else
- {
- switch (start_elem.type)
- {
- case SB_CHAR:
- bitset_set (sbcset, start_elem.opr.ch);
- break;
- #ifdef RE_ENABLE_I18N
- case MB_CHAR:
- /* Check whether the array has enough space. */
- if (BE (mbchar_alloc == mbcset->nmbchars, 0))
- {
- wchar_t *new_mbchars;
- /* Not enough, realloc it. */
- /* +1 in case of mbcset->nmbchars is 0. */
- mbchar_alloc = 2 * mbcset->nmbchars + 1;
- /* Use realloc since array is NULL if *alloc == 0. */
- new_mbchars = re_realloc (mbcset->mbchars, wchar_t,
- mbchar_alloc);
- if (BE (new_mbchars == NULL, 0))
- goto parse_bracket_exp_espace;
- mbcset->mbchars = new_mbchars;
- }
- mbcset->mbchars[mbcset->nmbchars++] = start_elem.opr.wch;
- break;
- #endif /* RE_ENABLE_I18N */
- case EQUIV_CLASS:
- *err = build_equiv_class (sbcset,
- #ifdef RE_ENABLE_I18N
- mbcset, &equiv_class_alloc,
- #endif /* RE_ENABLE_I18N */
- start_elem.opr.name);
- if (BE (*err != REG_NOERROR, 0))
- goto parse_bracket_exp_free_return;
- break;
- case COLL_SYM:
- *err = build_collating_symbol (sbcset,
- #ifdef RE_ENABLE_I18N
- mbcset, &coll_sym_alloc,
- #endif /* RE_ENABLE_I18N */
- start_elem.opr.name);
- if (BE (*err != REG_NOERROR, 0))
- goto parse_bracket_exp_free_return;
- break;
- case CHAR_CLASS:
- *err = build_charclass (regexp->trans, sbcset,
- #ifdef RE_ENABLE_I18N
- mbcset, &char_class_alloc,
- #endif /* RE_ENABLE_I18N */
- start_elem.opr.name, syntax);
- if (BE (*err != REG_NOERROR, 0))
- goto parse_bracket_exp_free_return;
- break;
- default:
- assert (0);
- break;
- }
- }
- if (BE (token->type == END_OF_RE, 0))
- {
- *err = REG_EBRACK;
- goto parse_bracket_exp_free_return;
- }
- if (token->type == OP_CLOSE_BRACKET)
- break;
- }
- re_string_skip_bytes (regexp, token_len); /* Skip a token. */
- /* If it is non-matching list. */
- if (non_match)
- bitset_not (sbcset);
- #ifdef RE_ENABLE_I18N
- /* Ensure only single byte characters are set. */
- if (dfa->mb_cur_max > 1)
- bitset_mask (sbcset, dfa->sb_char);
- if (mbcset->nmbchars || mbcset->ncoll_syms || mbcset->nequiv_classes
- || mbcset->nranges || (dfa->mb_cur_max > 1 && (mbcset->nchar_classes
- || mbcset->non_match)))
- {
- bin_tree_t *mbc_tree;
- int sbc_idx;
- /* Build a tree for complex bracket. */
- dfa->has_mb_node = 1;
- br_token.type = COMPLEX_BRACKET;
- br_token.opr.mbcset = mbcset;
- mbc_tree = create_token_tree (dfa, NULL, NULL, &br_token);
- if (BE (mbc_tree == NULL, 0))
- goto parse_bracket_exp_espace;
- for (sbc_idx = 0; sbc_idx < BITSET_WORDS; ++sbc_idx)
- if (sbcset[sbc_idx])
- break;
- /* If there are no bits set in sbcset, there is no point
- of having both SIMPLE_BRACKET and COMPLEX_BRACKET. */
- if (sbc_idx < BITSET_WORDS)
- {
- /* Build a tree for simple bracket. */
- br_token.type = SIMPLE_BRACKET;
- br_token.opr.sbcset = sbcset;
- work_tree = create_token_tree (dfa, NULL, NULL, &br_token);
- if (BE (work_tree == NULL, 0))
- goto parse_bracket_exp_espace;
- /* Then join them by ALT node. */
- work_tree = create_tree (dfa, work_tree, mbc_tree, OP_ALT);
- if (BE (work_tree == NULL, 0))
- goto parse_bracket_exp_espace;
- }
- else
- {
- re_free (sbcset);
- work_tree = mbc_tree;
- }
- }
- else
- #endif /* not RE_ENABLE_I18N */
- {
- #ifdef RE_ENABLE_I18N
- free_charset (mbcset);
- #endif
- /* Build a tree for simple bracket. */
- br_token.type = SIMPLE_BRACKET;
- br_token.opr.sbcset = sbcset;
- work_tree = create_token_tree (dfa, NULL, NULL, &br_token);
- if (BE (work_tree == NULL, 0))
- goto parse_bracket_exp_espace;
- }
- return work_tree;
- parse_bracket_exp_espace:
- *err = REG_ESPACE;
- parse_bracket_exp_free_return:
- re_free (sbcset);
- #ifdef RE_ENABLE_I18N
- free_charset (mbcset);
- #endif /* RE_ENABLE_I18N */
- return NULL;
- }
- /* Parse an element in the bracket expression. */
- static reg_errcode_t
- parse_bracket_element (bracket_elem_t *elem, re_string_t *regexp,
- re_token_t *token, int token_len, re_dfa_t *dfa,
- reg_syntax_t syntax, int accept_hyphen)
- {
- #ifdef RE_ENABLE_I18N
- int cur_char_size;
- cur_char_size = re_string_char_size_at (regexp, re_string_cur_idx (regexp));
- if (cur_char_size > 1)
- {
- elem->type = MB_CHAR;
- elem->opr.wch = re_string_wchar_at (regexp, re_string_cur_idx (regexp));
- re_string_skip_bytes (regexp, cur_char_size);
- return REG_NOERROR;
- }
- #endif /* RE_ENABLE_I18N */
- re_string_skip_bytes (regexp, token_len); /* Skip a token. */
- if (token->type == OP_OPEN_COLL_ELEM || token->type == OP_OPEN_CHAR_CLASS
- || token->type == OP_OPEN_EQUIV_CLASS)
- return parse_bracket_symbol (elem, regexp, token);
- if (BE (token->type == OP_CHARSET_RANGE, 0) && !accept_hyphen)
- {
- /* A '-' must only appear as anything but a range indicator before
- the closing bracket. Everything else is an error. */
- re_token_t token2;
- (void) peek_token_bracket (&token2, regexp, syntax);
- if (token2.type != OP_CLOSE_BRACKET)
- /* The actual error value is not standardized since this whole
- case is undefined. But ERANGE makes good sense. */
- return REG_ERANGE;
- }
- elem->type = SB_CHAR;
- elem->opr.ch = token->opr.c;
- return REG_NOERROR;
- }
- /* Parse a bracket symbol in the bracket expression. Bracket symbols are
- such as [:<character_class>:], [.<collating_element>.], and
- [=<equivalent_class>=]. */
- static reg_errcode_t
- parse_bracket_symbol (bracket_elem_t *elem, re_string_t *regexp,
- re_token_t *token)
- {
- unsigned char ch, delim = token->opr.c;
- int i = 0;
- if (re_string_eoi(regexp))
- return REG_EBRACK;
- for (;; ++i)
- {
- if (i >= BRACKET_NAME_BUF_SIZE)
- return REG_EBRACK;
- if (token->type == OP_OPEN_CHAR_CLASS)
- ch = re_string_fetch_byte_case (regexp);
- else
- ch = re_string_fetch_byte (regexp);
- if (re_string_eoi(regexp))
- return REG_EBRACK;
- if (ch == delim && re_string_peek_byte (regexp, 0) == ']')
- break;
- elem->opr.name[i] = ch;
- }
- re_string_skip_bytes (regexp, 1);
- elem->opr.name[i] = '\0';
- switch (token->type)
- {
- case OP_OPEN_COLL_ELEM:
- elem->type = COLL_SYM;
- break;
- case OP_OPEN_EQUIV_CLASS:
- elem->type = EQUIV_CLASS;
- break;
- case OP_OPEN_CHAR_CLASS:
- elem->type = CHAR_CLASS;
- break;
- default:
- break;
- }
- return REG_NOERROR;
- }
- /* Helper function for parse_bracket_exp.
- Build the equivalence class which is represented by NAME.
- The result are written to MBCSET and SBCSET.
- EQUIV_CLASS_ALLOC is the allocated size of mbcset->equiv_classes,
- is a pointer argument sinse we may update it. */
- static reg_errcode_t
- #ifdef RE_ENABLE_I18N
- build_equiv_class (bitset_t sbcset, re_charset_t *mbcset,
- int *equiv_class_alloc, const unsigned char *name)
- #else /* not RE_ENABLE_I18N */
- build_equiv_class (bitset_t sbcset, const unsigned char *name)
- #endif /* not RE_ENABLE_I18N */
- {
- #ifdef _LIBC
- uint32_t nrules = _NL_CURRENT_WORD (LC_COLLATE, _NL_COLLATE_NRULES);
- if (nrules != 0)
- {
- const int32_t *table, *indirect;
- const unsigned char *weights, *extra, *cp;
- unsigned char char_buf[2];
- int32_t idx1, idx2;
- unsigned int ch;
- size_t len;
- /* This #include defines a local function! */
- # include <locale/weight.h>
- /* Calculate the index for equivalence class. */
- cp = name;
- 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);
- idx1 = findidx (&cp);
- if (BE (idx1 == 0 || cp < name + strlen ((const char *) name), 0))
- /* This isn't a valid character. */
- return REG_ECOLLATE;
- /* Build single byte matcing table for this equivalence class. */
- char_buf[1] = (unsigned char) '\0';
- len = weights[idx1];
- for (ch = 0; ch < SBC_MAX; ++ch)
- {
- char_buf[0] = ch;
- cp = char_buf;
- idx2 = findidx (&cp);
- /*
- idx2 = table[ch];
- */
- if (idx2 == 0)
- /* This isn't a valid character. */
- continue;
- if (len == weights[idx2])
- {
- int cnt = 0;
- while (cnt <= len &&
- weights[idx1 + 1 + cnt] == weights[idx2 + 1 + cnt])
- ++cnt;
- if (cnt > len)
- bitset_set (sbcset, ch);
- }
- }
- /* Check whether the array has enough space. */
- if (BE (*equiv_class_alloc == mbcset->nequiv_classes, 0))
- {
- /* Not enough, realloc it. */
- /* +1 in case of mbcset->nequiv_classes is 0. */
- int new_equiv_class_alloc = 2 * mbcset->nequiv_classes + 1;
- /* Use realloc since the array is NULL if *alloc == 0. */
- int32_t *new_equiv_classes = re_realloc (mbcset->equiv_classes,
- int32_t,
- new_equiv_class_alloc);
- if (BE (new_equiv_classes == NULL, 0))
- return REG_ESPACE;
- mbcset->equiv_classes = new_equiv_classes;
- *equiv_class_alloc = new_equiv_class_alloc;
- }
- mbcset->equiv_classes[mbcset->nequiv_classes++] = idx1;
- }
- else
- #endif /* _LIBC */
- {
- if (BE (strlen ((const char *) name) != 1, 0))
- return REG_ECOLLATE;
- bitset_set (sbcset, *name);
- }
- return REG_NOERROR;
- }
- /* Helper function for parse_bracket_exp.
- Build the character class which is represented by NAME.
- The result are written to MBCSET and SBCSET.
- CHAR_CLASS_ALLOC is the allocated size of mbcset->char_classes,
- is a pointer argument sinse we may update it. */
- static reg_errcode_t
- #ifdef RE_ENABLE_I18N
- build_charclass (RE_TRANSLATE_TYPE trans, bitset_t sbcset,
- re_charset_t *mbcset, int *char_class_alloc,
- const unsigned char *class_name, reg_syntax_t syntax)
- #else /* not RE_ENABLE_I18N */
- build_charclass (RE_TRANSLATE_TYPE trans, bitset_t sbcset,
- const unsigned char *class_name, reg_syntax_t syntax)
- #endif /* not RE_ENABLE_I18N */
- {
- int i;
- const char *name = (const char *) class_name;
- /* In case of REG_ICASE "upper" and "lower" match the both of
- upper and lower cases. */
- if ((syntax & RE_ICASE)
- && (strcmp (name, "upper") == 0 || strcmp (name, "lower") == 0))
- name = "alpha";
- #ifdef RE_ENABLE_I18N
- /* Check the space of the arrays. */
- if (BE (*char_class_alloc == mbcset->nchar_classes, 0))
- {
- /* Not enough, realloc it. */
- /* +1 in case of mbcset->nchar_classes is 0. */
- int new_char_class_alloc = 2 * mbcset->nchar_classes + 1;
- /* Use realloc since array is NULL if *alloc == 0. */
- wctype_t *new_char_classes = re_realloc (mbcset->char_classes, wctype_t,
- new_char_class_alloc);
- if (BE (new_char_classes == NULL, 0))
- return REG_ESPACE;
- mbcset->char_classes = new_char_classes;
- *char_class_alloc = new_char_class_alloc;
- }
- mbcset->char_classes[mbcset->nchar_classes++] = __wctype (name);
- #endif /* RE_ENABLE_I18N */
- #define BUILD_CHARCLASS_LOOP(ctype_func) \
- do { \
- if (BE (trans != NULL, 0)) \
- { \
- for (i = 0; i < SBC_MAX; ++i) \
- if (ctype_func (i)) \
- bitset_set (sbcset, trans[i]); \
- } \
- else \
- { \
- for (i = 0; i < SBC_MAX; ++i) \
- if (ctype_func (i)) \
- bitset_set (sbcset, i); \
- } \
- } while (0)
- if (strcmp (name, "alnum") == 0)
- BUILD_CHARCLASS_LOOP (isalnum);
- else if (strcmp (name, "cntrl") == 0)
- BUILD_CHARCLASS_LOOP (iscntrl);
- else if (strcmp (name, "lower") == 0)
- BUILD_CHARCLASS_LOOP (islower);
- else if (strcmp (name, "space") == 0)
- BUILD_CHARCLASS_LOOP (isspace);
- else if (strcmp (name, "alpha") == 0)
- BUILD_CHARCLASS_LOOP (isalpha);
- else if (strcmp (name, "digit") == 0)
- BUILD_CHARCLASS_LOOP (isdigit);
- else if (strcmp (name, "print") == 0)
- BUILD_CHARCLASS_LOOP (isprint);
- else if (strcmp (name, "upper") == 0)
- BUILD_CHARCLASS_LOOP (isupper);
- else if (strcmp (name, "blank") == 0)
- BUILD_CHARCLASS_LOOP (isblank);
- else if (strcmp (name, "graph") == 0)
- BUILD_CHARCLASS_LOOP (isgraph);
- else if (strcmp (name, "punct") == 0)
- BUILD_CHARCLASS_LOOP (ispunct);
- else if (strcmp (name, "xdigit") == 0)
- BUILD_CHARCLASS_LOOP (isxdigit);
- else
- return REG_ECTYPE;
- return REG_NOERROR;
- }
- static bin_tree_t *
- build_charclass_op (re_dfa_t *dfa, RE_TRANSLATE_TYPE trans,
- const unsigned char *class_name,
- const unsigned char *extra, int non_match,
- reg_errcode_t *err)
- {
- re_bitset_ptr_t sbcset;
- #ifdef RE_ENABLE_I18N
- re_charset_t *mbcset;
- int alloc = 0;
- #endif /* not RE_ENABLE_I18N */
- reg_errcode_t ret;
- re_token_t br_token;
- bin_tree_t *tree;
- sbcset = (re_bitset_ptr_t) calloc (sizeof (bitset_t), 1);
- #ifdef RE_ENABLE_I18N
- mbcset = (re_charset_t *) calloc (sizeof (re_charset_t), 1);
- #endif /* RE_ENABLE_I18N */
- #ifdef RE_ENABLE_I18N
- if (BE (sbcset == NULL || mbcset == NULL, 0))
- #else /* not RE_ENABLE_I18N */
- if (BE (sbcset == NULL, 0))
- #endif /* not RE_ENABLE_I18N */
- {
- *err = REG_ESPACE;
- return NULL;
- }
- if (non_match)
- {
- #ifdef RE_ENABLE_I18N
- /*
- if (syntax & RE_HAT_LISTS_NOT_NEWLINE)
- bitset_set(cset->sbcset, '\0');
- */
- mbcset->non_match = 1;
- #endif /* not RE_ENABLE_I18N */
- }
- /* We don't care the syntax in this case. */
- ret = build_charclass (trans, sbcset,
- #ifdef RE_ENABLE_I18N
- mbcset, &alloc,
- #endif /* RE_ENABLE_I18N */
- class_name, 0);
- if (BE (ret != REG_NOERROR, 0))
- {
- re_free (sbcset);
- #ifdef RE_ENABLE_I18N
- free_charset (mbcset);
- #endif /* RE_ENABLE_I18N */
- *err = ret;
- return NULL;
- }
- /* \w match '_' also. */
- for (; *extra; extra++)
- bitset_set (sbcset, *extra);
- /* If it is non-matching list. */
- if (non_match)
- bitset_not (sbcset);
- #ifdef RE_ENABLE_I18N
- /* Ensure only single byte characters are set. */
- if (dfa->mb_cur_max > 1)
- bitset_mask (sbcset, dfa->sb_char);
- #endif
- /* Build a tree for simple bracket. */
- br_token.type = SIMPLE_BRACKET;
- br_token.opr.sbcset = sbcset;
- tree = create_token_tree (dfa, NULL, NULL, &br_token);
- if (BE (tree == NULL, 0))
- goto build_word_op_espace;
- #ifdef RE_ENABLE_I18N
- if (dfa->mb_cur_max > 1)
- {
- bin_tree_t *mbc_tree;
- /* Build a tree for complex bracket. */
- br_token.type = COMPLEX_BRACKET;
- br_token.opr.mbcset = mbcset;
- dfa->has_mb_node = 1;
- mbc_tree = create_token_tree (dfa, NULL, NULL, &br_token);
- if (BE (mbc_tree == NULL, 0))
- goto build_word_op_espace;
- /* Then join them by ALT node. */
- tree = create_tree (dfa, tree, mbc_tree, OP_ALT);
- if (BE (mbc_tree != NULL, 1))
- return tree;
- }
- else
- {
- free_charset (mbcset);
- return tree;
- }
- #else /* not RE_ENABLE_I18N */
- return tree;
- #endif /* not RE_ENABLE_I18N */
- build_word_op_espace:
- re_free (sbcset);
- #ifdef RE_ENABLE_I18N
- free_charset (mbcset);
- #endif /* RE_ENABLE_I18N */
- *err = REG_ESPACE;
- return NULL;
- }
- /* This is intended for the expressions like "a{1,3}".
- Fetch a number from `input', and return the number.
- Return -1, if the number field is empty like "{,1}".
- Return -2, If an error is occured. */
- static int
- fetch_number (re_string_t *input, re_token_t *token, reg_syntax_t syntax)
- {
- int num = -1;
- unsigned char c;
- while (1)
- {
- fetch_token (token, input, syntax);
- c = token->opr.c;
- if (BE (token->type == END_OF_RE, 0))
- return -2;
- if (token->type == OP_CLOSE_DUP_NUM || c == ',')
- break;
- num = ((token->type != CHARACTER || c < '0' || '9' < c || num == -2)
- ? -2 : ((num == -1) ? c - '0' : num * 10 + c - '0'));
- num = (num > RE_DUP_MAX) ? -2 : num;
- }
- return num;
- }
- #ifdef RE_ENABLE_I18N
- static void
- free_charset (re_charset_t *cset)
- {
- re_free (cset->mbchars);
- # ifdef _LIBC
- re_free (cset->coll_syms);
- re_free (cset->equiv_classes);
- re_free (cset->range_starts);
- re_free (cset->range_ends);
- # endif
- re_free (cset->char_classes);
- re_free (cset);
- }
- #endif /* RE_ENABLE_I18N */
- /* Functions for binary tree operation. */
- /* Create a tree node. */
- static bin_tree_t *
- create_tree (re_dfa_t *dfa, bin_tree_t *left, bin_tree_t *right,
- re_token_type_t type)
- {
- re_token_t t;
- t.type = type;
- return create_token_tree (dfa, left, right, &t);
- }
- static bin_tree_t *
- create_token_tree (re_dfa_t *dfa, bin_tree_t *left, bin_tree_t *right,
- const re_token_t *token)
- {
- bin_tree_t *tree;
- if (BE (dfa->str_tree_storage_idx == BIN_TREE_STORAGE_SIZE, 0))
- {
- bin_tree_storage_t *storage = re_malloc (bin_tree_storage_t, 1);
- if (storage == NULL)
- return NULL;
- storage->next = dfa->str_tree_storage;
- dfa->str_tree_storage = storage;
- dfa->str_tree_storage_idx = 0;
- }
- tree = &dfa->str_tree_storage->data[dfa->str_tree_storage_idx++];
- tree->parent = NULL;
- tree->left = left;
- tree->right = right;
- tree->token = *token;
- tree->token.duplicated = 0;
- tree->token.opt_subexp = 0;
- tree->first = NULL;
- tree->next = NULL;
- tree->node_idx = -1;
- if (left != NULL)
- left->parent = tree;
- if (right != NULL)
- right->parent = tree;
- return tree;
- }
- /* Mark the tree SRC as an optional subexpression.
- To be called from preorder or postorder. */
- static reg_errcode_t
- mark_opt_subexp (void *extra, bin_tree_t *node)
- {
- int idx = (int) (long) extra;
- if (node->token.type == SUBEXP && node->token.opr.idx == idx)
- node->token.opt_subexp = 1;
- return REG_NOERROR;
- }
- /* Free the allocated memory inside NODE. */
- static void
- free_token (re_token_t *node)
- {
- #ifdef RE_ENABLE_I18N
- if (node->type == COMPLEX_BRACKET && node->duplicated == 0)
- free_charset (node->opr.mbcset);
- else
- #endif /* RE_ENABLE_I18N */
- if (node->type == SIMPLE_BRACKET && node->duplicated == 0)
- re_free (node->opr.sbcset);
- }
- /* Worker function for tree walking. Free the allocated memory inside NODE
- and its children. */
- static reg_errcode_t
- free_tree (void *extra, bin_tree_t *node)
- {
- free_token (&node->token);
- return REG_NOERROR;
- }
- /* Duplicate the node SRC, and return new node. This is a preorder
- visit similar to the one implemented by the generic visitor, but
- we need more infrastructure to maintain two parallel trees --- so,
- it's easier to duplicate. */
- static bin_tree_t *
- duplicate_tree (const bin_tree_t *root, re_dfa_t *dfa)
- {
- const bin_tree_t *node;
- bin_tree_t *dup_root;
- bin_tree_t **p_new = &dup_root, *dup_node = root->parent;
- for (node = root; ; )
- {
- /* Create a new tree and link it back to the current parent. */
- *p_new = create_token_tree (dfa, NULL, NULL, &node->token);
- if (*p_new == NULL)
- return NULL;
- (*p_new)->parent = dup_node;
- (*p_new)->token.duplicated = 1;
- dup_node = *p_new;
- /* Go to the left node, or up and to the right. */
- if (node->left)
- {
- node = node->left;
- p_new = &dup_node->left;
- }
- else
- {
- const bin_tree_t *prev = NULL;
- while (node->right == prev || node->right == NULL)
- {
- prev = node;
- node = node->parent;
- dup_node = dup_node->parent;
- if (!node)
- return dup_root;
- }
- node = node->right;
- p_new = &dup_node->right;
- }
- }
- }
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