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c0a7edde RN |
1 | /* |
2 | * re_*comp and friends - compile REs | |
3 | * This file #includes several others (see the bottom). | |
4 | * | |
5 | * Copyright (c) 1998, 1999 Henry Spencer. All rights reserved. | |
6 | * | |
7 | * Development of this software was funded, in part, by Cray Research Inc., | |
8 | * UUNET Communications Services Inc., Sun Microsystems Inc., and Scriptics | |
9 | * Corporation, none of whom are responsible for the results. The author | |
10 | * thanks all of them. | |
11 | * | |
12 | * Redistribution and use in source and binary forms -- with or without | |
13 | * modification -- are permitted for any purpose, provided that | |
14 | * redistributions in source form retain this entire copyright notice and | |
15 | * indicate the origin and nature of any modifications. | |
16 | * | |
17 | * I'd appreciate being given credit for this package in the documentation | |
18 | * of software which uses it, but that is not a requirement. | |
19 | * | |
20 | * THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, | |
21 | * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY | |
22 | * AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL | |
23 | * HENRY SPENCER BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, | |
24 | * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, | |
25 | * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; | |
26 | * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, | |
27 | * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR | |
28 | * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF | |
29 | * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. | |
30 | * | |
31 | * $Header: /projects/cvsroot/pgsql-server/src/backend/regex/regcomp.c,v 1.38 2003/08/08 21:41:56 momjian Exp $ | |
32 | * | |
33 | */ | |
5a419892 | 34 | |
c0a7edde | 35 | #include "regguts.h" |
5a419892 VZ |
36 | |
37 | /* | |
c0a7edde | 38 | * forward declarations, up here so forward datatypes etc. are defined early |
5a419892 | 39 | */ |
c0a7edde RN |
40 | /* === regcomp.c === */ |
41 | static void moresubs(struct vars *, int); | |
42 | static int freev(struct vars *, int); | |
43 | static void makesearch(struct vars *, struct nfa *); | |
44 | static struct subre *parse(struct vars *, int, int, struct state *, struct state *); | |
45 | static struct subre *parsebranch(struct vars *, int, int, struct state *, struct state *, int); | |
46 | static void parseqatom(struct vars *, int, int, struct state *, struct state *, struct subre *); | |
47 | static void nonword(struct vars *, int, struct state *, struct state *); | |
48 | static void word(struct vars *, int, struct state *, struct state *); | |
49 | static int scannum(struct vars *); | |
50 | static void repeat(struct vars *, struct state *, struct state *, int, int); | |
51 | static void bracket(struct vars *, struct state *, struct state *); | |
52 | static void cbracket(struct vars *, struct state *, struct state *); | |
53 | static void brackpart(struct vars *, struct state *, struct state *); | |
54 | static chr *scanplain(struct vars *); | |
55 | static void leaders(struct vars *, struct cvec *); | |
56 | static void onechr(struct vars *, chr, struct state *, struct state *); | |
57 | static void dovec(struct vars *, struct cvec *, struct state *, struct state *); | |
58 | static celt nextleader(struct vars *, chr, chr); | |
59 | static void wordchrs(struct vars *); | |
60 | static struct subre *subre(struct vars *, int, int, struct state *, struct state *); | |
61 | static void freesubre(struct vars *, struct subre *); | |
62 | static void freesrnode(struct vars *, struct subre *); | |
63 | static void optst(struct vars *, struct subre *); | |
64 | static int numst(struct subre *, int); | |
65 | static void markst(struct subre *); | |
66 | static void cleanst(struct vars *); | |
67 | static long nfatree(struct vars *, struct subre *, FILE *); | |
68 | static long nfanode(struct vars *, struct subre *, FILE *); | |
69 | static int newlacon(struct vars *, struct state *, struct state *, int); | |
70 | static void freelacons(struct subre *, int); | |
71 | static void rfree(regex_t *); | |
72 | ||
73 | #ifdef REG_DEBUG | |
74 | static void dump(regex_t *, FILE *); | |
75 | static void dumpst(struct subre *, FILE *, int); | |
76 | static void stdump(struct subre *, FILE *, int); | |
77 | static char *stid(struct subre *, char *, size_t); | |
78 | #endif | |
79 | /* === regc_lex.c === */ | |
80 | static void lexstart(struct vars *); | |
81 | static void prefixes(struct vars *); | |
82 | static void lexnest(struct vars *, chr *, chr *); | |
83 | static void lexword(struct vars *); | |
84 | static int next(struct vars *); | |
85 | static int lexescape(struct vars *); | |
86 | static chr lexdigits(struct vars *, int, int, int); | |
87 | static int brenext(struct vars *, chr); | |
88 | static void skip(struct vars *); | |
89 | static chr newline(void); | |
90 | static chr chrnamed(struct vars *, chr *, chr *, chr); | |
91 | ||
92 | /* === regc_color.c === */ | |
93 | static void initcm(struct vars *, struct colormap *); | |
94 | static void freecm(struct colormap *); | |
95 | static void cmtreefree(struct colormap *, union tree *, int); | |
96 | static color setcolor(struct colormap *, chr, pcolor); | |
97 | static color maxcolor(struct colormap *); | |
98 | static color newcolor(struct colormap *); | |
99 | static void freecolor(struct colormap *, pcolor); | |
100 | static color pseudocolor(struct colormap *); | |
101 | static color subcolor(struct colormap *, chr c); | |
102 | static color newsub(struct colormap *, pcolor); | |
103 | static void subrange(struct vars *, chr, chr, struct state *, struct state *); | |
104 | static void subblock(struct vars *, chr, struct state *, struct state *); | |
105 | static void okcolors(struct nfa *, struct colormap *); | |
106 | static void colorchain(struct colormap *, struct arc *); | |
107 | static void uncolorchain(struct colormap *, struct arc *); | |
108 | static int singleton(struct colormap *, chr c); | |
109 | static void rainbow(struct nfa *, struct colormap *, int, pcolor, struct state *, struct state *); | |
110 | static void colorcomplement(struct nfa *, struct colormap *, int, struct state *, struct state *, struct state *); | |
111 | ||
112 | #ifdef REG_DEBUG | |
113 | static void dumpcolors(struct colormap *, FILE *); | |
114 | static void fillcheck(struct colormap *, union tree *, int, FILE *); | |
115 | static void dumpchr(chr, FILE *); | |
116 | #endif | |
117 | /* === regc_nfa.c === */ | |
118 | static struct nfa *newnfa(struct vars *, struct colormap *, struct nfa *); | |
119 | static void freenfa(struct nfa *); | |
120 | static struct state *newstate(struct nfa *); | |
121 | static struct state *newfstate(struct nfa *, int flag); | |
122 | static void dropstate(struct nfa *, struct state *); | |
123 | static void freestate(struct nfa *, struct state *); | |
124 | static void destroystate(struct nfa *, struct state *); | |
125 | static void newarc(struct nfa *, int, pcolor, struct state *, struct state *); | |
126 | static struct arc *allocarc(struct nfa *, struct state *); | |
127 | static void freearc(struct nfa *, struct arc *); | |
128 | static struct arc *findarc(struct state *, int, pcolor); | |
129 | static void cparc(struct nfa *, struct arc *, struct state *, struct state *); | |
130 | static void moveins(struct nfa *, struct state *, struct state *); | |
131 | static void copyins(struct nfa *, struct state *, struct state *); | |
132 | static void moveouts(struct nfa *, struct state *, struct state *); | |
133 | static void copyouts(struct nfa *, struct state *, struct state *); | |
134 | static void cloneouts(struct nfa *, struct state *, struct state *, struct state *, int); | |
135 | static void delsub(struct nfa *, struct state *, struct state *); | |
136 | static void deltraverse(struct nfa *, struct state *, struct state *); | |
137 | static void dupnfa(struct nfa *, struct state *, struct state *, struct state *, struct state *); | |
138 | static void duptraverse(struct nfa *, struct state *, struct state *); | |
139 | static void cleartraverse(struct nfa *, struct state *); | |
140 | static void specialcolors(struct nfa *); | |
141 | static long optimize(struct nfa *, FILE *); | |
142 | static void pullback(struct nfa *, FILE *); | |
143 | static int pull(struct nfa *, struct arc *); | |
144 | static void pushfwd(struct nfa *, FILE *); | |
145 | static int push(struct nfa *, struct arc *); | |
146 | ||
147 | #define INCOMPATIBLE 1 /* destroys arc */ | |
148 | #define SATISFIED 2 /* constraint satisfied */ | |
149 | #define COMPATIBLE 3 /* compatible but not satisfied yet */ | |
150 | static int combine(struct arc *, struct arc *); | |
151 | static void fixempties(struct nfa *, FILE *); | |
152 | static int unempty(struct nfa *, struct arc *); | |
153 | static void cleanup(struct nfa *); | |
154 | static void markreachable(struct nfa *, struct state *, struct state *, struct state *); | |
155 | static void markcanreach(struct nfa *, struct state *, struct state *, struct state *); | |
156 | static long analyze(struct nfa *); | |
157 | static void compact(struct nfa *, struct cnfa *); | |
158 | static void carcsort(struct carc *, struct carc *); | |
159 | static void freecnfa(struct cnfa *); | |
160 | static void dumpnfa(struct nfa *, FILE *); | |
161 | ||
162 | #ifdef REG_DEBUG | |
163 | static void dumpstate(struct state *, FILE *); | |
164 | static void dumparcs(struct state *, FILE *); | |
165 | static int dumprarcs(struct arc *, struct state *, FILE *, int); | |
166 | static void dumparc(struct arc *, struct state *, FILE *); | |
167 | static void dumpcnfa(struct cnfa *, FILE *); | |
168 | static void dumpcstate(int, struct carc *, struct cnfa *, FILE *); | |
169 | #endif | |
170 | /* === regc_cvec.c === */ | |
171 | static struct cvec *newcvec(int, int, int); | |
172 | static struct cvec *clearcvec(struct cvec *); | |
173 | static void addchr(struct cvec *, chr); | |
174 | static void addrange(struct cvec *, chr, chr); | |
175 | static void addmcce(struct cvec *, chr *, chr *); | |
176 | static int haschr(struct cvec *, chr); | |
177 | static struct cvec *getcvec(struct vars *, int, int, int); | |
178 | static void freecvec(struct cvec *); | |
179 | ||
180 | /* === regc_locale.c === */ | |
0f314c30 RN |
181 | extern int wx_isdigit(wx_wchar c); |
182 | extern int wx_isalpha(wx_wchar c); | |
183 | extern int wx_isalnum(wx_wchar c); | |
184 | extern int wx_isupper(wx_wchar c); | |
185 | extern int wx_islower(wx_wchar c); | |
186 | extern int wx_isgraph(wx_wchar c); | |
187 | extern int wx_ispunct(wx_wchar c); | |
188 | extern int wx_isspace(wx_wchar c); | |
189 | extern wx_wchar wx_toupper(wx_wchar c); | |
190 | extern wx_wchar wx_tolower(wx_wchar c); | |
c0a7edde RN |
191 | static int nmcces(struct vars *); |
192 | static int nleaders(struct vars *); | |
193 | static struct cvec *allmcces(struct vars *, struct cvec *); | |
194 | static celt element(struct vars *, chr *, chr *); | |
195 | static struct cvec *range(struct vars *, celt, celt, int); | |
196 | static int before(celt, celt); | |
197 | static struct cvec *eclass(struct vars *, celt, int); | |
198 | static struct cvec *cclass(struct vars *, chr *, chr *, int); | |
199 | static struct cvec *allcases(struct vars *, chr); | |
200 | static int cmp(const chr *, const chr *, size_t); | |
201 | static int casecmp(const chr *, const chr *, size_t); | |
202 | ||
203 | ||
204 | /* internal variables, bundled for easy passing around */ | |
205 | struct vars | |
206 | { | |
207 | regex_t *re; | |
208 | chr *now; /* scan pointer into string */ | |
209 | chr *stop; /* end of string */ | |
210 | chr *savenow; /* saved now and stop for "subroutine | |
211 | * call" */ | |
212 | chr *savestop; | |
213 | int err; /* error code (0 if none) */ | |
214 | int cflags; /* copy of compile flags */ | |
215 | int lasttype; /* type of previous token */ | |
216 | int nexttype; /* type of next token */ | |
217 | chr nextvalue; /* value (if any) of next token */ | |
218 | int lexcon; /* lexical context type (see lex.c) */ | |
219 | int nsubexp; /* subexpression count */ | |
220 | struct subre **subs; /* subRE pointer vector */ | |
221 | size_t nsubs; /* length of vector */ | |
222 | struct subre *sub10[10]; /* initial vector, enough for most */ | |
223 | struct nfa *nfa; /* the NFA */ | |
224 | struct colormap *cm; /* character color map */ | |
225 | color nlcolor; /* color of newline */ | |
226 | struct state *wordchrs; /* state in nfa holding word-char outarcs */ | |
227 | struct subre *tree; /* subexpression tree */ | |
228 | struct subre *treechain; /* all tree nodes allocated */ | |
229 | struct subre *treefree; /* any free tree nodes */ | |
230 | int ntree; /* number of tree nodes */ | |
231 | struct cvec *cv; /* interface cvec */ | |
232 | struct cvec *cv2; /* utility cvec */ | |
233 | struct cvec *mcces; /* collating-element information */ | |
234 | #define ISCELEADER(v,c) (v->mcces != NULL && haschr(v->mcces, (c))) | |
235 | struct state *mccepbegin; /* in nfa, start of MCCE prototypes */ | |
236 | struct state *mccepend; /* in nfa, end of MCCE prototypes */ | |
237 | struct subre *lacons; /* lookahead-constraint vector */ | |
238 | int nlacons; /* size of lacons */ | |
5a419892 VZ |
239 | }; |
240 | ||
c0a7edde RN |
241 | /* parsing macros; most know that `v' is the struct vars pointer */ |
242 | #define NEXT() (next(v)) /* advance by one token */ | |
243 | #define SEE(t) (v->nexttype == (t)) /* is next token this? */ | |
244 | #define EAT(t) (SEE(t) && next(v)) /* if next is this, swallow it */ | |
245 | #define VISERR(vv) ((vv)->err != 0) /* have we seen an error yet? */ | |
246 | #define ISERR() VISERR(v) | |
247 | #define VERR(vv,e) ((vv)->nexttype = EOS, ((vv)->err) ? (vv)->err :\ | |
248 | ((vv)->err = (e))) | |
249 | #define ERR(e) VERR(v, e) /* record an error */ | |
250 | #define NOERR() {if (ISERR()) return;} /* if error seen, return */ | |
251 | #define NOERRN() {if (ISERR()) return NULL;} /* NOERR with retval */ | |
252 | #define NOERRZ() {if (ISERR()) return 0;} /* NOERR with retval */ | |
253 | #define INSIST(c, e) ((c) ? 0 : ERR(e)) /* if condition false, | |
254 | * error */ | |
255 | #define NOTE(b) (v->re->re_info |= (b)) /* note visible condition */ | |
256 | #define EMPTYARC(x, y) newarc(v->nfa, EMPTY, 0, x, y) | |
257 | ||
258 | /* token type codes, some also used as NFA arc types */ | |
259 | #define EMPTY 'n' /* no token present */ | |
260 | #define EOS 'e' /* end of string */ | |
261 | #define PLAIN 'p' /* ordinary character */ | |
262 | #define DIGIT 'd' /* digit (in bound) */ | |
263 | #define BACKREF 'b' /* back reference */ | |
264 | #define COLLEL 'I' /* start of [. */ | |
265 | #define ECLASS 'E' /* start of [= */ | |
266 | #define CCLASS 'C' /* start of [: */ | |
267 | #define END 'X' /* end of [. [= [: */ | |
268 | #define RANGE 'R' /* - within [] which might be range delim. */ | |
269 | #define LACON 'L' /* lookahead constraint subRE */ | |
270 | #define AHEAD 'a' /* color-lookahead arc */ | |
271 | #define BEHIND 'r' /* color-lookbehind arc */ | |
272 | #define WBDRY 'w' /* word boundary constraint */ | |
273 | #define NWBDRY 'W' /* non-word-boundary constraint */ | |
274 | #define SBEGIN 'A' /* beginning of string (even if not BOL) */ | |
275 | #define SEND 'Z' /* end of string (even if not EOL) */ | |
276 | #define PREFER 'P' /* length preference */ | |
277 | ||
278 | /* is an arc colored, and hence on a color chain? */ | |
279 | #define COLORED(a) ((a)->type == PLAIN || (a)->type == AHEAD || \ | |
280 | (a)->type == BEHIND) | |
281 | ||
282 | ||
283 | ||
284 | /* static function list */ | |
285 | static struct fns functions = { | |
286 | rfree, /* regfree insides */ | |
287 | }; | |
5a419892 | 288 | |
5a419892 | 289 | |
5a419892 VZ |
290 | |
291 | /* | |
c0a7edde | 292 | * regcomp - compile regular expression |
5a419892 | 293 | */ |
c0a7edde RN |
294 | int |
295 | regcomp(regex_t *re, | |
296 | const chr *string, | |
297 | int flags) | |
5a419892 | 298 | { |
c0a7edde RN |
299 | |
300 | size_t nLen = 0; | |
301 | chr* s2 = (chr*) string; | |
5a419892 | 302 | |
c0a7edde RN |
303 | if (string && *string) |
304 | { | |
305 | while(*++s2); | |
306 | } | |
5a419892 | 307 | |
c0a7edde | 308 | nLen = ((s2 - string) / sizeof(chr)); |
5a419892 | 309 | |
c0a7edde | 310 | return wx_regcomp(re, string, nLen, flags); |
5a419892 | 311 | } |
c0a7edde RN |
312 | int |
313 | wx_regcomp(regex_t *re, | |
314 | const chr *string, | |
315 | size_t len, | |
316 | int flags) | |
5a419892 | 317 | { |
c0a7edde RN |
318 | struct vars var; |
319 | struct vars *v = &var; | |
320 | struct guts *g; | |
321 | int i; | |
322 | size_t j; | |
323 | ||
324 | #ifdef REG_DEBUG | |
325 | FILE *debug = (flags & REG_PROGRESS) ? stdout : (FILE *) NULL; | |
326 | ||
327 | #else | |
328 | FILE *debug = (FILE *) NULL; | |
329 | #endif | |
330 | ||
331 | #define CNOERR() { if (ISERR()) return freev(v, v->err); } | |
332 | ||
333 | /* sanity checks */ | |
334 | ||
335 | if (re == NULL || string == NULL) | |
336 | return REG_INVARG; | |
337 | if ((flags & REG_QUOTE) && | |
338 | (flags & (REG_ADVANCED | REG_EXPANDED | REG_NEWLINE))) | |
339 | return REG_INVARG; | |
340 | if (!(flags & REG_EXTENDED) && (flags & REG_ADVF)) | |
341 | return REG_INVARG; | |
342 | ||
343 | /* initial setup (after which freev() is callable) */ | |
344 | v->re = re; | |
345 | v->now = (chr *) string; | |
346 | v->stop = v->now + len; | |
347 | v->savenow = v->savestop = NULL; | |
348 | v->err = 0; | |
349 | v->cflags = flags; | |
350 | v->nsubexp = 0; | |
351 | v->subs = v->sub10; | |
352 | v->nsubs = 10; | |
353 | for (j = 0; j < v->nsubs; j++) | |
354 | v->subs[j] = NULL; | |
355 | v->nfa = NULL; | |
356 | v->cm = NULL; | |
357 | v->nlcolor = COLORLESS; | |
358 | v->wordchrs = NULL; | |
359 | v->tree = NULL; | |
360 | v->treechain = NULL; | |
361 | v->treefree = NULL; | |
362 | v->cv = NULL; | |
363 | v->cv2 = NULL; | |
364 | v->mcces = NULL; | |
365 | v->lacons = NULL; | |
366 | v->nlacons = 0; | |
367 | re->re_magic = REMAGIC; | |
368 | re->re_info = 0; /* bits get set during parse */ | |
369 | re->re_csize = sizeof(chr); | |
370 | re->re_guts = NULL; | |
371 | re->re_fns = VS(&functions); | |
372 | ||
373 | /* more complex setup, malloced things */ | |
374 | re->re_guts = VS(MALLOC(sizeof(struct guts))); | |
375 | if (re->re_guts == NULL) | |
376 | return freev(v, REG_ESPACE); | |
377 | g = (struct guts *) re->re_guts; | |
378 | g->tree = NULL; | |
379 | initcm(v, &g->cmap); | |
380 | v->cm = &g->cmap; | |
381 | g->lacons = NULL; | |
382 | g->nlacons = 0; | |
383 | ZAPCNFA(g->search); | |
384 | v->nfa = newnfa(v, v->cm, (struct nfa *) NULL); | |
385 | CNOERR(); | |
386 | v->cv = newcvec(100, 20, 10); | |
387 | if (v->cv == NULL) | |
388 | return freev(v, REG_ESPACE); | |
389 | i = nmcces(v); | |
390 | if (i > 0) | |
391 | { | |
392 | v->mcces = newcvec(nleaders(v), 0, i); | |
393 | CNOERR(); | |
394 | v->mcces = allmcces(v, v->mcces); | |
395 | leaders(v, v->mcces); | |
396 | addmcce(v->mcces, (chr *) NULL, (chr *) NULL); /* dummy */ | |
397 | } | |
398 | CNOERR(); | |
399 | ||
400 | /* parsing */ | |
401 | lexstart(v); /* also handles prefixes */ | |
402 | if ((v->cflags & REG_NLSTOP) || (v->cflags & REG_NLANCH)) | |
403 | { | |
404 | /* assign newline a unique color */ | |
405 | v->nlcolor = subcolor(v->cm, newline()); | |
406 | okcolors(v->nfa, v->cm); | |
407 | } | |
408 | CNOERR(); | |
409 | v->tree = parse(v, EOS, PLAIN, v->nfa->init, v->nfa->final); | |
410 | assert(SEE(EOS)); /* even if error; ISERR() => SEE(EOS) */ | |
411 | CNOERR(); | |
412 | assert(v->tree != NULL); | |
413 | ||
414 | /* finish setup of nfa and its subre tree */ | |
415 | specialcolors(v->nfa); | |
416 | CNOERR(); | |
417 | #ifdef REG_DEBUG | |
418 | if (debug != NULL) | |
419 | { | |
420 | fprintf(debug, "\n\n\n========= RAW ==========\n"); | |
421 | dumpnfa(v->nfa, debug); | |
422 | dumpst(v->tree, debug, 1); | |
5a419892 | 423 | } |
c0a7edde RN |
424 | #endif |
425 | optst(v, v->tree); | |
426 | v->ntree = numst(v->tree, 1); | |
427 | markst(v->tree); | |
428 | cleanst(v); | |
429 | #ifdef REG_DEBUG | |
430 | if (debug != NULL) | |
431 | { | |
432 | fprintf(debug, "\n\n\n========= TREE FIXED ==========\n"); | |
433 | dumpst(v->tree, debug, 1); | |
5a419892 | 434 | } |
c0a7edde | 435 | #endif |
5a419892 | 436 | |
c0a7edde RN |
437 | /* build compacted NFAs for tree and lacons */ |
438 | re->re_info |= nfatree(v, v->tree, debug); | |
439 | CNOERR(); | |
440 | assert(v->nlacons == 0 || v->lacons != NULL); | |
441 | for (i = 1; i < v->nlacons; i++) | |
442 | { | |
443 | #ifdef REG_DEBUG | |
444 | if (debug != NULL) | |
445 | fprintf(debug, "\n\n\n========= LA%d ==========\n", i); | |
446 | #endif | |
447 | nfanode(v, &v->lacons[i], debug); | |
5a419892 | 448 | } |
c0a7edde RN |
449 | CNOERR(); |
450 | if (v->tree->flags & SHORTER) | |
451 | NOTE(REG_USHORTEST); | |
452 | ||
453 | /* build compacted NFAs for tree, lacons, fast search */ | |
454 | #ifdef REG_DEBUG | |
455 | if (debug != NULL) | |
456 | fprintf(debug, "\n\n\n========= SEARCH ==========\n"); | |
457 | #endif | |
458 | /* can sacrifice main NFA now, so use it as work area */ | |
459 | (DISCARD) optimize(v->nfa, debug); | |
460 | CNOERR(); | |
461 | makesearch(v, v->nfa); | |
462 | CNOERR(); | |
463 | compact(v->nfa, &g->search); | |
464 | CNOERR(); | |
465 | ||
466 | /* looks okay, package it up */ | |
467 | re->re_nsub = v->nsubexp; | |
468 | v->re = NULL; /* freev no longer frees re */ | |
469 | g->magic = GUTSMAGIC; | |
470 | g->cflags = v->cflags; | |
471 | g->info = re->re_info; | |
472 | g->nsub = re->re_nsub; | |
473 | g->tree = v->tree; | |
474 | v->tree = NULL; | |
475 | g->ntree = v->ntree; | |
476 | g->compare = (v->cflags & REG_ICASE) ? casecmp : cmp; | |
477 | g->lacons = v->lacons; | |
478 | v->lacons = NULL; | |
479 | g->nlacons = v->nlacons; | |
480 | ||
481 | #ifdef REG_DEBUG | |
482 | if (flags & REG_DUMP) | |
483 | dump(re, stdout); | |
484 | #endif | |
5a419892 | 485 | |
c0a7edde RN |
486 | assert(v->err == 0); |
487 | return freev(v, 0); | |
5a419892 VZ |
488 | } |
489 | ||
490 | /* | |
c0a7edde | 491 | * moresubs - enlarge subRE vector |
5a419892 VZ |
492 | */ |
493 | static void | |
c0a7edde RN |
494 | moresubs(struct vars * v, |
495 | int wanted) /* want enough room for this one */ | |
5a419892 | 496 | { |
c0a7edde RN |
497 | struct subre **p; |
498 | size_t n; | |
499 | ||
500 | assert(wanted > 0 && (size_t) wanted >= v->nsubs); | |
501 | n = (size_t) wanted *3 / 2 + 1; | |
502 | ||
503 | if (v->subs == v->sub10) | |
504 | { | |
505 | p = (struct subre **) MALLOC(n * sizeof(struct subre *)); | |
506 | if (p != NULL) | |
507 | memcpy(VS(p), VS(v->subs), | |
508 | v->nsubs * sizeof(struct subre *)); | |
5a419892 | 509 | } |
5a419892 | 510 | else |
c0a7edde RN |
511 | p = (struct subre **) REALLOC(v->subs, n * sizeof(struct subre *)); |
512 | if (p == NULL) | |
513 | { | |
514 | ERR(REG_ESPACE); | |
5a419892 | 515 | return; |
5a419892 | 516 | } |
c0a7edde RN |
517 | v->subs = p; |
518 | for (p = &v->subs[v->nsubs]; v->nsubs < n; p++, v->nsubs++) | |
519 | *p = NULL; | |
520 | assert(v->nsubs == n); | |
521 | assert((size_t) wanted < v->nsubs); | |
5a419892 VZ |
522 | } |
523 | ||
524 | /* | |
c0a7edde RN |
525 | * freev - free vars struct's substructures where necessary |
526 | * | |
527 | * Optionally does error-number setting, and always returns error code | |
528 | * (if any), to make error-handling code terser. | |
5a419892 | 529 | */ |
c0a7edde RN |
530 | static int |
531 | freev(struct vars * v, | |
532 | int err) | |
5a419892 | 533 | { |
c0a7edde RN |
534 | if (v->re != NULL) |
535 | rfree(v->re); | |
536 | if (v->subs != v->sub10) | |
537 | FREE(v->subs); | |
538 | if (v->nfa != NULL) | |
539 | freenfa(v->nfa); | |
540 | if (v->tree != NULL) | |
541 | freesubre(v, v->tree); | |
542 | if (v->treechain != NULL) | |
543 | cleanst(v); | |
544 | if (v->cv != NULL) | |
545 | freecvec(v->cv); | |
546 | if (v->cv2 != NULL) | |
547 | freecvec(v->cv2); | |
548 | if (v->mcces != NULL) | |
549 | freecvec(v->mcces); | |
550 | if (v->lacons != NULL) | |
551 | freelacons(v->lacons, v->nlacons); | |
552 | ERR(err); /* nop if err==0 */ | |
553 | ||
554 | return v->err; | |
5a419892 VZ |
555 | } |
556 | ||
557 | /* | |
c0a7edde RN |
558 | * makesearch - turn an NFA into a search NFA (implicit prepend of .*?) |
559 | * NFA must have been optimize()d already. | |
5a419892 VZ |
560 | */ |
561 | static void | |
c0a7edde RN |
562 | makesearch(struct vars * v, |
563 | struct nfa * nfa) | |
5a419892 | 564 | { |
c0a7edde RN |
565 | struct arc *a; |
566 | struct arc *b; | |
567 | struct state *pre = nfa->pre; | |
568 | struct state *s; | |
569 | struct state *s2; | |
570 | struct state *slist; | |
571 | ||
572 | /* no loops are needed if it's anchored */ | |
573 | for (a = pre->outs; a != NULL; a = a->outchain) | |
574 | { | |
575 | assert(a->type == PLAIN); | |
576 | if (a->co != nfa->bos[0] && a->co != nfa->bos[1]) | |
577 | break; | |
5a419892 | 578 | } |
c0a7edde RN |
579 | if (a != NULL) |
580 | { | |
581 | /* add implicit .* in front */ | |
582 | rainbow(nfa, v->cm, PLAIN, COLORLESS, pre, pre); | |
583 | ||
584 | /* and ^* and \A* too -- not always necessary, but harmless */ | |
585 | newarc(nfa, PLAIN, nfa->bos[0], pre, pre); | |
586 | newarc(nfa, PLAIN, nfa->bos[1], pre, pre); | |
5a419892 VZ |
587 | } |
588 | ||
c0a7edde RN |
589 | /* |
590 | * Now here's the subtle part. Because many REs have no lookback | |
591 | * constraints, often knowing when you were in the pre state tells you | |
592 | * little; it's the next state(s) that are informative. But some of | |
593 | * them may have other inarcs, i.e. it may be possible to make actual | |
594 | * progress and then return to one of them. We must de-optimize such | |
595 | * cases, splitting each such state into progress and no-progress | |
596 | * states. | |
5a419892 | 597 | */ |
c0a7edde RN |
598 | |
599 | /* first, make a list of the states */ | |
600 | slist = NULL; | |
601 | for (a = pre->outs; a != NULL; a = a->outchain) | |
602 | { | |
603 | s = a->to; | |
604 | for (b = s->ins; b != NULL; b = b->inchain) | |
605 | if (b->from != pre) | |
5a419892 | 606 | break; |
c0a7edde RN |
607 | if (b != NULL) |
608 | { /* must be split */ | |
609 | s->tmp = slist; | |
610 | slist = s; | |
5a419892 | 611 | } |
5a419892 | 612 | } |
5a419892 | 613 | |
c0a7edde RN |
614 | /* do the splits */ |
615 | for (s = slist; s != NULL; s = s2) | |
616 | { | |
617 | s2 = newstate(nfa); | |
618 | copyouts(nfa, s, s2); | |
619 | for (a = s->ins; a != NULL; a = b) | |
620 | { | |
621 | b = a->inchain; | |
622 | if (a->from != pre) | |
623 | { | |
624 | cparc(nfa, a, a->from, s2); | |
625 | freearc(nfa, a); | |
626 | } | |
627 | } | |
628 | s2 = s->tmp; | |
629 | s->tmp = NULL; /* clean up while we're at it */ | |
630 | } | |
5a419892 VZ |
631 | } |
632 | ||
633 | /* | |
c0a7edde RN |
634 | * parse - parse an RE |
635 | * | |
636 | * This is actually just the top level, which parses a bunch of branches | |
637 | * tied together with '|'. They appear in the tree as the left children | |
638 | * of a chain of '|' subres. | |
5a419892 | 639 | */ |
c0a7edde RN |
640 | static struct subre * |
641 | parse(struct vars * v, | |
642 | int stopper, /* EOS or ')' */ | |
643 | int type, /* LACON (lookahead subRE) or PLAIN */ | |
644 | struct state * init, /* initial state */ | |
645 | struct state * final) /* final state */ | |
5a419892 | 646 | { |
c0a7edde RN |
647 | struct state *left; /* scaffolding for branch */ |
648 | struct state *right; | |
649 | struct subre *branches; /* top level */ | |
650 | struct subre *branch; /* current branch */ | |
651 | struct subre *t; /* temporary */ | |
652 | int firstbranch; /* is this the first branch? */ | |
653 | ||
654 | assert(stopper == ')' || stopper == EOS); | |
655 | ||
656 | branches = subre(v, '|', LONGER, init, final); | |
657 | NOERRN(); | |
658 | branch = branches; | |
659 | firstbranch = 1; | |
660 | do | |
661 | { /* a branch */ | |
662 | if (!firstbranch) | |
663 | { | |
664 | /* need a place to hang it */ | |
665 | branch->right = subre(v, '|', LONGER, init, final); | |
666 | NOERRN(); | |
667 | branch = branch->right; | |
668 | } | |
669 | firstbranch = 0; | |
670 | left = newstate(v->nfa); | |
671 | right = newstate(v->nfa); | |
672 | NOERRN(); | |
673 | EMPTYARC(init, left); | |
674 | EMPTYARC(right, final); | |
675 | NOERRN(); | |
676 | branch->left = parsebranch(v, stopper, type, left, right, 0); | |
677 | NOERRN(); | |
678 | branch->flags |= UP(branch->flags | branch->left->flags); | |
679 | if ((branch->flags & ~branches->flags) != 0) /* new flags */ | |
680 | for (t = branches; t != branch; t = t->right) | |
681 | t->flags |= branch->flags; | |
682 | } while (EAT('|')); | |
683 | assert(SEE(stopper) || SEE(EOS)); | |
684 | ||
685 | if (!SEE(stopper)) | |
686 | { | |
687 | assert(stopper == ')' && SEE(EOS)); | |
688 | ERR(REG_EPAREN); | |
689 | } | |
5a419892 | 690 | |
c0a7edde RN |
691 | /* optimize out simple cases */ |
692 | if (branch == branches) | |
693 | { /* only one branch */ | |
694 | assert(branch->right == NULL); | |
695 | t = branch->left; | |
696 | branch->left = NULL; | |
697 | freesubre(v, branches); | |
698 | branches = t; | |
699 | } | |
700 | else if (!MESSY(branches->flags)) | |
701 | { /* no interesting innards */ | |
702 | freesubre(v, branches->left); | |
703 | branches->left = NULL; | |
704 | freesubre(v, branches->right); | |
705 | branches->right = NULL; | |
706 | branches->op = '='; | |
5a419892 VZ |
707 | } |
708 | ||
c0a7edde | 709 | return branches; |
5a419892 VZ |
710 | } |
711 | ||
712 | /* | |
c0a7edde | 713 | * parsebranch - parse one branch of an RE |
5a419892 | 714 | * |
c0a7edde RN |
715 | * This mostly manages concatenation, working closely with parseqatom(). |
716 | * Concatenated things are bundled up as much as possible, with separate | |
717 | * ',' nodes introduced only when necessary due to substructure. | |
5a419892 | 718 | */ |
c0a7edde RN |
719 | static struct subre * |
720 | parsebranch(struct vars * v, | |
721 | int stopper, /* EOS or ')' */ | |
722 | int type, /* LACON (lookahead subRE) or PLAIN */ | |
723 | struct state * left, /* leftmost state */ | |
724 | struct state * right, /* rightmost state */ | |
725 | int partial) /* is this only part of a branch? */ | |
5a419892 | 726 | { |
c0a7edde RN |
727 | struct state *lp; /* left end of current construct */ |
728 | int seencontent; /* is there anything in this branch yet? */ | |
729 | struct subre *t; | |
730 | ||
731 | lp = left; | |
732 | seencontent = 0; | |
733 | t = subre(v, '=', 0, left, right); /* op '=' is tentative */ | |
734 | NOERRN(); | |
735 | while (!SEE('|') && !SEE(stopper) && !SEE(EOS)) | |
736 | { | |
737 | if (seencontent) | |
738 | { /* implicit concat operator */ | |
739 | lp = newstate(v->nfa); | |
740 | NOERRN(); | |
741 | moveins(v->nfa, right, lp); | |
5a419892 | 742 | } |
c0a7edde | 743 | seencontent = 1; |
5a419892 | 744 | |
c0a7edde RN |
745 | /* NB, recursion in parseqatom() may swallow rest of branch */ |
746 | parseqatom(v, stopper, type, lp, right, t); | |
5a419892 | 747 | } |
5a419892 | 748 | |
c0a7edde RN |
749 | if (!seencontent) |
750 | { /* empty branch */ | |
751 | if (!partial) | |
752 | NOTE(REG_UUNSPEC); | |
753 | assert(lp == left); | |
754 | EMPTYARC(left, right); | |
5a419892 VZ |
755 | } |
756 | ||
c0a7edde | 757 | return t; |
5a419892 VZ |
758 | } |
759 | ||
760 | /* | |
c0a7edde RN |
761 | * parseqatom - parse one quantified atom or constraint of an RE |
762 | * | |
763 | * The bookkeeping near the end cooperates very closely with parsebranch(); | |
764 | * in particular, it contains a recursion that can involve parsing the rest | |
765 | * of the branch, making this function's name somewhat inaccurate. | |
5a419892 VZ |
766 | */ |
767 | static void | |
c0a7edde RN |
768 | parseqatom(struct vars * v, |
769 | int stopper, /* EOS or ')' */ | |
770 | int type, /* LACON (lookahead subRE) or PLAIN */ | |
771 | struct state * lp, /* left state to hang it on */ | |
772 | struct state * rp, /* right state to hang it on */ | |
773 | struct subre * top) /* subtree top */ | |
5a419892 | 774 | { |
c0a7edde RN |
775 | struct state *s; /* temporaries for new states */ |
776 | struct state *s2; | |
777 | ||
778 | #define ARCV(t, val) newarc(v->nfa, t, val, lp, rp) | |
779 | int m, | |
780 | n; | |
781 | struct subre *atom; /* atom's subtree */ | |
782 | struct subre *t; | |
783 | int cap; /* capturing parens? */ | |
784 | int pos; /* positive lookahead? */ | |
785 | int subno; /* capturing-parens or backref number */ | |
786 | int atomtype; | |
787 | int qprefer; /* quantifier short/long preference */ | |
788 | int f; | |
789 | struct subre **atomp; /* where the pointer to atom is */ | |
790 | ||
791 | /* initial bookkeeping */ | |
792 | atom = NULL; | |
793 | assert(lp->nouts == 0); /* must string new code */ | |
794 | assert(rp->nins == 0); /* between lp and rp */ | |
795 | subno = 0; /* just to shut lint up */ | |
796 | ||
797 | /* an atom or constraint... */ | |
798 | atomtype = v->nexttype; | |
799 | switch (atomtype) | |
800 | { | |
801 | /* first, constraints, which end by returning */ | |
802 | case '^': | |
803 | ARCV('^', 1); | |
804 | if (v->cflags & REG_NLANCH) | |
805 | ARCV(BEHIND, v->nlcolor); | |
806 | NEXT(); | |
807 | return; | |
808 | break; | |
809 | case '$': | |
810 | ARCV('$', 1); | |
811 | if (v->cflags & REG_NLANCH) | |
812 | ARCV(AHEAD, v->nlcolor); | |
813 | NEXT(); | |
814 | return; | |
815 | break; | |
816 | case SBEGIN: | |
817 | ARCV('^', 1); /* BOL */ | |
818 | ARCV('^', 0); /* or BOS */ | |
819 | NEXT(); | |
820 | return; | |
821 | break; | |
822 | case SEND: | |
823 | ARCV('$', 1); /* EOL */ | |
824 | ARCV('$', 0); /* or EOS */ | |
825 | NEXT(); | |
826 | return; | |
827 | break; | |
828 | case '<': | |
829 | wordchrs(v); /* does NEXT() */ | |
830 | s = newstate(v->nfa); | |
831 | NOERR(); | |
832 | nonword(v, BEHIND, lp, s); | |
833 | word(v, AHEAD, s, rp); | |
834 | return; | |
835 | break; | |
836 | case '>': | |
837 | wordchrs(v); /* does NEXT() */ | |
838 | s = newstate(v->nfa); | |
839 | NOERR(); | |
840 | word(v, BEHIND, lp, s); | |
841 | nonword(v, AHEAD, s, rp); | |
842 | return; | |
5a419892 | 843 | break; |
c0a7edde RN |
844 | case WBDRY: |
845 | wordchrs(v); /* does NEXT() */ | |
846 | s = newstate(v->nfa); | |
847 | NOERR(); | |
848 | nonword(v, BEHIND, lp, s); | |
849 | word(v, AHEAD, s, rp); | |
850 | s = newstate(v->nfa); | |
851 | NOERR(); | |
852 | word(v, BEHIND, lp, s); | |
853 | nonword(v, AHEAD, s, rp); | |
854 | return; | |
855 | break; | |
856 | case NWBDRY: | |
857 | wordchrs(v); /* does NEXT() */ | |
858 | s = newstate(v->nfa); | |
859 | NOERR(); | |
860 | word(v, BEHIND, lp, s); | |
861 | word(v, AHEAD, s, rp); | |
862 | s = newstate(v->nfa); | |
863 | NOERR(); | |
864 | nonword(v, BEHIND, lp, s); | |
865 | nonword(v, AHEAD, s, rp); | |
866 | return; | |
5a419892 | 867 | break; |
c0a7edde RN |
868 | case LACON: /* lookahead constraint */ |
869 | pos = v->nextvalue; | |
870 | NEXT(); | |
871 | s = newstate(v->nfa); | |
872 | s2 = newstate(v->nfa); | |
873 | NOERR(); | |
874 | t = parse(v, ')', LACON, s, s2); | |
875 | freesubre(v, t); /* internal structure irrelevant */ | |
876 | assert(SEE(')') || ISERR()); | |
877 | NEXT(); | |
878 | n = newlacon(v, s, s2, pos); | |
879 | NOERR(); | |
880 | ARCV(LACON, n); | |
881 | return; | |
882 | break; | |
883 | /* then errors, to get them out of the way */ | |
884 | case '*': | |
885 | case '+': | |
886 | case '?': | |
887 | case '{': | |
888 | ERR(REG_BADRPT); | |
889 | return; | |
890 | break; | |
5a419892 | 891 | default: |
c0a7edde RN |
892 | ERR(REG_ASSERT); |
893 | return; | |
5a419892 | 894 | break; |
c0a7edde RN |
895 | /* then plain characters, and minor variants on that theme */ |
896 | case ')': /* unbalanced paren */ | |
897 | if ((v->cflags & REG_ADVANCED) != REG_EXTENDED) | |
898 | { | |
899 | ERR(REG_EPAREN); | |
900 | return; | |
5a419892 | 901 | } |
c0a7edde RN |
902 | /* legal in EREs due to specification botch */ |
903 | NOTE(REG_UPBOTCH); | |
904 | /* fallthrough into case PLAIN */ | |
905 | case PLAIN: | |
906 | onechr(v, v->nextvalue, lp, rp); | |
907 | okcolors(v->nfa, v->cm); | |
908 | NOERR(); | |
909 | NEXT(); | |
5a419892 | 910 | break; |
c0a7edde RN |
911 | case '[': |
912 | if (v->nextvalue == 1) | |
913 | bracket(v, lp, rp); | |
914 | else | |
915 | cbracket(v, lp, rp); | |
916 | assert(SEE(']') || ISERR()); | |
917 | NEXT(); | |
5a419892 | 918 | break; |
c0a7edde RN |
919 | case '.': |
920 | rainbow(v->nfa, v->cm, PLAIN, | |
921 | (v->cflags & REG_NLSTOP) ? v->nlcolor : COLORLESS, | |
922 | lp, rp); | |
5a419892 | 923 | NEXT(); |
c0a7edde RN |
924 | break; |
925 | /* and finally the ugly stuff */ | |
926 | case '(': /* value flags as capturing or non */ | |
927 | cap = (type == LACON) ? 0 : v->nextvalue; | |
928 | if (cap) | |
929 | { | |
930 | v->nsubexp++; | |
931 | subno = v->nsubexp; | |
932 | if ((size_t) subno >= v->nsubs) | |
933 | moresubs(v, subno); | |
934 | assert((size_t) subno < v->nsubs); | |
935 | } | |
5a419892 | 936 | else |
c0a7edde RN |
937 | atomtype = PLAIN; /* something that's not '(' */ |
938 | NEXT(); | |
939 | /* need new endpoints because tree will contain pointers */ | |
940 | s = newstate(v->nfa); | |
941 | s2 = newstate(v->nfa); | |
942 | NOERR(); | |
943 | EMPTYARC(lp, s); | |
944 | EMPTYARC(s2, rp); | |
945 | NOERR(); | |
946 | atom = parse(v, ')', PLAIN, s, s2); | |
947 | assert(SEE(')') || ISERR()); | |
948 | NEXT(); | |
949 | NOERR(); | |
950 | if (cap) | |
951 | { | |
952 | v->subs[subno] = atom; | |
953 | t = subre(v, '(', atom->flags | CAP, lp, rp); | |
954 | NOERR(); | |
955 | t->subno = subno; | |
956 | t->left = atom; | |
957 | atom = t; | |
958 | } | |
959 | /* postpone everything else pending possible {0} */ | |
960 | break; | |
961 | case BACKREF: /* the Feature From The Black Lagoon */ | |
962 | INSIST(type != LACON, REG_ESUBREG); | |
963 | INSIST(v->nextvalue < v->nsubs, REG_ESUBREG); | |
964 | INSIST(v->subs[v->nextvalue] != NULL, REG_ESUBREG); | |
965 | NOERR(); | |
966 | assert(v->nextvalue > 0); | |
967 | atom = subre(v, 'b', BACKR, lp, rp); | |
968 | subno = v->nextvalue; | |
969 | atom->subno = subno; | |
970 | EMPTYARC(lp, rp); /* temporarily, so there's something */ | |
971 | NEXT(); | |
5a419892 VZ |
972 | break; |
973 | } | |
5a419892 | 974 | |
c0a7edde RN |
975 | /* ...and an atom may be followed by a quantifier */ |
976 | switch (v->nexttype) | |
977 | { | |
978 | case '*': | |
979 | m = 0; | |
980 | n = INFINITY; | |
981 | qprefer = (v->nextvalue) ? LONGER : SHORTER; | |
982 | NEXT(); | |
983 | break; | |
984 | case '+': | |
985 | m = 1; | |
986 | n = INFINITY; | |
987 | qprefer = (v->nextvalue) ? LONGER : SHORTER; | |
988 | NEXT(); | |
989 | break; | |
990 | case '?': | |
991 | m = 0; | |
992 | n = 1; | |
993 | qprefer = (v->nextvalue) ? LONGER : SHORTER; | |
5a419892 | 994 | NEXT(); |
5a419892 | 995 | break; |
c0a7edde RN |
996 | case '{': |
997 | NEXT(); | |
998 | m = scannum(v); | |
999 | if (EAT(',')) | |
1000 | { | |
1001 | if (SEE(DIGIT)) | |
1002 | n = scannum(v); | |
1003 | else | |
1004 | n = INFINITY; | |
1005 | if (m > n) | |
1006 | { | |
1007 | ERR(REG_BADBR); | |
5a419892 VZ |
1008 | return; |
1009 | } | |
c0a7edde RN |
1010 | /* {m,n} exercises preference, even if it's {m,m} */ |
1011 | qprefer = (v->nextvalue) ? LONGER : SHORTER; | |
1012 | } | |
1013 | else | |
1014 | { | |
1015 | n = m; | |
1016 | /* {m} passes operand's preference through */ | |
1017 | qprefer = 0; | |
1018 | } | |
1019 | if (!SEE('}')) | |
1020 | { /* catches errors too */ | |
1021 | ERR(REG_BADBR); | |
1022 | return; | |
1023 | } | |
1024 | NEXT(); | |
1025 | break; | |
1026 | default: /* no quantifier */ | |
1027 | m = n = 1; | |
1028 | qprefer = 0; | |
1029 | break; | |
1030 | } | |
5a419892 | 1031 | |
c0a7edde RN |
1032 | /* annoying special case: {0} or {0,0} cancels everything */ |
1033 | if (m == 0 && n == 0) | |
1034 | { | |
1035 | if (atom != NULL) | |
1036 | freesubre(v, atom); | |
1037 | if (atomtype == '(') | |
1038 | v->subs[subno] = NULL; | |
1039 | delsub(v->nfa, lp, rp); | |
1040 | EMPTYARC(lp, rp); | |
1041 | return; | |
1042 | } | |
5a419892 | 1043 | |
c0a7edde RN |
1044 | /* if not a messy case, avoid hard part */ |
1045 | assert(!MESSY(top->flags)); | |
1046 | f = top->flags | qprefer | ((atom != NULL) ? atom->flags : 0); | |
1047 | if (atomtype != '(' && atomtype != BACKREF && !MESSY(UP(f))) | |
1048 | { | |
1049 | if (!(m == 1 && n == 1)) | |
1050 | repeat(v, lp, rp, m, n); | |
1051 | if (atom != NULL) | |
1052 | freesubre(v, atom); | |
1053 | top->flags = f; | |
1054 | return; | |
1055 | } | |
1056 | ||
1057 | /* | |
1058 | * hard part: something messy That is, capturing parens, back | |
1059 | * reference, short/long clash, or an atom with substructure | |
1060 | * containing one of those. | |
5a419892 | 1061 | */ |
5a419892 | 1062 | |
c0a7edde RN |
1063 | /* now we'll need a subre for the contents even if they're boring */ |
1064 | if (atom == NULL) | |
1065 | { | |
1066 | atom = subre(v, '=', 0, lp, rp); | |
1067 | NOERR(); | |
1068 | } | |
5a419892 | 1069 | |
c0a7edde RN |
1070 | /* |
1071 | * prepare a general-purpose state skeleton | |
1072 | * | |
1073 | * ---> [s] ---prefix---> [begin] ---atom---> [end] ----rest---> [rp] / / | |
1074 | * [lp] ----> [s2] ----bypass--------------------- | |
1075 | * | |
1076 | * where bypass is an empty, and prefix is some repetitions of atom | |
5a419892 | 1077 | */ |
c0a7edde RN |
1078 | s = newstate(v->nfa); /* first, new endpoints for the atom */ |
1079 | s2 = newstate(v->nfa); | |
1080 | NOERR(); | |
1081 | moveouts(v->nfa, lp, s); | |
1082 | moveins(v->nfa, rp, s2); | |
1083 | NOERR(); | |
1084 | atom->begin = s; | |
1085 | atom->end = s2; | |
1086 | s = newstate(v->nfa); /* and spots for prefix and bypass */ | |
1087 | s2 = newstate(v->nfa); | |
1088 | NOERR(); | |
1089 | EMPTYARC(lp, s); | |
1090 | EMPTYARC(lp, s2); | |
1091 | NOERR(); | |
1092 | ||
1093 | /* break remaining subRE into x{...} and what follows */ | |
1094 | t = subre(v, '.', COMBINE(qprefer, atom->flags), lp, rp); | |
1095 | t->left = atom; | |
1096 | atomp = &t->left; | |
1097 | /* here we should recurse... but we must postpone that to the end */ | |
1098 | ||
1099 | /* split top into prefix and remaining */ | |
1100 | assert(top->op == '=' && top->left == NULL && top->right == NULL); | |
1101 | top->left = subre(v, '=', top->flags, top->begin, lp); | |
1102 | top->op = '.'; | |
1103 | top->right = t; | |
1104 | ||
1105 | /* if it's a backref, now is the time to replicate the subNFA */ | |
1106 | if (atomtype == BACKREF) | |
1107 | { | |
1108 | assert(atom->begin->nouts == 1); /* just the EMPTY */ | |
1109 | delsub(v->nfa, atom->begin, atom->end); | |
1110 | assert(v->subs[subno] != NULL); | |
1111 | /* and here's why the recursion got postponed: it must */ | |
1112 | /* wait until the skeleton is filled in, because it may */ | |
1113 | /* hit a backref that wants to copy the filled-in skeleton */ | |
1114 | dupnfa(v->nfa, v->subs[subno]->begin, v->subs[subno]->end, | |
1115 | atom->begin, atom->end); | |
1116 | NOERR(); | |
1117 | } | |
1118 | ||
1119 | /* it's quantifier time; first, turn x{0,...} into x{1,...}|empty */ | |
1120 | if (m == 0) | |
1121 | { | |
1122 | EMPTYARC(s2, atom->end); /* the bypass */ | |
1123 | assert(PREF(qprefer) != 0); | |
1124 | f = COMBINE(qprefer, atom->flags); | |
1125 | t = subre(v, '|', f, lp, atom->end); | |
1126 | NOERR(); | |
1127 | t->left = atom; | |
1128 | t->right = subre(v, '|', PREF(f), s2, atom->end); | |
1129 | NOERR(); | |
1130 | t->right->left = subre(v, '=', 0, s2, atom->end); | |
1131 | NOERR(); | |
1132 | *atomp = t; | |
1133 | atomp = &t->left; | |
1134 | m = 1; | |
1135 | } | |
5a419892 | 1136 | |
c0a7edde RN |
1137 | /* deal with the rest of the quantifier */ |
1138 | if (atomtype == BACKREF) | |
1139 | { | |
1140 | /* special case: backrefs have internal quantifiers */ | |
1141 | EMPTYARC(s, atom->begin); /* empty prefix */ | |
1142 | /* just stuff everything into atom */ | |
1143 | repeat(v, atom->begin, atom->end, m, n); | |
1144 | atom->min = (short) m; | |
1145 | atom->max = (short) n; | |
1146 | atom->flags |= COMBINE(qprefer, atom->flags); | |
1147 | } | |
1148 | else if (m == 1 && n == 1) | |
1149 | { | |
1150 | /* no/vacuous quantifier: done */ | |
1151 | EMPTYARC(s, atom->begin); /* empty prefix */ | |
1152 | } | |
1153 | else | |
1154 | { | |
1155 | /* turn x{m,n} into x{m-1,n-1}x, with capturing */ | |
1156 | /* parens in only second x */ | |
1157 | dupnfa(v->nfa, atom->begin, atom->end, s, atom->begin); | |
1158 | assert(m >= 1 && m != INFINITY && n >= 1); | |
1159 | repeat(v, s, atom->begin, m - 1, (n == INFINITY) ? n : n - 1); | |
1160 | f = COMBINE(qprefer, atom->flags); | |
1161 | t = subre(v, '.', f, s, atom->end); /* prefix and atom */ | |
1162 | NOERR(); | |
1163 | t->left = subre(v, '=', PREF(f), s, atom->begin); | |
1164 | NOERR(); | |
1165 | t->right = atom; | |
1166 | *atomp = t; | |
1167 | } | |
5a419892 | 1168 | |
c0a7edde RN |
1169 | /* and finally, look after that postponed recursion */ |
1170 | t = top->right; | |
1171 | if (!(SEE('|') || SEE(stopper) || SEE(EOS))) | |
1172 | t->right = parsebranch(v, stopper, type, atom->end, rp, 1); | |
1173 | else | |
1174 | { | |
1175 | EMPTYARC(atom->end, rp); | |
1176 | t->right = subre(v, '=', 0, atom->end, rp); | |
1177 | } | |
1178 | assert(SEE('|') || SEE(stopper) || SEE(EOS)); | |
1179 | t->flags |= COMBINE(t->flags, t->right->flags); | |
1180 | top->flags |= COMBINE(top->flags, t->flags); | |
5a419892 VZ |
1181 | } |
1182 | ||
1183 | /* | |
c0a7edde | 1184 | * nonword - generate arcs for non-word-character ahead or behind |
5a419892 | 1185 | */ |
c0a7edde RN |
1186 | static void |
1187 | nonword(struct vars * v, | |
1188 | int dir, /* AHEAD or BEHIND */ | |
1189 | struct state * lp, | |
1190 | struct state * rp) | |
5a419892 | 1191 | { |
c0a7edde | 1192 | int anchor = (dir == AHEAD) ? '$' : '^'; |
5a419892 | 1193 | |
c0a7edde RN |
1194 | assert(dir == AHEAD || dir == BEHIND); |
1195 | newarc(v->nfa, anchor, 1, lp, rp); | |
1196 | newarc(v->nfa, anchor, 0, lp, rp); | |
1197 | colorcomplement(v->nfa, v->cm, dir, v->wordchrs, lp, rp); | |
1198 | /* (no need for special attention to \n) */ | |
5a419892 VZ |
1199 | } |
1200 | ||
1201 | /* | |
c0a7edde | 1202 | * word - generate arcs for word character ahead or behind |
5a419892 | 1203 | */ |
c0a7edde RN |
1204 | static void |
1205 | word(struct vars * v, | |
1206 | int dir, /* AHEAD or BEHIND */ | |
1207 | struct state * lp, | |
1208 | struct state * rp) | |
5a419892 | 1209 | { |
c0a7edde RN |
1210 | assert(dir == AHEAD || dir == BEHIND); |
1211 | cloneouts(v->nfa, v->wordchrs, lp, rp, dir); | |
1212 | /* (no need for special attention to \n) */ | |
5a419892 VZ |
1213 | } |
1214 | ||
1215 | /* | |
c0a7edde | 1216 | * scannum - scan a number |
5a419892 | 1217 | */ |
c0a7edde RN |
1218 | static int /* value, <= DUPMAX */ |
1219 | scannum(struct vars * v) | |
5a419892 | 1220 | { |
c0a7edde RN |
1221 | int n = 0; |
1222 | ||
1223 | while (SEE(DIGIT) && n < DUPMAX) | |
1224 | { | |
1225 | n = n * 10 + v->nextvalue; | |
1226 | NEXT(); | |
1227 | } | |
1228 | if (SEE(DIGIT) || n > DUPMAX) | |
1229 | { | |
1230 | ERR(REG_BADBR); | |
1231 | return 0; | |
1232 | } | |
1233 | return n; | |
5a419892 VZ |
1234 | } |
1235 | ||
1236 | /* | |
c0a7edde RN |
1237 | * repeat - replicate subNFA for quantifiers |
1238 | * | |
1239 | * The duplication sequences used here are chosen carefully so that any | |
1240 | * pointers starting out pointing into the subexpression end up pointing into | |
1241 | * the last occurrence. (Note that it may not be strung between the same | |
1242 | * left and right end states, however!) This used to be important for the | |
1243 | * subRE tree, although the important bits are now handled by the in-line | |
1244 | * code in parse(), and when this is called, it doesn't matter any more. | |
5a419892 VZ |
1245 | */ |
1246 | static void | |
c0a7edde RN |
1247 | repeat(struct vars * v, |
1248 | struct state * lp, | |
1249 | struct state * rp, | |
1250 | int m, | |
1251 | int n) | |
5a419892 | 1252 | { |
c0a7edde RN |
1253 | #define SOME 2 |
1254 | #define INF 3 | |
1255 | #define PAIR(x, y) ((x)*4 + (y)) | |
1256 | #define REDUCE(x) ( ((x) == INFINITY) ? INF : (((x) > 1) ? SOME : (x)) ) | |
1257 | const int rm = REDUCE(m); | |
1258 | const int rn = REDUCE(n); | |
1259 | struct state *s; | |
1260 | struct state *s2; | |
1261 | ||
1262 | switch (PAIR(rm, rn)) | |
1263 | { | |
1264 | case PAIR(0, 0): /* empty string */ | |
1265 | delsub(v->nfa, lp, rp); | |
1266 | EMPTYARC(lp, rp); | |
1267 | break; | |
1268 | case PAIR(0, 1): /* do as x| */ | |
1269 | EMPTYARC(lp, rp); | |
1270 | break; | |
1271 | case PAIR(0, SOME): /* do as x{1,n}| */ | |
1272 | repeat(v, lp, rp, 1, n); | |
1273 | NOERR(); | |
1274 | EMPTYARC(lp, rp); | |
1275 | break; | |
1276 | case PAIR(0, INF): /* loop x around */ | |
1277 | s = newstate(v->nfa); | |
1278 | NOERR(); | |
1279 | moveouts(v->nfa, lp, s); | |
1280 | moveins(v->nfa, rp, s); | |
1281 | EMPTYARC(lp, s); | |
1282 | EMPTYARC(s, rp); | |
1283 | break; | |
1284 | case PAIR(1, 1): /* no action required */ | |
1285 | break; | |
1286 | case PAIR(1, SOME): /* do as x{0,n-1}x = (x{1,n-1}|)x */ | |
1287 | s = newstate(v->nfa); | |
1288 | NOERR(); | |
1289 | moveouts(v->nfa, lp, s); | |
1290 | dupnfa(v->nfa, s, rp, lp, s); | |
1291 | NOERR(); | |
1292 | repeat(v, lp, s, 1, n - 1); | |
1293 | NOERR(); | |
1294 | EMPTYARC(lp, s); | |
1295 | break; | |
1296 | case PAIR(1, INF): /* add loopback arc */ | |
1297 | s = newstate(v->nfa); | |
1298 | s2 = newstate(v->nfa); | |
1299 | NOERR(); | |
1300 | moveouts(v->nfa, lp, s); | |
1301 | moveins(v->nfa, rp, s2); | |
1302 | EMPTYARC(lp, s); | |
1303 | EMPTYARC(s2, rp); | |
1304 | EMPTYARC(s2, s); | |
1305 | break; | |
1306 | case PAIR(SOME, SOME): /* do as x{m-1,n-1}x */ | |
1307 | s = newstate(v->nfa); | |
1308 | NOERR(); | |
1309 | moveouts(v->nfa, lp, s); | |
1310 | dupnfa(v->nfa, s, rp, lp, s); | |
1311 | NOERR(); | |
1312 | repeat(v, lp, s, m - 1, n - 1); | |
1313 | break; | |
1314 | case PAIR(SOME, INF): /* do as x{m-1,}x */ | |
1315 | s = newstate(v->nfa); | |
1316 | NOERR(); | |
1317 | moveouts(v->nfa, lp, s); | |
1318 | dupnfa(v->nfa, s, rp, lp, s); | |
1319 | NOERR(); | |
1320 | repeat(v, lp, s, m - 1, n); | |
1321 | break; | |
1322 | default: | |
1323 | ERR(REG_ASSERT); | |
1324 | break; | |
5a419892 VZ |
1325 | } |
1326 | } | |
1327 | ||
1328 | /* | |
c0a7edde RN |
1329 | * bracket - handle non-complemented bracket expression |
1330 | * Also called from cbracket for complemented bracket expressions. | |
5a419892 VZ |
1331 | */ |
1332 | static void | |
c0a7edde RN |
1333 | bracket(struct vars * v, |
1334 | struct state * lp, | |
1335 | struct state * rp) | |
5a419892 | 1336 | { |
c0a7edde RN |
1337 | assert(SEE('[')); |
1338 | NEXT(); | |
1339 | while (!SEE(']') && !SEE(EOS)) | |
1340 | brackpart(v, lp, rp); | |
1341 | assert(SEE(']') || ISERR()); | |
1342 | okcolors(v->nfa, v->cm); | |
5a419892 VZ |
1343 | } |
1344 | ||
1345 | /* | |
c0a7edde RN |
1346 | * cbracket - handle complemented bracket expression |
1347 | * We do it by calling bracket() with dummy endpoints, and then complementing | |
1348 | * the result. The alternative would be to invoke rainbow(), and then delete | |
1349 | * arcs as the b.e. is seen... but that gets messy. | |
5a419892 VZ |
1350 | */ |
1351 | static void | |
c0a7edde RN |
1352 | cbracket(struct vars * v, |
1353 | struct state * lp, | |
1354 | struct state * rp) | |
5a419892 | 1355 | { |
c0a7edde RN |
1356 | struct state *left = newstate(v->nfa); |
1357 | struct state *right = newstate(v->nfa); | |
1358 | struct state *s; | |
1359 | struct arc *a; /* arc from lp */ | |
1360 | struct arc *ba; /* arc from left, from bracket() */ | |
1361 | struct arc *pa; /* MCCE-prototype arc */ | |
1362 | color co; | |
1363 | chr *p; | |
1364 | int i; | |
1365 | ||
1366 | NOERR(); | |
1367 | bracket(v, left, right); | |
1368 | if (v->cflags & REG_NLSTOP) | |
1369 | newarc(v->nfa, PLAIN, v->nlcolor, left, right); | |
1370 | NOERR(); | |
1371 | ||
1372 | assert(lp->nouts == 0); /* all outarcs will be ours */ | |
1373 | ||
1374 | /* easy part of complementing */ | |
1375 | colorcomplement(v->nfa, v->cm, PLAIN, left, lp, rp); | |
1376 | NOERR(); | |
1377 | if (v->mcces == NULL) | |
1378 | { /* no MCCEs -- we're done */ | |
1379 | dropstate(v->nfa, left); | |
1380 | assert(right->nins == 0); | |
1381 | freestate(v->nfa, right); | |
5a419892 | 1382 | return; |
c0a7edde RN |
1383 | } |
1384 | ||
1385 | /* but complementing gets messy in the presence of MCCEs... */ | |
1386 | NOTE(REG_ULOCALE); | |
1387 | for (p = v->mcces->chrs, i = v->mcces->nchrs; i > 0; p++, i--) | |
1388 | { | |
1389 | co = GETCOLOR(v->cm, *p); | |
1390 | a = findarc(lp, PLAIN, co); | |
1391 | ba = findarc(left, PLAIN, co); | |
1392 | if (ba == NULL) | |
1393 | { | |
1394 | assert(a != NULL); | |
1395 | freearc(v->nfa, a); | |
1396 | } | |
1397 | else | |
1398 | assert(a == NULL); | |
1399 | s = newstate(v->nfa); | |
1400 | NOERR(); | |
1401 | newarc(v->nfa, PLAIN, co, lp, s); | |
1402 | NOERR(); | |
1403 | pa = findarc(v->mccepbegin, PLAIN, co); | |
1404 | assert(pa != NULL); | |
1405 | if (ba == NULL) | |
1406 | { /* easy case, need all of them */ | |
1407 | cloneouts(v->nfa, pa->to, s, rp, PLAIN); | |
1408 | newarc(v->nfa, '$', 1, s, rp); | |
1409 | newarc(v->nfa, '$', 0, s, rp); | |
1410 | colorcomplement(v->nfa, v->cm, AHEAD, pa->to, s, rp); | |
1411 | } | |
1412 | else | |
1413 | { /* must be selective */ | |
1414 | if (findarc(ba->to, '$', 1) == NULL) | |
1415 | { | |
1416 | newarc(v->nfa, '$', 1, s, rp); | |
1417 | newarc(v->nfa, '$', 0, s, rp); | |
1418 | colorcomplement(v->nfa, v->cm, AHEAD, pa->to, | |
1419 | s, rp); | |
1420 | } | |
1421 | for (pa = pa->to->outs; pa != NULL; pa = pa->outchain) | |
1422 | if (findarc(ba->to, PLAIN, pa->co) == NULL) | |
1423 | newarc(v->nfa, PLAIN, pa->co, s, rp); | |
1424 | if (s->nouts == 0) /* limit of selectivity: none */ | |
1425 | dropstate(v->nfa, s); /* frees arc too */ | |
1426 | } | |
1427 | NOERR(); | |
1428 | } | |
5a419892 | 1429 | |
c0a7edde RN |
1430 | delsub(v->nfa, left, right); |
1431 | assert(left->nouts == 0); | |
1432 | freestate(v->nfa, left); | |
1433 | assert(right->nins == 0); | |
1434 | freestate(v->nfa, right); | |
1435 | } | |
5a419892 | 1436 | |
c0a7edde RN |
1437 | /* |
1438 | * brackpart - handle one item (or range) within a bracket expression | |
1439 | */ | |
1440 | static void | |
1441 | brackpart(struct vars * v, | |
1442 | struct state * lp, | |
1443 | struct state * rp) | |
1444 | { | |
1445 | celt startc; | |
1446 | celt endc; | |
1447 | struct cvec *cv; | |
1448 | chr *startp; | |
1449 | chr *endp; | |
1450 | chr c[1]; | |
1451 | ||
1452 | /* parse something, get rid of special cases, take shortcuts */ | |
1453 | switch (v->nexttype) | |
1454 | { | |
1455 | case RANGE: /* a-b-c or other botch */ | |
1456 | ERR(REG_ERANGE); | |
1457 | return; | |
5a419892 | 1458 | break; |
c0a7edde RN |
1459 | case PLAIN: |
1460 | c[0] = v->nextvalue; | |
1461 | NEXT(); | |
1462 | /* shortcut for ordinary chr (not range, not MCCE leader) */ | |
1463 | if (!SEE(RANGE) && !ISCELEADER(v, c[0])) | |
1464 | { | |
1465 | onechr(v, c[0], lp, rp); | |
1466 | return; | |
1467 | } | |
1468 | startc = element(v, c, c + 1); | |
1469 | NOERR(); | |
5a419892 | 1470 | break; |
c0a7edde RN |
1471 | case COLLEL: |
1472 | startp = v->now; | |
1473 | endp = scanplain(v); | |
1474 | INSIST(startp < endp, REG_ECOLLATE); | |
1475 | NOERR(); | |
1476 | startc = element(v, startp, endp); | |
1477 | NOERR(); | |
1478 | break; | |
1479 | case ECLASS: | |
1480 | startp = v->now; | |
1481 | endp = scanplain(v); | |
1482 | INSIST(startp < endp, REG_ECOLLATE); | |
1483 | NOERR(); | |
1484 | startc = element(v, startp, endp); | |
1485 | NOERR(); | |
1486 | cv = eclass(v, startc, (v->cflags & REG_ICASE)); | |
1487 | NOERR(); | |
1488 | dovec(v, cv, lp, rp); | |
1489 | return; | |
5a419892 | 1490 | break; |
c0a7edde RN |
1491 | case CCLASS: |
1492 | startp = v->now; | |
1493 | endp = scanplain(v); | |
1494 | INSIST(startp < endp, REG_ECTYPE); | |
1495 | NOERR(); | |
1496 | cv = cclass(v, startp, endp, (v->cflags & REG_ICASE)); | |
1497 | NOERR(); | |
1498 | dovec(v, cv, lp, rp); | |
1499 | return; | |
5a419892 | 1500 | break; |
c0a7edde RN |
1501 | default: |
1502 | ERR(REG_ASSERT); | |
1503 | return; | |
5a419892 | 1504 | break; |
c0a7edde RN |
1505 | } |
1506 | ||
1507 | if (SEE(RANGE)) | |
1508 | { | |
1509 | NEXT(); | |
1510 | switch (v->nexttype) | |
1511 | { | |
1512 | case PLAIN: | |
1513 | case RANGE: | |
1514 | c[0] = v->nextvalue; | |
1515 | NEXT(); | |
1516 | endc = element(v, c, c + 1); | |
1517 | NOERR(); | |
5a419892 | 1518 | break; |
c0a7edde RN |
1519 | case COLLEL: |
1520 | startp = v->now; | |
1521 | endp = scanplain(v); | |
1522 | INSIST(startp < endp, REG_ECOLLATE); | |
1523 | NOERR(); | |
1524 | endc = element(v, startp, endp); | |
1525 | NOERR(); | |
5a419892 | 1526 | break; |
c0a7edde RN |
1527 | default: |
1528 | ERR(REG_ERANGE); | |
1529 | return; | |
5a419892 VZ |
1530 | break; |
1531 | } | |
c0a7edde RN |
1532 | } |
1533 | else | |
1534 | endc = startc; | |
1535 | ||
1536 | /* | |
1537 | * Ranges are unportable. Actually, standard C does guarantee that | |
1538 | * digits are contiguous, but making that an exception is just too | |
1539 | * complicated. | |
1540 | */ | |
1541 | if (startc != endc) | |
1542 | NOTE(REG_UUNPORT); | |
1543 | cv = range(v, startc, endc, (v->cflags & REG_ICASE)); | |
1544 | NOERR(); | |
1545 | dovec(v, cv, lp, rp); | |
5a419892 VZ |
1546 | } |
1547 | ||
1548 | /* | |
c0a7edde RN |
1549 | * scanplain - scan PLAIN contents of [. etc. |
1550 | * | |
1551 | * Certain bits of trickery in lex.c know that this code does not try | |
1552 | * to look past the final bracket of the [. etc. | |
5a419892 | 1553 | */ |
c0a7edde RN |
1554 | static chr * /* just after end of sequence */ |
1555 | scanplain(struct vars * v) | |
5a419892 | 1556 | { |
c0a7edde RN |
1557 | chr *endp; |
1558 | ||
1559 | assert(SEE(COLLEL) || SEE(ECLASS) || SEE(CCLASS)); | |
1560 | NEXT(); | |
1561 | ||
1562 | endp = v->now; | |
1563 | while (SEE(PLAIN)) | |
1564 | { | |
1565 | endp = v->now; | |
1566 | NEXT(); | |
1567 | } | |
1568 | ||
1569 | assert(SEE(END) || ISERR()); | |
1570 | NEXT(); | |
1571 | ||
1572 | return endp; | |
5a419892 VZ |
1573 | } |
1574 | ||
1575 | /* | |
c0a7edde RN |
1576 | * leaders - process a cvec of collating elements to also include leaders |
1577 | * Also gives all characters involved their own colors, which is almost | |
1578 | * certainly necessary, and sets up little disconnected subNFA. | |
5a419892 | 1579 | */ |
c0a7edde RN |
1580 | static void |
1581 | leaders(struct vars * v, | |
1582 | struct cvec * cv) | |
5a419892 | 1583 | { |
c0a7edde RN |
1584 | int mcce; |
1585 | chr *p; | |
1586 | chr leader; | |
1587 | struct state *s; | |
1588 | struct arc *a; | |
1589 | ||
1590 | v->mccepbegin = newstate(v->nfa); | |
1591 | v->mccepend = newstate(v->nfa); | |
1592 | NOERR(); | |
1593 | ||
1594 | for (mcce = 0; mcce < cv->nmcces; mcce++) | |
1595 | { | |
1596 | p = cv->mcces[mcce]; | |
1597 | leader = *p; | |
1598 | if (!haschr(cv, leader)) | |
1599 | { | |
1600 | addchr(cv, leader); | |
1601 | s = newstate(v->nfa); | |
1602 | newarc(v->nfa, PLAIN, subcolor(v->cm, leader), | |
1603 | v->mccepbegin, s); | |
1604 | okcolors(v->nfa, v->cm); | |
5a419892 | 1605 | } |
c0a7edde RN |
1606 | else |
1607 | { | |
1608 | a = findarc(v->mccepbegin, PLAIN, | |
1609 | GETCOLOR(v->cm, leader)); | |
1610 | assert(a != NULL); | |
1611 | s = a->to; | |
1612 | assert(s != v->mccepend); | |
5a419892 | 1613 | } |
c0a7edde RN |
1614 | p++; |
1615 | assert(*p != 0 && *(p + 1) == 0); /* only 2-char MCCEs for | |
1616 | * now */ | |
1617 | newarc(v->nfa, PLAIN, subcolor(v->cm, *p), s, v->mccepend); | |
1618 | okcolors(v->nfa, v->cm); | |
5a419892 | 1619 | } |
5a419892 VZ |
1620 | } |
1621 | ||
1622 | /* | |
c0a7edde RN |
1623 | * onechr - fill in arcs for a plain character, and possible case complements |
1624 | * This is mostly a shortcut for efficient handling of the common case. | |
5a419892 VZ |
1625 | */ |
1626 | static void | |
c0a7edde RN |
1627 | onechr(struct vars * v, |
1628 | chr c, | |
1629 | struct state * lp, | |
1630 | struct state * rp) | |
5a419892 | 1631 | { |
c0a7edde RN |
1632 | if (!(v->cflags & REG_ICASE)) |
1633 | { | |
1634 | newarc(v->nfa, PLAIN, subcolor(v->cm, c), lp, rp); | |
1635 | return; | |
1636 | } | |
1637 | ||
1638 | /* rats, need general case anyway... */ | |
1639 | dovec(v, allcases(v, c), lp, rp); | |
5a419892 VZ |
1640 | } |
1641 | ||
1642 | /* | |
c0a7edde RN |
1643 | * dovec - fill in arcs for each element of a cvec |
1644 | * This one has to handle the messy cases, like MCCEs and MCCE leaders. | |
5a419892 | 1645 | */ |
c0a7edde RN |
1646 | static void |
1647 | dovec(struct vars * v, | |
1648 | struct cvec * cv, | |
1649 | struct state * lp, | |
1650 | struct state * rp) | |
5a419892 | 1651 | { |
c0a7edde RN |
1652 | chr ch, |
1653 | from, | |
1654 | to; | |
1655 | celt ce; | |
1656 | chr *p; | |
1657 | int i; | |
1658 | color co; | |
1659 | struct cvec *leads; | |
1660 | struct arc *a; | |
1661 | struct arc *pa; /* arc in prototype */ | |
1662 | struct state *s; | |
1663 | struct state *ps; /* state in prototype */ | |
1664 | ||
1665 | /* need a place to store leaders, if any */ | |
1666 | if (nmcces(v) > 0) | |
1667 | { | |
1668 | assert(v->mcces != NULL); | |
1669 | if (v->cv2 == NULL || v->cv2->nchrs < v->mcces->nchrs) | |
1670 | { | |
1671 | if (v->cv2 != NULL) | |
1672 | free(v->cv2); | |
1673 | v->cv2 = newcvec(v->mcces->nchrs, 0, v->mcces->nmcces); | |
1674 | NOERR(); | |
1675 | leads = v->cv2; | |
5a419892 | 1676 | } |
c0a7edde RN |
1677 | else |
1678 | leads = clearcvec(v->cv2); | |
1679 | } | |
1680 | else | |
1681 | leads = NULL; | |
1682 | ||
1683 | /* first, get the ordinary characters out of the way */ | |
1684 | for (p = cv->chrs, i = cv->nchrs; i > 0; p++, i--) | |
1685 | { | |
1686 | ch = *p; | |
1687 | if (!ISCELEADER(v, ch)) | |
1688 | newarc(v->nfa, PLAIN, subcolor(v->cm, ch), lp, rp); | |
1689 | else | |
1690 | { | |
1691 | assert(singleton(v->cm, ch)); | |
1692 | assert(leads != NULL); | |
1693 | if (!haschr(leads, ch)) | |
1694 | addchr(leads, ch); | |
1695 | } | |
1696 | } | |
5a419892 | 1697 | |
c0a7edde RN |
1698 | /* and the ranges */ |
1699 | for (p = cv->ranges, i = cv->nranges; i > 0; p += 2, i--) | |
1700 | { | |
1701 | from = *p; | |
1702 | to = *(p + 1); | |
1703 | while (from <= to && (ce = nextleader(v, from, to)) != NOCELT) | |
1704 | { | |
1705 | if (from < ce) | |
1706 | subrange(v, from, ce - 1, lp, rp); | |
1707 | assert(singleton(v->cm, ce)); | |
1708 | assert(leads != NULL); | |
1709 | if (!haschr(leads, ce)) | |
1710 | addchr(leads, ce); | |
1711 | from = ce + 1; | |
1712 | } | |
1713 | if (from <= to) | |
1714 | subrange(v, from, to, lp, rp); | |
5a419892 VZ |
1715 | } |
1716 | ||
c0a7edde RN |
1717 | if ((leads == NULL || leads->nchrs == 0) && cv->nmcces == 0) |
1718 | return; | |
5a419892 | 1719 | |
c0a7edde RN |
1720 | /* deal with the MCCE leaders */ |
1721 | NOTE(REG_ULOCALE); | |
1722 | for (p = leads->chrs, i = leads->nchrs; i > 0; p++, i--) | |
1723 | { | |
1724 | co = GETCOLOR(v->cm, *p); | |
1725 | a = findarc(lp, PLAIN, co); | |
1726 | if (a != NULL) | |
1727 | s = a->to; | |
1728 | else | |
1729 | { | |
1730 | s = newstate(v->nfa); | |
1731 | NOERR(); | |
1732 | newarc(v->nfa, PLAIN, co, lp, s); | |
1733 | NOERR(); | |
1734 | } | |
1735 | pa = findarc(v->mccepbegin, PLAIN, co); | |
1736 | assert(pa != NULL); | |
1737 | ps = pa->to; | |
1738 | newarc(v->nfa, '$', 1, s, rp); | |
1739 | newarc(v->nfa, '$', 0, s, rp); | |
1740 | colorcomplement(v->nfa, v->cm, AHEAD, ps, s, rp); | |
1741 | NOERR(); | |
1742 | } | |
1743 | ||
1744 | /* and the MCCEs */ | |
1745 | for (i = 0; i < cv->nmcces; i++) | |
1746 | { | |
1747 | p = cv->mcces[i]; | |
1748 | assert(singleton(v->cm, *p)); | |
1749 | if (!singleton(v->cm, *p)) | |
1750 | { | |
1751 | ERR(REG_ASSERT); | |
1752 | return; | |
1753 | } | |
1754 | ch = *p++; | |
1755 | co = GETCOLOR(v->cm, ch); | |
1756 | a = findarc(lp, PLAIN, co); | |
1757 | if (a != NULL) | |
1758 | s = a->to; | |
1759 | else | |
1760 | { | |
1761 | s = newstate(v->nfa); | |
1762 | NOERR(); | |
1763 | newarc(v->nfa, PLAIN, co, lp, s); | |
1764 | NOERR(); | |
1765 | } | |
1766 | assert(*p != 0); /* at least two chars */ | |
1767 | assert(singleton(v->cm, *p)); | |
1768 | ch = *p++; | |
1769 | co = GETCOLOR(v->cm, ch); | |
1770 | assert(*p == 0); /* and only two, for now */ | |
1771 | newarc(v->nfa, PLAIN, co, s, rp); | |
1772 | NOERR(); | |
1773 | } | |
5a419892 VZ |
1774 | } |
1775 | ||
1776 | /* | |
c0a7edde | 1777 | * nextleader - find next MCCE leader within range |
5a419892 | 1778 | */ |
c0a7edde RN |
1779 | static celt /* NOCELT means none */ |
1780 | nextleader(struct vars * v, | |
1781 | chr from, | |
1782 | chr to) | |
5a419892 | 1783 | { |
c0a7edde RN |
1784 | int i; |
1785 | chr *p; | |
1786 | chr ch; | |
1787 | celt it = NOCELT; | |
1788 | ||
1789 | if (v->mcces == NULL) | |
1790 | return it; | |
1791 | ||
1792 | for (i = v->mcces->nchrs, p = v->mcces->chrs; i > 0; i--, p++) | |
1793 | { | |
1794 | ch = *p; | |
1795 | if (from <= ch && ch <= to) | |
1796 | if (it == NOCELT || ch < it) | |
1797 | it = ch; | |
1798 | } | |
1799 | return it; | |
5a419892 VZ |
1800 | } |
1801 | ||
1802 | /* | |
c0a7edde RN |
1803 | * wordchrs - set up word-chr list for word-boundary stuff, if needed |
1804 | * | |
1805 | * The list is kept as a bunch of arcs between two dummy states; it's | |
1806 | * disposed of by the unreachable-states sweep in NFA optimization. | |
1807 | * Does NEXT(). Must not be called from any unusual lexical context. | |
1808 | * This should be reconciled with the \w etc. handling in lex.c, and | |
1809 | * should be cleaned up to reduce dependencies on input scanning. | |
5a419892 VZ |
1810 | */ |
1811 | static void | |
c0a7edde | 1812 | wordchrs(struct vars * v) |
5a419892 | 1813 | { |
c0a7edde RN |
1814 | struct state *left; |
1815 | struct state *right; | |
5a419892 | 1816 | |
c0a7edde RN |
1817 | if (v->wordchrs != NULL) |
1818 | { | |
1819 | NEXT(); /* for consistency */ | |
5a419892 VZ |
1820 | return; |
1821 | } | |
1822 | ||
c0a7edde RN |
1823 | left = newstate(v->nfa); |
1824 | right = newstate(v->nfa); | |
1825 | NOERR(); | |
1826 | /* fine point: implemented with [::], and lexer will set REG_ULOCALE */ | |
1827 | lexword(v); | |
1828 | NEXT(); | |
1829 | assert(v->savenow != NULL && SEE('[')); | |
1830 | bracket(v, left, right); | |
1831 | assert((v->savenow != NULL && SEE(']')) || ISERR()); | |
1832 | NEXT(); | |
1833 | NOERR(); | |
1834 | v->wordchrs = left; | |
5a419892 VZ |
1835 | } |
1836 | ||
1837 | /* | |
c0a7edde | 1838 | * subre - allocate a subre |
5a419892 | 1839 | */ |
c0a7edde RN |
1840 | static struct subre * |
1841 | subre(struct vars * v, | |
1842 | int op, | |
1843 | int flags, | |
1844 | struct state * begin, | |
1845 | struct state * end) | |
5a419892 | 1846 | { |
c0a7edde | 1847 | struct subre *ret; |
5a419892 | 1848 | |
c0a7edde RN |
1849 | ret = v->treefree; |
1850 | if (ret != NULL) | |
1851 | v->treefree = ret->left; | |
1852 | else | |
1853 | { | |
1854 | ret = (struct subre *) MALLOC(sizeof(struct subre)); | |
1855 | if (ret == NULL) | |
1856 | { | |
1857 | ERR(REG_ESPACE); | |
1858 | return NULL; | |
1859 | } | |
1860 | ret->chain = v->treechain; | |
1861 | v->treechain = ret; | |
5a419892 VZ |
1862 | } |
1863 | ||
c0a7edde | 1864 | assert(strchr("|.b(=", op) != NULL); |
5a419892 | 1865 | |
c0a7edde RN |
1866 | ret->op = op; |
1867 | ret->flags = flags; | |
1868 | ret->retry = 0; | |
1869 | ret->subno = 0; | |
1870 | ret->min = ret->max = 1; | |
1871 | ret->left = NULL; | |
1872 | ret->right = NULL; | |
1873 | ret->begin = begin; | |
1874 | ret->end = end; | |
1875 | ZAPCNFA(ret->cnfa); | |
1876 | ||
1877 | return ret; | |
5a419892 VZ |
1878 | } |
1879 | ||
1880 | /* | |
c0a7edde | 1881 | * freesubre - free a subRE subtree |
5a419892 | 1882 | */ |
c0a7edde RN |
1883 | static void |
1884 | freesubre(struct vars * v, /* might be NULL */ | |
1885 | struct subre * sr) | |
5a419892 | 1886 | { |
c0a7edde RN |
1887 | if (sr == NULL) |
1888 | return; | |
1889 | ||
1890 | if (sr->left != NULL) | |
1891 | freesubre(v, sr->left); | |
1892 | if (sr->right != NULL) | |
1893 | freesubre(v, sr->right); | |
1894 | ||
1895 | freesrnode(v, sr); | |
5a419892 VZ |
1896 | } |
1897 | ||
1898 | /* | |
c0a7edde | 1899 | * freesrnode - free one node in a subRE subtree |
5a419892 VZ |
1900 | */ |
1901 | static void | |
c0a7edde RN |
1902 | freesrnode(struct vars * v, /* might be NULL */ |
1903 | struct subre * sr) | |
5a419892 | 1904 | { |
c0a7edde RN |
1905 | if (sr == NULL) |
1906 | return; | |
1907 | ||
1908 | if (!NULLCNFA(sr->cnfa)) | |
1909 | freecnfa(&sr->cnfa); | |
1910 | sr->flags = 0; | |
1911 | ||
1912 | if (v != NULL) | |
1913 | { | |
1914 | sr->left = v->treefree; | |
1915 | v->treefree = sr; | |
1916 | } | |
1917 | else | |
1918 | FREE(sr); | |
5a419892 VZ |
1919 | } |
1920 | ||
1921 | /* | |
c0a7edde | 1922 | * optst - optimize a subRE subtree |
5a419892 VZ |
1923 | */ |
1924 | static void | |
c0a7edde RN |
1925 | optst(struct vars * v, |
1926 | struct subre * t) | |
5a419892 | 1927 | { |
c0a7edde RN |
1928 | if (t == NULL) |
1929 | return; | |
1930 | ||
1931 | /* recurse through children */ | |
1932 | if (t->left != NULL) | |
1933 | optst(v, t->left); | |
1934 | if (t->right != NULL) | |
1935 | optst(v, t->right); | |
5a419892 VZ |
1936 | } |
1937 | ||
1938 | /* | |
c0a7edde | 1939 | * numst - number tree nodes (assigning retry indexes) |
5a419892 | 1940 | */ |
c0a7edde RN |
1941 | static int /* next number */ |
1942 | numst(struct subre * t, | |
1943 | int start) /* starting point for subtree numbers */ | |
5a419892 | 1944 | { |
c0a7edde RN |
1945 | int i; |
1946 | ||
1947 | assert(t != NULL); | |
1948 | ||
1949 | i = start; | |
1950 | t->retry = (short) i++; | |
1951 | if (t->left != NULL) | |
1952 | i = numst(t->left, i); | |
1953 | if (t->right != NULL) | |
1954 | i = numst(t->right, i); | |
1955 | return i; | |
5a419892 VZ |
1956 | } |
1957 | ||
1958 | /* | |
c0a7edde | 1959 | * markst - mark tree nodes as INUSE |
5a419892 | 1960 | */ |
c0a7edde RN |
1961 | static void |
1962 | markst(struct subre * t) | |
5a419892 | 1963 | { |
c0a7edde RN |
1964 | assert(t != NULL); |
1965 | ||
1966 | t->flags |= INUSE; | |
1967 | if (t->left != NULL) | |
1968 | markst(t->left); | |
1969 | if (t->right != NULL) | |
1970 | markst(t->right); | |
5a419892 VZ |
1971 | } |
1972 | ||
1973 | /* | |
c0a7edde | 1974 | * cleanst - free any tree nodes not marked INUSE |
5a419892 VZ |
1975 | */ |
1976 | static void | |
c0a7edde | 1977 | cleanst(struct vars * v) |
5a419892 | 1978 | { |
c0a7edde RN |
1979 | struct subre *t; |
1980 | struct subre *next; | |
1981 | ||
1982 | for (t = v->treechain; t != NULL; t = next) | |
1983 | { | |
1984 | next = t->chain; | |
1985 | if (!(t->flags & INUSE)) | |
1986 | FREE(t); | |
5a419892 | 1987 | } |
c0a7edde RN |
1988 | v->treechain = NULL; |
1989 | v->treefree = NULL; /* just on general principles */ | |
5a419892 VZ |
1990 | } |
1991 | ||
1992 | /* | |
c0a7edde | 1993 | * nfatree - turn a subRE subtree into a tree of compacted NFAs |
5a419892 | 1994 | */ |
c0a7edde RN |
1995 | static long /* optimize results from top node */ |
1996 | nfatree(struct vars * v, | |
1997 | struct subre * t, | |
1998 | FILE *f) /* for debug output */ | |
5a419892 | 1999 | { |
c0a7edde RN |
2000 | assert(t != NULL && t->begin != NULL); |
2001 | ||
2002 | if (t->left != NULL) | |
2003 | (DISCARD) nfatree(v, t->left, f); | |
2004 | if (t->right != NULL) | |
2005 | (DISCARD) nfatree(v, t->right, f); | |
2006 | ||
2007 | return nfanode(v, t, f); | |
5a419892 VZ |
2008 | } |
2009 | ||
2010 | /* | |
c0a7edde | 2011 | * nfanode - do one NFA for nfatree |
5a419892 | 2012 | */ |
c0a7edde RN |
2013 | static long /* optimize results */ |
2014 | nfanode(struct vars * v, | |
2015 | struct subre * t, | |
2016 | FILE *f) /* for debug output */ | |
5a419892 | 2017 | { |
c0a7edde RN |
2018 | struct nfa *nfa; |
2019 | long ret = 0; | |
5a419892 | 2020 | |
c0a7edde | 2021 | assert(t->begin != NULL); |
5a419892 | 2022 | |
c0a7edde RN |
2023 | #ifdef REG_DEBUG |
2024 | if (f != NULL) | |
2025 | { | |
2026 | char idbuf[50]; | |
5a419892 | 2027 | |
c0a7edde RN |
2028 | fprintf(f, "\n\n\n========= TREE NODE %s ==========\n", |
2029 | stid(t, idbuf, sizeof(idbuf))); | |
2030 | } | |
2031 | #endif | |
2032 | nfa = newnfa(v, v->cm, v->nfa); | |
2033 | NOERRZ(); | |
2034 | dupnfa(nfa, t->begin, t->end, nfa->init, nfa->final); | |
2035 | if (!ISERR()) | |
2036 | { | |
2037 | specialcolors(nfa); | |
2038 | ret = optimize(nfa, f); | |
2039 | } | |
2040 | if (!ISERR()) | |
2041 | compact(nfa, &t->cnfa); | |
2042 | ||
2043 | freenfa(nfa); | |
2044 | return ret; | |
5a419892 VZ |
2045 | } |
2046 | ||
2047 | /* | |
c0a7edde | 2048 | * newlacon - allocate a lookahead-constraint subRE |
5a419892 | 2049 | */ |
c0a7edde RN |
2050 | static int /* lacon number */ |
2051 | newlacon(struct vars * v, | |
2052 | struct state * begin, | |
2053 | struct state * end, | |
2054 | int pos) | |
5a419892 | 2055 | { |
c0a7edde RN |
2056 | int n; |
2057 | struct subre *sub; | |
2058 | ||
2059 | if (v->nlacons == 0) | |
2060 | { | |
2061 | v->lacons = (struct subre *) MALLOC(2 * sizeof(struct subre)); | |
2062 | n = 1; /* skip 0th */ | |
2063 | v->nlacons = 2; | |
5a419892 | 2064 | } |
c0a7edde RN |
2065 | else |
2066 | { | |
2067 | v->lacons = (struct subre *) REALLOC(v->lacons, | |
2068 | (v->nlacons + 1) * sizeof(struct subre)); | |
2069 | n = v->nlacons++; | |
5a419892 | 2070 | } |
c0a7edde RN |
2071 | if (v->lacons == NULL) |
2072 | { | |
2073 | ERR(REG_ESPACE); | |
2074 | return 0; | |
5a419892 | 2075 | } |
c0a7edde RN |
2076 | sub = &v->lacons[n]; |
2077 | sub->begin = begin; | |
2078 | sub->end = end; | |
2079 | sub->subno = pos; | |
2080 | ZAPCNFA(sub->cnfa); | |
2081 | return n; | |
5a419892 VZ |
2082 | } |
2083 | ||
2084 | /* | |
c0a7edde | 2085 | * freelacons - free lookahead-constraint subRE vector |
5a419892 VZ |
2086 | */ |
2087 | static void | |
c0a7edde RN |
2088 | freelacons(struct subre * subs, |
2089 | int n) | |
5a419892 | 2090 | { |
c0a7edde RN |
2091 | struct subre *sub; |
2092 | int i; | |
2093 | ||
2094 | assert(n > 0); | |
2095 | for (sub = subs + 1, i = n - 1; i > 0; sub++, i--) /* no 0th */ | |
2096 | if (!NULLCNFA(sub->cnfa)) | |
2097 | freecnfa(&sub->cnfa); | |
2098 | FREE(subs); | |
5a419892 VZ |
2099 | } |
2100 | ||
2101 | /* | |
c0a7edde | 2102 | * rfree - free a whole RE (insides of regfree) |
5a419892 VZ |
2103 | */ |
2104 | static void | |
c0a7edde | 2105 | rfree(regex_t *re) |
5a419892 | 2106 | { |
c0a7edde | 2107 | struct guts *g; |
5a419892 | 2108 | |
c0a7edde | 2109 | if (re == NULL || re->re_magic != REMAGIC) |
5a419892 VZ |
2110 | return; |
2111 | ||
c0a7edde RN |
2112 | re->re_magic = 0; /* invalidate RE */ |
2113 | g = (struct guts *) re->re_guts; | |
2114 | re->re_guts = NULL; | |
2115 | re->re_fns = NULL; | |
2116 | g->magic = 0; | |
2117 | freecm(&g->cmap); | |
2118 | if (g->tree != NULL) | |
2119 | freesubre((struct vars *) NULL, g->tree); | |
2120 | if (g->lacons != NULL) | |
2121 | freelacons(g->lacons, g->nlacons); | |
2122 | if (!NULLCNFA(g->search)) | |
2123 | freecnfa(&g->search); | |
2124 | FREE(g); | |
5a419892 VZ |
2125 | } |
2126 | ||
c0a7edde RN |
2127 | #ifdef REG_DEBUG |
2128 | ||
5a419892 | 2129 | /* |
c0a7edde | 2130 | * dump - dump an RE in human-readable form |
5a419892 VZ |
2131 | */ |
2132 | static void | |
c0a7edde RN |
2133 | dump(regex_t *re, |
2134 | FILE *f) | |
5a419892 | 2135 | { |
c0a7edde RN |
2136 | struct guts *g; |
2137 | int i; | |
2138 | ||
2139 | if (re->re_magic != REMAGIC) | |
2140 | fprintf(f, "bad magic number (0x%x not 0x%x)\n", re->re_magic, | |
2141 | REMAGIC); | |
2142 | if (re->re_guts == NULL) | |
2143 | { | |
2144 | fprintf(f, "NULL guts!!!\n"); | |
2145 | return; | |
5a419892 | 2146 | } |
c0a7edde RN |
2147 | g = (struct guts *) re->re_guts; |
2148 | if (g->magic != GUTSMAGIC) | |
2149 | fprintf(f, "bad guts magic number (0x%x not 0x%x)\n", g->magic, | |
2150 | GUTSMAGIC); | |
2151 | ||
2152 | fprintf(f, "\n\n\n========= DUMP ==========\n"); | |
2153 | fprintf(f, "nsub %d, info 0%lo, csize %d, ntree %d\n", | |
2154 | re->re_nsub, re->re_info, re->re_csize, g->ntree); | |
2155 | ||
2156 | dumpcolors(&g->cmap, f); | |
2157 | if (!NULLCNFA(g->search)) | |
2158 | { | |
2159 | printf("\nsearch:\n"); | |
2160 | dumpcnfa(&g->search, f); | |
2161 | } | |
2162 | for (i = 1; i < g->nlacons; i++) | |
2163 | { | |
2164 | fprintf(f, "\nla%d (%s):\n", i, | |
2165 | (g->lacons[i].subno) ? "positive" : "negative"); | |
2166 | dumpcnfa(&g->lacons[i].cnfa, f); | |
2167 | } | |
2168 | fprintf(f, "\n"); | |
2169 | dumpst(g->tree, f, 0); | |
5a419892 VZ |
2170 | } |
2171 | ||
2172 | /* | |
c0a7edde | 2173 | * dumpst - dump a subRE tree |
5a419892 VZ |
2174 | */ |
2175 | static void | |
c0a7edde RN |
2176 | dumpst(struct subre * t, |
2177 | FILE *f, | |
2178 | int nfapresent) /* is the original NFA still around? */ | |
5a419892 | 2179 | { |
c0a7edde RN |
2180 | if (t == NULL) |
2181 | fprintf(f, "null tree\n"); | |
2182 | else | |
2183 | stdump(t, f, nfapresent); | |
2184 | fflush(f); | |
2185 | } | |
5a419892 | 2186 | |
c0a7edde RN |
2187 | /* |
2188 | * stdump - recursive guts of dumpst | |
2189 | */ | |
2190 | static void | |
2191 | stdump(struct subre * t, | |
2192 | FILE *f, | |
2193 | int nfapresent) /* is the original NFA still around? */ | |
2194 | { | |
2195 | char idbuf[50]; | |
2196 | ||
2197 | fprintf(f, "%s. `%c'", stid(t, idbuf, sizeof(idbuf)), t->op); | |
2198 | if (t->flags & LONGER) | |
2199 | fprintf(f, " longest"); | |
2200 | if (t->flags & SHORTER) | |
2201 | fprintf(f, " shortest"); | |
2202 | if (t->flags & MIXED) | |
2203 | fprintf(f, " hasmixed"); | |
2204 | if (t->flags & CAP) | |
2205 | fprintf(f, " hascapture"); | |
2206 | if (t->flags & BACKR) | |
2207 | fprintf(f, " hasbackref"); | |
2208 | if (!(t->flags & INUSE)) | |
2209 | fprintf(f, " UNUSED"); | |
2210 | if (t->subno != 0) | |
2211 | fprintf(f, " (#%d)", t->subno); | |
2212 | if (t->min != 1 || t->max != 1) | |
2213 | { | |
2214 | fprintf(f, " {%d,", t->min); | |
2215 | if (t->max != INFINITY) | |
2216 | fprintf(f, "%d", t->max); | |
2217 | fprintf(f, "}"); | |
5a419892 | 2218 | } |
c0a7edde RN |
2219 | if (nfapresent) |
2220 | fprintf(f, " %ld-%ld", (long) t->begin->no, (long) t->end->no); | |
2221 | if (t->left != NULL) | |
2222 | fprintf(f, " L:%s", stid(t->left, idbuf, sizeof(idbuf))); | |
2223 | if (t->right != NULL) | |
2224 | fprintf(f, " R:%s", stid(t->right, idbuf, sizeof(idbuf))); | |
2225 | if (!NULLCNFA(t->cnfa)) | |
2226 | { | |
2227 | fprintf(f, "\n"); | |
2228 | dumpcnfa(&t->cnfa, f); | |
2229 | fprintf(f, "\n"); | |
5a419892 | 2230 | } |
c0a7edde RN |
2231 | if (t->left != NULL) |
2232 | stdump(t->left, f, nfapresent); | |
2233 | if (t->right != NULL) | |
2234 | stdump(t->right, f, nfapresent); | |
5a419892 VZ |
2235 | } |
2236 | ||
2237 | /* | |
c0a7edde | 2238 | * stid - identify a subtree node for dumping |
5a419892 | 2239 | */ |
c0a7edde RN |
2240 | static char * /* points to buf or constant string */ |
2241 | stid(struct subre * t, | |
2242 | char *buf, | |
2243 | size_t bufsize) | |
5a419892 | 2244 | { |
c0a7edde RN |
2245 | /* big enough for hex int or decimal t->retry? */ |
2246 | if (bufsize < sizeof(int) * 2 + 3 || bufsize < sizeof(t->retry) * 3 + 1) | |
2247 | return "unable"; | |
2248 | if (t->retry != 0) | |
2249 | sprintf(buf, "%d", t->retry); | |
2250 | else | |
2251 | sprintf(buf, "0x%x", (int) t); /* may lose bits, that's okay */ | |
2252 | return buf; | |
5a419892 | 2253 | } |
c0a7edde RN |
2254 | #endif /* REG_DEBUG */ |
2255 | ||
2256 | ||
2257 | #include "regc_lex.c" | |
2258 | #include "regc_color.c" | |
2259 | #include "regc_nfa.c" | |
2260 | #include "regc_cvec.c" | |
2261 | #include "regc_locale.c" |