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1 /*
2 * colorings of characters
3 * This file is #included by regcomp.c.
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 *
32 *
33 * Note that there are some incestuous relationships between this code and
34 * NFA arc maintenance, which perhaps ought to be cleaned up sometime.
35 */
36
37
38
39 #define CISERR() VISERR(cm->v)
40 #define CERR(e) VERR(cm->v, (e))
41
42
43
44 /*
45 - initcm - set up new colormap
46 ^ static VOID initcm(struct vars *, struct colormap *);
47 */
48 static VOID
49 initcm(v, cm)
50 struct vars *v;
51 struct colormap *cm;
52 {
53 int i;
54 int j;
55 union tree *t;
56 union tree *nextt;
57 struct colordesc *cd;
58
59 cm->magic = CMMAGIC;
60 cm->v = v;
61
62 cm->ncds = NINLINECDS;
63 cm->cd = cm->cdspace;
64 cm->max = 0;
65 cm->free = 0;
66
67 cd = cm->cd; /* cm->cd[WHITE] */
68 cd->sub = NOSUB;
69 cd->arcs = NULL;
70 cd->flags = 0;
71 cd->nchrs = CHR_MAX - CHR_MIN + 1;
72
73 /* upper levels of tree */
74 for (t = &cm->tree[0], j = NBYTS-1; j > 0; t = nextt, j--) {
75 nextt = t + 1;
76 for (i = BYTTAB-1; i >= 0; i--)
77 t->tptr[i] = nextt;
78 }
79 /* bottom level is solid white */
80 t = &cm->tree[NBYTS-1];
81 for (i = BYTTAB-1; i >= 0; i--)
82 t->tcolor[i] = WHITE;
83 cd->block = t;
84 }
85
86 /*
87 - freecm - free dynamically-allocated things in a colormap
88 ^ static VOID freecm(struct colormap *);
89 */
90 static VOID
91 freecm(cm)
92 struct colormap *cm;
93 {
94 size_t i;
95 union tree *cb;
96
97 cm->magic = 0;
98 if (NBYTS > 1)
99 cmtreefree(cm, cm->tree, 0);
100 for (i = 1; i <= cm->max; i++) /* skip WHITE */
101 if (!UNUSEDCOLOR(&cm->cd[i])) {
102 cb = cm->cd[i].block;
103 if (cb != NULL)
104 FREE(cb);
105 }
106 if (cm->cd != cm->cdspace)
107 FREE(cm->cd);
108 }
109
110 /*
111 - cmtreefree - free a non-terminal part of a colormap tree
112 ^ static VOID cmtreefree(struct colormap *, union tree *, int);
113 */
114 static VOID
115 cmtreefree(cm, tree, level)
116 struct colormap *cm;
117 union tree *tree;
118 int level; /* level number (top == 0) of this block */
119 {
120 int i;
121 union tree *t;
122 union tree *fillt = &cm->tree[level+1];
123 union tree *cb;
124
125 assert(level < NBYTS-1); /* this level has pointers */
126 for (i = BYTTAB-1; i >= 0; i--) {
127 t = tree->tptr[i];
128 assert(t != NULL);
129 if (t != fillt) {
130 if (level < NBYTS-2) { /* more pointer blocks below */
131 cmtreefree(cm, t, level+1);
132 FREE(t);
133 } else { /* color block below */
134 cb = cm->cd[t->tcolor[0]].block;
135 if (t != cb) /* not a solid block */
136 FREE(t);
137 }
138 }
139 }
140 }
141
142 /*
143 - setcolor - set the color of a character in a colormap
144 ^ static color setcolor(struct colormap *, pchr, pcolor);
145 */
146 static color /* previous color */
147 setcolor(cm, c, co)
148 struct colormap *cm;
149 pchr c;
150 pcolor co;
151 {
152 uchr uc = c;
153 int shift;
154 int level;
155 int b;
156 int bottom;
157 union tree *t;
158 union tree *newt;
159 union tree *fillt;
160 union tree *lastt;
161 union tree *cb;
162 color prev;
163
164 assert(cm->magic == CMMAGIC);
165 if (CISERR() || co == COLORLESS)
166 return COLORLESS;
167
168 t = cm->tree;
169 for (level = 0, shift = BYTBITS * (NBYTS - 1); shift > 0;
170 level++, shift -= BYTBITS) {
171 b = (uc >> shift) & BYTMASK;
172 lastt = t;
173 t = lastt->tptr[b];
174 assert(t != NULL);
175 fillt = &cm->tree[level+1];
176 bottom = (shift <= BYTBITS) ? 1 : 0;
177 cb = (bottom) ? cm->cd[t->tcolor[0]].block : fillt;
178 if (t == fillt || t == cb) { /* must allocate a new block */
179 newt = (union tree *)MALLOC((bottom) ?
180 sizeof(struct colors) : sizeof(struct ptrs));
181 if (newt == NULL) {
182 CERR(REG_ESPACE);
183 return COLORLESS;
184 }
185 if (bottom)
186 memcpy(VS(newt->tcolor), VS(t->tcolor),
187 BYTTAB*sizeof(color));
188 else
189 memcpy(VS(newt->tptr), VS(t->tptr),
190 BYTTAB*sizeof(union tree *));
191 t = newt;
192 lastt->tptr[b] = t;
193 }
194 }
195
196 b = uc & BYTMASK;
197 prev = t->tcolor[b];
198 t->tcolor[b] = (color)co;
199 return prev;
200 }
201
202 /*
203 - maxcolor - report largest color number in use
204 ^ static color maxcolor(struct colormap *);
205 */
206 static color
207 maxcolor(cm)
208 struct colormap *cm;
209 {
210 if (CISERR())
211 return COLORLESS;
212
213 return (color)cm->max;
214 }
215
216 /*
217 - newcolor - find a new color (must be subject of setcolor at once)
218 * Beware: may relocate the colordescs.
219 ^ static color newcolor(struct colormap *);
220 */
221 static color /* COLORLESS for error */
222 newcolor(cm)
223 struct colormap *cm;
224 {
225 struct colordesc *cd;
226 struct colordesc *new;
227 size_t n;
228
229 if (CISERR())
230 return COLORLESS;
231
232 if (cm->free != 0) {
233 assert(cm->free > 0);
234 assert((size_t)cm->free < cm->ncds);
235 cd = &cm->cd[cm->free];
236 assert(UNUSEDCOLOR(cd));
237 assert(cd->arcs == NULL);
238 cm->free = cd->sub;
239 } else if (cm->max < cm->ncds - 1) {
240 cm->max++;
241 cd = &cm->cd[cm->max];
242 } else {
243 /* oops, must allocate more */
244 n = cm->ncds * 2;
245 if (cm->cd == cm->cdspace) {
246 new = (struct colordesc *)MALLOC(n *
247 sizeof(struct colordesc));
248 if (new != NULL)
249 memcpy(VS(new), VS(cm->cdspace), cm->ncds *
250 sizeof(struct colordesc));
251 } else
252 new = (struct colordesc *)REALLOC(cm->cd,
253 n * sizeof(struct colordesc));
254 if (new == NULL) {
255 CERR(REG_ESPACE);
256 return COLORLESS;
257 }
258 cm->cd = new;
259 cm->ncds = n;
260 assert(cm->max < cm->ncds - 1);
261 cm->max++;
262 cd = &cm->cd[cm->max];
263 }
264
265 cd->nchrs = 0;
266 cd->sub = NOSUB;
267 cd->arcs = NULL;
268 cd->flags = 0;
269 cd->block = NULL;
270
271 return (color)(cd - cm->cd);
272 }
273
274 /*
275 - freecolor - free a color (must have no arcs or subcolor)
276 ^ static VOID freecolor(struct colormap *, pcolor);
277 */
278 static VOID
279 freecolor(cm, co)
280 struct colormap *cm;
281 pcolor co;
282 {
283 struct colordesc *cd = &cm->cd[co];
284 color pco, nco; /* for freelist scan */
285
286 assert(co >= 0);
287 if (co == WHITE)
288 return;
289
290 assert(cd->arcs == NULL);
291 assert(cd->sub == NOSUB);
292 assert(cd->nchrs == 0);
293 cd->flags = FREECOL;
294 if (cd->block != NULL) {
295 FREE(cd->block);
296 cd->block = NULL; /* just paranoia */
297 }
298
299 if ((size_t)co == cm->max) {
300 while (cm->max > WHITE && UNUSEDCOLOR(&cm->cd[cm->max]))
301 cm->max--;
302 assert(cm->free >= 0);
303 while ((size_t)cm->free > cm->max)
304 cm->free = cm->cd[cm->free].sub;
305 if (cm->free > 0) {
306 assert(cm->free < cm->max);
307 pco = cm->free;
308 nco = cm->cd[pco].sub;
309 while (nco > 0)
310 if ((size_t)nco > cm->max) {
311 /* take this one out of freelist */
312 nco = cm->cd[nco].sub;
313 cm->cd[pco].sub = nco;
314 } else {
315 assert(nco < cm->max);
316 pco = nco;
317 nco = cm->cd[pco].sub;
318 }
319 }
320 } else {
321 cd->sub = cm->free;
322 cm->free = (color)(cd - cm->cd);
323 }
324 }
325
326 /*
327 - pseudocolor - allocate a false color, to be managed by other means
328 ^ static color pseudocolor(struct colormap *);
329 */
330 static color
331 pseudocolor(cm)
332 struct colormap *cm;
333 {
334 color co;
335
336 co = newcolor(cm);
337 if (CISERR())
338 return COLORLESS;
339 cm->cd[co].nchrs = 1;
340 cm->cd[co].flags = PSEUDO;
341 return co;
342 }
343
344 /*
345 - subcolor - allocate a new subcolor (if necessary) to this chr
346 ^ static color subcolor(struct colormap *, pchr c);
347 */
348 static color
349 subcolor(cm, c)
350 struct colormap *cm;
351 pchr c;
352 {
353 color co; /* current color of c */
354 color sco; /* new subcolor */
355
356 co = GETCOLOR(cm, c);
357 sco = newsub(cm, co);
358 if (CISERR())
359 return COLORLESS;
360 assert(sco != COLORLESS);
361
362 if (co == sco) /* already in an open subcolor */
363 return co; /* rest is redundant */
364 cm->cd[co].nchrs--;
365 cm->cd[sco].nchrs++;
366 setcolor(cm, c, sco);
367 return sco;
368 }
369
370 /*
371 - newsub - allocate a new subcolor (if necessary) for a color
372 ^ static color newsub(struct colormap *, pcolor);
373 */
374 static color
375 newsub(cm, co)
376 struct colormap *cm;
377 pcolor co;
378 {
379 color sco; /* new subcolor */
380
381 sco = cm->cd[co].sub;
382 if (sco == NOSUB) { /* color has no open subcolor */
383 if (cm->cd[co].nchrs == 1) /* optimization */
384 return co;
385 sco = newcolor(cm); /* must create subcolor */
386 if (sco == COLORLESS) {
387 assert(CISERR());
388 return COLORLESS;
389 }
390 cm->cd[co].sub = sco;
391 cm->cd[sco].sub = sco; /* open subcolor points to self */
392 }
393 assert(sco != NOSUB);
394
395 return sco;
396 }
397
398 /*
399 - subrange - allocate new subcolors to this range of chrs, fill in arcs
400 ^ static VOID subrange(struct vars *, pchr, pchr, struct state *,
401 ^ struct state *);
402 */
403 static VOID
404 subrange(v, from, to, lp, rp)
405 struct vars *v;
406 pchr from;
407 pchr to;
408 struct state *lp;
409 struct state *rp;
410 {
411 uchr uf;
412 int i;
413
414 assert(from <= to);
415
416 /* first, align "from" on a tree-block boundary */
417 uf = (uchr)from;
418 i = (int)( ((uf + BYTTAB-1) & (uchr)~BYTMASK) - uf );
419 for (; from <= to && i > 0; i--, from++)
420 newarc(v->nfa, PLAIN, subcolor(v->cm, from), lp, rp);
421 if (from > to) /* didn't reach a boundary */
422 return;
423
424 /* deal with whole blocks */
425 for (; to - from >= BYTTAB; from += BYTTAB)
426 subblock(v, from, lp, rp);
427
428 /* clean up any remaining partial table */
429 for (; from <= to; from++)
430 newarc(v->nfa, PLAIN, subcolor(v->cm, from), lp, rp);
431 }
432
433 /*
434 - subblock - allocate new subcolors for one tree block of chrs, fill in arcs
435 ^ static VOID subblock(struct vars *, pchr, struct state *, struct state *);
436 */
437 static VOID
438 subblock(v, start, lp, rp)
439 struct vars *v;
440 pchr start; /* first of BYTTAB chrs */
441 struct state *lp;
442 struct state *rp;
443 {
444 uchr uc = start;
445 struct colormap *cm = v->cm;
446 int shift;
447 int level;
448 int i;
449 int b = 0;
450 union tree *t;
451 union tree *cb;
452 union tree *fillt;
453 union tree *lastt = NULL;
454 int previ;
455 int ndone;
456 color co;
457 color sco;
458
459 assert((uc % BYTTAB) == 0);
460
461 /* find its color block, making new pointer blocks as needed */
462 t = cm->tree;
463 fillt = NULL;
464 for (level = 0, shift = BYTBITS * (NBYTS - 1); shift > 0;
465 level++, shift -= BYTBITS) {
466 b = (uc >> shift) & BYTMASK;
467 lastt = t;
468 t = lastt->tptr[b];
469 assert(t != NULL);
470 fillt = &cm->tree[level+1];
471 if (t == fillt && shift > BYTBITS) { /* need new ptr block */
472 t = (union tree *)MALLOC(sizeof(struct ptrs));
473 if (t == NULL) {
474 CERR(REG_ESPACE);
475 return;
476 }
477 memcpy(VS(t->tptr), VS(fillt->tptr),
478 BYTTAB*sizeof(union tree *));
479 lastt->tptr[b] = t;
480 }
481 }
482
483 /* special cases: fill block or solid block */
484 co = t->tcolor[0];
485 cb = cm->cd[co].block;
486 if (t == fillt || t == cb) {
487 /* either way, we want a subcolor solid block */
488 sco = newsub(cm, co);
489 t = cm->cd[sco].block;
490 if (t == NULL) { /* must set it up */
491 t = (union tree *)MALLOC(sizeof(struct colors));
492 if (t == NULL) {
493 CERR(REG_ESPACE);
494 return;
495 }
496 for (i = 0; i < BYTTAB; i++)
497 t->tcolor[i] = sco;
498 cm->cd[sco].block = t;
499 }
500 /* find loop must have run at least once */
501 lastt->tptr[b] = t;
502 newarc(v->nfa, PLAIN, sco, lp, rp);
503 cm->cd[co].nchrs -= BYTTAB;
504 cm->cd[sco].nchrs += BYTTAB;
505 return;
506 }
507
508 /* general case, a mixed block to be altered */
509 i = 0;
510 while (i < BYTTAB) {
511 co = t->tcolor[i];
512 sco = newsub(cm, co);
513 newarc(v->nfa, PLAIN, sco, lp, rp);
514 previ = i;
515 do {
516 t->tcolor[i++] = sco;
517 } while (i < BYTTAB && t->tcolor[i] == co);
518 ndone = i - previ;
519 cm->cd[co].nchrs -= ndone;
520 cm->cd[sco].nchrs += ndone;
521 }
522 }
523
524 /*
525 - okcolors - promote subcolors to full colors
526 ^ static VOID okcolors(struct nfa *, struct colormap *);
527 */
528 static VOID
529 okcolors(nfa, cm)
530 struct nfa *nfa;
531 struct colormap *cm;
532 {
533 struct colordesc *cd;
534 struct colordesc *end = CDEND(cm);
535 struct colordesc *scd;
536 struct arc *a;
537 color co;
538 color sco;
539
540 for (cd = cm->cd, co = 0; cd < end; cd++, co++) {
541 sco = cd->sub;
542 if (UNUSEDCOLOR(cd) || sco == NOSUB) {
543 /* has no subcolor, no further action */
544 } else if (sco == co) {
545 /* is subcolor, let parent deal with it */
546 } else if (cd->nchrs == 0) {
547 /* parent empty, its arcs change color to subcolor */
548 cd->sub = NOSUB;
549 scd = &cm->cd[sco];
550 assert(scd->nchrs > 0);
551 assert(scd->sub == sco);
552 scd->sub = NOSUB;
553 while ((a = cd->arcs) != NULL) {
554 assert(a->co == co);
555 /* uncolorchain(cm, a); */
556 cd->arcs = a->colorchain;
557 a->co = sco;
558 /* colorchain(cm, a); */
559 a->colorchain = scd->arcs;
560 scd->arcs = a;
561 }
562 freecolor(cm, co);
563 } else {
564 /* parent's arcs must gain parallel subcolor arcs */
565 cd->sub = NOSUB;
566 scd = &cm->cd[sco];
567 assert(scd->nchrs > 0);
568 assert(scd->sub == sco);
569 scd->sub = NOSUB;
570 for (a = cd->arcs; a != NULL; a = a->colorchain) {
571 assert(a->co == co);
572 newarc(nfa, a->type, sco, a->from, a->to);
573 }
574 }
575 }
576 }
577
578 /*
579 - colorchain - add this arc to the color chain of its color
580 ^ static VOID colorchain(struct colormap *, struct arc *);
581 */
582 static VOID
583 colorchain(cm, a)
584 struct colormap *cm;
585 struct arc *a;
586 {
587 struct colordesc *cd = &cm->cd[a->co];
588
589 a->colorchain = cd->arcs;
590 cd->arcs = a;
591 }
592
593 /*
594 - uncolorchain - delete this arc from the color chain of its color
595 ^ static VOID uncolorchain(struct colormap *, struct arc *);
596 */
597 static VOID
598 uncolorchain(cm, a)
599 struct colormap *cm;
600 struct arc *a;
601 {
602 struct colordesc *cd = &cm->cd[a->co];
603 struct arc *aa;
604
605 aa = cd->arcs;
606 if (aa == a) /* easy case */
607 cd->arcs = a->colorchain;
608 else {
609 for (; aa != NULL && aa->colorchain != a; aa = aa->colorchain)
610 continue;
611 assert(aa != NULL);
612 aa->colorchain = a->colorchain;
613 }
614 a->colorchain = NULL; /* paranoia */
615 }
616
617 /*
618 - singleton - is this character in its own color?
619 ^ static int singleton(struct colormap *, pchr c);
620 */
621 static int /* predicate */
622 singleton(cm, c)
623 struct colormap *cm;
624 pchr c;
625 {
626 color co; /* color of c */
627
628 co = GETCOLOR(cm, c);
629 if (cm->cd[co].nchrs == 1 && cm->cd[co].sub == NOSUB)
630 return 1;
631 return 0;
632 }
633
634 /*
635 - rainbow - add arcs of all full colors (but one) between specified states
636 ^ static VOID rainbow(struct nfa *, struct colormap *, int, pcolor,
637 ^ struct state *, struct state *);
638 */
639 static VOID
640 rainbow(nfa, cm, type, but, from, to)
641 struct nfa *nfa;
642 struct colormap *cm;
643 int type;
644 pcolor but; /* COLORLESS if no exceptions */
645 struct state *from;
646 struct state *to;
647 {
648 struct colordesc *cd;
649 struct colordesc *end = CDEND(cm);
650 color co;
651
652 for (cd = cm->cd, co = 0; cd < end && !CISERR(); cd++, co++)
653 if (!UNUSEDCOLOR(cd) && cd->sub != co && co != but &&
654 !(cd->flags&PSEUDO))
655 newarc(nfa, type, co, from, to);
656 }
657
658 /*
659 - colorcomplement - add arcs of complementary colors
660 * The calling sequence ought to be reconciled with cloneouts().
661 ^ static VOID colorcomplement(struct nfa *, struct colormap *, int,
662 ^ struct state *, struct state *, struct state *);
663 */
664 static VOID
665 colorcomplement(nfa, cm, type, of, from, to)
666 struct nfa *nfa;
667 struct colormap *cm;
668 int type;
669 struct state *of; /* complements of this guy's PLAIN outarcs */
670 struct state *from;
671 struct state *to;
672 {
673 struct colordesc *cd;
674 struct colordesc *end = CDEND(cm);
675 color co;
676
677 assert(of != from);
678 for (cd = cm->cd, co = 0; cd < end && !CISERR(); cd++, co++)
679 if (!UNUSEDCOLOR(cd) && !(cd->flags&PSEUDO))
680 if (findarc(of, PLAIN, co) == NULL)
681 newarc(nfa, type, co, from, to);
682 }
683
684
685
686 #ifdef REG_DEBUG
687 /*
688 ^ #ifdef REG_DEBUG
689 */
690
691 /*
692 - dumpcolors - debugging output
693 ^ static VOID dumpcolors(struct colormap *, FILE *);
694 */
695 static VOID
696 dumpcolors(cm, f)
697 struct colormap *cm;
698 FILE *f;
699 {
700 struct colordesc *cd;
701 struct colordesc *end;
702 color co;
703 chr c;
704 char *has;
705
706 fprintf(f, "max %ld\n", (long)cm->max);
707 if (NBYTS > 1)
708 fillcheck(cm, cm->tree, 0, f);
709 end = CDEND(cm);
710 for (cd = cm->cd + 1, co = 1; cd < end; cd++, co++) /* skip 0 */
711 if (!UNUSEDCOLOR(cd)) {
712 assert(cd->nchrs > 0);
713 has = (cd->block != NULL) ? "#" : "";
714 if (cd->flags&PSEUDO)
715 fprintf(f, "#%2ld%s(ps): ", (long)co, has);
716 else
717 fprintf(f, "#%2ld%s(%2d): ", (long)co,
718 has, cd->nchrs);
719 /* it's hard to do this more efficiently */
720 for (c = CHR_MIN; c < CHR_MAX; c++)
721 if (GETCOLOR(cm, c) == co)
722 dumpchr(c, f);
723 assert(c == CHR_MAX);
724 if (GETCOLOR(cm, c) == co)
725 dumpchr(c, f);
726 fprintf(f, "\n");
727 }
728 }
729
730 /*
731 - fillcheck - check proper filling of a tree
732 ^ static VOID fillcheck(struct colormap *, union tree *, int, FILE *);
733 */
734 static VOID
735 fillcheck(cm, tree, level, f)
736 struct colormap *cm;
737 union tree *tree;
738 int level; /* level number (top == 0) of this block */
739 FILE *f;
740 {
741 int i;
742 union tree *t;
743 union tree *fillt = &cm->tree[level+1];
744
745 assert(level < NBYTS-1); /* this level has pointers */
746 for (i = BYTTAB-1; i >= 0; i--) {
747 t = tree->tptr[i];
748 if (t == NULL)
749 fprintf(f, "NULL found in filled tree!\n");
750 else if (t == fillt)
751 {}
752 else if (level < NBYTS-2) /* more pointer blocks below */
753 fillcheck(cm, t, level+1, f);
754 }
755 }
756
757 /*
758 - dumpchr - print a chr
759 * Kind of char-centric but works well enough for debug use.
760 ^ static VOID dumpchr(pchr, FILE *);
761 */
762 static VOID
763 dumpchr(c, f)
764 pchr c;
765 FILE *f;
766 {
767 if (c == '\\')
768 fprintf(f, "\\\\");
769 else if (c > ' ' && c <= '~')
770 putc((char)c, f);
771 else
772 fprintf(f, "\\u%04lx", (long)c);
773 }
774
775 /*
776 ^ #endif
777 */
778 #endif /* ifdef REG_DEBUG */