Annotation of docbook2mdoc/docbook2mdoc.c, Revision 1.84
1.84 ! schwarze 1: /* $Id: docbook2mdoc.c,v 1.83 2019/04/03 12:29:47 schwarze Exp $ */
1.1 kristaps 2: /*
3: * Copyright (c) 2014 Kristaps Dzonsons <kristaps@bsd.lv>
1.50 schwarze 4: * Copyright (c) 2019 Ingo Schwarze <schwarze@openbsd.org>
1.1 kristaps 5: *
6: * Permission to use, copy, modify, and distribute this software for any
7: * purpose with or without fee is hereby granted, provided that the above
8: * copyright notice and this permission notice appear in all copies.
9: *
10: * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHORS DISCLAIM ALL WARRANTIES
11: * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
12: * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR
13: * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
14: * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
15: * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
16: * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
17: */
18: #include <assert.h>
19: #include <ctype.h>
20: #include <stdio.h>
21: #include <stdlib.h>
22:
1.74 schwarze 23: #include "node.h"
1.75 schwarze 24: #include "macro.h"
1.74 schwarze 25: #include "format.h"
26:
27: /*
28: * The implementation of the mdoc(7) formatter.
29: */
1.12 kristaps 30:
1.74 schwarze 31: static void pnode_print(struct format *, struct pnode *);
1.25 kristaps 32:
1.37 kristaps 33:
1.54 schwarze 34: static void
1.74 schwarze 35: pnode_printpara(struct format *p, struct pnode *pn)
1.54 schwarze 36: {
37: struct pnode *pp;
38:
1.61 schwarze 39: if ((pp = TAILQ_PREV(pn, pnodeq, child)) == NULL &&
40: (pp = pn->parent) == NULL)
1.54 schwarze 41: return;
42:
1.61 schwarze 43: switch (pp->node) {
44: case NODE_ENTRY:
45: case NODE_LISTITEM:
46: return;
47: case NODE_PREFACE:
48: case NODE_SECTION:
49: if (p->level < 3)
50: return;
51: break;
52: default:
53: break;
54: }
1.69 schwarze 55: macro_line(p, "Pp");
1.54 schwarze 56: }
57:
1.37 kristaps 58: /*
1.10 kristaps 59: * If the SYNOPSIS macro has a superfluous title, kill it.
1.8 kristaps 60: */
1.1 kristaps 61: static void
1.74 schwarze 62: pnode_printrefsynopsisdiv(struct format *p, struct pnode *pn)
1.6 kristaps 63: {
1.71 schwarze 64: struct pnode *pp, *pq;
1.6 kristaps 65:
1.71 schwarze 66: TAILQ_FOREACH_SAFE(pp, &pn->childq, child, pq)
67: if (pp->node == NODE_TITLE)
1.6 kristaps 68: pnode_unlink(pp);
1.71 schwarze 69:
70: macro_line(p, "Sh SYNOPSIS");
1.6 kristaps 71: }
72:
1.8 kristaps 73: /*
74: * Start a hopefully-named `Sh' section.
75: */
1.6 kristaps 76: static void
1.74 schwarze 77: pnode_printrefsect(struct format *p, struct pnode *pn)
1.1 kristaps 78: {
79: struct pnode *pp;
1.52 schwarze 80: const char *title;
81: int flags, level;
82:
1.64 schwarze 83: if (pn->parent == NULL)
1.56 schwarze 84: return;
85:
1.52 schwarze 86: level = ++p->level;
1.72 schwarze 87: flags = ARG_SPACE;
88: if (level == 1)
89: flags |= ARG_UPPER;
1.64 schwarze 90: if (level < 3) {
1.52 schwarze 91: switch (pn->node) {
1.62 schwarze 92: case NODE_CAUTION:
93: case NODE_NOTE:
94: case NODE_TIP:
95: case NODE_WARNING:
1.52 schwarze 96: level = 3;
97: break;
98: default:
99: break;
100: }
101: }
1.1 kristaps 102:
103: TAILQ_FOREACH(pp, &pn->childq, child)
1.64 schwarze 104: if (pp->node == NODE_TITLE)
1.1 kristaps 105: break;
106:
1.64 schwarze 107: if (pp == NULL) {
1.52 schwarze 108: switch (pn->node) {
1.62 schwarze 109: case NODE_PREFACE:
1.52 schwarze 110: title = "Preface";
111: break;
1.62 schwarze 112: case NODE_CAUTION:
1.52 schwarze 113: title = "Caution";
114: break;
1.62 schwarze 115: case NODE_NOTE:
1.52 schwarze 116: title = "Note";
117: break;
1.62 schwarze 118: case NODE_TIP:
1.52 schwarze 119: title = "Tip";
120: break;
1.62 schwarze 121: case NODE_WARNING:
1.52 schwarze 122: title = "Warning";
123: break;
124: default:
125: title = "Unknown";
126: break;
127: }
128: }
129:
130: switch (level) {
1.62 schwarze 131: case 1:
1.69 schwarze 132: macro_open(p, "Sh");
1.29 kristaps 133: break;
1.62 schwarze 134: case 2:
1.69 schwarze 135: macro_open(p, "Ss");
1.29 kristaps 136: break;
1.52 schwarze 137: default:
1.54 schwarze 138: pnode_printpara(p, pn);
1.69 schwarze 139: macro_open(p, "Sy");
1.29 kristaps 140: break;
141: }
1.20 kristaps 142:
1.64 schwarze 143: if (pp != NULL) {
1.69 schwarze 144: macro_addnode(p, pp, flags);
1.5 kristaps 145: pnode_unlink(pp);
1.52 schwarze 146: } else
1.72 schwarze 147: macro_addarg(p, title, ARG_SPACE | ARG_QUOTED);
1.69 schwarze 148: macro_close(p);
1.1 kristaps 149: }
150:
1.8 kristaps 151: /*
152: * Start a reference, extracting the title and volume.
153: */
1.1 kristaps 154: static void
1.74 schwarze 155: pnode_printciterefentry(struct format *p, struct pnode *pn)
1.1 kristaps 156: {
157: struct pnode *pp, *title, *manvol;
158:
159: title = manvol = NULL;
1.69 schwarze 160: TAILQ_FOREACH(pp, &pn->childq, child) {
1.64 schwarze 161: if (pp->node == NODE_MANVOLNUM)
1.1 kristaps 162: manvol = pp;
1.64 schwarze 163: else if (pp->node == NODE_REFENTRYTITLE)
1.1 kristaps 164: title = pp;
1.69 schwarze 165: }
166: macro_open(p, "Xr");
167: if (title == NULL)
1.72 schwarze 168: macro_addarg(p, "unknown", ARG_SPACE);
1.69 schwarze 169: else
1.72 schwarze 170: macro_addnode(p, title, ARG_SPACE | ARG_SINGLE);
1.69 schwarze 171: if (manvol == NULL)
1.72 schwarze 172: macro_addarg(p, "1", ARG_SPACE);
1.64 schwarze 173: else
1.72 schwarze 174: macro_addnode(p, manvol, ARG_SPACE | ARG_SINGLE);
1.71 schwarze 175: pnode_unlinksub(pn);
1.1 kristaps 176: }
177:
178: static void
1.74 schwarze 179: pnode_printrefmeta(struct format *p, struct pnode *pn)
1.1 kristaps 180: {
181: struct pnode *pp, *title, *manvol;
182:
183: title = manvol = NULL;
1.69 schwarze 184: TAILQ_FOREACH(pp, &pn->childq, child) {
1.64 schwarze 185: if (pp->node == NODE_MANVOLNUM)
1.1 kristaps 186: manvol = pp;
1.64 schwarze 187: else if (pp->node == NODE_REFENTRYTITLE)
1.1 kristaps 188: title = pp;
1.69 schwarze 189: }
190: macro_open(p, "Dt");
191: if (title == NULL)
1.72 schwarze 192: macro_addarg(p, "UNKNOWN", ARG_SPACE);
1.69 schwarze 193: else
1.72 schwarze 194: macro_addnode(p, title, ARG_SPACE | ARG_SINGLE | ARG_UPPER);
1.69 schwarze 195: if (manvol == NULL)
1.72 schwarze 196: macro_addarg(p, "1", ARG_SPACE);
1.13 kristaps 197: else
1.72 schwarze 198: macro_addnode(p, manvol, ARG_SPACE | ARG_SINGLE);
1.69 schwarze 199: macro_close(p);
1.71 schwarze 200: pnode_unlink(pn);
1.1 kristaps 201: }
202:
1.3 kristaps 203: static void
1.74 schwarze 204: pnode_printfuncdef(struct format *p, struct pnode *pn)
1.3 kristaps 205: {
206: struct pnode *pp, *ftype, *func;
207:
208: ftype = func = NULL;
1.69 schwarze 209: TAILQ_FOREACH(pp, &pn->childq, child) {
1.64 schwarze 210: if (pp->node == NODE_TEXT)
1.3 kristaps 211: ftype = pp;
1.64 schwarze 212: else if (pp->node == NODE_FUNCTION)
1.3 kristaps 213: func = pp;
1.13 kristaps 214: }
1.69 schwarze 215: if (ftype != NULL)
1.72 schwarze 216: macro_argline(p, "Ft", ftype->b);
1.69 schwarze 217: macro_open(p, "Fo");
218: if (func == NULL)
1.72 schwarze 219: macro_addarg(p, "UNKNOWN", ARG_SPACE);
1.69 schwarze 220: else
1.72 schwarze 221: macro_addnode(p, func, ARG_SPACE | ARG_SINGLE);
1.69 schwarze 222: macro_close(p);
1.3 kristaps 223: }
224:
1.40 kristaps 225: /*
1.41 kristaps 226: * The <mml:mfenced> node is a little peculiar.
227: * First, it can have arbitrary open and closing tokens, which default
228: * to parentheses.
229: * Second, >1 arguments are separated by commas.
230: */
231: static void
1.74 schwarze 232: pnode_printmathfenced(struct format *p, struct pnode *pn)
1.41 kristaps 233: {
234: struct pnode *pp;
235:
1.59 schwarze 236: printf("left %s ", pnode_getattr_raw(pn, ATTRKEY_OPEN, "("));
1.41 kristaps 237:
238: pp = TAILQ_FIRST(&pn->childq);
239: pnode_print(p, pp);
240:
1.64 schwarze 241: while ((pp = TAILQ_NEXT(pp, child)) != NULL) {
1.41 kristaps 242: putchar(',');
243: pnode_print(p, pp);
244: }
1.59 schwarze 245: printf("right %s ", pnode_getattr_raw(pn, ATTRKEY_CLOSE, ")"));
1.71 schwarze 246: pnode_unlinksub(pn);
1.41 kristaps 247: }
248:
249: /*
1.40 kristaps 250: * These math nodes require special handling because they have infix
251: * syntax, instead of the usual prefix or prefix.
252: * So we need to break up the first and second child node with a
253: * particular eqn(7) word.
254: */
255: static void
1.74 schwarze 256: pnode_printmath(struct format *p, struct pnode *pn)
1.40 kristaps 257: {
258: struct pnode *pp;
259:
260: pp = TAILQ_FIRST(&pn->childq);
261: pnode_print(p, pp);
262:
263: switch (pn->node) {
1.62 schwarze 264: case NODE_MML_MSUP:
1.42 kristaps 265: fputs(" sup ", stdout);
1.40 kristaps 266: break;
1.62 schwarze 267: case NODE_MML_MFRAC:
1.42 kristaps 268: fputs(" over ", stdout);
1.40 kristaps 269: break;
1.62 schwarze 270: case NODE_MML_MSUB:
1.42 kristaps 271: fputs(" sub ", stdout);
1.40 kristaps 272: break;
273: default:
274: break;
275: }
276:
277: pp = TAILQ_NEXT(pp, child);
278: pnode_print(p, pp);
1.71 schwarze 279: pnode_unlinksub(pn);
1.40 kristaps 280: }
281:
1.3 kristaps 282: static void
1.74 schwarze 283: pnode_printfuncprototype(struct format *p, struct pnode *pn)
1.3 kristaps 284: {
285: struct pnode *pp, *fdef;
286:
287: TAILQ_FOREACH(fdef, &pn->childq, child)
1.64 schwarze 288: if (fdef->node == NODE_FUNCDEF)
1.3 kristaps 289: break;
290:
1.64 schwarze 291: if (fdef != NULL)
1.3 kristaps 292: pnode_printfuncdef(p, fdef);
1.4 kristaps 293: else
1.69 schwarze 294: macro_line(p, "Fo UNKNOWN");
1.3 kristaps 295:
1.44 schwarze 296: TAILQ_FOREACH(pp, &pn->childq, child)
1.64 schwarze 297: if (pp->node == NODE_PARAMDEF)
1.72 schwarze 298: macro_nodeline(p, "Fa", pp, ARG_SINGLE);
1.3 kristaps 299:
1.69 schwarze 300: macro_line(p, "Fc");
1.71 schwarze 301: pnode_unlinksub(pn);
1.3 kristaps 302: }
303:
1.44 schwarze 304: /*
1.10 kristaps 305: * The <arg> element is more complicated than it should be because text
306: * nodes are treated like ".Ar foo", but non-text nodes need to be
307: * re-sent into the printer (i.e., without the preceding ".Ar").
1.12 kristaps 308: * This also handles the case of "repetition" (or in other words, the
309: * ellipsis following an argument) and optionality.
1.10 kristaps 310: */
1.4 kristaps 311: static void
1.74 schwarze 312: pnode_printarg(struct format *p, struct pnode *pn)
1.4 kristaps 313: {
314: struct pnode *pp;
1.12 kristaps 315: struct pattr *ap;
316: int isop, isrep;
317:
318: isop = 1;
319: isrep = 0;
1.69 schwarze 320: TAILQ_FOREACH(ap, &pn->attrq, child) {
1.64 schwarze 321: if (ap->key == ATTRKEY_CHOICE &&
322: (ap->val == ATTRVAL_PLAIN || ap->val == ATTRVAL_REQ))
1.12 kristaps 323: isop = 0;
1.64 schwarze 324: else if (ap->key == ATTRKEY_REP && ap->val == ATTRVAL_REPEAT)
1.12 kristaps 325: isrep = 1;
326: }
1.69 schwarze 327: if (isop)
328: macro_open(p, "Op");
1.4 kristaps 329:
1.10 kristaps 330: TAILQ_FOREACH(pp, &pn->childq, child) {
1.69 schwarze 331: if (pp->node == NODE_TEXT)
332: macro_open(p, "Ar");
1.10 kristaps 333: pnode_print(p, pp);
1.64 schwarze 334: if (isrep && pp->node == NODE_TEXT)
1.72 schwarze 335: macro_addarg(p, "...", ARG_SPACE);
1.10 kristaps 336: }
1.71 schwarze 337: pnode_unlinksub(pn);
1.4 kristaps 338: }
339:
1.24 kristaps 340: static void
1.74 schwarze 341: pnode_printgroup(struct format *p, struct pnode *pn)
1.24 kristaps 342: {
343: struct pnode *pp, *np;
344: struct pattr *ap;
345: int isop, sv;
346:
347: isop = 1;
1.44 schwarze 348: TAILQ_FOREACH(ap, &pn->attrq, child)
1.64 schwarze 349: if (ap->key == ATTRKEY_CHOICE &&
350: (ap->val == ATTRVAL_PLAIN || ap->val == ATTRVAL_REQ)) {
1.24 kristaps 351: isop = 0;
352: break;
353: }
354:
1.44 schwarze 355: /*
1.24 kristaps 356: * Make sure we're on a macro line.
357: * This will prevent pnode_print() for putting us on a
358: * subsequent line.
359: */
1.69 schwarze 360: sv = p->linestate == LINE_NEW;
1.44 schwarze 361: if (isop)
1.69 schwarze 362: macro_open(p, "Op");
1.24 kristaps 363: else if (sv)
1.69 schwarze 364: macro_open(p, "No");
1.24 kristaps 365:
366: /*
367: * Keep on printing text separated by the vertical bar as long
368: * as we're within the same origin node as the group.
369: * This is kind of a nightmare.
370: * Eh, DocBook...
371: * FIXME: if there's a "Fl", we don't cut off the leading "-"
372: * like we do in pnode_print().
373: */
374: TAILQ_FOREACH(pp, &pn->childq, child) {
375: pnode_print(p, pp);
376: np = TAILQ_NEXT(pp, child);
1.64 schwarze 377: while (np != NULL) {
1.24 kristaps 378: if (pp->node != np->node)
379: break;
1.72 schwarze 380: macro_addarg(p, "|", ARG_SPACE);
381: macro_addnode(p, np, ARG_SPACE);
1.24 kristaps 382: pp = np;
383: np = TAILQ_NEXT(np, child);
384: }
385: }
1.69 schwarze 386: if (sv)
387: macro_close(p);
1.71 schwarze 388: pnode_unlinksub(pn);
1.24 kristaps 389: }
390:
1.7 kristaps 391: static void
1.78 schwarze 392: pnode_printauthor(struct format *f, struct pnode *n)
393: {
394: struct pnode *nc, *ncn;
395: int have_contrib, have_name;
396:
397: /*
398: * Print <contrib> children up front, before the .An scope,
399: * and figure out whether we a name of a person.
400: */
401:
402: have_contrib = have_name = 0;
403: TAILQ_FOREACH_SAFE(nc, &n->childq, child, ncn) {
404: switch (nc->node) {
405: case NODE_CONTRIB:
406: if (have_contrib)
407: print_text(f, ",", 0);
408: print_textnode(f, nc);
409: pnode_unlink(nc);
410: have_contrib = 1;
411: break;
412: case NODE_PERSONNAME:
413: have_name = 1;
414: break;
415: default:
416: break;
417: }
418: }
419: if (TAILQ_FIRST(&n->childq) == NULL)
420: return;
421:
422: if (have_contrib)
423: print_text(f, ":", 0);
424:
425: /*
426: * If we have a name, print it in the .An scope and leave
427: * all other content for child handlers, to print after the
428: * scope. Otherwise, print everything in the scope.
429: */
430:
431: macro_open(f, "An");
432: TAILQ_FOREACH_SAFE(nc, &n->childq, child, ncn) {
433: if (nc->node == NODE_PERSONNAME || have_name == 0) {
434: macro_addnode(f, nc, ARG_SPACE);
435: pnode_unlink(nc);
436: }
1.80 schwarze 437: }
438:
439: /*
440: * If there is an email address,
441: * print it on the same macro line.
442: */
443:
444: if ((nc = pnode_findfirst(n, NODE_EMAIL)) != NULL) {
445: pnode_print(f, nc);
446: pnode_unlink(nc);
1.78 schwarze 447: }
448:
449: /*
450: * If there are still unprinted children, end the scope
451: * with a comma. Otherwise, leave the scope open in case
452: * a text node follows that starts with closing punctuation.
453: */
454:
455: if (TAILQ_FIRST(&n->childq) != NULL) {
456: macro_addarg(f, ",", ARG_SPACE);
457: macro_close(f);
458: }
459: }
460:
461: static void
1.74 schwarze 462: pnode_printprologue(struct format *p, struct ptree *tree)
1.7 kristaps 463: {
1.74 schwarze 464: struct pnode *refmeta;
1.7 kristaps 465:
1.74 schwarze 466: refmeta = tree->root == NULL ? NULL :
467: pnode_findfirst(tree->root, NODE_REFMETA);
1.9 kristaps 468:
1.69 schwarze 469: macro_line(p, "Dd $Mdocdate" "$");
1.74 schwarze 470: if (refmeta == NULL) {
1.69 schwarze 471: macro_open(p, "Dt");
472: macro_addarg(p,
1.74 schwarze 473: pnode_getattr_raw(tree->root, ATTRKEY_ID, "UNKNOWN"),
1.72 schwarze 474: ARG_SPACE | ARG_SINGLE | ARG_UPPER);
475: macro_addarg(p, "1", ARG_SPACE);
1.69 schwarze 476: macro_close(p);
1.74 schwarze 477: } else
478: pnode_printrefmeta(p, refmeta);
1.69 schwarze 479: macro_line(p, "Os");
1.43 kristaps 480:
1.74 schwarze 481: if (tree->flags & TREE_EQN) {
1.69 schwarze 482: macro_line(p, "EQ");
1.78 schwarze 483: print_text(p, "delim $$", 0);
1.69 schwarze 484: macro_line(p, "EN");
1.43 kristaps 485: }
1.7 kristaps 486: }
487:
1.42 kristaps 488: /*
489: * We can have multiple <term> elements within a <varlistentry>, which
490: * we should comma-separate as list headers.
491: */
1.13 kristaps 492: static void
1.74 schwarze 493: pnode_printvarlistentry(struct format *p, struct pnode *pn)
1.13 kristaps 494: {
495: struct pnode *pp;
1.42 kristaps 496: int first = 1;
1.13 kristaps 497:
1.69 schwarze 498: macro_open(p, "It");
499: TAILQ_FOREACH(pp, &pn->childq, child) {
500: if (pp->node != NODE_TERM)
501: continue;
502: if ( ! first)
1.72 schwarze 503: macro_addarg(p, ",", 0);
1.69 schwarze 504: pnode_print(p, pp);
505: first = 0;
506: }
507: macro_close(p);
1.13 kristaps 508: TAILQ_FOREACH(pp, &pn->childq, child)
1.69 schwarze 509: if (pp->node != NODE_TERM)
1.13 kristaps 510: pnode_print(p, pp);
1.71 schwarze 511: pnode_unlinksub(pn);
512: }
513:
514: static void
1.74 schwarze 515: pnode_printtitle(struct format *p, struct pnode *pn)
1.71 schwarze 516: {
517: struct pnode *pp, *pq;
518:
519: TAILQ_FOREACH_SAFE(pp, &pn->childq, child, pq) {
520: if (pp->node == NODE_TITLE) {
521: pnode_printpara(p, pp);
522: pnode_print(p, pp);
523: pnode_unlink(pp);
524: }
525: }
1.13 kristaps 526: }
527:
528: static void
1.74 schwarze 529: pnode_printrow(struct format *p, struct pnode *pn)
1.25 kristaps 530: {
531: struct pnode *pp;
532:
1.69 schwarze 533: macro_line(p, "Bl -dash -compact");
1.25 kristaps 534: TAILQ_FOREACH(pp, &pn->childq, child) {
1.69 schwarze 535: macro_line(p, "It");
1.25 kristaps 536: pnode_print(p, pp);
537: }
1.69 schwarze 538: macro_line(p, "El");
1.71 schwarze 539: pnode_unlink(pn);
1.25 kristaps 540: }
541:
542: static void
1.83 schwarze 543: pnode_printtgroup1(struct format *f, struct pnode *n)
1.16 kristaps 544: {
1.82 schwarze 545: struct pnode *nc;
546:
1.83 schwarze 547: macro_line(f, "Bl -bullet -compact");
1.82 schwarze 548: while ((nc = pnode_findfirst(n, NODE_ENTRY)) != NULL) {
1.83 schwarze 549: macro_line(f, "It");
550: pnode_print(f, nc);
1.82 schwarze 551: pnode_unlink(nc);
552: }
1.83 schwarze 553: macro_line(f, "El");
554: pnode_unlinksub(n);
555: }
556:
557: static void
558: pnode_printtgroup2(struct format *f, struct pnode *n)
559: {
560: struct pnode *nr, *ne;
561:
562: macro_line(f, "Bl -tag -width Ds");
563: while ((nr = pnode_findfirst(n, NODE_ROW)) != NULL) {
564: if ((ne = pnode_findfirst(n, NODE_ENTRY)) == NULL)
565: break;
566: macro_open(f, "It");
567: pnode_print(f, ne);
1.84 ! schwarze 568: macro_close(f);
1.83 schwarze 569: pnode_unlink(ne);
570: pnode_print(f, nr);
571: pnode_unlink(nr);
572: }
573: macro_line(f, "El");
1.82 schwarze 574: pnode_unlinksub(n);
575: }
576:
577: static void
1.83 schwarze 578: pnode_printtgroup(struct format *f, struct pnode *n)
1.82 schwarze 579: {
580: struct pnode *nc;
581:
582: switch (atoi(pnode_getattr_raw(n, ATTRKEY_COLS, "0"))) {
583: case 1:
1.83 schwarze 584: pnode_printtgroup1(f, n);
585: return;
586: case 2:
587: pnode_printtgroup2(f, n);
1.82 schwarze 588: return;
589: default:
590: break;
591: }
1.16 kristaps 592:
1.83 schwarze 593: macro_line(f, "Bl -ohang");
1.82 schwarze 594: while ((nc = pnode_findfirst(n, NODE_ROW)) != NULL) {
1.83 schwarze 595: macro_line(f, "It Table Row");
596: pnode_printrow(f, nc);
1.25 kristaps 597: }
1.83 schwarze 598: macro_line(f, "El");
1.82 schwarze 599: pnode_unlinksub(n);
1.25 kristaps 600: }
601:
602: static void
1.74 schwarze 603: pnode_printlist(struct format *p, struct pnode *pn)
1.25 kristaps 604: {
605: struct pnode *pp;
1.16 kristaps 606:
1.71 schwarze 607: pnode_printtitle(p, pn);
1.69 schwarze 608: macro_argline(p, "Bl",
609: pn->node == NODE_ORDEREDLIST ? "-enum" : "-bullet");
1.16 kristaps 610: TAILQ_FOREACH(pp, &pn->childq, child) {
1.69 schwarze 611: macro_line(p, "It");
1.16 kristaps 612: pnode_print(p, pp);
613: }
1.69 schwarze 614: macro_line(p, "El");
1.71 schwarze 615: pnode_unlinksub(pn);
1.16 kristaps 616: }
617:
618: static void
1.74 schwarze 619: pnode_printvariablelist(struct format *p, struct pnode *pn)
1.13 kristaps 620: {
621: struct pnode *pp;
622:
1.71 schwarze 623: pnode_printtitle(p, pn);
1.69 schwarze 624: macro_line(p, "Bl -tag -width Ds");
625: TAILQ_FOREACH(pp, &pn->childq, child) {
626: if (pp->node == NODE_VARLISTENTRY)
1.13 kristaps 627: pnode_print(p, pp);
1.69 schwarze 628: else
1.72 schwarze 629: macro_nodeline(p, "It", pp, 0);
1.69 schwarze 630: }
631: macro_line(p, "El");
1.71 schwarze 632: pnode_unlinksub(pn);
1.13 kristaps 633: }
634:
1.1 kristaps 635: /*
636: * Print a parsed node (or ignore it--whatever).
637: * This is a recursive function.
1.23 kristaps 638: * FIXME: if we're in a literal context (<screen> or <programlisting> or
639: * whatever), don't print inline macros.
1.1 kristaps 640: */
641: static void
1.74 schwarze 642: pnode_print(struct format *p, struct pnode *pn)
1.1 kristaps 643: {
644: struct pnode *pp;
1.59 schwarze 645: const char *ccp;
1.1 kristaps 646: char *cp;
1.69 schwarze 647: int last;
648: enum linestate sv;
1.1 kristaps 649:
1.64 schwarze 650: if (pn == NULL)
1.1 kristaps 651: return;
652:
1.69 schwarze 653: sv = p->linestate;
1.1 kristaps 654:
655: switch (pn->node) {
1.62 schwarze 656: case NODE_APPLICATION:
1.69 schwarze 657: macro_open(p, "Nm");
1.27 kristaps 658: break;
1.62 schwarze 659: case NODE_ARG:
1.10 kristaps 660: pnode_printarg(p, pn);
1.4 kristaps 661: break;
1.62 schwarze 662: case NODE_AUTHOR:
1.78 schwarze 663: pnode_printauthor(p, pn);
1.50 schwarze 664: break;
1.62 schwarze 665: case NODE_AUTHORGROUP:
1.69 schwarze 666: macro_line(p, "An -split");
1.50 schwarze 667: break;
1.62 schwarze 668: case NODE_BOOKINFO:
1.69 schwarze 669: macro_line(p, "Sh NAME");
1.50 schwarze 670: break;
1.62 schwarze 671: case NODE_CITEREFENTRY:
1.1 kristaps 672: pnode_printciterefentry(p, pn);
673: break;
1.68 schwarze 674: case NODE_CITETITLE:
1.69 schwarze 675: macro_open(p, "%T");
1.68 schwarze 676: break;
1.62 schwarze 677: case NODE_CODE:
1.69 schwarze 678: macro_open(p, "Li");
1.4 kristaps 679: break;
1.62 schwarze 680: case NODE_COMMAND:
1.69 schwarze 681: macro_open(p, "Nm");
1.13 kristaps 682: break;
1.62 schwarze 683: case NODE_CONSTANT:
1.69 schwarze 684: macro_open(p, "Dv");
1.33 kristaps 685: break;
1.62 schwarze 686: case NODE_EDITOR:
1.78 schwarze 687: print_text(p, "editor:", ARG_SPACE);
1.69 schwarze 688: macro_open(p, "An");
1.50 schwarze 689: break;
1.65 schwarze 690: case NODE_EMAIL:
1.69 schwarze 691: macro_open(p, "Aq Mt");
1.65 schwarze 692: break;
1.62 schwarze 693: case NODE_EMPHASIS:
694: case NODE_FIRSTTERM:
1.69 schwarze 695: macro_open(p, "Em");
1.1 kristaps 696: break;
1.62 schwarze 697: case NODE_ENVAR:
1.69 schwarze 698: macro_open(p, "Ev");
1.79 schwarze 699: break;
700: case NODE_ESCAPE:
701: if (p->linestate == LINE_NEW)
702: p->linestate = LINE_TEXT;
703: else
704: putchar(' ');
705: fputs(pn->b, stdout);
1.21 kristaps 706: break;
1.62 schwarze 707: case NODE_FILENAME:
1.69 schwarze 708: macro_open(p, "Pa");
1.17 kristaps 709: break;
1.62 schwarze 710: case NODE_FUNCTION:
1.69 schwarze 711: macro_open(p, "Fn");
1.3 kristaps 712: break;
1.62 schwarze 713: case NODE_FUNCPROTOTYPE:
1.3 kristaps 714: pnode_printfuncprototype(p, pn);
715: break;
1.62 schwarze 716: case NODE_FUNCSYNOPSISINFO:
1.69 schwarze 717: macro_open(p, "Fd");
1.16 kristaps 718: break;
1.62 schwarze 719: case NODE_INFORMALEQUATION:
1.69 schwarze 720: macro_line(p, "EQ");
1.43 kristaps 721: break;
1.62 schwarze 722: case NODE_INLINEEQUATION:
1.69 schwarze 723: if (p->linestate == LINE_NEW)
724: p->linestate = LINE_TEXT;
725: putchar('$');
1.43 kristaps 726: break;
1.62 schwarze 727: case NODE_ITEMIZEDLIST:
1.25 kristaps 728: pnode_printlist(p, pn);
1.24 kristaps 729: break;
1.62 schwarze 730: case NODE_GROUP:
1.24 kristaps 731: pnode_printgroup(p, pn);
1.10 kristaps 732: break;
1.67 schwarze 733: case NODE_KEYSYM:
1.69 schwarze 734: macro_open(p, "Sy");
1.67 schwarze 735: break;
1.62 schwarze 736: case NODE_LEGALNOTICE:
1.69 schwarze 737: macro_line(p, "Sh LEGAL NOTICE");
1.50 schwarze 738: break;
1.62 schwarze 739: case NODE_LINK:
1.59 schwarze 740: ccp = pnode_getattr_raw(pn, ATTRKEY_LINKEND, NULL);
1.64 schwarze 741: if (ccp == NULL)
1.58 schwarze 742: break;
1.69 schwarze 743: macro_argline(p, "Sx", ccp);
1.58 schwarze 744: return;
1.62 schwarze 745: case NODE_LITERAL:
1.69 schwarze 746: macro_open(p, "Li");
1.19 kristaps 747: break;
1.62 schwarze 748: case NODE_LITERALLAYOUT:
1.69 schwarze 749: macro_argline(p, "Bd", pnode_getattr(pn, ATTRKEY_CLASS) ==
1.66 schwarze 750: ATTRVAL_MONOSPACED ? "-literal" : "-unfilled");
1.60 schwarze 751: break;
1.62 schwarze 752: case NODE_MML_MFENCED:
1.41 kristaps 753: pnode_printmathfenced(p, pn);
1.40 kristaps 754: break;
1.62 schwarze 755: case NODE_MML_MROW:
756: case NODE_MML_MI:
757: case NODE_MML_MN:
758: case NODE_MML_MO:
1.43 kristaps 759: if (TAILQ_EMPTY(&pn->childq))
760: break;
761: fputs(" { ", stdout);
1.40 kristaps 762: break;
1.62 schwarze 763: case NODE_MML_MFRAC:
764: case NODE_MML_MSUB:
765: case NODE_MML_MSUP:
1.40 kristaps 766: pnode_printmath(p, pn);
767: break;
1.62 schwarze 768: case NODE_OPTION:
1.69 schwarze 769: macro_open(p, "Fl");
1.1 kristaps 770: break;
1.62 schwarze 771: case NODE_ORDEREDLIST:
1.25 kristaps 772: pnode_printlist(p, pn);
773: break;
1.62 schwarze 774: case NODE_PARA:
1.54 schwarze 775: pnode_printpara(p, pn);
1.3 kristaps 776: break;
1.62 schwarze 777: case NODE_PARAMETER:
1.72 schwarze 778: macro_nodeline(p, "Fa", pn, ARG_SINGLE);
1.4 kristaps 779: pnode_unlinksub(pn);
1.1 kristaps 780: break;
1.62 schwarze 781: case NODE_QUOTE:
1.69 schwarze 782: macro_open(p, "Qo");
1.28 kristaps 783: break;
1.62 schwarze 784: case NODE_PROGRAMLISTING:
785: case NODE_SCREEN:
1.69 schwarze 786: macro_line(p, "Bd -literal");
1.15 kristaps 787: break;
1.62 schwarze 788: case NODE_REFENTRYINFO:
1.15 kristaps 789: /* Suppress. */
790: pnode_unlinksub(pn);
1.1 kristaps 791: break;
1.62 schwarze 792: case NODE_REFMETA:
1.7 kristaps 793: abort();
1.1 kristaps 794: break;
1.62 schwarze 795: case NODE_REFNAME:
1.10 kristaps 796: /* Suppress non-text children... */
1.70 schwarze 797: macro_open(p, "Nm");
1.72 schwarze 798: macro_addnode(p, pn, ARG_SPACE | ARG_SINGLE);
1.4 kristaps 799: pnode_unlinksub(pn);
1.10 kristaps 800: break;
1.62 schwarze 801: case NODE_REFNAMEDIV:
1.69 schwarze 802: macro_line(p, "Sh NAME");
1.1 kristaps 803: break;
1.62 schwarze 804: case NODE_REFPURPOSE:
1.69 schwarze 805: macro_open(p, "Nd");
1.10 kristaps 806: break;
1.62 schwarze 807: case NODE_REFSYNOPSISDIV:
1.6 kristaps 808: pnode_printrefsynopsisdiv(p, pn);
1.1 kristaps 809: break;
1.62 schwarze 810: case NODE_PREFACE:
811: case NODE_SECTION:
812: case NODE_NOTE:
813: case NODE_TIP:
814: case NODE_CAUTION:
815: case NODE_WARNING:
1.1 kristaps 816: pnode_printrefsect(p, pn);
817: break;
1.62 schwarze 818: case NODE_REPLACEABLE:
1.69 schwarze 819: macro_open(p, "Ar");
1.13 kristaps 820: break;
1.62 schwarze 821: case NODE_SBR:
1.69 schwarze 822: macro_line(p, "br");
1.19 kristaps 823: break;
1.62 schwarze 824: case NODE_SGMLTAG:
1.69 schwarze 825: macro_open(p, "Li");
1.30 kristaps 826: break;
1.62 schwarze 827: case NODE_STRUCTNAME:
1.69 schwarze 828: macro_open(p, "Vt");
1.25 kristaps 829: break;
1.62 schwarze 830: case NODE_TEXT:
1.72 schwarze 831: if (pn->bsz == 0) {
1.37 kristaps 832: assert(pn->real != pn->b);
833: break;
834: }
1.69 schwarze 835: if (p->linestate == LINE_NEW)
836: p->linestate = LINE_TEXT;
837: else
838: putchar(' ');
1.37 kristaps 839:
1.1 kristaps 840: /*
841: * Output all characters, squeezing out whitespace
1.44 schwarze 842: * between newlines.
1.1 kristaps 843: * XXX: all whitespace, including tabs (?).
844: * Remember to escape control characters and escapes.
845: */
1.72 schwarze 846: cp = pn->b;
1.37 kristaps 847:
1.20 kristaps 848: /*
849: * There's often a superfluous "-" in its <option> tags
850: * before the actual flags themselves.
851: * "Fl" does this for us, so remove it.
852: */
1.64 schwarze 853: if (pn->parent != NULL &&
854: pn->parent->node == NODE_OPTION &&
855: *cp == '-')
1.20 kristaps 856: cp++;
1.64 schwarze 857: for (last = '\n'; *cp != '\0'; ) {
858: if (last == '\n') {
1.1 kristaps 859: /* Consume all whitespace. */
1.46 schwarze 860: if (isspace((unsigned char)*cp)) {
861: while (isspace((unsigned char)*cp))
1.1 kristaps 862: cp++;
863: continue;
1.64 schwarze 864: } else if (*cp == '\'' || *cp == '.')
1.1 kristaps 865: fputs("\\&", stdout);
866: }
867: putchar(last = *cp++);
868: /* If we're a character escape, escape us. */
1.64 schwarze 869: if (last == '\\')
1.1 kristaps 870: putchar('e');
871: }
872: break;
1.82 schwarze 873: case NODE_TGROUP:
874: pnode_printtgroup(p, pn);
875: break;
1.62 schwarze 876: case NODE_TITLE:
1.82 schwarze 877: if (pn->parent->node == NODE_BOOKINFO) {
1.69 schwarze 878: macro_open(p, "Nd");
1.82 schwarze 879: break;
880: }
881: pnode_printpara(p, pn);
882: macro_nodeline(p, "Sy", pn, 0);
883: pnode_unlinksub(pn);
1.50 schwarze 884: break;
1.62 schwarze 885: case NODE_TYPE:
1.69 schwarze 886: macro_open(p, "Vt");
1.39 kristaps 887: break;
1.62 schwarze 888: case NODE_USERINPUT:
1.69 schwarze 889: macro_open(p, "Li");
1.26 kristaps 890: break;
1.62 schwarze 891: case NODE_VARIABLELIST:
1.13 kristaps 892: pnode_printvariablelist(p, pn);
893: break;
1.62 schwarze 894: case NODE_VARLISTENTRY:
1.13 kristaps 895: pnode_printvarlistentry(p, pn);
896: break;
1.62 schwarze 897: case NODE_VARNAME:
1.69 schwarze 898: macro_open(p, "Va");
1.23 kristaps 899: break;
1.1 kristaps 900: default:
901: break;
902: }
903:
904: TAILQ_FOREACH(pp, &pn->childq, child)
905: pnode_print(p, pp);
906:
907: switch (pn->node) {
1.62 schwarze 908: case NODE_INFORMALEQUATION:
1.69 schwarze 909: macro_line(p, "EN");
1.40 kristaps 910: break;
1.62 schwarze 911: case NODE_INLINEEQUATION:
1.43 kristaps 912: fputs("$ ", stdout);
1.69 schwarze 913: p->linestate = sv;
1.43 kristaps 914: break;
1.62 schwarze 915: case NODE_MML_MROW:
916: case NODE_MML_MI:
917: case NODE_MML_MN:
918: case NODE_MML_MO:
1.43 kristaps 919: if (TAILQ_EMPTY(&pn->childq))
920: break;
921: fputs(" } ", stdout);
1.40 kristaps 922: break;
1.62 schwarze 923: case NODE_APPLICATION:
924: case NODE_ARG:
925: case NODE_AUTHOR:
926: case NODE_CITEREFENTRY:
1.68 schwarze 927: case NODE_CITETITLE:
1.62 schwarze 928: case NODE_CODE:
929: case NODE_COMMAND:
930: case NODE_CONSTANT:
931: case NODE_EDITOR:
1.65 schwarze 932: case NODE_EMAIL:
1.62 schwarze 933: case NODE_EMPHASIS:
934: case NODE_ENVAR:
935: case NODE_FILENAME:
936: case NODE_FIRSTTERM:
937: case NODE_FUNCTION:
938: case NODE_FUNCSYNOPSISINFO:
1.67 schwarze 939: case NODE_KEYSYM:
1.62 schwarze 940: case NODE_LITERAL:
941: case NODE_OPTION:
942: case NODE_PARAMETER:
943: case NODE_REPLACEABLE:
944: case NODE_REFPURPOSE:
945: case NODE_SGMLTAG:
946: case NODE_STRUCTNAME:
947: case NODE_TYPE:
948: case NODE_USERINPUT:
949: case NODE_VARNAME:
1.69 schwarze 950: if (sv != LINE_MACRO && p->linestate == LINE_MACRO)
951: macro_closepunct(p, pn);
1.28 kristaps 952: break;
1.62 schwarze 953: case NODE_QUOTE:
1.69 schwarze 954: if (sv == LINE_NEW)
955: macro_close(p);
956: sv = p->linestate;
957: macro_open(p, "Qc");
958: if (sv == LINE_NEW)
959: macro_close(p);
1.10 kristaps 960: break;
1.62 schwarze 961: case NODE_REFNAME:
1.12 kristaps 962: /*
963: * If we're in the NAME macro and we have multiple
964: * <refname> macros in sequence, then print out a
965: * trailing comma before the newline.
966: */
1.64 schwarze 967: if (pn->parent != NULL &&
968: pn->parent->node == NODE_REFNAMEDIV &&
969: TAILQ_NEXT(pn, child) != NULL &&
970: TAILQ_NEXT(pn, child)->node == NODE_REFNAME)
1.72 schwarze 971: macro_addarg(p, ",", ARG_SPACE);
1.69 schwarze 972: if (sv == LINE_NEW)
973: macro_close(p);
1.52 schwarze 974: break;
1.62 schwarze 975: case NODE_PREFACE:
976: case NODE_SECTION:
977: case NODE_NOTE:
978: case NODE_TIP:
979: case NODE_CAUTION:
980: case NODE_WARNING:
1.52 schwarze 981: p->level--;
1.12 kristaps 982: break;
1.62 schwarze 983: case NODE_LITERALLAYOUT:
984: case NODE_PROGRAMLISTING:
985: case NODE_SCREEN:
1.69 schwarze 986: macro_line(p, "Ed");
1.50 schwarze 987: break;
1.62 schwarze 988: case NODE_TITLE:
1.69 schwarze 989: if (pn->parent->node == NODE_BOOKINFO)
990: macro_line(p, "Sh AUTHORS");
1.1 kristaps 991: break;
992: default:
993: break;
994: }
995: }
996:
1.74 schwarze 997: void
998: ptree_print(struct ptree *tree)
999: {
1000: struct format formatter;
1.1 kristaps 1001:
1.74 schwarze 1002: formatter.level = 0;
1003: formatter.linestate = LINE_NEW;
1004: pnode_printprologue(&formatter, tree);
1005: pnode_print(&formatter, tree->root);
1006: if (formatter.linestate != LINE_NEW)
1007: putchar('\n');
1.1 kristaps 1008: }
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