| blob | 99e8d2501feb8bf50154bda4a3e1b731eb1ca926 |
1 /* String search routines for GNU Emacs.
3 Copyright (C) 1985-1987, 1993-1994, 1997-1999, 2001-2013 Free Software
4 Foundation, Inc.
6 This file is part of GNU Emacs.
8 GNU Emacs is free software: you can redistribute it and/or modify
9 it under the terms of the GNU General Public License as published by
10 the Free Software Foundation, either version 3 of the License, or
11 (at your option) any later version.
13 GNU Emacs is distributed in the hope that it will be useful,
14 but WITHOUT ANY WARRANTY; without even the implied warranty of
15 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 GNU General Public License for more details.
18 You should have received a copy of the GNU General Public License
19 along with GNU Emacs. If not, see <http://www.gnu.org/licenses/>. */
22 #include <config.h>
35 #include <sys/types.h>
38 #define REGEXP_CACHE_SIZE 20
40 /* If the regexp is non-nil, then the buffer contains the compiled form
41 of that regexp, suitable for searching. */
42 struct regexp_cache
43 {
46 /* Syntax table for which the regexp applies. We need this because
47 of character classes. If this is t, then the compiled pattern is valid
48 for any syntax-table. */
49 Lisp_Object syntax_table;
52 /* True means regexp was compiled to do full POSIX backtracking. */
54 };
56 /* The instances of that struct. */
59 /* The head of the linked list; points to the most recently used buffer. */
63 /* Every call to re_match, etc., must pass &search_regs as the regs
64 argument unless you can show it is unnecessary (i.e., if re_match
65 is certainly going to be called again before region-around-match
66 can be called).
68 Since the registers are now dynamically allocated, we need to make
69 sure not to refer to the Nth register before checking that it has
70 been allocated by checking search_regs.num_regs.
72 The regex code keeps track of whether it has allocated the search
73 buffer using bits in the re_pattern_buffer. This means that whenever
74 you compile a new pattern, it completely forgets whether it has
75 allocated any registers, and will allocate new registers the next
76 time you call a searching or matching function. Therefore, we need
77 to call re_set_registers after compiling a new pattern or after
78 setting the match registers, so that the regex functions will be
79 able to free or re-allocate it properly. */
82 /* The buffer in which the last search was performed, or
83 Qt if the last search was done in a string;
84 Qnil if no searching has been done yet. */
87 /* Error condition signaled when regexp compile_pattern fails. */
90 /* Error condition used for failing searches. */
107 {
109 }
111 /* Compile a regexp and signal a Lisp error if anything goes wrong.
112 PATTERN is the pattern to compile.
113 CP is the place to put the result.
114 TRANSLATE is a translation table for ignoring case, or nil for none.
115 POSIX is true if we want full backtracking (POSIX style) for this pattern.
116 False means backtrack only enough to get a valid match.
118 The behavior also depends on Vsearch_spaces_regexp. */
120 static void
123 {
125 reg_syntax_t old;
134 else
137 /* rms: I think BLOCK_INPUT is not needed here any more,
138 because regex.c defines malloc to call xmalloc.
139 Using BLOCK_INPUT here means the debugger won't run if an error occurs.
140 So let's turn it off. */
141 /* BLOCK_INPUT; */
147 else
153 /* If the compiled pattern hard codes some of the contents of the
154 syntax-table, it can only be reused with *this* syntax table. */
160 /* unblock_input (); */
165 }
167 /* Shrink each compiled regexp buffer in the cache
168 to the size actually used right now.
169 This is called from garbage collection. */
171 void
173 {
177 {
180 }
181 }
183 /* Clear the regexp cache w.r.t. a particular syntax table,
184 because it was changed.
185 There is no danger of memory leak here because re_compile_pattern
186 automagically manages the memory in each re_pattern_buffer struct,
187 based on its `allocated' and `buffer' values. */
188 void
190 {
194 /* It's tempting to compare with the syntax-table we've actually changed,
195 but it's not sufficient because char-table inheritance means that
196 modifying one syntax-table can change others at the same time. */
199 }
201 /* Compile a regexp if necessary, but first check to see if there's one in
202 the cache.
203 PATTERN is the pattern to compile.
204 TRANSLATE is a translation table for ignoring case, or nil for none.
205 REGP is the structure that says where to store the "register"
206 values that will result from matching this pattern.
207 If it is 0, we should compile the pattern not to record any
208 subexpression bounds.
209 POSIX is true if we want full backtracking (POSIX style) for this pattern.
210 False means backtrack only enough to get a valid match. */
215 {
219 {
221 /* Entries are initialized to nil, and may be set to nil by
222 compile_pattern_1 if the pattern isn't valid. Don't apply
223 string accessors in those cases. However, compile_pattern_1
224 is only applied to the cache entry we pick here to reuse. So
225 nil should never appear before a non-nil entry. */
239 /* If we're at the end of the cache, compile into the nil cell
240 we found, or the last (least recently used) cell with a
241 string value. */
243 {
244 compile_it:
247 }
248 }
250 /* When we get here, cp (aka *cpp) contains the compiled pattern,
251 either because we found it in the cache or because we just compiled it.
252 Move it to the front of the queue to mark it as most recently used. */
257 /* Advise the searching functions about the space we have allocated
258 for register data. */
262 /* The compiled pattern can be used both for multibyte and unibyte
263 target. But, we have to tell which the pattern is used for. */
267 }
269 \f
270 static Lisp_Object
272 {
273 Lisp_Object val;
282 /* This is so set_image_of_range_1 in regex.c can find the EQV table. */
292 posix,
298 /* Get pointers and sizes of the two strings
299 that make up the visible portion of the buffer. */
306 {
310 }
312 {
315 }
331 {
334 {
339 }
340 /* Set last_thing_searched only when match data is changed. */
342 }
345 }
349 This function modifies the match data that `match-beginning',
350 `match-end' and `match-data' access; save and restore the match
353 {
355 }
359 Find the longest match, in accord with Posix regular expression rules.
360 This function modifies the match data that `match-beginning',
361 `match-end' and `match-data' access; save and restore the match
364 {
366 }
367 \f
368 static Lisp_Object
371 {
374 EMACS_INT pos;
385 else
386 {
396 }
398 /* This is so set_image_of_range_1 in regex.c can find the EQV table. */
407 posix,
419 /* Set last_thing_searched only when match data is changed. */
430 {
435 }
438 }
442 Matching ignores case if `case-fold-search' is non-nil.
443 If third arg START is non-nil, start search at that index in STRING.
444 For index of first char beyond the match, do (match-end 0).
445 `match-end' and `match-beginning' also give indices of substrings
446 matched by parenthesis constructs in the pattern.
448 You can use the function `match-string' to extract the substrings
451 {
453 }
457 Find the longest match, in accord with Posix regular expression rules.
458 Case is ignored if `case-fold-search' is non-nil in the current buffer.
459 If third arg START is non-nil, start search at that index in STRING.
460 For index of first char beyond the match, do (match-end 0).
461 `match-end' and `match-beginning' also give indices of substrings
464 {
466 }
468 /* Match REGEXP against STRING, searching all of STRING,
469 and return the index of the match, or negative on failure.
470 This does not clobber the match data. */
472 ptrdiff_t
474 {
488 }
490 /* Match REGEXP against STRING, searching all of STRING ignoring case,
491 and return the index of the match, or negative on failure.
492 This does not clobber the match data.
493 We assume that STRING contains single-byte characters. */
495 ptrdiff_t
498 {
511 }
513 /* Like fast_string_match but ignore case. */
515 ptrdiff_t
517 {
531 }
532 \f
533 /* Match REGEXP against the characters after POS to LIMIT, and return
534 the number of matched characters. If STRING is non-nil, match
535 against the characters in it. In that case, POS and LIMIT are
536 indices into the string. This function doesn't modify the match
537 data. */
539 ptrdiff_t
542 {
550 {
561 }
562 else
563 {
575 {
579 }
581 {
584 }
587 }
596 }
598 \f
599 /* The newline cache: remembering which sections of text have no newlines. */
601 /* If the user has requested the long scans caching, make sure it's on.
602 Otherwise, make sure it's off.
603 This is our cheezy way of associating an action with the change of
604 state of a buffer-local variable. */
605 static void
607 {
609 {
610 /* It should be off. */
612 {
615 }
616 }
617 else
618 {
619 /* It should be on. */
622 }
623 }
625 \f
626 /* Search for COUNT newlines between START/START_BYTE and END/END_BYTE.
628 If COUNT is positive, search forwards; END must be >= START.
629 If COUNT is negative, search backwards for the -COUNTth instance;
630 END must be <= START.
631 If COUNT is zero, do anything you please; run rogue, for all I care.
633 If END is zero, use BEGV or ZV instead, as appropriate for the
634 direction indicated by COUNT.
636 If we find COUNT instances, set *SHORTAGE to zero, and return the
637 position past the COUNTth match. Note that for reverse motion
638 this is not the same as the usual convention for Emacs motion commands.
640 If we don't find COUNT instances before reaching END, set *SHORTAGE
641 to the number of newlines left unfound, and return END.
643 If BYTEPOS is not NULL, set *BYTEPOS to the byte position corresponding
644 to the returned character position.
646 If ALLOW_QUIT, set immediate_quit. That's good to do
647 except when inside redisplay. */
649 ptrdiff_t
653 {
658 {
662 }
663 else
664 {
668 }
682 {
683 /* Our innermost scanning loop is very simple; it doesn't know
684 about gaps, buffer ends, or the newline cache. ceiling is
685 the position of the last character before the next such
686 obstacle --- the last character the dumb search loop should
687 examine. */
690 /* If we're looking for a newline, consult the newline cache
691 to see where we can avoid some scanning. */
693 {
703 /* START should never be after END. */
707 /* Now the text after start is an unknown region, and
708 next_change is the position of the next known region. */
710 }
714 /* The dumb loop can only scan text stored in contiguous
715 bytes. BUFFER_CEILING_OF returns the last character
716 position that is contiguous, so the ceiling is the
717 position after that. */
721 {
722 /* The termination address of the dumb loop. */
730 {
731 /* The dumb loop. */
734 /* If we're looking for newlines, cache the fact that
735 the region from start to cursor is free of them. */
737 {
743 }
749 {
754 }
756 }
760 }
761 }
762 else
764 {
765 /* The last character to check before the next obstacle. */
768 /* Consult the newline cache, if appropriate. */
770 {
780 /* Start should never be at or before end. */
784 /* Now the text before start is an unknown region, and
785 next_change is the position of the next known region. */
787 }
791 /* Stop scanning before the gap. */
795 {
796 /* The termination address of the dumb loop. */
802 {
806 /* If we're looking for newlines, cache the fact that
807 the region from after the cursor to start is free of them. */
809 {
815 }
821 {
826 }
828 }
832 }
833 }
839 {
842 }
844 }
845 \f
846 /* Search for COUNT instances of a line boundary.
847 Start at START. If COUNT is negative, search backwards.
849 We report the resulting position by calling TEMP_SET_PT_BOTH.
851 If we find COUNT instances. we position after (always after,
852 even if scanning backwards) the COUNTth match, and return 0.
854 If we don't find COUNT instances before reaching the end of the
855 buffer (or the beginning, if scanning backwards), we return
856 the number of line boundaries left unfound, and position at
857 the limit we bumped up against.
859 If ALLOW_QUIT, set immediate_quit. That's good to do
860 except in special cases. */
862 ptrdiff_t
866 {
873 else
876 }
878 /* Like find_newline, but doesn't allow QUITting and doesn't return
879 SHORTAGE. */
880 ptrdiff_t
883 {
885 }
887 /* Like find_newline, but returns position before the newline, not
888 after, and only search up to TO.
889 This isn't just find_newline_no_quit (...)-1, because you might hit TO. */
891 ptrdiff_t
894 {
899 {
902 else
903 pos--;
904 }
906 }
907 \f
908 /* Subroutines of Lisp buffer search functions. */
910 static Lisp_Object
913 {
914 EMACS_INT np;
915 EMACS_INT lim;
920 {
923 }
927 {
930 else
932 }
933 else
934 {
943 else
945 }
947 /* This is so set_image_of_range_1 in regex.c can find the EQV table. */
958 posix);
960 {
965 {
970 a value of nil here. */
972 #endif
973 }
974 else
976 }
982 }
983 \f
984 /* Return true if REGEXP it matches just one constant string. */
986 static bool
988 {
992 {
994 {
1001 {
1009 }
1010 }
1011 }
1013 }
1015 /* Search for the n'th occurrence of STRING in the current buffer,
1016 starting at position POS and stopping at position LIM,
1017 treating STRING as a literal string if RE is false or as
1018 a regular expression if RE is true.
1020 If N is positive, searching is forward and LIM must be greater than POS.
1021 If N is negative, searching is backward and LIM must be less than POS.
1023 Returns -x if x occurrences remain to be found (x > 0),
1024 or else the position at the beginning of the Nth occurrence
1025 (if searching backward) or the end (if searching forward).
1027 POSIX is nonzero if we want full backtracking (POSIX style)
1028 for this pattern. 0 means backtrack only enough to get a valid match. */
1030 #define TRANSLATE(out, trt, d) \
1031 do \
1032 { \
1033 if (! NILP (trt)) \
1034 { \
1035 Lisp_Object temp; \
1036 temp = Faref (trt, make_number (d)); \
1037 if (INTEGERP (temp)) \
1038 out = XINT (temp); \
1039 else \
1040 out = d; \
1041 } \
1042 else \
1043 out = d; \
1044 } \
1045 while (0)
1047 /* Only used in search_buffer, to record the end position of the match
1048 when searching regexps and SEARCH_REGS should not be changed
1049 (i.e. Vinhibit_changing_match_data is non-nil). */
1052 static EMACS_INT
1056 {
1064 /* Searching 0 times means don't move. */
1065 /* Null string is found at starting position. */
1067 {
1070 }
1073 {
1085 because letting this function finish
1086 can take too long. */
1088 to avoid paradoxical behavior */
1089 /* Get pointers and sizes of the two strings
1090 that make up the visible portion of the buffer. */
1097 {
1101 }
1103 {
1106 }
1110 {
1117 /* Don't allow match past current point */
1120 {
1122 }
1124 {
1126 {
1130 {
1135 }
1137 /* Set pos to the new position. */
1139 }
1140 else
1141 {
1143 /* Set pos to the new position. */
1145 }
1146 }
1147 else
1148 {
1151 }
1152 n++;
1153 }
1155 {
1164 {
1166 }
1168 {
1170 {
1174 {
1179 }
1182 }
1183 else
1184 {
1187 }
1188 }
1189 else
1190 {
1193 }
1194 n--;
1195 }
1198 }
1200 {
1207 /* Set to positive if we find a non-ASCII char that need
1208 translation. Otherwise set to zero later. */
1212 /* MULTIBYTE says whether the text to be searched is multibyte.
1213 We must convert PATTERN to match that, or we will not really
1214 find things right. */
1217 {
1221 }
1223 {
1225 raw_pattern_size_byte
1227 raw_pattern_size);
1231 }
1232 else
1233 {
1234 /* Converting multibyte to single-byte.
1236 ??? Perhaps this conversion should be done in a special way
1237 by subtracting nonascii-insert-offset from each non-ASCII char,
1238 so that only the multibyte chars which really correspond to
1239 the chosen single-byte character set can possibly match. */
1245 }
1247 /* Copy and optionally translate the pattern. */
1254 {
1255 /* Fill patbuf by translated characters in STRING while
1256 checking if we can use boyer-moore search. If TRT is
1257 non-nil, we can use boyer-moore search only if TRT can be
1258 represented by the byte array of 256 elements. For that,
1259 all non-ASCII case-equivalents of all case-sensitive
1260 characters in STRING must belong to the same character
1261 group (two characters belong to the same group iff their
1262 multibyte forms are the same except for the last byte;
1263 i.e. every 64 characters form a group; U+0000..U+003F,
1264 U+0040..U+007F, U+0080..U+00BF, ...). */
1267 {
1272 /* If we got here and the RE flag is set, it's because we're
1273 dealing with a regexp known to be trivial, so the backslash
1274 just quotes the next character. */
1276 {
1277 len--;
1278 raw_pattern_size--;
1279 len_byte--;
1280 base_pat++;
1281 }
1286 {
1289 }
1290 else
1291 {
1292 /* Translate the character. */
1297 /* Check if C has any other case-equivalents. */
1299 /* If so, check if we can use boyer-moore. */
1301 {
1302 /* Check if all equivalents belong to the same
1303 group of characters. Note that the check of C
1304 itself is done by the last iteration. */
1308 {
1310 {
1313 else
1315 }
1317 /* Boyer-moore search can't handle a
1318 translation of an eight-bit
1319 character. */
1322 {
1328 }
1334 }
1335 }
1336 }
1338 /* Store this character into the translated pattern. */
1343 }
1345 /* If char_base is still negative we didn't find any translated
1346 non-ASCII characters. */
1349 }
1350 else
1351 {
1352 /* Unibyte buffer. */
1355 {
1358 /* If we got here and the RE flag is set, it's because we're
1359 dealing with a regexp known to be trivial, so the backslash
1360 just quotes the next character. */
1362 {
1363 len--;
1364 raw_pattern_size--;
1365 base_pat++;
1366 }
1370 /* Check that none of C's equivalents violates the
1371 assumptions of boyer_moore. */
1374 {
1376 {
1379 }
1383 }
1384 }
1385 }
1393 char_base);
1394 else
1397 }
1398 }
1399 \f
1400 /* Do a simple string search N times for the string PAT,
1401 whose length is LEN/LEN_BYTE,
1402 from buffer position POS/POS_BYTE until LIM/LIM_BYTE.
1403 TRT is the translation table.
1405 Return the character position where the match is found.
1406 Otherwise, if M matches remained to be found, return -M.
1408 This kind of search works regardless of what is in PAT and
1409 regardless of what is in TRT. It is used in cases where
1410 boyer_moore cannot work. */
1412 static EMACS_INT
1417 {
1420 /* Number of buffer bytes matched. Note that this may be different
1421 from len_byte in a multibyte buffer. */
1426 {
1428 {
1429 /* Try matching at position POS. */
1438 {
1444 buf_charlen);
1450 this_len--;
1454 this_pos++;
1455 }
1458 {
1463 }
1466 }
1468 n--;
1469 }
1472 {
1474 {
1475 /* Try matching at position POS. */
1484 {
1492 this_len--;
1493 this_pos++;
1494 }
1497 {
1501 }
1503 pos++;
1504 }
1506 n--;
1507 }
1508 /* Backwards search. */
1511 {
1513 {
1514 /* Try matching at position POS. */
1524 {
1536 this_len--;
1537 }
1540 {
1545 }
1548 }
1550 n++;
1551 }
1554 {
1556 {
1557 /* Try matching at position POS. */
1566 {
1573 this_len--;
1574 this_pos++;
1575 }
1578 {
1582 }
1584 pos--;
1585 }
1587 n++;
1588 }
1590 stop:
1592 {
1596 else
1600 }
1603 else
1605 }
1606 \f
1607 /* Do Boyer-Moore search N times for the string BASE_PAT,
1608 whose length is LEN_BYTE,
1609 from buffer position POS_BYTE until LIM_BYTE.
1610 DIRECTION says which direction we search in.
1611 TRT and INVERSE_TRT are translation tables.
1612 Characters in PAT are already translated by TRT.
1614 This kind of search works if all the characters in BASE_PAT that
1615 have nontrivial translation are the same aside from the last byte.
1616 This makes it possible to translate just the last byte of a
1617 character, and do so after just a simple test of the context.
1618 CHAR_BASE is nonzero if there is such a non-ASCII character.
1620 If that criterion is not satisfied, do not call this function. */
1622 static EMACS_INT
1628 {
1641 /* These are set to the preceding bytes of a byte to be translated
1642 if char_base is nonzero. As the maximum byte length of a
1643 multibyte character is 5, we have to check at most four previous
1644 bytes. */
1649 /* The general approach is that we are going to maintain that we know
1650 the first (closest to the present position, in whatever direction
1651 we're searching) character that could possibly be the last
1652 (furthest from present position) character of a valid match. We
1653 advance the state of our knowledge by looking at that character
1654 and seeing whether it indeed matches the last character of the
1655 pattern. If it does, we take a closer look. If it does not, we
1656 move our pointer (to putative last characters) as far as is
1657 logically possible. This amount of movement, which I call a
1658 stride, will be the length of the pattern if the actual character
1659 appears nowhere in the pattern, otherwise it will be the distance
1660 from the last occurrence of that character to the end of the
1661 pattern. If the amount is zero we have a possible match. */
1663 /* Here we make a "mickey mouse" BM table. The stride of the search
1664 is determined only by the last character of the putative match.
1665 If that character does not match, we will stride the proper
1666 distance to propose a match that superimposes it on the last
1667 instance of a character that matches it (per trt), or misses
1668 it entirely if there is none. */
1672 /* Record position after the end of the pattern. */
1674 /* BASE_PAT points to a character that we start scanning from.
1675 It is the first character in a forward search,
1676 the last character in a backward search. */
1680 /* A character that does not appear in the pattern induces a
1681 stride equal to the pattern length. */
1685 /* We use this for translation, instead of TRT itself.
1686 We fill this in to handle the characters that actually
1687 occur in the pattern. Others don't matter anyway! */
1692 {
1693 /* Setup translate_prev_byte1/2/3/4 from CHAR_BASE. Only a
1694 byte following them are the target of translation. */
1700 {
1704 }
1705 }
1709 {
1713 {
1714 /* If the byte currently looking at is the last of a
1715 character to check case-equivalents, set CH to that
1716 character. An ASCII character and a non-ASCII character
1717 matching with CHAR_BASE are to be checked. */
1724 {
1728 charstart--;
1732 }
1736 else
1743 /* A translation table is accompanied by its inverse -- see
1744 comment following downcase_table for details. */
1746 {
1751 {
1755 else
1758 /* For all the characters that map into CH,
1759 set up simple_translate to map the last byte
1760 into STARTING_J. */
1765 }
1766 }
1767 }
1768 else
1769 {
1775 }
1776 /* stride_for_teases tells how much to stride if we get a
1777 match on the far character but are subsequently
1778 disappointed, by recording what the stride would have been
1779 for that character if the last character had been
1780 different. */
1781 }
1783 /* loop invariant - POS_BYTE points at where last char (first
1784 char if reverse) of pattern would align in a possible match. */
1786 {
1790 /* It's been reported that some (broken) compiler thinks that
1791 Boolean expressions in an arithmetic context are unsigned.
1792 Using an explicit ?1:0 prevents this. */
1796 /* First we do the part we can by pointers (maybe nothing) */
1797 QUIT;
1801 {
1803 /* LIMIT is now the last (not beyond-last!) value POS_BYTE
1804 can take on without hitting edge of buffer or the gap. */
1807 }
1808 else
1809 {
1811 /* LIMIT is now the last (not beyond-last!) value POS_BYTE
1812 can take on without hitting edge of buffer or the gap. */
1815 }
1820 {
1825 /* In this loop, pos + cursor - p2 is the surrogate for pos. */
1827 {
1829 {
1831 {
1835 }
1836 }
1837 else
1838 {
1840 {
1844 }
1845 }
1846 /* If you are here, cursor is beyond the end of the
1847 searched region. You fail to match within the
1848 permitted region and would otherwise try a character
1849 beyond that region. */
1852 hit:
1855 {
1857 {
1860 /* Translate only the last byte of a character. */
1865 /* Check if this is the last byte of
1866 a translatable character. */
1873 else
1877 }
1878 }
1879 else
1880 {
1882 {
1886 }
1887 }
1890 {
1900 {
1903 }
1904 else
1905 /* If Vinhibit_changing_match_data is non-nil,
1906 search_regs will not be changed. So let's
1907 compute start and end here. */
1908 {
1911 }
1915 else
1917 }
1918 else
1920 }
1922 }
1923 else
1924 /* Now we'll pick up a clump that has to be done the hard
1925 way because it covers a discontinuity. */
1926 {
1933 /* LIMIT is now the last value POS_BYTE can have
1934 and still be valid for a possible match. */
1936 {
1937 /* This loop can be coded for space rather than
1938 speed because it will usually run only once.
1939 (the reach is at most len + 21, and typically
1940 does not exceed len). */
1942 {
1947 }
1950 hit2:
1951 /* Found what might be a match. */
1954 {
1959 /* Translate only the last byte of a character. */
1964 /* Check if this is the last byte of a
1965 translatable character. */
1972 else
1976 }
1977 /* Above loop has moved POS_BYTE part or all the way
1978 back to the first pos (last pos if reverse).
1979 Set it once again at the last (first if reverse) char. */
1982 {
1990 {
1993 }
1994 else
1995 /* If Vinhibit_changing_match_data is non-nil,
1996 search_regs will not be changed. So let's
1997 compute start and end here. */
1998 {
2001 }
2005 else
2007 }
2008 else
2010 }
2011 }
2012 /* We have done one clump. Can we continue? */
2015 }
2017 }
2019 /* Record beginning BEG_BYTE and end BEG_BYTE + NBYTES
2020 for the overall match just found in the current buffer.
2021 Also clear out the match data for registers 1 and up. */
2023 static void
2025 {
2031 /* Make sure we have registers in which to store
2032 the match position. */
2034 {
2038 }
2040 /* Clear out the other registers. */
2042 {
2045 }
2050 }
2051 \f
2055 Set point to the beginning of the occurrence found, and return point.
2056 An optional second argument bounds the search; it is a buffer position.
2057 The match found must not extend before that position.
2058 Optional third argument, if t, means if fail just return nil (no error).
2059 If not nil and not t, position at limit of search and return nil.
2060 Optional fourth argument COUNT, if non-nil, means to search for COUNT
2061 successive occurrences. If COUNT is negative, search forward,
2062 instead of backward, for -COUNT occurrences.
2064 Search case-sensitivity is determined by the value of the variable
2065 `case-fold-search', which see.
2069 {
2071 }
2075 Set point to the end of the occurrence found, and return point.
2076 An optional second argument bounds the search; it is a buffer position.
2077 The match found must not extend after that position. A value of nil is
2078 equivalent to (point-max).
2079 Optional third argument, if t, means if fail just return nil (no error).
2080 If not nil and not t, move to limit of search and return nil.
2081 Optional fourth argument COUNT, if non-nil, means to search for COUNT
2082 successive occurrences. If COUNT is negative, search backward,
2083 instead of forward, for -COUNT occurrences.
2085 Search case-sensitivity is determined by the value of the variable
2086 `case-fold-search', which see.
2090 {
2092 }
2097 Set point to the beginning of the match, and return point.
2098 The match found is the one starting last in the buffer
2099 and yet ending before the origin of the search.
2100 An optional second argument bounds the search; it is a buffer position.
2101 The match found must start at or after that position.
2102 Optional third argument, if t, means if fail just return nil (no error).
2103 If not nil and not t, move to limit of search and return nil.
2104 Optional fourth argument is repeat count--search for successive occurrences.
2106 Search case-sensitivity is determined by the value of the variable
2107 `case-fold-search', which see.
2109 See also the functions `match-beginning', `match-end', `match-string',
2112 {
2114 }
2119 Set point to the end of the occurrence found, and return point.
2120 An optional second argument bounds the search; it is a buffer position.
2121 The match found must not extend after that position.
2122 Optional third argument, if t, means if fail just return nil (no error).
2123 If not nil and not t, move to limit of search and return nil.
2124 Optional fourth argument is repeat count--search for successive occurrences.
2126 Search case-sensitivity is determined by the value of the variable
2127 `case-fold-search', which see.
2129 See also the functions `match-beginning', `match-end', `match-string',
2132 {
2134 }
2139 Find the longest match in accord with Posix regular expression rules.
2140 Set point to the beginning of the match, and return point.
2141 The match found is the one starting last in the buffer
2142 and yet ending before the origin of the search.
2143 An optional second argument bounds the search; it is a buffer position.
2144 The match found must start at or after that position.
2145 Optional third argument, if t, means if fail just return nil (no error).
2146 If not nil and not t, move to limit of search and return nil.
2147 Optional fourth argument is repeat count--search for successive occurrences.
2149 Search case-sensitivity is determined by the value of the variable
2150 `case-fold-search', which see.
2152 See also the functions `match-beginning', `match-end', `match-string',
2155 {
2157 }
2162 Find the longest match in accord with Posix regular expression rules.
2163 Set point to the end of the occurrence found, and return point.
2164 An optional second argument bounds the search; it is a buffer position.
2165 The match found must not extend after that position.
2166 Optional third argument, if t, means if fail just return nil (no error).
2167 If not nil and not t, move to limit of search and return nil.
2168 Optional fourth argument is repeat count--search for successive occurrences.
2170 Search case-sensitivity is determined by the value of the variable
2171 `case-fold-search', which see.
2173 See also the functions `match-beginning', `match-end', `match-string',
2176 {
2178 }
2179 \f
2182 Leave point at the end of the replacement text.
2184 If optional second arg FIXEDCASE is non-nil, do not alter the case of
2185 the replacement text. Otherwise, maybe capitalize the whole text, or
2186 maybe just word initials, based on the replaced text. If the replaced
2187 text has only capital letters and has at least one multiletter word,
2188 convert NEWTEXT to all caps. Otherwise if all words are capitalized
2189 in the replaced text, capitalize each word in NEWTEXT.
2191 If optional third arg LITERAL is non-nil, insert NEWTEXT literally.
2192 Otherwise treat `\\' as special:
2193 `\\&' in NEWTEXT means substitute original matched text.
2194 `\\N' means substitute what matched the Nth `\\(...\\)'.
2195 If Nth parens didn't match, substitute nothing.
2196 `\\\\' means insert one `\\'.
2197 `\\?' is treated literally
2198 (for compatibility with `query-replace-regexp').
2199 Any other character following `\\' signals an error.
2200 Case conversion does not apply to these substitutions.
2202 If optional fourth argument STRING is non-nil, it should be a string
2203 to act on; this should be the string on which the previous match was
2204 done via `string-match'. In this case, `replace-match' creates and
2205 returns a new string, made by copying STRING and replacing the part of
2206 STRING that was matched (the original STRING itself is not altered).
2208 The optional fifth argument SUBEXP specifies a subexpression;
2209 it says to replace just that subexpression with NEWTEXT,
2210 rather than replacing the entire matched text.
2211 This is, in a vague sense, the inverse of using `\\N' in NEWTEXT;
2212 `\\N' copies subexp N into NEWTEXT, but using N as SUBEXP puts
2213 NEWTEXT in place of subexp N.
2214 This is useful only after a regular expression search or match,
2216 (Lisp_Object newtext, Lisp_Object fixedcase, Lisp_Object literal, Lisp_Object string, Lisp_Object subexp)
2217 {
2234 /* but some C compilers blew it */
2241 else
2242 {
2247 }
2250 {
2256 }
2257 else
2258 {
2264 }
2267 {
2268 /* Decide how to casify by examining the matched text. */
2276 else
2282 /* some_multiletter_word is set nonzero if any original word
2283 is more than one letter long. */
2290 {
2292 {
2295 }
2296 else
2300 {
2301 /* Cannot be all caps if any original char is lower case */
2306 else
2308 }
2310 {
2313 ;
2314 else
2316 }
2317 else
2318 {
2319 /* If the initial is a caseless word constituent,
2320 treat that like a lowercase initial. */
2323 }
2326 }
2328 /* Convert to all caps if the old text is all caps
2329 and has at least one multiletter word. */
2332 /* Capitalize each word, if the old text has all capitalized words. */
2336 /* Should x -> yz, operating on X, give Yz or YZ?
2337 We'll assume the latter. */
2339 else
2341 }
2343 /* Do replacement in a string. */
2345 {
2352 /* Substitute parts of the match into NEWTEXT
2353 if desired. */
2355 {
2358 /* We build up the substituted string in ACCUM. */
2359 Lisp_Object accum;
2360 Lisp_Object middle;
2366 {
2374 {
2378 {
2381 }
2383 {
2386 {
2389 }
2390 else
2391 {
2392 /* If that subexp did not match,
2393 replace \\N with nothing. */
2396 }
2397 }
2402 }
2404 {
2407 lastpos_byte,
2409 else
2417 }
2419 {
2421 lastpos_byte,
2427 }
2428 }
2432 lastpos_byte,
2434 else
2438 }
2440 /* Do case substitution in NEWTEXT if desired. */
2447 }
2449 /* Record point, then move (quietly) to the start of the match. */
2454 else
2457 /* If we want non-literal replacement,
2458 perform substitution on the replacement string. */
2460 {
2474 /* Go thru NEWTEXT, producing the actual text to insert in
2475 SUBSTED while adjusting multibyteness to that of the current
2476 buffer. */
2479 {
2486 {
2490 }
2491 else
2492 {
2493 /* Note that we don't have to increment POS. */
2497 }
2499 /* Either set ADD_STUFF and ADD_LEN to the text to put in SUBSTED,
2500 or set IDX to a match index, which means put that part
2501 of the buffer text into SUBSTED. */
2504 {
2508 {
2513 }
2514 else
2515 {
2519 }
2524 {
2527 }
2530 else
2531 {
2534 }
2535 }
2536 else
2537 {
2540 }
2542 /* If we want to copy part of a previous match,
2543 set up ADD_STUFF and ADD_LEN to point to it. */
2545 {
2551 }
2553 /* Now the stuff we want to add to SUBSTED
2554 is invariably ADD_LEN bytes starting at ADD_STUFF. */
2556 /* Make sure SUBSTED is big enough. */
2558 substed =
2563 /* Now add to the end of SUBSTED. */
2565 {
2568 }
2569 }
2572 {
2574 {
2579 substed_len);
2580 }
2581 else
2583 }
2585 }
2587 /* Replace the old text with the new in the cleanest possible way. */
2599 /* Adjust search data for this change. */
2600 {
2607 {
2616 }
2617 }
2619 /* Put point back where it was in the text. */
2622 else
2625 /* Now move point "officially" to the start of the inserted replacement. */
2629 }
2630 \f
2631 static Lisp_Object
2633 {
2634 EMACS_INT n;
2647 }
2651 SUBEXP, a number, specifies which parenthesized expression in the last
2652 regexp.
2653 Value is nil if SUBEXPth pair didn't match, or there were less than
2654 SUBEXP pairs.
2657 {
2659 }
2663 SUBEXP, a number, specifies which parenthesized expression in the last
2664 regexp.
2665 Value is nil if SUBEXPth pair didn't match, or there were less than
2666 SUBEXP pairs.
2669 {
2671 }
2675 Element 2N is `(match-beginning N)'; element 2N + 1 is `(match-end N)'.
2676 All the elements are markers or nil (nil if the Nth pair didn't match)
2677 if the last match was on a buffer; integers or nil if a string was matched.
2678 Use `set-match-data' to reinstate the data in this list.
2680 If INTEGERS (the optional first argument) is non-nil, always use
2681 integers \(rather than markers) to represent buffer positions. In
2682 this case, and if the last match was in a buffer, the buffer will get
2683 stored as one additional element at the end of the list.
2685 If REUSE is a list, reuse it as part of the value. If REUSE is long
2686 enough to hold all the values, and if INTEGERS is non-nil, no consing
2687 is done.
2689 If optional third arg RESEAT is non-nil, any previous markers on the
2690 REUSE list will be modified to point to nowhere.
2694 {
2702 {
2705 }
2716 {
2719 {
2722 {
2725 }
2727 {
2731 last_thing_searched);
2735 last_thing_searched);
2736 }
2737 else
2738 /* last_thing_searched must always be Qt, a buffer, or Qnil. */
2742 }
2743 else
2745 }
2748 {
2750 len++;
2751 }
2753 /* If REUSE is not usable, cons up the values and return them. */
2757 /* If REUSE is a list, store as many value elements as will fit
2758 into the elements of REUSE. */
2761 {
2764 else
2767 }
2769 /* If we couldn't fit all value elements into REUSE,
2770 cons up the rest of them and add them to the end of REUSE. */
2775 }
2777 /* We used to have an internal use variant of `reseat' described as:
2779 If RESEAT is `evaporate', put the markers back on the free list
2780 immediately. No other references to the markers must exist in this
2781 case, so it is used only internally on the unwind stack and
2782 save-match-data from Lisp.
2784 But it was ill-conceived: those supposedly-internal markers get exposed via
2785 the undo-list, so freeing them here is unsafe. */
2789 LIST should have been created by calling `match-data' previously.
2793 {
2802 /* Unless we find a marker with a buffer or an explicit buffer
2803 in LIST, assume that this match data came from a string. */
2806 /* Allocate registers if they don't already exist. */
2807 {
2811 {
2825 }
2828 {
2831 {
2834 }
2838 {
2841 }
2842 else
2843 {
2844 Lisp_Object from;
2845 Lisp_Object m;
2849 {
2852 else
2854 }
2860 {
2863 }
2880 {
2883 }
2884 else
2885 {
2887 }
2890 {
2893 }
2894 }
2896 }
2900 }
2903 }
2905 /* If true the match data have been saved in saved_search_regs
2906 during the execution of a sentinel or filter. */
2911 /* Called from Flooking_at, Fstring_match, search_buffer, Fstore_match_data
2912 if asynchronous code (filter or sentinel) is running. */
2913 static void
2915 {
2917 {
2928 }
2929 }
2931 /* Called upon exit from filters and sentinels. */
2932 void
2934 {
2936 {
2938 {
2941 }
2948 }
2949 }
2951 static void
2953 {
2954 /* It is NOT ALWAYS safe to free (evaporate) the markers immediately. */
2956 }
2958 /* Called to unwind protect the match data. */
2959 void
2961 {
2964 }
2966 /* Quote a string to deactivate reg-expr chars */
2971 {
2980 /* Now copy the data into the new string, inserting escapes. */
2987 {
2994 }
3000 }
3001 \f
3002 void
3004 {
3008 {
3019 }
3043 Some commands use this for user-specified regexps.
3044 Spaces that occur inside character classes or repetition operators
3045 or other such regexp constructs are not replaced with this.
3051 If non-nil, the primitive searching and matching functions
3052 such as `looking-at', `string-match', `re-search-forward', etc.,
3053 do not set the match data. The proper way to use this variable
3073 }