| blob | 8c96ed942c3f7139a4b161c75c6c81e42530c085 |
1 /* Extended regular expression matching and search library.
2 Copyright (C) 2002-2007,2009,2010 Free Software Foundation, Inc.
3 This file is part of the GNU C Library.
4 Contributed by Isamu Hasegawa <isamu@yamato.ibm.com>.
6 The GNU C Library is free software; you can redistribute it and/or
7 modify it under the terms of the GNU Lesser General Public
8 License as published by the Free Software Foundation; either
9 version 2.1 of the License, or (at your option) any later version.
11 The GNU C Library is distributed in the hope that it will be useful,
12 but WITHOUT ANY WARRANTY; without even the implied warranty of
13 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14 Lesser General Public License for more details.
16 You should have received a copy of the GNU Lesser General Public
17 License along with the GNU C Library; if not, write to the Free
18 Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
19 02110-1301 USA. */
27 #ifdef RE_ENABLE_I18N
32 #ifdef RE_ENABLE_I18N
34 #endif
57 reg_syntax_t syntax);
84 reg_syntax_t syntax,
89 #ifdef RE_ENABLE_I18N
95 bitset_t sbcset,
99 reg_syntax_t syntax);
104 bitset_t sbcset,
106 reg_syntax_t syntax);
109 RE_TRANSLATE_TYPE trans,
115 re_token_type_t type);
123 \f
124 /* This table gives an error message for each of the error codes listed
125 in regex.h. Obviously the order here has to be same as there.
126 POSIX doesn't require that we do anything for REG_NOERROR,
127 but why not be nice? */
130 {
131 #define REG_NOERROR_IDX 0
133 "\0"
136 "\0"
139 "\0"
142 "\0"
145 "\0"
148 "\0"
151 "\0"
154 "\0"
157 "\0"
160 "\0"
163 "\0"
166 "\0"
169 "\0"
172 "\0"
175 "\0"
178 "\0"
181 };
184 {
185 REG_NOERROR_IDX,
186 REG_NOMATCH_IDX,
187 REG_BADPAT_IDX,
188 REG_ECOLLATE_IDX,
189 REG_ECTYPE_IDX,
190 REG_EESCAPE_IDX,
191 REG_ESUBREG_IDX,
192 REG_EBRACK_IDX,
193 REG_EPAREN_IDX,
194 REG_EBRACE_IDX,
195 REG_BADBR_IDX,
196 REG_ERANGE_IDX,
197 REG_ESPACE_IDX,
198 REG_BADRPT_IDX,
199 REG_EEND_IDX,
200 REG_ESIZE_IDX,
201 REG_ERPAREN_IDX
202 };
203 \f
204 /* Entry points for GNU code. */
207 #ifdef ZOS_USS
209 /* For ZOS USS we must define btowc */
211 wchar_t
213 {
222 }
223 #endif
225 /* re_compile_pattern is the GNU regular expression compiler: it
226 compiles PATTERN (of length LENGTH) and puts the result in BUFP.
227 Returns 0 if the pattern was valid, otherwise an error string.
229 Assumes the `allocated' (and perhaps `buffer') and `translate' fields
230 are set in BUFP on entry. */
236 {
237 reg_errcode_t ret;
239 /* And GNU code determines whether or not to get register information
240 by passing null for the REGS argument to re_match, etc., not by
241 setting no_sub, unless RE_NO_SUB is set. */
244 /* Match anchors at newline. */
252 }
253 #ifdef _LIBC
255 #endif
257 /* Set by `re_set_syntax' to the current regexp syntax to recognize. Can
258 also be assigned to arbitrarily: each pattern buffer stores its own
259 syntax, so it can be changed between regex compilations. */
260 /* This has no initializer because initialized variables in Emacs
261 become read-only after dumping. */
262 reg_syntax_t re_syntax_options;
265 /* Specify the precise syntax of regexps for compilation. This provides
266 for compatibility for various utilities which historically have
267 different, incompatible syntaxes.
269 The argument SYNTAX is a bit mask comprised of the various bits
270 defined in regex.h. We return the old syntax. */
272 reg_syntax_t
274 {
279 }
280 #ifdef _LIBC
282 #endif
284 int
286 {
300 }
301 #ifdef _LIBC
303 #endif
308 {
312 }
314 /* Helper function for re_compile_fastmap.
315 Compile fastmap for the initial_state INIT_STATE. */
317 static void
320 {
325 {
330 {
332 #ifdef RE_ENABLE_I18N
334 {
352 }
353 #endif
354 }
356 {
359 {
365 }
366 }
367 #ifdef RE_ENABLE_I18N
369 {
373 # ifdef _LIBC
374 /* See if we have to try all bytes which start multiple collation
375 elements.
376 e.g. In da_DK, we want to catch 'a' since "aa" is a valid
377 collation element, and don't catch 'b' since 'b' is
378 the only collation element which starts from 'b' (and
379 it is caught by SIMPLE_BRACKET). */
382 {
388 }
391 /* See if we have to start the match at all multibyte characters,
392 i.e. where we would not find an invalid sequence. This only
393 applies to multibyte character sets; for single byte character
394 sets, the SIMPLE_BRACKET again suffices. */
397 # ifdef _LIBC
400 ))
401 {
403 do
404 {
409 }
411 }
413 else
414 {
415 /* ... Else catch all bytes which can start the mbchars. */
417 {
424 {
428 }
429 }
430 }
431 }
434 #ifdef RE_ENABLE_I18N
438 {
443 }
444 }
445 }
446 \f
447 /* Entry point for POSIX code. */
448 /* regcomp takes a regular expression as a string and compiles it.
450 PREG is a regex_t *. We do not expect any fields to be initialized,
451 since POSIX says we shouldn't. Thus, we set
453 `buffer' to the compiled pattern;
454 `used' to the length of the compiled pattern;
455 `syntax' to RE_SYNTAX_POSIX_EXTENDED if the
456 REG_EXTENDED bit in CFLAGS is set; otherwise, to
457 RE_SYNTAX_POSIX_BASIC;
458 `newline_anchor' to REG_NEWLINE being set in CFLAGS;
459 `fastmap' to an allocated space for the fastmap;
460 `fastmap_accurate' to zero;
461 `re_nsub' to the number of subexpressions in PATTERN.
463 PATTERN is the address of the pattern string.
465 CFLAGS is a series of bits which affect compilation.
467 If REG_EXTENDED is set, we use POSIX extended syntax; otherwise, we
468 use POSIX basic syntax.
470 If REG_NEWLINE is set, then . and [^...] don't match newline.
471 Also, regexec will try a match beginning after every newline.
473 If REG_ICASE is set, then we considers upper- and lowercase
474 versions of letters to be equivalent when matching.
476 If REG_NOSUB is set, then when PREG is passed to regexec, that
477 routine will report only success or failure, and nothing about the
478 registers.
480 It returns 0 if it succeeds, nonzero if it doesn't. (See regex.h for
481 the return codes and their meanings.) */
483 int
487 {
488 reg_errcode_t ret;
496 /* Try to allocate space for the fastmap. */
503 /* If REG_NEWLINE is set, newlines are treated differently. */
508 /* It also changes the matching behavior. */
510 }
511 else
518 /* POSIX doesn't distinguish between an unmatched open-group and an
519 unmatched close-group: both are REG_EPAREN. */
523 /* We have already checked preg->fastmap != NULL. */
525 /* Compute the fastmap now, since regexec cannot modify the pattern
526 buffer. This function never fails in this implementation. */
528 else
529 {
530 /* Some error occurred while compiling the expression. */
533 }
536 }
537 #ifdef _LIBC
539 #endif
541 /* Returns a message corresponding to an error code, ERRCODE, returned
542 from either regcomp or regexec. We don't use PREG here. */
544 size_t
547 {
554 /* Only error codes returned by the rest of the code should be passed
555 to this routine. If we are given anything else, or if other regex
556 code generates an invalid error code, then the program has a bug.
557 Dump core so we can fix it. */
565 {
567 {
570 }
571 else
573 }
576 }
577 #ifdef _LIBC
579 #endif
582 #ifdef RE_ENABLE_I18N
583 /* This static array is used for the map to single-byte characters when
584 UTF-8 is used. Otherwise we would allocate memory just to initialize
585 it the same all the time. UTF-8 is the preferred encoding so this is
586 a worthwhile optimization. */
587 #if __GNUC__ >= 3
589 /* Set the first 128 bits. */
591 };
598 static void
600 {
608 {
615 }
623 {
626 {
629 }
631 }
633 #ifdef RE_ENABLE_I18N
636 #endif
638 #ifdef DEBUG
640 #endif
643 }
646 /* Free dynamically allocated space used by PREG. */
648 void
650 {
662 }
663 #ifdef _LIBC
665 #endif
666 \f
667 /* Entry points compatible with 4.2 BSD regex library. We don't define
668 them unless specifically requested. */
670 #if defined _REGEX_RE_COMP || defined _LIBC
672 /* BSD has one and only one pattern buffer. */
676 # ifdef _LIBC
677 /* Make these definitions weak in libc, so POSIX programs can redefine
678 these names if they don't use our functions, and still use
679 regcomp/regexec above without link errors. */
680 weak_function
681 # endif
684 {
685 reg_errcode_t ret;
689 {
693 }
696 {
702 }
705 {
710 }
712 /* Since `re_exec' always passes NULL for the `regs' argument, we
713 don't need to initialize the pattern buffer fields which affect it. */
715 /* Match anchors at newlines. */
723 /* Yes, we're discarding `const' here if !HAVE_LIBINTL. */
725 }
727 #ifdef _LIBC
729 {
731 }
732 #endif
735 \f
736 /* Internal entry point.
737 Compile the regular expression PATTERN, whose length is LENGTH.
738 SYNTAX indicate regular expression's syntax. */
740 static reg_errcode_t
742 reg_syntax_t syntax)
743 {
746 re_string_t regexp;
748 /* Initialize the pattern buffer. */
757 /* Initialize the dfa. */
760 {
761 /* If zero allocated, but buffer is non-null, try to realloc
762 enough space. This loses if buffer's address is bogus, but
763 that is the user's responsibility. If ->buffer is NULL this
764 is a simple allocation. */
770 }
775 {
780 }
781 #ifdef DEBUG
782 /* Note: length+1 will not overflow since it is checked in init_dfa. */
785 #endif
792 {
793 re_compile_internal_free_return:
800 }
802 /* Parse the regular expression, and build a structure tree. */
808 /* Analyze the tree and create the nfa. */
813 #ifdef RE_ENABLE_I18N
814 /* If possible, do searching in single byte encoding to speed things up. */
817 #endif
819 /* Then create the initial state of the dfa. */
822 /* Release work areas. */
827 {
831 }
834 }
836 /* Initialize DFA. We use the length of the regular expression PAT_LEN
837 as the initial length of some arrays. */
839 static reg_errcode_t
841 {
843 #ifndef _LIBC
845 #endif
849 /* Force allocation of str_tree_storage the first time. */
852 /* Avoid overflows. */
859 /* table_size = 2 ^ ceil(log pat_len) */
868 #ifdef _LIBC
874 #else
875 # ifdef HAVE_LANGINFO_CODESET
877 # else
887 # endif
889 /* strcasecmp isn't a standard interface. brute force check */
890 #if 0
894 #else
902 #endif
904 /* We check exhaustively in the loop below if this charset is a
905 superset of ASCII. */
907 #endif
909 #ifdef RE_ENABLE_I18N
911 {
913 {
914 #if !defined(__GNUC__) || __GNUC__ < 3
918 {
924 }
925 #endif
927 }
928 else
929 {
936 /* Set the bits corresponding to single byte chars. */
939 {
943 # ifndef _LIBC
946 # endif
947 }
948 }
949 }
950 #endif
955 }
957 /* Initialize WORD_CHAR table, which indicate which character is
958 "word". In this case "word" means that it is the word construction
959 character used by some operators like "\<", "\>", etc. */
961 static void
962 internal_function
964 {
971 }
973 /* Free the work area which are only used while compiling. */
975 static void
977 {
981 {
984 }
990 }
992 /* Create initial states for all contexts. */
994 static reg_errcode_t
996 {
998 reg_errcode_t err;
999 re_node_set init_nodes;
1001 /* Initial states have the epsilon closure of the node which is
1002 the first node of the regular expression. */
1009 /* The back-references which are in initial states can epsilon transit,
1010 since in this case all of the subexpressions can be null.
1011 Then we add epsilon closures of the nodes which are the next nodes of
1012 the back-references. */
1015 {
1023 {
1029 }
1034 {
1037 {
1039 dfa->eclosures
1044 }
1045 }
1046 }
1048 /* It must be the first time to invoke acquire_state. */
1050 /* We don't check ERR here, since the initial state must not be NULL. */
1054 {
1056 CONTEXT_WORD);
1058 CONTEXT_NEWLINE);
1061 CONTEXT_NEWLINE
1066 }
1067 else
1073 }
1074 \f
1075 #ifdef RE_ENABLE_I18N
1076 /* If it is possible to do searching in single byte encoding instead of UTF-8
1077 to speed things up, set dfa->mb_cur_max to 1, clear is_utf8 and change
1078 DFA nodes where needed. */
1080 static void
1082 {
1087 {
1094 {
1101 /* Word anchors etc. cannot be handled. It's okay to test
1102 opr.ctx_type since constraints (for all DFA nodes) are
1103 created by ORing one or more opr.ctx_type values. */
1105 }
1120 /* Just double check. The non-ASCII range starts at 0x80. */
1128 }
1132 {
1138 }
1140 /* The search can be in single byte locale. */
1144 }
1145 #endif
1146 \f
1147 /* Analyze the structure tree, and calculate "first", "next", "edest",
1148 "eclosure", and "inveclosure". */
1150 static reg_errcode_t
1152 {
1154 reg_errcode_t ret;
1156 /* Allocate arrays. */
1167 {
1176 {
1179 }
1180 }
1196 /* We only need this during the prune_impossible_nodes pass in regexec.c;
1197 skip it if p_i_n will not run, as calc_inveclosure can be quadratic. */
1200 {
1205 }
1208 }
1210 /* Our parse trees are very unbalanced, so we cannot use a stack to
1211 implement parse tree visits. Instead, we use parent pointers and
1212 some hairy code in these two functions. */
1213 static reg_errcode_t
1216 {
1220 {
1221 /* Descend down the tree, preferably to the left (or to the right
1222 if that's the only child). */
1226 else
1229 do
1230 {
1238 }
1239 /* Go up while we have a node that is reached from the right. */
1242 }
1243 }
1245 static reg_errcode_t
1248 {
1252 {
1257 /* Go to the left node, or up and to the right. */
1260 else
1261 {
1264 {
1269 }
1271 }
1272 }
1273 }
1275 /* Optimization pass: if a SUBEXP is entirely contained, strip it and tell
1276 re_search_internal to map the inner one's opr.idx to this one's. Adjust
1277 backreferences as well. Requires a preorder visit. */
1278 static reg_errcode_t
1280 {
1284 {
1288 }
1292 {
1302 }
1305 }
1307 /* Lowering pass: Turn each SUBEXP node into the appropriate concatenation
1308 of OP_OPEN_SUBEXP, the body of the SUBEXP (if any) and OP_CLOSE_SUBEXP. */
1309 static reg_errcode_t
1311 {
1316 {
1320 }
1322 {
1326 }
1329 }
1333 {
1339 /* We do not optimize empty subexpressions, because otherwise we may
1340 have bad CONCAT nodes with NULL children. This is obviously not
1341 very common, so we do not lose much. An example that triggers
1342 this case is the sed "script" /\(\)/x. */
1349 /* Convert the SUBEXP node to the concatenation of an
1350 OP_OPEN_SUBEXP, the contents, and an OP_CLOSE_SUBEXP. */
1356 {
1359 }
1364 }
1366 /* Pass 1 in building the NFA: compute FIRST and create unlinked automaton
1367 nodes. Requires a postorder visit. */
1368 static reg_errcode_t
1370 {
1373 {
1376 }
1377 else
1378 {
1385 }
1387 }
1389 /* Pass 2: compute NEXT on the tree. Preorder visit. */
1390 static reg_errcode_t
1392 {
1394 {
1408 }
1410 }
1412 /* Pass 3: link all DFA nodes to their NEXT node (any order will do). */
1413 static reg_errcode_t
1415 {
1421 {
1431 {
1436 else
1440 else
1445 }
1464 }
1467 }
1469 /* Duplicate the epsilon closure of the node ROOT_NODE.
1470 Note that duplicated nodes have constraint INIT_CONSTRAINT in addition
1471 to their own constraint. */
1473 static reg_errcode_t
1474 internal_function
1477 {
1481 {
1484 {
1485 /* If the back reference epsilon-transit, its destination must
1486 also have the constraint. Then duplicate the epsilon closure
1487 of the destination of the back reference, and store it in
1488 edests of the back reference. */
1498 }
1500 {
1501 /* In case of the node can't epsilon-transit, don't duplicate the
1502 destination and store the original destination as the
1503 destination of the node. */
1506 }
1508 {
1509 /* In case of the node can epsilon-transit, and it has only one
1510 destination. */
1513 /* If the node is root_node itself, it means the epsilon clsoure
1514 has a loop. Then tie it to the destination of the root_node. */
1516 {
1521 }
1522 /* In case of the node has another constraint, add it. */
1530 }
1532 {
1533 /* In case of the node can epsilon-transit, and it has two
1534 destinations. In the bin_tree_t and DFA, that's '|' and '*'. */
1537 /* Search for a duplicated node which satisfies the constraint. */
1540 {
1541 /* There is no such duplicated node, create a new one. */
1542 reg_errcode_t err;
1553 }
1554 else
1555 {
1556 /* There is a duplicated node which satisfies the constraint,
1557 use it to avoid infinite loop. */
1561 }
1570 }
1573 }
1575 }
1577 /* Search for a node which is duplicated from the node ORG_NODE, and
1578 satisfies the constraint CONSTRAINT. */
1580 static int
1583 {
1586 {
1590 }
1592 }
1594 /* Duplicate the node whose index is ORG_IDX and set the constraint CONSTRAINT.
1595 Return the index of the new node, or -1 if insufficient storage is
1596 available. */
1598 static int
1600 {
1603 {
1608 /* Store the index of the original node. */
1610 }
1612 }
1614 static reg_errcode_t
1616 {
1622 {
1625 {
1629 }
1630 }
1633 }
1635 /* Calculate "eclosure" for all the node in DFA. */
1637 static reg_errcode_t
1639 {
1641 #ifdef DEBUG
1643 #endif
1645 /* For each nodes, calculate epsilon closure. */
1647 {
1648 reg_errcode_t err;
1649 re_node_set eclosure_elem;
1651 {
1656 }
1658 #ifdef DEBUG
1660 #endif
1662 /* If we have already calculated, skip it. */
1665 /* Calculate epsilon closure of `node_idx'. */
1671 {
1674 }
1675 }
1677 }
1679 /* Calculate epsilon closure of NODE. */
1681 static reg_errcode_t
1683 {
1684 reg_errcode_t err;
1686 re_node_set eclosure;
1693 /* This indicates that we are calculating this node now.
1694 We reference this value to avoid infinite loop. */
1697 /* If the current node has constraints, duplicate all nodes
1698 since they must inherit the constraints. */
1702 {
1707 }
1709 /* Expand each epsilon destination nodes. */
1712 {
1713 re_node_set eclosure_elem;
1715 /* If calculating the epsilon closure of `edest' is in progress,
1716 return intermediate result. */
1718 {
1721 }
1722 /* If we haven't calculated the epsilon closure of `edest' yet,
1723 calculate now. Otherwise use calculated epsilon closure. */
1725 {
1729 }
1730 else
1732 /* Merge the epsilon closure of `edest'. */
1736 /* If the epsilon closure of `edest' is incomplete,
1737 the epsilon closure of this node is also incomplete. */
1739 {
1742 }
1743 }
1745 /* An epsilon closure includes itself. */
1751 else
1755 }
1756 \f
1757 /* Functions for token which are used in the parser. */
1759 /* Fetch a token from INPUT.
1760 We must not use this function inside bracket expressions. */
1762 static void
1763 internal_function
1765 {
1767 }
1769 /* Peek a token from INPUT, and return the length of the token.
1770 We must not use this function inside bracket expressions. */
1772 static int
1773 internal_function
1775 {
1779 {
1782 }
1788 #ifdef RE_ENABLE_I18N
1792 {
1796 }
1797 #endif
1799 {
1802 {
1805 }
1810 #ifdef RE_ENABLE_I18N
1812 {
1816 }
1817 else
1818 #endif
1822 {
1830 {
1833 }
1837 {
1840 }
1844 {
1847 }
1851 {
1854 }
1858 {
1861 }
1881 {
1884 }
1888 {
1891 }
1919 }
1921 }
1924 #ifdef RE_ENABLE_I18N
1926 {
1929 }
1930 else
1931 #endif
1935 {
1980 {
1984 }
1991 {
1992 re_token_t next;
1998 }
2004 }
2006 }
2008 /* Peek a token from INPUT, and return the length of the token.
2009 We must not use this function out of bracket expressions. */
2011 static int
2012 internal_function
2014 {
2017 {
2020 }
2024 #ifdef RE_ENABLE_I18N
2027 {
2030 }
2035 {
2036 /* In this case, '\' escape a character. */
2043 }
2045 {
2050 else
2055 {
2064 {
2067 }
2068 /* else fall through. */
2074 }
2076 }
2078 {
2090 }
2092 }
2093 \f
2094 /* Functions for parser. */
2096 /* Entry point of the parser.
2097 Parse the regular expression REGEXP and return the structure tree.
2098 If an error is occured, ERR is set by error code, and return NULL.
2099 This function build the following tree, from regular expression <reg_exp>:
2100 CAT
2101 / \
2102 / \
2103 <reg_exp> EOR
2105 CAT means concatenation.
2106 EOR means end of regular expression. */
2111 {
2114 re_token_t current_token;
2123 else
2126 {
2129 }
2131 }
2133 /* This function build the following tree, from regular expression
2134 <branch1>|<branch2>:
2135 ALT
2136 / \
2137 / \
2138 <branch1> <branch2>
2140 ALT means alternative, which represents the operator `|'. */
2145 {
2153 {
2157 {
2161 }
2162 else
2166 {
2169 }
2170 }
2172 }
2174 /* This function build the following tree, from regular expression
2175 <exp1><exp2>:
2176 CAT
2177 / \
2178 / \
2179 <exp1> <exp2>
2181 CAT means concatenation. */
2186 {
2195 {
2198 {
2200 }
2202 {
2205 {
2208 }
2209 }
2212 /* Otherwise exp == NULL, we don't need to create new tree. */
2213 }
2215 }
2217 /* This function build the following tree, from regular expression a*:
2218 *
2219 |
2220 a
2221 */
2226 {
2230 {
2234 {
2237 }
2238 #ifdef RE_ENABLE_I18N
2240 {
2243 {
2249 {
2252 }
2253 }
2254 }
2255 #endif
2269 {
2272 }
2276 {
2279 }
2285 {
2288 }
2289 /* FALLTHROUGH */
2294 {
2297 }
2299 {
2302 }
2303 /* else fall through */
2307 {
2310 }
2311 /* else fall through */
2313 /* We treat it as a normal character. */
2315 /* Then we can these characters as normal characters. */
2317 /* mb_partial and word_char bits should be initialized already
2318 by peek_token. */
2321 {
2324 }
2333 {
2336 {
2340 }
2341 else
2342 {
2346 }
2350 {
2353 }
2354 }
2355 else
2356 {
2359 {
2362 }
2363 }
2364 /* We must return here, since ANCHORs can't be followed
2365 by repetition operators.
2366 eg. RE"^*" is invalid or "<ANCHOR(^)><CHAR(*)>",
2367 it must not be "<ANCHOR(^)><REPEAT(*)>". */
2373 {
2376 }
2405 /* Must not happen? */
2406 #ifdef DEBUG
2408 #endif
2410 }
2415 {
2419 /* In BRE consecutive duplications are not allowed. */
2423 {
2426 }
2427 }
2430 }
2432 /* This function build the following tree, from regular expression
2433 (<reg_exp>):
2434 SUBEXP
2435 |
2436 <reg_exp>
2437 */
2442 {
2450 /* The subexpression may be a null string. */
2453 else
2454 {
2460 }
2467 {
2470 }
2473 }
2475 /* This function parse repetition operators like "*", "+", "{1,3}" etc. */
2480 {
2483 #ifndef RE_TOKEN_INIT_BUG
2485 #else
2486 re_token_t start_token;
2489 #endif
2492 {
2496 {
2499 else
2500 {
2503 }
2504 }
2506 {
2507 /* We treat "{n}" as "{n,n}". */
2511 }
2513 {
2514 /* Invalid sequence. */
2516 {
2519 else
2523 }
2525 /* If the syntax bit is set, rollback. */
2529 /* mb_partial and word_char bits should be already initialized by
2530 peek_token. */
2532 }
2535 {
2536 /* First number greater than second. */
2539 }
2540 }
2541 else
2542 {
2545 }
2552 {
2555 }
2557 /* Extract "<re>{n,m}" to "<re><re>...<re><re>{0,<m-n>}". */
2559 {
2562 {
2567 }
2572 /* Duplicate ELEM before it is marked optional. */
2575 }
2576 else
2586 /* This loop is actually executed only when end != -1,
2587 to rewrite <re>{0,n} as (<re>(<re>...<re>?)?)?... We have
2588 already created the start+1-th copy. */
2590 {
2599 }
2606 parse_dup_op_espace:
2609 }
2611 /* Size of the names for collating symbol/equivalence_class/character_class.
2612 I'm not sure, but maybe enough. */
2613 #define BRACKET_NAME_BUF_SIZE 32
2615 #ifndef _LIBC
2616 /* Local function for parse_bracket_exp only used in case of NOT _LIBC.
2617 Build the range expression which starts from START_ELEM, and ends
2618 at END_ELEM. The result are written to MBCSET and SBCSET.
2619 RANGE_ALLOC is the allocated size of mbcset->range_starts, and
2620 mbcset->range_ends, is a pointer argument sinse we may
2621 update it. */
2623 static reg_errcode_t
2624 internal_function
2625 # ifdef RE_ENABLE_I18N
2632 {
2634 /* Equivalence Classes and Character Classes can't be a range start/end. */
2640 /* We can handle no multi character collating elements without libc
2641 support. */
2648 # ifdef RE_ENABLE_I18N
2649 {
2661 #ifdef GAWK
2662 /*
2663 * Fedora Core 2, maybe others, have broken `btowc' that returns -1
2664 * for any value > 127. Sigh. Note that `start_ch' and `end_ch' are
2665 * unsigned, so we don't have sign extension problems.
2666 */
2671 #else
2676 #endif
2684 /* Got valid collation sequence values, add them as a new entry.
2685 However, for !_LIBC we have no collation elements: if the
2686 character set is single byte, the single byte character set
2687 that we build below suffices. parse_bracket_exp passes
2688 no MBCSET if dfa->mb_cur_max == 1. */
2690 {
2691 /* Check the space of the arrays. */
2693 {
2694 /* There is not enough space, need realloc. */
2698 /* +1 in case of mbcset->nranges is 0. */
2700 /* Use realloc since mbcset->range_starts and mbcset->range_ends
2701 are NULL if *range_alloc == 0. */
2703 new_nranges);
2705 new_nranges);
2713 }
2717 }
2719 /* Build the table for single byte characters. */
2721 {
2726 }
2727 }
2729 {
2739 /* Build the table for single byte characters. */
2743 }
2746 }
2749 #ifndef _LIBC
2750 /* Helper function for parse_bracket_exp only used in case of NOT _LIBC..
2751 Build the collating element which is represented by NAME.
2752 The result are written to MBCSET and SBCSET.
2753 COLL_SYM_ALLOC is the allocated size of mbcset->coll_sym, is a
2754 pointer argument since we may update it. */
2756 static reg_errcode_t
2757 internal_function
2758 # ifdef RE_ENABLE_I18N
2764 {
2768 else
2769 {
2772 }
2773 }
2776 /* This function parse bracket expression like "[abc]", "[a-c]",
2777 "[[.a-a.]]" etc. */
2782 {
2783 #ifdef _LIBC
2791 /* Local function for parse_bracket_exp used in _LIBC environement.
2792 Seek the collating symbol entry correspondings to NAME.
2793 Return the index of the symbol in the SYMB_TABLE. */
2800 {
2804 {
2807 do
2808 {
2809 /* First compare the hashing value. */
2811 /* Compare the length of the name. */
2813 /* Compare the name. */
2816 {
2817 /* Yep, this is the entry. */
2819 }
2821 /* Next entry. */
2823 }
2825 }
2827 }
2829 /* Local function for parse_bracket_exp used in _LIBC environment.
2830 Look up the collation sequence value of BR_ELEM.
2831 Return the value if succeeded, UINT_MAX otherwise. */
2837 {
2839 {
2840 /*
2841 if (MB_CUR_MAX == 1)
2842 */
2845 else
2846 {
2849 }
2850 }
2852 {
2855 }
2857 {
2860 {
2863 sym_name_len);
2865 {
2866 /* We found the entry. */
2868 /* Skip the name of collating element name. */
2870 /* Skip the byte sequence of the collating element. */
2872 /* Adjust for the alignment. */
2874 /* Skip the multibyte collation sequence value. */
2876 /* Skip the wide char sequence of the collating element. */
2879 /* Return the collation sequence value. */
2881 }
2883 {
2884 /* No valid character. Match it as a single byte
2885 character. */
2887 }
2888 }
2891 }
2893 }
2895 /* Local function for parse_bracket_exp used in _LIBC environement.
2896 Build the range expression which starts from START_ELEM, and ends
2897 at END_ELEM. The result are written to MBCSET and SBCSET.
2898 RANGE_ALLOC is the allocated size of mbcset->range_starts, and
2899 mbcset->range_ends, is a pointer argument sinse we may
2900 update it. */
2902 auto inline reg_errcode_t
2907 bitset_t sbcset;
2909 {
2914 /* Equivalence Classes and Character Classes can't be a range
2915 start/end. */
2923 /* Check start/end collation sequence values. */
2929 /* Got valid collation sequence values, add them as a new entry.
2930 However, if we have no collation elements, and the character set
2931 is single byte, the single byte character set that we
2932 build below suffices. */
2934 {
2935 /* Check the space of the arrays. */
2937 {
2938 /* There is not enough space, need realloc. */
2943 /* +1 in case of mbcset->nranges is 0. */
2946 new_nranges);
2948 new_nranges);
2956 }
2960 }
2962 /* Build the table for single byte characters. */
2964 {
2966 /*
2967 if (MB_CUR_MAX == 1)
2968 */
2971 else
2975 }
2977 }
2979 /* Local function for parse_bracket_exp used in _LIBC environement.
2980 Build the collating element which is represented by NAME.
2981 The result are written to MBCSET and SBCSET.
2982 COLL_SYM_ALLOC is the allocated size of mbcset->coll_sym, is a
2983 pointer argument sinse we may update it. */
2985 auto inline reg_errcode_t
2990 bitset_t sbcset;
2992 {
2996 {
2999 {
3000 /* We found the entry. */
3002 /* Skip the name of collating element name. */
3004 }
3006 {
3007 /* No valid character, treat it as a normal
3008 character. */
3011 }
3012 else
3015 /* Got valid collation sequence, add it as a new entry. */
3016 /* Check the space of the arrays. */
3018 {
3019 /* Not enough, realloc it. */
3020 /* +1 in case of mbcset->ncoll_syms is 0. */
3022 /* Use realloc since mbcset->coll_syms is NULL
3023 if *alloc == 0. */
3025 new_coll_sym_alloc);
3030 }
3033 }
3034 else
3035 {
3038 else
3039 {
3042 }
3043 }
3044 }
3045 #endif
3047 re_token_t br_token;
3048 re_bitset_ptr_t sbcset;
3049 #ifdef RE_ENABLE_I18N
3058 #ifdef _LIBC
3063 {
3064 /*
3065 if (MB_CUR_MAX > 1)
3066 */
3070 _NL_COLLATE_SYMB_TABLEMB);
3072 _NL_COLLATE_SYMB_EXTRAMB);
3073 }
3074 #endif
3076 #ifdef RE_ENABLE_I18N
3079 #ifdef RE_ENABLE_I18N
3081 #else
3084 {
3087 }
3091 {
3094 }
3096 {
3097 #ifdef RE_ENABLE_I18N
3106 {
3109 }
3110 }
3112 /* We treat the first ']' as a normal character. */
3117 {
3121 reg_errcode_t ret;
3123 re_token_t token2;
3129 {
3132 }
3135 /* Get information about the next token. We need it in any case. */
3138 /* Do not check for ranges if we know they are not allowed. */
3140 {
3142 {
3145 }
3147 {
3151 {
3154 }
3156 {
3157 /* We treat the last '-' as a normal character. */
3160 }
3161 else
3163 }
3164 }
3167 {
3172 {
3175 }
3179 #ifdef _LIBC
3182 #else
3183 # ifdef RE_ENABLE_I18N
3187 # else
3189 # endif
3193 }
3194 else
3195 {
3197 {
3201 #ifdef RE_ENABLE_I18N
3203 /* Check whether the array has enough space. */
3205 {
3207 /* Not enough, realloc it. */
3208 /* +1 in case of mbcset->nmbchars is 0. */
3210 /* Use realloc since array is NULL if *alloc == 0. */
3212 mbchar_alloc);
3216 }
3222 #ifdef RE_ENABLE_I18N
3231 #ifdef RE_ENABLE_I18N
3240 #ifdef RE_ENABLE_I18N
3250 }
3251 }
3253 {
3256 }
3259 }
3263 /* If it is non-matching list. */
3267 #ifdef RE_ENABLE_I18N
3268 /* Ensure only single byte characters are set. */
3275 {
3278 /* Build a tree for complex bracket. */
3288 /* If there are no bits set in sbcset, there is no point
3289 of having both SIMPLE_BRACKET and COMPLEX_BRACKET. */
3291 {
3292 /* Build a tree for simple bracket. */
3299 /* Then join them by ALT node. */
3303 }
3304 else
3305 {
3308 }
3309 }
3310 else
3312 {
3313 #ifdef RE_ENABLE_I18N
3315 #endif
3316 /* Build a tree for simple bracket. */
3322 }
3325 parse_bracket_exp_espace:
3327 parse_bracket_exp_free_return:
3329 #ifdef RE_ENABLE_I18N
3333 }
3335 /* Parse an element in the bracket expression. */
3337 static reg_errcode_t
3341 {
3342 #ifdef RE_ENABLE_I18N
3346 {
3351 }
3358 {
3359 /* A '-' must only appear as anything but a range indicator before
3360 the closing bracket. Everything else is an error. */
3361 re_token_t token2;
3364 /* The actual error value is not standardized since this whole
3365 case is undefined. But ERANGE makes good sense. */
3367 }
3371 }
3373 /* Parse a bracket symbol in the bracket expression. Bracket symbols are
3374 such as [:<character_class>:], [.<collating_element>.], and
3375 [=<equivalent_class>=]. */
3377 static reg_errcode_t
3380 {
3386 {
3391 else
3398 }
3402 {
3414 }
3416 }
3418 /* Helper function for parse_bracket_exp.
3419 Build the equivalence class which is represented by NAME.
3420 The result are written to MBCSET and SBCSET.
3421 EQUIV_CLASS_ALLOC is the allocated size of mbcset->equiv_classes,
3422 is a pointer argument sinse we may update it. */
3424 static reg_errcode_t
3425 #ifdef RE_ENABLE_I18N
3431 {
3432 #ifdef _LIBC
3435 {
3442 /* This #include defines a local function! */
3443 # include <locale/weight.h>
3444 /* Calculate the index for equivalence class. */
3448 _NL_COLLATE_WEIGHTMB);
3450 _NL_COLLATE_EXTRAMB);
3452 _NL_COLLATE_INDIRECTMB);
3455 /* This isn't a valid character. */
3458 /* Build single byte matcing table for this equivalence class. */
3462 {
3466 /*
3467 idx2 = table[ch];
3468 */
3470 /* This isn't a valid character. */
3472 /* Compare only if the length matches and the collation rule
3473 index is the same. */
3475 {
3485 }
3486 }
3487 /* Check whether the array has enough space. */
3489 {
3490 /* Not enough, realloc it. */
3491 /* +1 in case of mbcset->nequiv_classes is 0. */
3493 /* Use realloc since the array is NULL if *alloc == 0. */
3496 new_equiv_class_alloc);
3501 }
3503 }
3504 else
3506 {
3510 }
3512 }
3514 /* Helper function for parse_bracket_exp.
3515 Build the character class which is represented by NAME.
3516 The result are written to MBCSET and SBCSET.
3517 CHAR_CLASS_ALLOC is the allocated size of mbcset->char_classes,
3518 is a pointer argument sinse we may update it. */
3520 static reg_errcode_t
3521 #ifdef RE_ENABLE_I18N
3529 {
3532 /* In case of REG_ICASE "upper" and "lower" match the both of
3533 upper and lower cases. */
3538 #ifdef RE_ENABLE_I18N
3539 /* Check the space of the arrays. */
3541 {
3542 /* Not enough, realloc it. */
3543 /* +1 in case of mbcset->nchar_classes is 0. */
3545 /* Use realloc since array is NULL if *alloc == 0. */
3547 new_char_class_alloc);
3552 }
3556 #define BUILD_CHARCLASS_LOOP(ctype_func) \
3557 do { \
3558 if (BE (trans != NULL, 0)) \
3559 { \
3560 for (i = 0; i < SBC_MAX; ++i) \
3561 if (ctype_func (i)) \
3562 bitset_set (sbcset, trans[i]); \
3563 } \
3564 else \
3565 { \
3566 for (i = 0; i < SBC_MAX; ++i) \
3567 if (ctype_func (i)) \
3568 bitset_set (sbcset, i); \
3569 } \
3570 } while (0)
3589 #ifndef GAWK
3591 #else
3592 /* see comments above */
3594 #endif
3601 else
3605 }
3612 {
3613 re_bitset_ptr_t sbcset;
3614 #ifdef RE_ENABLE_I18N
3618 reg_errcode_t ret;
3619 re_token_t br_token;
3623 #ifdef RE_ENABLE_I18N
3627 #ifdef RE_ENABLE_I18N
3632 {
3635 }
3638 {
3639 #ifdef RE_ENABLE_I18N
3642 }
3644 /* We don't care the syntax in this case. */
3646 #ifdef RE_ENABLE_I18N
3652 {
3654 #ifdef RE_ENABLE_I18N
3659 }
3660 /* \w match '_' also. */
3664 /* If it is non-matching list. */
3668 #ifdef RE_ENABLE_I18N
3669 /* Ensure only single byte characters are set. */
3672 #endif
3674 /* Build a tree for simple bracket. */
3681 #ifdef RE_ENABLE_I18N
3683 {
3685 /* Build a tree for complex bracket. */
3692 /* Then join them by ALT node. */
3696 }
3697 else
3698 {
3701 }
3706 build_word_op_espace:
3708 #ifdef RE_ENABLE_I18N
3713 }
3715 /* This is intended for the expressions like "a{1,3}".
3716 Fetch a number from `input', and return the number.
3717 Return -1, if the number field is empty like "{,1}".
3718 Return -2, If an error is occured. */
3720 static int
3722 {
3726 {
3736 }
3738 }
3739 \f
3740 #ifdef RE_ENABLE_I18N
3741 static void
3743 {
3745 # ifdef _LIBC
3750 # endif
3753 }
3755 \f
3756 /* Functions for binary tree operation. */
3758 /* Create a tree node. */
3762 re_token_type_t type)
3763 {
3764 re_token_t t;
3767 }
3772 {
3775 {
3783 }
3801 }
3803 /* Mark the tree SRC as an optional subexpression.
3804 To be called from preorder or postorder. */
3806 static reg_errcode_t
3808 {
3814 }
3816 /* Free the allocated memory inside NODE. */
3818 static void
3820 {
3821 #ifdef RE_ENABLE_I18N
3824 else
3828 }
3830 /* Worker function for tree walking. Free the allocated memory inside NODE
3831 and its children. */
3833 static reg_errcode_t
3835 {
3838 }
3841 /* Duplicate the node SRC, and return new node. This is a preorder
3842 visit similar to the one implemented by the generic visitor, but
3843 we need more infrastructure to maintain two parallel trees --- so,
3844 it's easier to duplicate. */
3848 {
3854 {
3855 /* Create a new tree and link it back to the current parent. */
3863 /* Go to the left node, or up and to the right. */
3865 {
3868 }
3869 else
3870 {
3873 {
3879 }
3882 }
3883 }
3884 }