Annotation of mandoc/out.c, Revision 1.82
1.82 ! schwarze 1: /* $Id: out.c,v 1.81 2021/09/07 14:56:35 schwarze Exp $ */
1.1 kristaps 2: /*
1.36 schwarze 3: * Copyright (c) 2009, 2010, 2011 Kristaps Dzonsons <kristaps@bsd.lv>
1.81 schwarze 4: * Copyright (c) 2011, 2014, 2015, 2017, 2018, 2019, 2021
5: * Ingo Schwarze <schwarze@openbsd.org>
1.1 kristaps 6: *
7: * Permission to use, copy, modify, and distribute this software for any
8: * purpose with or without fee is hereby granted, provided that the above
9: * copyright notice and this permission notice appear in all copies.
10: *
11: * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
12: * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
13: * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
14: * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
15: * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
16: * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
17: * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
18: */
1.12 kristaps 19: #include "config.h"
20:
1.1 kristaps 21: #include <sys/types.h>
22:
1.6 kristaps 23: #include <assert.h>
1.73 schwarze 24: #include <ctype.h>
1.70 schwarze 25: #include <stdint.h>
1.80 schwarze 26: #include <stdio.h>
1.1 kristaps 27: #include <stdlib.h>
1.6 kristaps 28: #include <string.h>
1.7 kristaps 29: #include <time.h>
1.1 kristaps 30:
1.47 schwarze 31: #include "mandoc_aux.h"
1.80 schwarze 32: #include "mandoc.h"
1.76 schwarze 33: #include "tbl.h"
1.1 kristaps 34: #include "out.h"
35:
1.75 schwarze 36: struct tbl_colgroup {
37: struct tbl_colgroup *next;
38: size_t wanted;
39: int startcol;
40: int endcol;
41: };
42:
43: static size_t tblcalc_data(struct rofftbl *, struct roffcol *,
1.65 schwarze 44: const struct tbl_opts *, const struct tbl_dat *,
45: size_t);
1.75 schwarze 46: static size_t tblcalc_literal(struct rofftbl *, struct roffcol *,
1.65 schwarze 47: const struct tbl_dat *, size_t);
1.75 schwarze 48: static size_t tblcalc_number(struct rofftbl *, struct roffcol *,
1.45 schwarze 49: const struct tbl_opts *, const struct tbl_dat *);
1.30 kristaps 50:
1.48 schwarze 51:
52: /*
1.55 schwarze 53: * Parse the *src string and store a scaling unit into *dst.
54: * If the string doesn't specify the unit, use the default.
55: * If no default is specified, fail.
1.64 schwarze 56: * Return a pointer to the byte after the last byte used,
57: * or NULL on total failure.
1.3 kristaps 58: */
1.64 schwarze 59: const char *
1.5 kristaps 60: a2roffsu(const char *src, struct roffsu *dst, enum roffscale def)
1.1 kristaps 61: {
1.55 schwarze 62: char *endptr;
1.1 kristaps 63:
1.56 schwarze 64: dst->unit = def == SCALE_MAX ? SCALE_BU : def;
65: dst->scale = strtod(src, &endptr);
66: if (endptr == src)
1.64 schwarze 67: return NULL;
1.5 kristaps 68:
1.56 schwarze 69: switch (*endptr++) {
1.48 schwarze 70: case 'c':
1.56 schwarze 71: dst->unit = SCALE_CM;
1.3 kristaps 72: break;
1.48 schwarze 73: case 'i':
1.56 schwarze 74: dst->unit = SCALE_IN;
75: break;
76: case 'f':
77: dst->unit = SCALE_FS;
78: break;
79: case 'M':
80: dst->unit = SCALE_MM;
81: break;
82: case 'm':
83: dst->unit = SCALE_EM;
84: break;
85: case 'n':
86: dst->unit = SCALE_EN;
1.3 kristaps 87: break;
1.48 schwarze 88: case 'P':
1.56 schwarze 89: dst->unit = SCALE_PC;
1.3 kristaps 90: break;
1.48 schwarze 91: case 'p':
1.56 schwarze 92: dst->unit = SCALE_PT;
1.3 kristaps 93: break;
1.56 schwarze 94: case 'u':
95: dst->unit = SCALE_BU;
1.3 kristaps 96: break;
1.48 schwarze 97: case 'v':
1.56 schwarze 98: dst->unit = SCALE_VS;
1.3 kristaps 99: break;
1.68 schwarze 100: default:
1.56 schwarze 101: endptr--;
1.5 kristaps 102: if (SCALE_MAX == def)
1.64 schwarze 103: return NULL;
1.56 schwarze 104: dst->unit = def;
1.3 kristaps 105: break;
106: }
1.64 schwarze 107: return endptr;
1.8 kristaps 108: }
1.30 kristaps 109:
110: /*
111: * Calculate the abstract widths and decimal positions of columns in a
112: * table. This routine allocates the columns structures then runs over
113: * all rows and cells in the table. The function pointers in "tbl" are
114: * used for the actual width calculations.
115: */
116: void
1.75 schwarze 117: tblcalc(struct rofftbl *tbl, const struct tbl_span *sp_first,
1.66 schwarze 118: size_t offset, size_t rmargin)
1.30 kristaps 119: {
1.65 schwarze 120: struct roffsu su;
1.58 schwarze 121: const struct tbl_opts *opts;
1.75 schwarze 122: const struct tbl_span *sp;
1.30 kristaps 123: const struct tbl_dat *dp;
124: struct roffcol *col;
1.75 schwarze 125: struct tbl_colgroup *first_group, **gp, *g;
126: size_t ewidth, min1, min2, wanted, width, xwidth;
127: int done, icol, maxcol, necol, nxcol, quirkcol;
1.30 kristaps 128:
129: /*
130: * Allocate the master column specifiers. These will hold the
131: * widths and decimal positions for all cells in the column. It
132: * must be freed and nullified by the caller.
133: */
134:
1.75 schwarze 135: assert(tbl->cols == NULL);
136: tbl->cols = mandoc_calloc((size_t)sp_first->opts->cols,
1.48 schwarze 137: sizeof(struct roffcol));
1.75 schwarze 138: opts = sp_first->opts;
1.30 kristaps 139:
1.75 schwarze 140: maxcol = -1;
141: first_group = NULL;
142: for (sp = sp_first; sp != NULL; sp = sp->next) {
143: if (sp->pos != TBL_SPAN_DATA)
1.30 kristaps 144: continue;
1.75 schwarze 145:
1.30 kristaps 146: /*
147: * Account for the data cells in the layout, matching it
148: * to data cells in the data section.
149: */
1.75 schwarze 150:
151: gp = &first_group;
152: for (dp = sp->first; dp != NULL; dp = dp->next) {
1.59 schwarze 153: icol = dp->layout->col;
1.78 schwarze 154: while (maxcol < icol + dp->hspans)
1.70 schwarze 155: tbl->cols[++maxcol].spacing = SIZE_MAX;
1.52 schwarze 156: col = tbl->cols + icol;
157: col->flags |= dp->layout->flags;
158: if (dp->layout->flags & TBL_CELL_WIGN)
159: continue;
1.75 schwarze 160:
161: /* Handle explicit width specifications. */
162:
1.65 schwarze 163: if (dp->layout->wstr != NULL &&
164: dp->layout->width == 0 &&
165: a2roffsu(dp->layout->wstr, &su, SCALE_EN)
166: != NULL)
167: dp->layout->width =
168: (*tbl->sulen)(&su, tbl->arg);
169: if (col->width < dp->layout->width)
170: col->width = dp->layout->width;
1.70 schwarze 171: if (dp->layout->spacing != SIZE_MAX &&
172: (col->spacing == SIZE_MAX ||
173: col->spacing < dp->layout->spacing))
174: col->spacing = dp->layout->spacing;
1.75 schwarze 175:
176: /*
177: * Calculate an automatic width.
178: * Except for spanning cells, apply it.
179: */
180:
181: width = tblcalc_data(tbl,
182: dp->hspans == 0 ? col : NULL,
183: opts, dp,
1.67 schwarze 184: dp->block == 0 ? 0 :
185: dp->layout->width ? dp->layout->width :
1.69 schwarze 186: rmargin ? (rmargin + sp->opts->cols / 2)
187: / (sp->opts->cols + 1) : 0);
1.75 schwarze 188: if (dp->hspans == 0)
189: continue;
190:
191: /*
192: * Build an ordered, singly linked list
193: * of all groups of columns joined by spans,
194: * recording the minimum width for each group.
195: */
196:
197: while (*gp != NULL && ((*gp)->startcol < icol ||
198: (*gp)->endcol < icol + dp->hspans))
199: gp = &(*gp)->next;
200: if (*gp == NULL || (*gp)->startcol > icol ||
201: (*gp)->endcol > icol + dp->hspans) {
202: g = mandoc_malloc(sizeof(*g));
203: g->next = *gp;
204: g->wanted = width;
205: g->startcol = icol;
206: g->endcol = icol + dp->hspans;
207: *gp = g;
208: } else if ((*gp)->wanted < width)
209: (*gp)->wanted = width;
1.52 schwarze 210: }
211: }
212:
213: /*
1.79 schwarze 214: * The minimum width of columns explicitly specified
215: * in the layout is 1n.
1.75 schwarze 216: */
217:
1.79 schwarze 218: if (maxcol < sp_first->opts->cols - 1)
219: maxcol = sp_first->opts->cols - 1;
220: for (icol = 0; icol <= maxcol; icol++) {
221: col = tbl->cols + icol;
222: if (col->width < 1)
223: col->width = 1;
224:
225: /*
226: * Column spacings are needed for span width
227: * calculations, so set the default values now.
228: */
229:
230: if (col->spacing == SIZE_MAX || icol == maxcol)
231: col->spacing = 3;
232: }
1.75 schwarze 233:
234: /*
235: * Replace the minimum widths with the missing widths,
236: * and dismiss groups that are already wide enough.
237: */
238:
239: gp = &first_group;
240: while ((g = *gp) != NULL) {
241: done = 0;
242: for (icol = g->startcol; icol <= g->endcol; icol++) {
243: width = tbl->cols[icol].width;
244: if (icol < g->endcol)
245: width += tbl->cols[icol].spacing;
246: if (g->wanted <= width) {
247: done = 1;
248: break;
249: } else
250: (*gp)->wanted -= width;
251: }
252: if (done) {
253: *gp = g->next;
254: free(g);
255: } else
256: gp = &(*gp)->next;
257: }
258:
259: while (first_group != NULL) {
260:
261: /*
262: * Find the smallest and second smallest column width
263: * among the columns which may need expamsion.
264: */
265:
266: min1 = min2 = SIZE_MAX;
267: for (icol = 0; icol <= maxcol; icol++) {
1.82 ! schwarze 268: width = tbl->cols[icol].width;
! 269: if (min1 > width) {
1.75 schwarze 270: min2 = min1;
1.82 ! schwarze 271: min1 = width;
! 272: } else if (min1 < width && min2 > width)
! 273: min2 = width;
1.75 schwarze 274: }
275:
276: /*
277: * Find the minimum wanted width
278: * for any one of the narrowest columns,
279: * and mark the columns wanting that width.
280: */
281:
282: wanted = min2;
283: for (g = first_group; g != NULL; g = g->next) {
284: necol = 0;
285: for (icol = g->startcol; icol <= g->endcol; icol++)
286: if (tbl->cols[icol].width == min1)
287: necol++;
288: if (necol == 0)
289: continue;
290: width = min1 + (g->wanted - 1) / necol + 1;
291: if (width > min2)
292: width = min2;
293: if (wanted > width)
294: wanted = width;
295: }
296:
1.82 ! schwarze 297: /* Record the effect of the widening. */
1.75 schwarze 298:
299: gp = &first_group;
300: while ((g = *gp) != NULL) {
301: done = 0;
302: for (icol = g->startcol; icol <= g->endcol; icol++) {
1.82 ! schwarze 303: if (tbl->cols[icol].width != min1)
1.75 schwarze 304: continue;
305: if (g->wanted <= wanted - min1) {
1.82 ! schwarze 306: tbl->cols[icol].width += g->wanted;
1.75 schwarze 307: done = 1;
308: break;
309: }
1.82 ! schwarze 310: tbl->cols[icol].width = wanted;
1.75 schwarze 311: g->wanted -= wanted - min1;
312: }
313: if (done) {
314: *gp = g->next;
315: free(g);
316: } else
317: gp = &(*gp)->next;
318: }
319: }
320:
321: /*
1.72 schwarze 322: * Align numbers with text.
1.52 schwarze 323: * Count columns to equalize and columns to maximize.
324: * Find maximum width of the columns to equalize.
325: * Find total width of the columns *not* to maximize.
326: */
327:
328: necol = nxcol = 0;
329: ewidth = xwidth = 0;
330: for (icol = 0; icol <= maxcol; icol++) {
331: col = tbl->cols + icol;
1.72 schwarze 332: if (col->width > col->nwidth)
333: col->decimal += (col->width - col->nwidth) / 2;
1.52 schwarze 334: if (col->flags & TBL_CELL_EQUAL) {
335: necol++;
336: if (ewidth < col->width)
337: ewidth = col->width;
338: }
339: if (col->flags & TBL_CELL_WMAX)
340: nxcol++;
341: else
342: xwidth += col->width;
343: }
344:
345: /*
346: * Equalize columns, if requested for any of them.
347: * Update total width of the columns not to maximize.
348: */
349:
350: if (necol) {
351: for (icol = 0; icol <= maxcol; icol++) {
352: col = tbl->cols + icol;
353: if ( ! (col->flags & TBL_CELL_EQUAL))
354: continue;
355: if (col->width == ewidth)
356: continue;
1.66 schwarze 357: if (nxcol && rmargin)
1.52 schwarze 358: xwidth += ewidth - col->width;
359: col->width = ewidth;
360: }
361: }
362:
363: /*
364: * If there are any columns to maximize, find the total
365: * available width, deducting 3n margins between columns.
366: * Distribute the available width evenly.
367: */
368:
1.66 schwarze 369: if (nxcol && rmargin) {
1.63 schwarze 370: xwidth += 3*maxcol +
1.58 schwarze 371: (opts->opts & (TBL_OPT_BOX | TBL_OPT_DBOX) ?
372: 2 : !!opts->lvert + !!opts->rvert);
1.66 schwarze 373: if (rmargin <= offset + xwidth)
1.63 schwarze 374: return;
1.66 schwarze 375: xwidth = rmargin - offset - xwidth;
1.58 schwarze 376:
377: /*
378: * Emulate a bug in GNU tbl width calculation that
379: * manifests itself for large numbers of x-columns.
380: * Emulating it for 5 x-columns gives identical
381: * behaviour for up to 6 x-columns.
382: */
383:
384: if (nxcol == 5) {
385: quirkcol = xwidth % nxcol + 2;
386: if (quirkcol != 3 && quirkcol != 4)
387: quirkcol = -1;
388: } else
389: quirkcol = -1;
390:
391: necol = 0;
392: ewidth = 0;
1.52 schwarze 393: for (icol = 0; icol <= maxcol; icol++) {
394: col = tbl->cols + icol;
395: if ( ! (col->flags & TBL_CELL_WMAX))
396: continue;
1.58 schwarze 397: col->width = (double)xwidth * ++necol / nxcol
398: - ewidth + 0.4995;
399: if (necol == quirkcol)
400: col->width--;
401: ewidth += col->width;
1.30 kristaps 402: }
403: }
404: }
405:
1.75 schwarze 406: static size_t
1.30 kristaps 407: tblcalc_data(struct rofftbl *tbl, struct roffcol *col,
1.65 schwarze 408: const struct tbl_opts *opts, const struct tbl_dat *dp, size_t mw)
1.30 kristaps 409: {
410: size_t sz;
411:
412: /* Branch down into data sub-types. */
413:
414: switch (dp->layout->pos) {
1.48 schwarze 415: case TBL_CELL_HORIZ:
416: case TBL_CELL_DHORIZ:
1.30 kristaps 417: sz = (*tbl->len)(1, tbl->arg);
1.75 schwarze 418: if (col != NULL && col->width < sz)
1.30 kristaps 419: col->width = sz;
1.75 schwarze 420: return sz;
1.48 schwarze 421: case TBL_CELL_LONG:
422: case TBL_CELL_CENTRE:
423: case TBL_CELL_LEFT:
424: case TBL_CELL_RIGHT:
1.75 schwarze 425: return tblcalc_literal(tbl, col, dp, mw);
1.48 schwarze 426: case TBL_CELL_NUMBER:
1.75 schwarze 427: return tblcalc_number(tbl, col, opts, dp);
1.48 schwarze 428: case TBL_CELL_DOWN:
1.75 schwarze 429: return 0;
1.30 kristaps 430: default:
431: abort();
432: }
433: }
434:
1.75 schwarze 435: static size_t
1.30 kristaps 436: tblcalc_literal(struct rofftbl *tbl, struct roffcol *col,
1.65 schwarze 437: const struct tbl_dat *dp, size_t mw)
1.30 kristaps 438: {
1.65 schwarze 439: const char *str; /* Beginning of the first line. */
440: const char *beg; /* Beginning of the current line. */
441: char *end; /* End of the current line. */
1.66 schwarze 442: size_t lsz; /* Length of the current line. */
443: size_t wsz; /* Length of the current word. */
1.75 schwarze 444: size_t msz; /* Length of the longest line. */
1.65 schwarze 445:
446: if (dp->string == NULL || *dp->string == '\0')
1.75 schwarze 447: return 0;
1.65 schwarze 448: str = mw ? mandoc_strdup(dp->string) : dp->string;
1.75 schwarze 449: msz = lsz = 0;
1.65 schwarze 450: for (beg = str; beg != NULL && *beg != '\0'; beg = end) {
451: end = mw ? strchr(beg, ' ') : NULL;
452: if (end != NULL) {
453: *end++ = '\0';
454: while (*end == ' ')
455: end++;
456: }
1.66 schwarze 457: wsz = (*tbl->slen)(beg, tbl->arg);
458: if (mw && lsz && lsz + 1 + wsz <= mw)
459: lsz += 1 + wsz;
460: else
461: lsz = wsz;
1.75 schwarze 462: if (msz < lsz)
463: msz = lsz;
1.65 schwarze 464: }
465: if (mw)
466: free((void *)str);
1.75 schwarze 467: if (col != NULL && col->width < msz)
468: col->width = msz;
469: return msz;
1.30 kristaps 470: }
471:
1.75 schwarze 472: static size_t
1.30 kristaps 473: tblcalc_number(struct rofftbl *tbl, struct roffcol *col,
1.45 schwarze 474: const struct tbl_opts *opts, const struct tbl_dat *dp)
1.30 kristaps 475: {
1.73 schwarze 476: const char *cp, *lastdigit, *lastpoint;
477: size_t intsz, totsz;
1.30 kristaps 478: char buf[2];
479:
1.73 schwarze 480: if (dp->string == NULL || *dp->string == '\0')
1.75 schwarze 481: return 0;
482:
483: totsz = (*tbl->slen)(dp->string, tbl->arg);
484: if (col == NULL)
485: return totsz;
1.73 schwarze 486:
1.30 kristaps 487: /*
1.73 schwarze 488: * Find the last digit and
489: * the last decimal point that is adjacent to a digit.
490: * The alignment indicator "\&" overrides everything.
1.30 kristaps 491: */
492:
1.73 schwarze 493: lastdigit = lastpoint = NULL;
494: for (cp = dp->string; cp[0] != '\0'; cp++) {
495: if (cp[0] == '\\' && cp[1] == '&') {
496: lastdigit = lastpoint = cp;
497: break;
498: } else if (cp[0] == opts->decimal &&
499: (isdigit((unsigned char)cp[1]) ||
500: (cp > dp->string && isdigit((unsigned char)cp[-1]))))
501: lastpoint = cp;
502: else if (isdigit((unsigned char)cp[0]))
503: lastdigit = cp;
504: }
505:
506: /* Not a number, treat as a literal string. */
507:
508: if (lastdigit == NULL) {
1.75 schwarze 509: if (col != NULL && col->width < totsz)
1.73 schwarze 510: col->width = totsz;
1.75 schwarze 511: return totsz;
1.73 schwarze 512: }
1.30 kristaps 513:
1.73 schwarze 514: /* Measure the width of the integer part. */
1.30 kristaps 515:
1.73 schwarze 516: if (lastpoint == NULL)
517: lastpoint = lastdigit + 1;
518: intsz = 0;
1.30 kristaps 519: buf[1] = '\0';
1.73 schwarze 520: for (cp = dp->string; cp < lastpoint; cp++) {
521: buf[0] = cp[0];
522: intsz += (*tbl->slen)(buf, tbl->arg);
523: }
524:
525: /*
526: * If this number has more integer digits than all numbers
527: * seen on earlier lines, shift them all to the right.
528: * If it has fewer, shift this number to the right.
529: */
1.30 kristaps 530:
1.73 schwarze 531: if (intsz > col->decimal) {
532: col->nwidth += intsz - col->decimal;
533: col->decimal = intsz;
1.30 kristaps 534: } else
1.73 schwarze 535: totsz += col->decimal - intsz;
1.30 kristaps 536:
1.73 schwarze 537: /* Update the maximum total width seen so far. */
1.30 kristaps 538:
1.73 schwarze 539: if (totsz > col->nwidth)
540: col->nwidth = totsz;
1.81 schwarze 541: if (col->nwidth > col->width)
542: col->width = col->nwidth;
1.75 schwarze 543: return totsz;
1.30 kristaps 544: }
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