Annotation of mandoc/term.c, Revision 1.112
1.112 ! kristaps 1: /* $Id: term.c,v 1.111 2009/10/26 07:18:23 kristaps Exp $ */
1.1 kristaps 2: /*
1.75 kristaps 3: * Copyright (c) 2008, 2009 Kristaps Dzonsons <kristaps@kth.se>
1.1 kristaps 4: *
5: * Permission to use, copy, modify, and distribute this software for any
1.74 kristaps 6: * purpose with or without fee is hereby granted, provided that the above
7: * copyright notice and this permission notice appear in all copies.
1.1 kristaps 8: *
1.74 kristaps 9: * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
10: * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
11: * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
12: * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
13: * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
14: * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
15: * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
1.1 kristaps 16: */
17: #include <assert.h>
1.23 kristaps 18: #include <err.h>
1.22 kristaps 19: #include <stdio.h>
1.1 kristaps 20: #include <stdlib.h>
21: #include <string.h>
22:
1.101 kristaps 23: #include "chars.h"
1.107 kristaps 24: #include "out.h"
1.71 kristaps 25: #include "term.h"
26: #include "man.h"
27: #include "mdoc.h"
1.105 kristaps 28: #include "main.h"
1.1 kristaps 29:
1.103 kristaps 30: /* FIXME: accomodate non-breaking, non-collapsing white-space. */
31: /* FIXME: accomodate non-breaking, collapsing white-space. */
32:
1.71 kristaps 33: static struct termp *term_alloc(enum termenc);
34: static void term_free(struct termp *);
1.95 kristaps 35:
36: static void do_escaped(struct termp *, const char **);
37: static void do_special(struct termp *,
1.71 kristaps 38: const char *, size_t);
1.95 kristaps 39: static void do_reserved(struct termp *,
1.94 kristaps 40: const char *, size_t);
1.95 kristaps 41: static void buffer(struct termp *, char);
42: static void encode(struct termp *, char);
1.1 kristaps 43:
44:
1.71 kristaps 45: void *
46: ascii_alloc(void)
1.10 kristaps 47: {
1.1 kristaps 48:
1.71 kristaps 49: return(term_alloc(TERMENC_ASCII));
1.1 kristaps 50: }
51:
52:
1.99 kristaps 53: void
1.71 kristaps 54: terminal_free(void *arg)
1.11 kristaps 55: {
56:
1.71 kristaps 57: term_free((struct termp *)arg);
1.11 kristaps 58: }
59:
60:
1.71 kristaps 61: static void
62: term_free(struct termp *p)
1.14 kristaps 63: {
64:
1.71 kristaps 65: if (p->buf)
66: free(p->buf);
1.102 kristaps 67: if (p->symtab)
1.101 kristaps 68: chars_free(p->symtab);
1.14 kristaps 69:
1.71 kristaps 70: free(p);
1.14 kristaps 71: }
72:
73:
1.71 kristaps 74: static struct termp *
75: term_alloc(enum termenc enc)
1.14 kristaps 76: {
1.71 kristaps 77: struct termp *p;
1.14 kristaps 78:
1.71 kristaps 79: if (NULL == (p = malloc(sizeof(struct termp))))
1.98 kristaps 80: return(NULL);
1.71 kristaps 81: bzero(p, sizeof(struct termp));
1.80 kristaps 82: p->maxrmargin = 78;
1.71 kristaps 83: p->enc = enc;
84: return(p);
1.14 kristaps 85: }
86:
87:
1.71 kristaps 88: /*
89: * Flush a line of text. A "line" is loosely defined as being something
90: * that should be followed by a newline, regardless of whether it's
91: * broken apart by newlines getting there. A line can also be a
92: * fragment of a columnar list.
93: *
94: * Specifically, a line is whatever's in p->buf of length p->col, which
95: * is zeroed after this function returns.
96: *
1.84 kristaps 97: * The usage of termp:flags is as follows:
1.71 kristaps 98: *
99: * - TERMP_NOLPAD: when beginning to write the line, don't left-pad the
100: * offset value. This is useful when doing columnar lists where the
101: * prior column has right-padded.
102: *
103: * - TERMP_NOBREAK: this is the most important and is used when making
104: * columns. In short: don't print a newline and instead pad to the
105: * right margin. Used in conjunction with TERMP_NOLPAD.
106: *
1.91 kristaps 107: * - TERMP_TWOSPACE: when padding, make sure there are at least two
108: * space characters of padding. Otherwise, rather break the line.
109: *
1.84 kristaps 110: * - TERMP_DANGLE: don't newline when TERMP_NOBREAK is specified and
111: * the line is overrun, and don't pad-right if it's underrun.
112: *
113: * - TERMP_HANG: like TERMP_DANGLE, but doesn't newline when
114: * overruning, instead save the position and continue at that point
115: * when the next invocation.
1.71 kristaps 116: *
117: * In-line line breaking:
118: *
119: * If TERMP_NOBREAK is specified and the line overruns the right
120: * margin, it will break and pad-right to the right margin after
121: * writing. If maxrmargin is violated, it will break and continue
122: * writing from the right-margin, which will lead to the above
123: * scenario upon exit.
124: *
125: * Otherwise, the line will break at the right margin. Extremely long
126: * lines will cause the system to emit a warning (TODO: hyphenate, if
127: * possible).
128: */
129: void
130: term_flushln(struct termp *p)
1.53 kristaps 131: {
1.71 kristaps 132: int i, j;
1.110 kristaps 133: size_t vbl, vsz, vis, maxvis, mmax, bp;
1.91 kristaps 134: static int overstep = 0;
1.53 kristaps 135:
1.71 kristaps 136: /*
137: * First, establish the maximum columns of "visible" content.
138: * This is usually the difference between the right-margin and
139: * an indentation, but can be, for tagged lists or columns, a
140: * small set of values.
141: */
1.53 kristaps 142:
1.71 kristaps 143: assert(p->offset < p->rmargin);
1.92 kristaps 144: assert((int)(p->rmargin - p->offset) - overstep > 0);
145:
146: maxvis = /* LINTED */
147: p->rmargin - p->offset - overstep;
148: mmax = /* LINTED */
149: p->maxrmargin - p->offset - overstep;
150:
1.71 kristaps 151: bp = TERMP_NOBREAK & p->flags ? mmax : maxvis;
152: vis = 0;
1.84 kristaps 153:
1.71 kristaps 154: /*
155: * If in the standard case (left-justified), then begin with our
156: * indentation, otherwise (columns, etc.) just start spitting
157: * out text.
158: */
1.53 kristaps 159:
1.71 kristaps 160: if ( ! (p->flags & TERMP_NOLPAD))
161: /* LINTED */
162: for (j = 0; j < (int)p->offset; j++)
163: putchar(' ');
164:
165: for (i = 0; i < (int)p->col; i++) {
166: /*
167: * Count up visible word characters. Control sequences
168: * (starting with the CSI) aren't counted. A space
169: * generates a non-printing word, which is valid (the
170: * space is printed according to regular spacing rules).
171: */
172:
173: /* LINTED */
174: for (j = i, vsz = 0; j < (int)p->col; j++) {
1.93 kristaps 175: if (j && ' ' == p->buf[j])
1.71 kristaps 176: break;
177: else if (8 == p->buf[j])
1.89 kristaps 178: vsz--;
1.71 kristaps 179: else
180: vsz++;
181: }
1.53 kristaps 182:
1.71 kristaps 183: /*
1.81 kristaps 184: * Choose the number of blanks to prepend: no blank at the
185: * beginning of a line, one between words -- but do not
186: * actually write them yet.
1.71 kristaps 187: */
1.81 kristaps 188: vbl = (size_t)(0 == vis ? 0 : 1);
1.71 kristaps 189:
1.81 kristaps 190: /*
191: * Find out whether we would exceed the right margin.
192: * If so, break to the next line. (TODO: hyphenate)
193: * Otherwise, write the chosen number of blanks now.
194: */
195: if (vis && vis + vbl + vsz > bp) {
196: putchar('\n');
197: if (TERMP_NOBREAK & p->flags) {
198: for (j = 0; j < (int)p->rmargin; j++)
199: putchar(' ');
200: vis = p->rmargin - p->offset;
201: } else {
1.71 kristaps 202: for (j = 0; j < (int)p->offset; j++)
203: putchar(' ');
204: vis = 0;
1.81 kristaps 205: }
1.104 kristaps 206: /* Remove the overstep width. */
1.112 ! kristaps 207: bp += (int)/* LINTED */
! 208: overstep;
1.110 kristaps 209: overstep = 0;
1.81 kristaps 210: } else {
211: for (j = 0; j < (int)vbl; j++)
1.71 kristaps 212: putchar(' ');
1.81 kristaps 213: vis += vbl;
1.71 kristaps 214: }
1.53 kristaps 215:
1.78 kristaps 216: /*
1.81 kristaps 217: * Finally, write out the word.
1.71 kristaps 218: */
219: for ( ; i < (int)p->col; i++) {
220: if (' ' == p->buf[i])
221: break;
222: putchar(p->buf[i]);
223: }
224: vis += vsz;
225: }
1.111 kristaps 226:
1.91 kristaps 227: p->col = 0;
1.111 kristaps 228: overstep = 0;
1.15 kristaps 229:
1.91 kristaps 230: if ( ! (TERMP_NOBREAK & p->flags)) {
231: putchar('\n');
1.15 kristaps 232: return;
1.71 kristaps 233: }
1.15 kristaps 234:
1.91 kristaps 235: if (TERMP_HANG & p->flags) {
236: /* We need one blank after the tag. */
1.92 kristaps 237: overstep = /* LINTED */
238: vis - maxvis + 1;
1.91 kristaps 239:
240: /*
241: * Behave exactly the same way as groff:
1.92 kristaps 242: * If we have overstepped the margin, temporarily move
243: * it to the right and flag the rest of the line to be
244: * shorter.
1.91 kristaps 245: * If we landed right at the margin, be happy.
1.92 kristaps 246: * If we are one step before the margin, temporarily
247: * move it one step LEFT and flag the rest of the line
248: * to be longer.
1.91 kristaps 249: */
1.92 kristaps 250: if (overstep >= -1) {
251: assert((int)maxvis + overstep >= 0);
252: /* LINTED */
1.91 kristaps 253: maxvis += overstep;
1.92 kristaps 254: } else
1.91 kristaps 255: overstep = 0;
256:
257: } else if (TERMP_DANGLE & p->flags)
258: return;
1.15 kristaps 259:
1.92 kristaps 260: /* Right-pad. */
261: if (maxvis > vis + /* LINTED */
262: ((TERMP_TWOSPACE & p->flags) ? 1 : 0))
1.91 kristaps 263: for ( ; vis < maxvis; vis++)
264: putchar(' ');
1.92 kristaps 265: else { /* ...or newline break. */
1.71 kristaps 266: putchar('\n');
1.91 kristaps 267: for (i = 0; i < (int)p->rmargin; i++)
268: putchar(' ');
269: }
1.15 kristaps 270: }
271:
272:
1.71 kristaps 273: /*
274: * A newline only breaks an existing line; it won't assert vertical
275: * space. All data in the output buffer is flushed prior to the newline
276: * assertion.
277: */
278: void
279: term_newln(struct termp *p)
1.15 kristaps 280: {
281:
1.71 kristaps 282: p->flags |= TERMP_NOSPACE;
283: if (0 == p->col) {
284: p->flags &= ~TERMP_NOLPAD;
1.15 kristaps 285: return;
1.16 kristaps 286: }
1.71 kristaps 287: term_flushln(p);
288: p->flags &= ~TERMP_NOLPAD;
1.16 kristaps 289: }
290:
291:
1.71 kristaps 292: /*
293: * Asserts a vertical space (a full, empty line-break between lines).
294: * Note that if used twice, this will cause two blank spaces and so on.
295: * All data in the output buffer is flushed prior to the newline
296: * assertion.
297: */
298: void
299: term_vspace(struct termp *p)
1.16 kristaps 300: {
301:
1.62 kristaps 302: term_newln(p);
1.71 kristaps 303: putchar('\n');
1.16 kristaps 304: }
305:
306:
1.71 kristaps 307: static void
1.95 kristaps 308: do_special(struct termp *p, const char *word, size_t len)
1.17 kristaps 309: {
1.71 kristaps 310: const char *rhs;
311: size_t sz;
1.79 kristaps 312: int i;
1.17 kristaps 313:
1.101 kristaps 314: rhs = chars_a2ascii(p->symtab, word, len, &sz);
1.86 kristaps 315:
1.96 kristaps 316: if (NULL == rhs) {
1.97 kristaps 317: #if 0
1.96 kristaps 318: fputs("Unknown special character: ", stderr);
319: for (i = 0; i < (int)len; i++)
320: fputc(word[i], stderr);
321: fputc('\n', stderr);
322: #endif
1.94 kristaps 323: return;
1.96 kristaps 324: }
1.94 kristaps 325: for (i = 0; i < (int)sz; i++)
1.95 kristaps 326: encode(p, rhs[i]);
1.94 kristaps 327: }
328:
329:
330: static void
1.95 kristaps 331: do_reserved(struct termp *p, const char *word, size_t len)
1.94 kristaps 332: {
333: const char *rhs;
334: size_t sz;
335: int i;
336:
1.101 kristaps 337: rhs = chars_a2res(p->symtab, word, len, &sz);
1.94 kristaps 338:
1.96 kristaps 339: if (NULL == rhs) {
340: #if 0
341: fputs("Unknown reserved word: ", stderr);
342: for (i = 0; i < (int)len; i++)
343: fputc(word[i], stderr);
344: fputc('\n', stderr);
345: #endif
1.94 kristaps 346: return;
1.96 kristaps 347: }
1.94 kristaps 348: for (i = 0; i < (int)sz; i++)
1.95 kristaps 349: encode(p, rhs[i]);
1.17 kristaps 350: }
351:
352:
1.71 kristaps 353: /*
354: * Handle an escape sequence: determine its length and pass it to the
355: * escape-symbol look table. Note that we assume mdoc(3) has validated
356: * the escape sequence (we assert upon badly-formed escape sequences).
357: */
358: static void
1.95 kristaps 359: do_escaped(struct termp *p, const char **word)
1.17 kristaps 360: {
1.97 kristaps 361: int j, type;
1.86 kristaps 362: const char *wp;
363:
364: wp = *word;
1.97 kristaps 365: type = 1;
1.17 kristaps 366:
1.86 kristaps 367: if (0 == *(++wp)) {
368: *word = wp;
1.71 kristaps 369: return;
1.86 kristaps 370: }
1.17 kristaps 371:
1.86 kristaps 372: if ('(' == *wp) {
373: wp++;
374: if (0 == *wp || 0 == *(wp + 1)) {
375: *word = 0 == *wp ? wp : wp + 1;
1.71 kristaps 376: return;
1.86 kristaps 377: }
1.22 kristaps 378:
1.95 kristaps 379: do_special(p, wp, 2);
1.86 kristaps 380: *word = ++wp;
1.71 kristaps 381: return;
1.22 kristaps 382:
1.86 kristaps 383: } else if ('*' == *wp) {
384: if (0 == *(++wp)) {
385: *word = wp;
1.71 kristaps 386: return;
1.86 kristaps 387: }
1.22 kristaps 388:
1.86 kristaps 389: switch (*wp) {
1.71 kristaps 390: case ('('):
1.86 kristaps 391: wp++;
392: if (0 == *wp || 0 == *(wp + 1)) {
393: *word = 0 == *wp ? wp : wp + 1;
1.71 kristaps 394: return;
1.86 kristaps 395: }
1.65 kristaps 396:
1.95 kristaps 397: do_reserved(p, wp, 2);
1.86 kristaps 398: *word = ++wp;
1.71 kristaps 399: return;
400: case ('['):
1.97 kristaps 401: type = 0;
1.71 kristaps 402: break;
403: default:
1.95 kristaps 404: do_reserved(p, wp, 1);
1.86 kristaps 405: *word = wp;
1.71 kristaps 406: return;
407: }
408:
1.86 kristaps 409: } else if ('f' == *wp) {
410: if (0 == *(++wp)) {
411: *word = wp;
1.71 kristaps 412: return;
1.86 kristaps 413: }
414:
415: switch (*wp) {
1.71 kristaps 416: case ('B'):
1.98 kristaps 417: p->bold++;
1.71 kristaps 418: break;
419: case ('I'):
1.98 kristaps 420: p->under++;
1.71 kristaps 421: break;
422: case ('P'):
423: /* FALLTHROUGH */
424: case ('R'):
1.98 kristaps 425: p->bold = p->under = 0;
1.71 kristaps 426: break;
427: default:
428: break;
429: }
1.86 kristaps 430:
431: *word = wp;
1.71 kristaps 432: return;
1.22 kristaps 433:
1.86 kristaps 434: } else if ('[' != *wp) {
1.95 kristaps 435: do_special(p, wp, 1);
1.86 kristaps 436: *word = wp;
1.71 kristaps 437: return;
438: }
1.28 kristaps 439:
1.86 kristaps 440: wp++;
441: for (j = 0; *wp && ']' != *wp; wp++, j++)
1.71 kristaps 442: /* Loop... */ ;
1.28 kristaps 443:
1.86 kristaps 444: if (0 == *wp) {
445: *word = wp;
1.71 kristaps 446: return;
1.86 kristaps 447: }
1.48 kristaps 448:
1.97 kristaps 449: if (type)
450: do_special(p, wp - j, (size_t)j);
451: else
452: do_reserved(p, wp - j, (size_t)j);
1.86 kristaps 453: *word = wp;
1.48 kristaps 454: }
455:
456:
1.71 kristaps 457: /*
458: * Handle pwords, partial words, which may be either a single word or a
459: * phrase that cannot be broken down (such as a literal string). This
460: * handles word styling.
461: */
1.86 kristaps 462: void
463: term_word(struct termp *p, const char *word)
1.65 kristaps 464: {
1.88 kristaps 465: const char *sv;
1.71 kristaps 466:
1.100 kristaps 467: sv = word;
468:
469: if (word[0] && 0 == word[1])
470: switch (word[0]) {
471: case('.'):
472: /* FALLTHROUGH */
473: case(','):
474: /* FALLTHROUGH */
475: case(';'):
476: /* FALLTHROUGH */
477: case(':'):
478: /* FALLTHROUGH */
479: case('?'):
480: /* FALLTHROUGH */
481: case('!'):
482: /* FALLTHROUGH */
483: case(')'):
484: /* FALLTHROUGH */
485: case(']'):
486: /* FALLTHROUGH */
487: case('}'):
488: if ( ! (TERMP_IGNDELIM & p->flags))
489: p->flags |= TERMP_NOSPACE;
490: break;
491: default:
492: break;
493: }
1.65 kristaps 494:
1.71 kristaps 495: if ( ! (TERMP_NOSPACE & p->flags))
1.95 kristaps 496: buffer(p, ' ');
1.65 kristaps 497:
1.71 kristaps 498: if ( ! (p->flags & TERMP_NONOSPACE))
499: p->flags &= ~TERMP_NOSPACE;
1.65 kristaps 500:
1.100 kristaps 501: for ( ; *word; word++)
1.86 kristaps 502: if ('\\' != *word)
1.95 kristaps 503: encode(p, *word);
1.79 kristaps 504: else
1.95 kristaps 505: do_escaped(p, &word);
1.65 kristaps 506:
1.100 kristaps 507: if (sv[0] && 0 == sv[1])
508: switch (sv[0]) {
509: case('('):
510: /* FALLTHROUGH */
511: case('['):
512: /* FALLTHROUGH */
513: case('{'):
514: p->flags |= TERMP_NOSPACE;
515: break;
516: default:
517: break;
518: }
1.65 kristaps 519: }
520:
521:
1.71 kristaps 522: /*
523: * Insert a single character into the line-buffer. If the buffer's
524: * space is exceeded, then allocate more space by doubling the buffer
525: * size.
526: */
527: static void
1.95 kristaps 528: buffer(struct termp *p, char c)
1.51 kristaps 529: {
1.71 kristaps 530: size_t s;
1.51 kristaps 531:
1.71 kristaps 532: if (p->col + 1 >= p->maxcols) {
533: if (0 == p->maxcols)
534: p->maxcols = 256;
535: s = p->maxcols * 2;
536: p->buf = realloc(p->buf, s);
537: if (NULL == p->buf)
1.98 kristaps 538: err(1, "realloc"); /* FIXME: shouldn't be here! */
1.71 kristaps 539: p->maxcols = s;
540: }
541: p->buf[(int)(p->col)++] = c;
1.51 kristaps 542: }
543:
1.79 kristaps 544:
545: static void
1.95 kristaps 546: encode(struct termp *p, char c)
1.79 kristaps 547: {
1.89 kristaps 548:
1.98 kristaps 549: if (' ' != c) {
1.109 kristaps 550: if (p->under) {
551: buffer(p, '_');
552: buffer(p, 8);
553: }
1.98 kristaps 554: if (p->bold) {
1.95 kristaps 555: buffer(p, c);
556: buffer(p, 8);
1.79 kristaps 557: }
558: }
1.95 kristaps 559: buffer(p, c);
1.79 kristaps 560: }
1.106 kristaps 561:
562:
1.107 kristaps 563: size_t
564: term_vspan(const struct roffsu *su)
1.106 kristaps 565: {
566: double r;
567:
1.107 kristaps 568: switch (su->unit) {
1.106 kristaps 569: case (SCALE_CM):
1.107 kristaps 570: r = su->scale * 2;
1.106 kristaps 571: break;
572: case (SCALE_IN):
1.107 kristaps 573: r = su->scale * 6;
1.106 kristaps 574: break;
575: case (SCALE_PC):
1.107 kristaps 576: r = su->scale;
1.106 kristaps 577: break;
578: case (SCALE_PT):
1.107 kristaps 579: r = su->scale / 8;
1.106 kristaps 580: break;
581: case (SCALE_MM):
1.107 kristaps 582: r = su->scale / 1000;
1.106 kristaps 583: break;
584: case (SCALE_VS):
1.107 kristaps 585: r = su->scale;
1.106 kristaps 586: break;
587: default:
1.107 kristaps 588: r = su->scale - 1;
1.106 kristaps 589: break;
590: }
591:
592: if (r < 0.0)
593: r = 0.0;
1.107 kristaps 594: return(/* LINTED */(size_t)
1.106 kristaps 595: r);
596: }
597:
598:
1.107 kristaps 599: size_t
600: term_hspan(const struct roffsu *su)
1.106 kristaps 601: {
602: double r;
603:
1.108 kristaps 604: /* XXX: CM, IN, and PT are approximations. */
605:
1.107 kristaps 606: switch (su->unit) {
1.106 kristaps 607: case (SCALE_CM):
1.108 kristaps 608: r = 4 * su->scale;
1.106 kristaps 609: break;
610: case (SCALE_IN):
1.108 kristaps 611: /* XXX: this is an approximation. */
612: r = 10 * su->scale;
1.106 kristaps 613: break;
614: case (SCALE_PC):
1.108 kristaps 615: r = (10 * su->scale) / 6;
1.106 kristaps 616: break;
617: case (SCALE_PT):
1.108 kristaps 618: r = (10 * su->scale) / 72;
1.106 kristaps 619: break;
620: case (SCALE_MM):
1.107 kristaps 621: r = su->scale / 1000; /* FIXME: double-check. */
1.106 kristaps 622: break;
623: case (SCALE_VS):
1.107 kristaps 624: r = su->scale * 2 - 1; /* FIXME: double-check. */
1.106 kristaps 625: break;
626: default:
1.107 kristaps 627: r = su->scale;
1.106 kristaps 628: break;
629: }
630:
631: if (r < 0.0)
632: r = 0.0;
1.107 kristaps 633: return((size_t)/* LINTED */
1.106 kristaps 634: r);
635: }
636:
637:
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