Call mpdm_dump_1() instead of dump_1() in mpdm_dumper().
[mpdm.git] / mpdm_r.c
blob115b8017b4a11e58ce33d01ffca3b2984f1bcad0
1 /*
3 MPDM - Minimum Profit Data Manager
4 Copyright (C) 2003/2007 Angel Ortega <angel@triptico.com>
6 mpdm_r.c - Regular expressions
8 This program is free software; you can redistribute it and/or
9 modify it under the terms of the GNU General Public License
10 as published by the Free Software Foundation; either version 2
11 of the License, or (at your option) any later version.
13 This program is distributed in the hope that it will be useful,
14 but WITHOUT ANY WARRANTY; without even the implied warranty of
15 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 GNU General Public License for more details.
18 You should have received a copy of the GNU General Public License
19 along with this program; if not, write to the Free Software
20 Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
22 http://www.triptico.com
26 #include "config.h"
28 #include <stdio.h>
29 #include <stdlib.h>
30 #include <string.h>
31 #include <wchar.h>
33 #include "mpdm.h"
35 #ifdef CONFOPT_PCRE
36 #include <pcreposix.h>
37 #endif
39 #ifdef CONFOPT_SYSTEM_REGEX
40 #include <regex.h>
41 #endif
43 #ifdef CONFOPT_INCLUDED_REGEX
44 #include "gnu_regex.h"
45 #endif
47 /*******************
48 Data
49 ********************/
51 /* matching of the last regex */
53 int mpdm_regex_offset = -1;
54 int mpdm_regex_size = 0;
56 /* number of substitutions in last sregex */
58 int mpdm_sregex_count = 0;
60 /*******************
61 Code
62 ********************/
64 static wchar_t *regex_flags(const mpdm_t r)
66 return wcsrchr((wchar_t *) r->data, *(wchar_t *) r->data);
70 static mpdm_t mpdm_regcomp(mpdm_t r)
72 mpdm_t c = NULL;
73 mpdm_t regex_cache = NULL;
75 /* if cache does not exist, create it */
76 if ((regex_cache = mpdm_hget_s(mpdm_root(), L"__REGEX_CACHE__")) == NULL) {
77 regex_cache = MPDM_H(0);
78 mpdm_hset_s(mpdm_root(), L"__REGEX_CACHE__", regex_cache);
81 /* search the regex in the cache */
82 if ((c = mpdm_hget(regex_cache, r)) == NULL) {
83 mpdm_t rmb;
84 regex_t re;
85 char *regex;
86 char *flags;
87 int f = REG_EXTENDED;
89 /* not found; regex must be compiled */
91 /* convert to mbs */
92 rmb = MPDM_2MBS(r->data);
94 regex = (char *) rmb->data;
95 if ((flags = strrchr(regex, *regex)) == NULL)
96 return NULL;
98 if (strchr(flags, 'i') != NULL)
99 f |= REG_ICASE;
100 if (strchr(flags, 'm') != NULL)
101 f |= REG_NEWLINE;
103 regex++;
104 *flags = '\0';
106 if (!regcomp(&re, regex, f)) {
107 void *ptr;
109 if ((ptr = malloc(sizeof(regex_t))) != NULL) {
110 /* copies */
111 memcpy(ptr, &re, sizeof(regex_t));
113 /* create value */
114 c = mpdm_new(MPDM_FREE, ptr, sizeof(regex_t));
116 /* stores */
117 mpdm_hset(regex_cache, r, c);
122 return c;
126 static mpdm_t regex1(mpdm_t r, const mpdm_t v, int offset)
127 /* test for one regex */
129 mpdm_t w = NULL;
130 mpdm_t cr;
132 /* no matching yet */
133 mpdm_regex_offset = -1;
135 /* compile the regex */
136 if ((cr = mpdm_regcomp(r)) != NULL) {
137 regmatch_t rm;
138 char *ptr;
139 wchar_t *last;
140 int o = 0;
141 int f = 0;
143 /* takes pointer to 'last' flag */
144 if ((last = regex_flags(r)) != NULL)
145 last = wcschr(last, 'l');
147 /* convert to mbs */
148 ptr = mpdm_wcstombs((wchar_t *) v->data + offset, NULL);
150 /* match? */
151 while (regexec((regex_t *) cr->data, ptr + o, 1,
152 &rm, offset > 0 ? REG_NOTBOL : 0) == 0) {
153 f++;
155 /* if 'last' is not set, it's done */
156 if (last == NULL)
157 break;
159 rm.rm_so += o;
160 rm.rm_eo += o;
161 o = rm.rm_eo;
164 if (f) {
165 /* converts to mbs the string from the beginning
166 to the start of the match, just to know
167 the size (and immediately frees it) */
168 free(mpdm_mbstowcs(ptr, &mpdm_regex_offset, rm.rm_so));
170 /* add the offset */
171 mpdm_regex_offset += offset;
173 /* create now the matching string */
174 w = MPDM_NMBS(ptr + rm.rm_so, rm.rm_eo - rm.rm_so);
176 /* and store the size */
177 mpdm_regex_size = mpdm_size(w);
180 free(ptr);
183 return w;
188 * mpdm_regex - Matches a regular expression.
189 * @r: the regular expression
190 * @v: the value to be matched
191 * @offset: offset from the start of v->data
193 * Matches a regular expression against a value. Valid flags are 'i',
194 * for case-insensitive matching, 'm', to treat the string as a
195 * multiline string (i.e., one containing newline characters), so
196 * that ^ and $ match the boundaries of each line instead of the
197 * whole string, 'l', to return the last matching instead of the
198 * first one, or 'g', to match globally; in that last case, an array
199 * containing all matches is returned instead of a string scalar.
201 * If @r is a string, an ordinary regular expression matching is tried
202 * over the @v string. If the matching is possible, the match result
203 * is returned, or NULL otherwise.
205 * If @r is an array (of strings), each element is tried sequentially
206 * as an individual regular expression over the @v string, each one using
207 * the offset returned by the previous match. All regular expressions
208 * must match to be successful. If this is the case, an array (with
209 * the same number of arguments) is returned containing the matched
210 * strings, or NULL otherwise.
212 * If @r is NULL, the result of the previous regex matching
213 * is returned as a two element array. The first element will contain
214 * the character offset of the matching and the second the number of
215 * characters matched. If the previous regex was unsuccessful, NULL
216 * is returned.
217 * [Regular Expressions]
219 mpdm_t mpdm_regex(mpdm_t r, const mpdm_t v, int offset)
221 mpdm_t w = NULL;
223 /* special case: if r is NULL, return previous match */
224 if (r == NULL) {
225 /* if previous regex was successful... */
226 if (mpdm_regex_offset != -1) {
227 w = MPDM_A(2);
229 mpdm_aset(w, MPDM_I(mpdm_regex_offset), 0);
230 mpdm_aset(w, MPDM_I(mpdm_regex_size), 1);
233 return w;
236 /* if the string to be tested is NULL, return NULL */
237 if (v == NULL)
238 return NULL;
240 if (r->flags & MPDM_MULTIPLE) {
241 int n;
242 mpdm_t t;
244 /* multiple value; try sequentially all regexes,
245 moving the offset forward */
247 w = MPDM_A(mpdm_size(r));
249 for (n = 0; n < mpdm_size(r); n++) {
250 t = mpdm_regex(mpdm_aget(r, n), v, offset);
252 /* if not found, invalid all search and exit */
253 if (t == NULL) {
254 w = NULL;
255 break;
258 /* found; store and move forward */
259 mpdm_aset(w, t, n);
260 offset = mpdm_regex_offset + mpdm_regex_size;
263 else {
264 wchar_t *global;
266 /* takes pointer to 'global' flag */
267 if ((global = regex_flags(r)) != NULL)
268 global = wcschr(global, 'g');
270 if (global != NULL) {
271 mpdm_t t;
273 /* match sequentially until done */
274 w = MPDM_A(0);
276 while ((t = regex1(r, v, offset)) != NULL) {
277 mpdm_push(w, t);
279 offset = mpdm_regex_offset + mpdm_regex_size;
282 /* no matches? convert to NULL */
283 if (mpdm_size(w) == 0)
284 w = NULL;
286 else
287 w = regex1(r, v, offset);
290 return w;
294 static mpdm_t expand_ampersands(const mpdm_t s, const mpdm_t t)
295 /* substitutes all unescaped ampersands in s with t */
297 const wchar_t *sptr = mpdm_string(s);
298 wchar_t *wptr;
299 mpdm_t r = NULL;
301 if (s == NULL)
302 return s;
304 while ((wptr = wcschr(sptr, L'\\')) != NULL ||
305 (wptr = wcschr(sptr, L'&')) != NULL) {
306 int n = wptr - sptr;
308 /* add the leading part */
309 r = mpdm_strcat(r, MPDM_NS(sptr, n));
311 if (*wptr == L'\\') {
312 if (*(wptr + 1) == L'&' || *(wptr + 1) == L'\\')
313 wptr++;
315 r = mpdm_strcat(r, MPDM_NS(wptr, 1));
317 else
318 if (*wptr == '&')
319 r = mpdm_strcat(r, t);
321 sptr = wptr + 1;
324 if (r == NULL)
325 r = s;
326 else {
327 /* add the rest of the string */
328 r = mpdm_strcat(r, MPDM_S(sptr));
331 return r;
336 * mpdm_sregex - Matches and substitutes a regular expression.
337 * @r: the regular expression
338 * @v: the value to be matched
339 * @s: the substitution string, hash or code
340 * @offset: offset from the start of v->data
342 * Matches a regular expression against a value, and substitutes the
343 * found substring with @s. Valid flags are 'i', for case-insensitive
344 * matching, and 'g', for global replacements (all ocurrences in @v
345 * will be replaced, instead of just the first found one).
347 * If @s is executable, it's executed with the matched part as
348 * the only argument and its return value is used as the
349 * substitution string.
351 * If @s is a hash, the matched string is used as a key to it and
352 * its value used as the substitution. If this value itself is
353 * executable, it's executed with the matched string as its only
354 * argument and its return value used as the substitution.
356 * If @r is NULL, returns the number of substitutions made in the
357 * previous call to mpdm_sregex() (can be zero if none was done).
359 * The global variables @mpdm_regex_offset and @mpdm_regex_size are
360 * set to the offset of the matched string and the size of the
361 * replaced string, respectively.
363 * Returns the modified string, or the original one if no substitutions
364 * were done.
365 * [Regular Expressions]
367 mpdm_t mpdm_sregex(mpdm_t r, const mpdm_t v, const mpdm_t s, int offset)
369 mpdm_t cr;
370 mpdm_t o = v;
372 if (r == NULL) {
373 /* return last count */
374 return MPDM_I(mpdm_sregex_count);
377 if (v == NULL)
378 return NULL;
380 /* compile the regex */
381 if ((cr = mpdm_regcomp(r)) != NULL) {
382 char *ptr;
383 int f, i = 0;
384 wchar_t *global;
385 mpdm_t t;
387 /* takes pointer to global flag */
388 if ((global = regex_flags(r)) !=NULL)
389 global = wcschr(global, 'g');
391 /* store the first part */
392 o = MPDM_NS(v->data, offset);
394 /* convert to mbs */
395 if ((ptr = mpdm_wcstombs((wchar_t *) v->data + offset, NULL)) == NULL)
396 return NULL;
398 /* reset count */
399 mpdm_sregex_count = 0;
400 mpdm_regex_offset = -1;
402 do {
403 regmatch_t rm;
405 /* try match */
406 f = !regexec((regex_t *) cr->data, ptr + i,
407 1, &rm, offset > 0 ? REG_NOTBOL : 0);
409 if (f) {
410 /* creates a string from the beginning
411 to the start of the match */
412 t = MPDM_NMBS(ptr + i, rm.rm_so);
413 o = mpdm_strcat(o, t);
415 /* store offset of substitution */
416 mpdm_regex_offset = mpdm_size(t) + offset;
418 /* get the matched part */
419 t = MPDM_NMBS(ptr + i + rm.rm_so, rm.rm_eo - rm.rm_so);
421 /* is s an executable value? */
422 if (MPDM_IS_EXEC(s)) {
423 /* protect o from sweeping */
424 mpdm_ref(o);
426 /* execute s, with t as argument */
427 t = mpdm_exec_1(s, t);
429 mpdm_unref(o);
431 else
432 /* is s a hash? use match as key */
433 if (MPDM_IS_HASH(s)) {
434 mpdm_t v = mpdm_hget(s, t);
436 /* is the value executable? */
437 if (MPDM_IS_EXEC(v))
438 v = mpdm_exec_1(v, t);
440 t = v;
442 else
443 t = expand_ampersands(s, t);
445 /* appends the substitution string */
446 o = mpdm_strcat(o, t);
448 /* store size of substitution */
449 mpdm_regex_size = mpdm_size(t);
451 i += rm.rm_eo;
453 /* one more substitution */
454 mpdm_sregex_count++;
457 } while (f && global);
459 /* no (more) matches; convert and append the rest */
460 t = MPDM_MBS(ptr + i);
461 o = mpdm_strcat(o, t);
463 free(ptr);
466 return o;