1 /* Declarations having to do with XEmacs syntax tables.
2 Copyright (C) 1985, 1992, 1993 Free Software Foundation, Inc.
3 Copyright (C) 2001,2003,2004 MORIOKA Tomohiko
5 This file is part of XEmacs.
7 XEmacs is free software; you can redistribute it and/or modify it
8 under the terms of the GNU General Public License as published by the
9 Free Software Foundation; either version 2, or (at your option) any
12 XEmacs is distributed in the hope that it will be useful, but WITHOUT
13 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
14 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
17 You should have received a copy of the GNU General Public License
18 along with XEmacs; see the file COPYING. If not, write to
19 the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
20 Boston, MA 02111-1307, USA. */
22 /* Synched up with: FSF 19.28. */
24 #ifndef INCLUDED_syntax_h_
25 #define INCLUDED_syntax_h_
29 /* A syntax table is a type of char table.
31 The low 7 bits of the integer is a code, as follows. The 8th bit is
32 used as the prefix bit flag (see below).
34 The values in a syntax table are either integers or conses of
35 integers and chars. The lowest 7 bits of the integer are the syntax
36 class. If this is Sinherit, then the actual syntax value needs to
37 be retrieved from the standard syntax table.
39 Since the logic involved in finding the actual integer isn't very
40 complex, you'd think the time required to retrieve it is not a
41 factor. If you thought that, however, you'd be wrong, due to the
42 high number of times (many per character) that the syntax value is
43 accessed in functions such as scan_lists(). To speed this up,
44 we maintain a mirror syntax table that contains the actual
45 integers. We can do this successfully because syntax tables are
46 now an abstract type, where we control all access.
49 /* The standard syntax table is stored where it will automatically
50 be used in all new buffers. */
51 extern Lisp_Object Vstandard_syntax_table;
55 Swhitespace, /* whitespace character */
56 Spunct, /* random punctuation character */
57 Sword, /* word constituent */
58 Ssymbol, /* symbol constituent but not word constituent */
59 Sopen, /* a beginning delimiter */
60 Sclose, /* an ending delimiter */
61 Squote, /* a prefix character like Lisp ' */
62 Sstring, /* a string-grouping character like Lisp " */
63 Smath, /* delimiters like $ in TeX. */
64 Sescape, /* a character that begins a C-style escape */
65 Scharquote, /* a character that quotes the following character */
66 Scomment, /* a comment-starting character */
67 Sendcomment, /* a comment-ending character */
68 Sinherit, /* use the standard syntax table for this character */
69 Scomment_fence, /* Starts/ends comment which is delimited on the
70 other side by a char with the same syntaxcode. */
71 Sstring_fence, /* Starts/ends string which is delimited on the
72 other side by a char with the same syntaxcode. */
73 Smax /* Upper bound on codes that are meaningful */
76 enum syntaxcode charset_syntax (struct buffer *buf, Lisp_Object charset,
79 /* Return the syntax code for a particular character and mirror table. */
82 INLINE_HEADER enum syntaxcode
83 SYNTAX_CODE_UNSAFE (Lisp_Char_Table *table, Emchar c);
84 INLINE_HEADER enum syntaxcode
85 SYNTAX_CODE_UNSAFE (Lisp_Char_Table *table, Emchar c)
87 Lisp_Object code = CHAR_TABLE_VALUE_UNSAFE (table, c);
88 enum syntaxcode ret = Spunct;
96 code = CHAR_TABLE_VALUE_UNSAFE (XCHAR_TABLE
97 (Vstandard_syntax_table), c);
106 #define SYNTAX_CODE_UNSAFE(table, c) \
107 ((enum syntaxcode) XINT (CHAR_TABLE_VALUE_UNSAFE (table, c)))
110 INLINE_HEADER enum syntaxcode SYNTAX_CODE (Lisp_Char_Table *table, Emchar c);
111 INLINE_HEADER enum syntaxcode
112 SYNTAX_CODE (Lisp_Char_Table *table, Emchar c)
114 return SYNTAX_CODE_UNSAFE (table, c);
117 #define SYNTAX_UNSAFE(table, c) \
118 ((enum syntaxcode) (SYNTAX_CODE_UNSAFE (table, c) & 0177))
120 #define SYNTAX_FROM_CODE(code) ((enum syntaxcode) ((code) & 0177))
121 #define SYNTAX(table, c) SYNTAX_FROM_CODE (SYNTAX_CODE (table, c))
123 INLINE_HEADER int WORD_SYNTAX_P (Lisp_Char_Table *table, Emchar c);
125 WORD_SYNTAX_P (Lisp_Char_Table *table, Emchar c)
127 return SYNTAX (table, c) == Sword;
130 /* OK, here's a graphic diagram of the format of the syntax values:
134 [ 3 3 2 2 2 2 2 2 2 2 2 2 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 ]
135 [ 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 ]
137 <-----> <-----> <-------------> <-------------> ^ <----------->
138 ELisp unused |comment bits | unused | syntax code
139 tag | | | | | | | | |
140 stuff | | | | | | | | |
142 | | | | | | | | `--> prefix flag
144 | | | | | | | `--> comment end style B, second char
145 | | | | | | `----> comment end style A, second char
146 | | | | | `------> comment end style B, first char
147 | | | | `--------> comment end style A, first char
148 | | | `----------> comment start style B, second char
149 | | `------------> comment start style A, second char
150 | `--------------> comment start style B, first char
151 `----------------> comment start style A, first char
153 In a 64-bit integer, there would be 32 more unused bits between
154 the tag and the comment bits.
156 Clearly, such a scheme will not work for Mule, because the matching
157 paren could be any character and as such requires 19 bits, which
160 Remember that under Mule we use char tables instead of vectors.
161 So what we do is use another char table for the matching paren
162 and store a pointer to it in the first char table. (This frees
163 code from having to worry about passing two tables around.)
167 /* The prefix flag bit for backward-prefix-chars is now put into bit 7. */
169 #define SYNTAX_PREFIX_UNSAFE(table, c) \
170 ((SYNTAX_CODE_UNSAFE (table, c) >> 7) & 1)
171 #define SYNTAX_PREFIX(table, c) \
172 ((SYNTAX_CODE (table, c) >> 7) & 1)
174 /* Bits 23-16 are used to implement up to two comment styles
175 in a single buffer. They have the following meanings:
177 1. first of a one or two character comment-start sequence of style a.
178 2. first of a one or two character comment-start sequence of style b.
179 3. second of a two-character comment-start sequence of style a.
180 4. second of a two-character comment-start sequence of style b.
181 5. first of a one or two character comment-end sequence of style a.
182 6. first of a one or two character comment-end sequence of style b.
183 7. second of a two-character comment-end sequence of style a.
184 8. second of a two-character comment-end sequence of style b.
186 From the internals manual:
188 Syntax codes are implemented as bitfields in an int. Bits 0-6 contain
189 the syntax code itself, bit 7 is a special prefix flag used for Lisp,
190 and bits 16-23 contain comment syntax flags. From the Lisp programmer's
191 point of view, there are 11 flags: 2 styles X 2 characters X @{start,
192 end@} flags for two-character comment delimiters, 2 style flags for
193 one-character comment delimiters, and the prefix flag.
195 Internally, however, the characters used in multi-character delimiters
196 will have non-comment-character syntax classes (@emph{e.g.}, the
197 @samp{/} in C's @samp{/}@samp{*} comment-start delimiter has ``punctuation''
198 \(here meaning ``operator-like'') class in C modes). Thus in a mixed
199 comment style, such as C++'s @samp{//} to end of line, is represented by
200 giving @samp{/} the ``punctuation'' class and the ``style b first
201 character of start sequence'' and ``style b second character of start
202 sequence'' flags. The fact that class is @emph{not} punctuation allows
203 the syntax scanner to recognize that this is a multi-character
204 delimiter. The @samp{newline} character is given (single-character)
205 ``comment-end'' @emph{class} and the ``style b first character of end
206 sequence'' @emph{flag}. The ``comment-end'' class allows the scanner to
207 determine that no second character is needed to terminate the comment.
210 #define SYNTAX_COMMENT_BITS(c) \
211 ((SYNTAX_CODE (mirrortab, c) >> 16) &0xff)
213 #define SYNTAX_FIRST_OF_START_A 0x80
214 #define SYNTAX_FIRST_OF_START_B 0x40
215 #define SYNTAX_SECOND_OF_START_A 0x20
216 #define SYNTAX_SECOND_OF_START_B 0x10
217 #define SYNTAX_FIRST_OF_END_A 0x08
218 #define SYNTAX_FIRST_OF_END_B 0x04
219 #define SYNTAX_SECOND_OF_END_A 0x02
220 #define SYNTAX_SECOND_OF_END_B 0x01
222 #define SYNTAX_COMMENT_STYLE_A 0xaa
223 #define SYNTAX_COMMENT_STYLE_B 0x55
224 #define SYNTAX_FIRST_CHAR_START 0xc0
225 #define SYNTAX_FIRST_CHAR_END 0x0c
226 #define SYNTAX_FIRST_CHAR 0xcc
227 #define SYNTAX_SECOND_CHAR_START 0x30
228 #define SYNTAX_SECOND_CHAR_END 0x03
229 #define SYNTAX_SECOND_CHAR 0x33
232 /* #### These are now more or less equivalent to
233 SYNTAX_COMMENT_MATCH_START ...*/
234 /* a and b must be first and second start chars for a common type */
235 #define SYNTAX_START_P(a, b) \
236 (((SYNTAX_COMMENT_BITS (a) & SYNTAX_FIRST_CHAR_START) >> 2) \
237 & (SYNTAX_COMMENT_BITS (b) & SYNTAX_SECOND_CHAR_START))
239 /* ... and SYNTAX_COMMENT_MATCH_END */
240 /* a and b must be first and second end chars for a common type */
241 #define SYNTAX_END_P(a, b) \
242 (((SYNTAX_COMMENT_BITS (a) & SYNTAX_FIRST_CHAR_END) >> 2) \
243 & (SYNTAX_COMMENT_BITS (b) & SYNTAX_SECOND_CHAR_END))
245 #define SYNTAX_STYLES_MATCH_START_P(a, b, mask) \
246 ((SYNTAX_COMMENT_BITS (a) & SYNTAX_FIRST_CHAR_START & (mask)) \
247 && (SYNTAX_COMMENT_BITS (b) & SYNTAX_SECOND_CHAR_START & (mask)))
249 #define SYNTAX_STYLES_MATCH_END_P(a, b, mask) \
250 ((SYNTAX_COMMENT_BITS (a) & SYNTAX_FIRST_CHAR_END & (mask)) \
251 && (SYNTAX_COMMENT_BITS (b) & SYNTAX_SECOND_CHAR_END & (mask)))
253 #define SYNTAX_STYLES_MATCH_1CHAR_P(a, mask) \
254 ((SYNTAX_COMMENT_BITS (a) & (mask)))
256 #define STYLE_FOUND_P(a, b, startp, style) \
257 ((SYNTAX_COMMENT_BITS (a) & \
258 ((startp) ? SYNTAX_FIRST_CHAR_START : \
259 SYNTAX_FIRST_CHAR_END) & (style)) \
260 && (SYNTAX_COMMENT_BITS (b) & \
261 ((startp) ? SYNTAX_SECOND_CHAR_START : \
262 SYNTAX_SECOND_CHAR_END) & (style)))
264 #define SYNTAX_COMMENT_MASK_START(a, b) \
265 ((STYLE_FOUND_P (a, b, 1, SYNTAX_COMMENT_STYLE_A) \
266 ? SYNTAX_COMMENT_STYLE_A \
267 : (STYLE_FOUND_P (a, b, 1, SYNTAX_COMMENT_STYLE_B) \
268 ? SYNTAX_COMMENT_STYLE_B \
271 #define SYNTAX_COMMENT_MASK_END(a, b) \
272 ((STYLE_FOUND_P (a, b, 0, SYNTAX_COMMENT_STYLE_A) \
273 ? SYNTAX_COMMENT_STYLE_A \
274 : (STYLE_FOUND_P (a, b, 0, SYNTAX_COMMENT_STYLE_B) \
275 ? SYNTAX_COMMENT_STYLE_B \
278 #define STYLE_FOUND_1CHAR_P(a, style) \
279 ((SYNTAX_COMMENT_BITS (a) & (style)))
281 #define SYNTAX_COMMENT_1CHAR_MASK(a) \
282 ((STYLE_FOUND_1CHAR_P (a, SYNTAX_COMMENT_STYLE_A) \
283 ? SYNTAX_COMMENT_STYLE_A \
284 : (STYLE_FOUND_1CHAR_P (a, SYNTAX_COMMENT_STYLE_B) \
285 ? SYNTAX_COMMENT_STYLE_B \
288 EXFUN (Fchar_syntax, 2);
289 EXFUN (Fforward_word, 2);
291 /* This array, indexed by a character, contains the syntax code which
292 that character signifies (as a char).
293 For example, (enum syntaxcode) syntax_spec_code['w'] is Sword. */
295 extern const unsigned char syntax_spec_code[0400];
297 /* Indexed by syntax code, give the letter that describes it. */
299 extern const unsigned char syntax_code_spec[];
301 Lisp_Object scan_lists (struct buffer *buf, Bufpos from, int count,
302 int depth, int sexpflag, int no_error);
303 int char_quoted (struct buffer *buf, Bufpos pos);
305 /* NOTE: This does not refer to the mirror table, but to the
306 syntax table itself. */
307 Lisp_Object syntax_match (Lisp_Object table, Emchar ch);
309 extern int no_quit_in_re_search;
310 extern struct buffer *regex_emacs_buffer;
312 /* Target text (string or buffer), used for syntax-table properties. */
313 extern Lisp_Object regex_match_object;
316 void update_syntax_table (Lisp_Char_Table *ct);
319 /* The syntax table cache */
322 The *-single-property-change versions turn out to be unbearably slow.
323 Do not enable them in a production or distribution version.
325 #define NEXT_SINGLE_PROPERTY_CHANGE 0
326 #define PREVIOUS_SINGLE_PROPERTY_CHANGE 0
328 /* Test instruments, used in macros below.
329 Define SYNTAX_CACHE_STATISTICS to enable them. */
330 /* #undef SYNTAX_CACHE_STATISTICS */
332 #ifdef SYNTAX_CACHE_STATISTICS
333 #define SYNTAX_CACHE_STATISTICS_REPORT_INTERVAL 100000
335 enum syntax_cache_statistics_functions {
336 scs_no_function = -1,
337 scs_find_context = 0,
338 scs_find_defun_start,
340 scs_Fforward_comment,
342 scs_Fbackward_prefix_characters,
343 scs_scan_sexps_forward,
344 scs_number_of_functions
347 /* keep this in synch with syntax.c */
348 extern char* syntax_cache_statistics_function_names[scs_number_of_functions];
350 struct syntax_cache_statistics {
351 /* inits + misses_hi + misses_lo + #HITS = total_updates */
359 double mean_length_on_miss;
360 enum syntax_cache_statistics_functions this_function;
361 int functions[scs_number_of_functions];
364 extern struct syntax_cache_statistics scs_statistics;
366 #define SCS_STATISTICS_SET_FUNCTION(fndx) scs_statistics.this_function = fndx
367 /* used in macros below */
368 #define SYNTAX_CACHE_STATISTICS_COUNT_INIT scs_statistics.inits++
372 #define SCS_STATISTICS_SET_FUNCTION(fndx)
373 #define SYNTAX_CACHE_STATISTICS_COUNT_INIT
375 #endif /* SYNTAX_CACHE_STATISTICS */
377 /* Theory of the syntax table cache
379 This cache cooperates with but is conceptually different from the
380 mirror table. The mirror table precomputes (and caches, if you like)
381 the syntax codes for characters in a given syntax table, taking into
382 account possible inheritance from a table given by a parent text object.
383 The syntax table cache checks for overriding tables defined by
386 This implementation defines the "subobjects" by _extent properties_.
387 We may restrict them to _text_ properties. There are two lookup
388 styles for the cache, "single code" and "full table". In the "single
389 code" style, a given syntax code, kept in the `syntax_code' member, is
390 applied to the entire range (#### check this). In the "full table"
391 style, a syntax table kept in the `current_syntax_table' member is
392 checked for each character in the range. If the flag `use_code' is
393 non-zero, the "single code" is used, otherwise the "full table".
395 The cache is valid for the range `[prev_change, next_change)' in the
396 text object (buffer or string) `object'.
398 If the current position is outside the range valid for the cache, the
399 cache is updated by checking for the text property `syntax-table'. If
400 present, its value is either a syntax code or a syntax table, and the
401 appropriate member and `use_code' are updated accordingly. If absent
402 or nil, the default syntax table from the `buffer' member is used. The
403 extent of the property is used to reinitialize the cache's validity
404 range. (We would like to improve this by checking the property value
405 against `old_prop', and if the same, extend the validity range of the
406 cache by the extent of the property.)
408 Note: the values Qt and Qnil for `object' are not supported in this
409 implementation. GNU Emacs uses them for reasons not yet (####) clear.
412 extern int lookup_syntax_properties;
416 int use_code; /* Whether to use syntax_code
417 or current_syntax_table. */
418 struct buffer* buffer; /* The buffer providing the default
419 syntax table to the cache. */
420 Lisp_Object object; /* The buffer or string the current
421 syntax cache applies to. */
422 enum syntaxcode syntax_code; /* Syntax code of current char. */
423 Lisp_Object current_syntax_table; /* Syntax table for current pos. */
424 Lisp_Object old_prop; /* Syntax-table prop at prev pos. */
426 Bufpos next_change; /* Position of the next extent
428 Bufpos prev_change; /* Position of the previous
431 extern struct syntax_cache syntax_cache;
434 The macros below handle the internal structure of the cache.
435 ALWAYS USE THE MACROS TO MANIPULATE THE CACHE.
437 o Use the SETUP_SYNTAX_CACHE* macros to set the object and buffer members.
439 OBJECT is either a Lisp buffer or a Lisp string. BUFFER is a
440 pointer to struct buffer. If OBJECT is a buffer, it must refer to
441 BUFFER. If OBJECT is a string, then BUFFER will supply the default
442 syntax table when the `syntax-table' property is nil.
444 For convenience and backward compatibility, the values Qt and Qnil are
445 accepted for OBJECT. These are taken to refer to the current buffer,
446 and that substitution is made immediately. The value Qt is treated
447 specially in the *BYTE_TO_CHAR macros below. This appears (####) to
448 be a GNU kludge related to `enable-multibyte-characters' and was used
451 FROM is the starting character position in OBJECT.
452 COUNT is currently used only as a flag. If positive, we are proceeding
453 forward through OBJECT, otherwise in reverse.
455 o All other members are updated using the update_syntax_cache
456 function, normally wrapped in the UPDATE_SYNTAX_CACHE* macros.
459 void update_syntax_cache (int pos, int count);
461 /* in one example the high misses vastly outweigh the low ones
462 seems plausible, since we typically are moving forward through the buffer */
463 #define UPDATE_SYNTAX_CACHE_INTERNAL(pos, dir) \
464 ((lookup_syntax_properties && \
465 (pos >= syntax_cache.next_change || \
466 pos < syntax_cache.prev_change)) \
467 ? (update_syntax_cache ((pos), dir), 1) \
470 /* In the current implementation, all of the following are identical. */
471 /* Make syntax cache state good for CHARPOS, assuming it is
472 currently good for a position before CHARPOS. */
473 #define UPDATE_SYNTAX_CACHE_FORWARD(pos) UPDATE_SYNTAX_CACHE_INTERNAL(pos, 1)
475 /* Make syntax cache state good for CHARPOS, assuming it is
476 currently good for a position after CHARPOS. */
477 #define UPDATE_SYNTAX_CACHE_BACKWARD(pos) UPDATE_SYNTAX_CACHE_INTERNAL(pos, -1)
479 /* Make syntax cache state good for CHARPOS */
480 #define UPDATE_SYNTAX_CACHE(pos) UPDATE_SYNTAX_CACHE_INTERNAL(pos, 0)
482 #define SYNTAX_FROM_CACHE(table, c) \
483 SYNTAX_FROM_CODE (SYNTAX_CODE_FROM_CACHE (table, c))
485 #define SYNTAX_CODE_FROM_CACHE(table, c) \
486 ( syntax_cache.use_code \
487 ? syntax_cache.syntax_code \
488 : SYNTAX_CODE (XCHAR_TABLE (syntax_cache.current_syntax_table), \
492 /* Convert the byte offset BYTEPOS into a character position,
493 for the object recorded in syntax_cache with SETUP_SYNTAX_CACHE*.
495 The value is meant for use in the UPDATE_SYNTAX_CACHE... macros.
496 These macros do nothing when lookup_syntax_properties is 0,
497 so we return 0 in that case, for speed.
499 The default case does no conversion; this seems (####) to be an
500 evil hangover from GNU Emacs. */
501 #define SYNTAX_CACHE_OBJECT_BYTE_TO_CHAR(obj, buf, bytepos) \
502 (! lookup_syntax_properties \
505 ? bytecount_to_charcount (XSTRING_DATA (obj), bytepos) \
506 : (BUFFERP (obj) || NILP (obj)) \
507 ? bytind_to_bufpos (buf, bytepos + BI_BUF_BEGV (buf)) \
510 #define SYNTAX_CACHE_BYTE_TO_CHAR(bytepos) \
511 SYNTAX_CACHE_OBJECT_BYTE_TO_CHAR (syntax_cache.object, syntax_cache.buffer, \
514 #define SETUP_SYNTAX_CACHE(FROM, COUNT) \
515 SETUP_SYNTAX_CACHE_FOR_BUFFER (current_buffer, (FROM), (COUNT))
517 #define SETUP_SYNTAX_CACHE_FOR_BUFFER(BUFFER, FROM, COUNT) \
518 SETUP_SYNTAX_CACHE_FOR_OBJECT (Qnil, (BUFFER), (FROM), (COUNT))
521 #define SETUP_SYNTAX_CACHE_FOR_OBJECT(OBJECT, BUFFER, FROM, COUNT) \
523 syntax_cache.buffer = (BUFFER); \
524 syntax_cache.object = (OBJECT); \
525 if (NILP (syntax_cache.object)) \
527 XSETBUFFER (syntax_cache.object, syntax_cache.buffer); \
529 else if (EQ (syntax_cache.object, Qt)) \
531 XSETBUFFER (syntax_cache.object, syntax_cache.buffer); \
533 else if (STRINGP (syntax_cache.object)) \
537 else if (BUFFERP (syntax_cache.object)) \
539 syntax_cache.buffer = XBUFFER (syntax_cache.object); \
543 /* OBJECT must be buffer/string/t/nil */ \
546 syntax_cache.current_syntax_table \
547 = syntax_cache.buffer->syntax_table; \
548 syntax_cache.use_code = 0; \
549 if (lookup_syntax_properties) \
551 SYNTAX_CACHE_STATISTICS_COUNT_INIT; \
552 update_syntax_cache ((FROM) + ((COUNT) > 0 ? 0 : -1), (COUNT)); \
556 #define SETUP_SYNTAX_CACHE_FOR_OBJECT(OBJECT, BUFFER, FROM, COUNT) \
558 syntax_cache.buffer = (BUFFER); \
559 syntax_cache.object = (OBJECT); \
560 if (NILP (syntax_cache.object)) \
562 XSETBUFFER (syntax_cache.object, syntax_cache.buffer); \
564 else if (EQ (syntax_cache.object, Qt)) \
566 XSETBUFFER (syntax_cache.object, syntax_cache.buffer); \
568 else if (STRINGP (syntax_cache.object)) \
572 else if (BUFFERP (syntax_cache.object)) \
574 syntax_cache.buffer = XBUFFER (syntax_cache.object); \
578 /* OBJECT must be buffer/string/t/nil */ \
581 syntax_cache.current_syntax_table \
582 = syntax_cache.buffer->mirror_syntax_table; \
583 syntax_cache.use_code = 0; \
584 if (lookup_syntax_properties) \
586 SYNTAX_CACHE_STATISTICS_COUNT_INIT; \
587 update_syntax_cache ((FROM) + ((COUNT) > 0 ? 0 : -1), (COUNT)); \
592 #define SYNTAX_CODE_PREFIX(c) \
595 #define SYNTAX_CODE_COMMENT_BITS(c) \
598 #define SYNTAX_CODES_START_P(a, b) \
599 (((SYNTAX_CODE_COMMENT_BITS (a) & SYNTAX_FIRST_CHAR_START) >> 2) \
600 & (SYNTAX_CODE_COMMENT_BITS (b) & SYNTAX_SECOND_CHAR_START))
602 #define SYNTAX_CODES_END_P(a, b) \
603 (((SYNTAX_CODE_COMMENT_BITS (a) & SYNTAX_FIRST_CHAR_END) >> 2) \
604 & (SYNTAX_CODE_COMMENT_BITS (b) & SYNTAX_SECOND_CHAR_END))
606 #define SYNTAX_CODES_COMMENT_MASK_START(a, b) \
607 (SYNTAX_CODES_MATCH_START_P (a, b, SYNTAX_COMMENT_STYLE_A) \
608 ? SYNTAX_COMMENT_STYLE_A \
609 : (SYNTAX_CODES_MATCH_START_P (a, b, SYNTAX_COMMENT_STYLE_B) \
610 ? SYNTAX_COMMENT_STYLE_B \
612 #define SYNTAX_CODES_COMMENT_MASK_END(a, b) \
613 (SYNTAX_CODES_MATCH_END_P (a, b, SYNTAX_COMMENT_STYLE_A) \
614 ? SYNTAX_COMMENT_STYLE_A \
615 : (SYNTAX_CODES_MATCH_END_P (a, b, SYNTAX_COMMENT_STYLE_B) \
616 ? SYNTAX_COMMENT_STYLE_B \
619 #define SYNTAX_CODE_START_FIRST_P(a) \
620 (SYNTAX_CODE_COMMENT_BITS (a) & SYNTAX_FIRST_CHAR_START)
622 #define SYNTAX_CODE_START_SECOND_P(a) \
623 (SYNTAX_CODE_COMMENT_BITS (a) & SYNTAX_SECOND_CHAR_START)
625 #define SYNTAX_CODE_END_FIRST_P(a) \
626 (SYNTAX_CODE_COMMENT_BITS (a) & SYNTAX_FIRST_CHAR_END)
628 #define SYNTAX_CODE_END_SECOND_P(a) \
629 (SYNTAX_CODE_COMMENT_BITS (a) & SYNTAX_SECOND_CHAR_END)
632 #define SYNTAX_CODES_MATCH_START_P(a, b, mask) \
633 ((SYNTAX_CODE_COMMENT_BITS (a) & SYNTAX_FIRST_CHAR_START & (mask)) \
634 && (SYNTAX_CODE_COMMENT_BITS (b) & SYNTAX_SECOND_CHAR_START & (mask)))
636 #define SYNTAX_CODES_MATCH_END_P(a, b, mask) \
637 ((SYNTAX_CODE_COMMENT_BITS (a) & SYNTAX_FIRST_CHAR_END & (mask)) \
638 && (SYNTAX_CODE_COMMENT_BITS (b) & SYNTAX_SECOND_CHAR_END & (mask)))
640 #define SYNTAX_CODE_MATCHES_1CHAR_P(a, mask) \
641 ((SYNTAX_CODE_COMMENT_BITS (a) & (mask)))
643 #define SYNTAX_CODE_COMMENT_1CHAR_MASK(a) \
644 ((SYNTAX_CODE_MATCHES_1CHAR_P (a, SYNTAX_COMMENT_STYLE_A) \
645 ? SYNTAX_COMMENT_STYLE_A \
646 : (SYNTAX_CODE_MATCHES_1CHAR_P (a, SYNTAX_COMMENT_STYLE_B) \
647 ? SYNTAX_COMMENT_STYLE_B \
651 /* These are the things that need to be #defined away to create a
652 no syntax-table property version. */
654 /* This should be entirely encapsulated in macros
655 #define update_syntax_cache(pos, count)
657 #define lookup_syntax_properties 0
659 #define SETUP_SYNTAX_CACHE(FROM, COUNT)
660 #define SETUP_SYNTAX_CACHE_FOR_BUFFER(BUFFER, FROM, COUNT)
661 #define SETUP_SYNTAX_CACHE_FOR_OBJECT(OBJECT, BUFFER, FROM, COUNT)
662 #define UPDATE_SYNTAX_CACHE_FORWARD(pos)
663 #define UPDATE_SYNTAX_CACHE_BACKWARD(pos)
664 #define UPDATE_SYNTAX_CACHE(pos)
666 #define SYNTAX_FROM_CACHE SYNTAX
667 #define SYNTAX_CODE_FROM_CACHE SYNTAX_CODE
669 #define SYNTAX_CACHE_BYTE_TO_CHAR(x) 0
671 /* cache statistics */
672 #define SCS_STATISTICS_SET_FUNCTION(fndx)
673 #define SYNTAX_CACHE_STATISTICS_COUNT_INIT
676 #endif /* INCLUDED_syntax_h_ */