Annotation of mandoc/roff.c, Revision 1.212
1.212 ! schwarze 1: /* $Id: roff.c,v 1.211 2014/06/29 21:20:31 schwarze Exp $ */
1.1 kristaps 2: /*
1.175 schwarze 3: * Copyright (c) 2010, 2011, 2012 Kristaps Dzonsons <kristaps@bsd.lv>
1.190 schwarze 4: * Copyright (c) 2010-2014 Ingo Schwarze <schwarze@openbsd.org>
1.1 kristaps 5: *
6: * Permission to use, copy, modify, and distribute this software for any
1.66 kristaps 7: * purpose with or without fee is hereby granted, provided that the above
8: * copyright notice and this permission notice appear in all copies.
1.1 kristaps 9: *
1.106 kristaps 10: * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHORS DISCLAIM ALL WARRANTIES
1.66 kristaps 11: * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
1.106 kristaps 12: * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR
1.66 kristaps 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.
1.1 kristaps 17: */
1.66 kristaps 18: #ifdef HAVE_CONFIG_H
19: #include "config.h"
20: #endif
1.30 kristaps 21:
1.67 kristaps 22: #include <assert.h>
1.85 kristaps 23: #include <ctype.h>
1.178 schwarze 24: #include <stdio.h>
1.1 kristaps 25: #include <stdlib.h>
1.67 kristaps 26: #include <string.h>
1.1 kristaps 27:
1.67 kristaps 28: #include "mandoc.h"
1.201 schwarze 29: #include "mandoc_aux.h"
1.109 kristaps 30: #include "libroff.h"
1.94 kristaps 31: #include "libmandoc.h"
1.33 kristaps 32:
1.141 kristaps 33: /* Maximum number of nested if-else conditionals. */
1.82 kristaps 34: #define RSTACK_MAX 128
35:
1.170 schwarze 36: /* Maximum number of string expansions per line, to break infinite loops. */
37: #define EXPAND_LIMIT 1000
38:
1.67 kristaps 39: enum rofft {
1.103 kristaps 40: ROFF_ad,
1.80 kristaps 41: ROFF_am,
42: ROFF_ami,
43: ROFF_am1,
1.193 schwarze 44: ROFF_as,
1.174 kristaps 45: ROFF_cc,
1.194 schwarze 46: ROFF_ce,
1.80 kristaps 47: ROFF_de,
48: ROFF_dei,
49: ROFF_de1,
1.83 schwarze 50: ROFF_ds,
1.82 kristaps 51: ROFF_el,
1.185 schwarze 52: ROFF_fam,
1.186 schwarze 53: ROFF_hw,
1.103 kristaps 54: ROFF_hy,
1.82 kristaps 55: ROFF_ie,
1.75 kristaps 56: ROFF_if,
1.76 kristaps 57: ROFF_ig,
1.123 schwarze 58: ROFF_it,
1.103 kristaps 59: ROFF_ne,
60: ROFF_nh,
1.104 kristaps 61: ROFF_nr,
1.124 schwarze 62: ROFF_ns,
63: ROFF_ps,
1.83 schwarze 64: ROFF_rm,
1.203 schwarze 65: ROFF_rr,
1.105 kristaps 66: ROFF_so,
1.124 schwarze 67: ROFF_ta,
1.83 schwarze 68: ROFF_tr,
1.175 schwarze 69: ROFF_Dd,
70: ROFF_TH,
1.109 kristaps 71: ROFF_TS,
72: ROFF_TE,
1.112 kristaps 73: ROFF_T_,
1.125 kristaps 74: ROFF_EQ,
75: ROFF_EN,
1.76 kristaps 76: ROFF_cblock,
1.106 kristaps 77: ROFF_USERDEF,
1.67 kristaps 78: ROFF_MAX
79: };
80:
1.147 kristaps 81: /*
1.167 kristaps 82: * An incredibly-simple string buffer.
83: */
1.94 kristaps 84: struct roffstr {
1.167 kristaps 85: char *p; /* nil-terminated buffer */
86: size_t sz; /* saved strlen(p) */
1.166 kristaps 87: };
88:
89: /*
1.167 kristaps 90: * A key-value roffstr pair as part of a singly-linked list.
1.166 kristaps 91: */
92: struct roffkv {
93: struct roffstr key;
94: struct roffstr val;
95: struct roffkv *next; /* next in list */
1.94 kristaps 96: };
97:
1.180 schwarze 98: /*
99: * A single number register as part of a singly-linked list.
100: */
101: struct roffreg {
102: struct roffstr key;
1.181 schwarze 103: int val;
1.180 schwarze 104: struct roffreg *next;
105: };
106:
1.67 kristaps 107: struct roff {
1.128 kristaps 108: struct mparse *parse; /* parse point */
1.199 schwarze 109: int options; /* parse options */
1.67 kristaps 110: struct roffnode *last; /* leaf of stack */
1.198 schwarze 111: int rstack[RSTACK_MAX]; /* stack of !`ie' rules */
1.174 kristaps 112: char control; /* control character */
1.82 kristaps 113: int rstackpos; /* position in rstack */
1.180 schwarze 114: struct roffreg *regtab; /* number registers */
1.166 kristaps 115: struct roffkv *strtab; /* user-defined strings & macros */
1.167 kristaps 116: struct roffkv *xmbtab; /* multi-byte trans table (`tr') */
117: struct roffstr *xtab; /* single-byte trans table (`tr') */
1.106 kristaps 118: const char *current_string; /* value of last called user macro */
1.118 kristaps 119: struct tbl_node *first_tbl; /* first table parsed */
120: struct tbl_node *last_tbl; /* last table parsed */
121: struct tbl_node *tbl; /* current table being parsed */
1.125 kristaps 122: struct eqn_node *last_eqn; /* last equation parsed */
123: struct eqn_node *first_eqn; /* first equation parsed */
124: struct eqn_node *eqn; /* current equation being parsed */
1.79 kristaps 125: };
126:
1.67 kristaps 127: struct roffnode {
128: enum rofft tok; /* type of node */
129: struct roffnode *parent; /* up one in stack */
130: int line; /* parse line */
131: int col; /* parse col */
1.106 kristaps 132: char *name; /* node name, e.g. macro name */
1.79 kristaps 133: char *end; /* end-rules: custom token */
134: int endspan; /* end-rules: next-line or infty */
1.198 schwarze 135: int rule; /* current evaluation rule */
1.67 kristaps 136: };
137:
138: #define ROFF_ARGS struct roff *r, /* parse ctx */ \
1.72 kristaps 139: enum rofft tok, /* tok of macro */ \
1.207 schwarze 140: char **bufp, /* input buffer */ \
1.67 kristaps 141: size_t *szp, /* size of input buffer */ \
142: int ln, /* parse line */ \
1.75 kristaps 143: int ppos, /* original pos in buffer */ \
144: int pos, /* current pos in buffer */ \
1.74 kristaps 145: int *offs /* reset offset of buffer data */
1.67 kristaps 146:
147: typedef enum rofferr (*roffproc)(ROFF_ARGS);
148:
149: struct roffmac {
150: const char *name; /* macro name */
1.79 kristaps 151: roffproc proc; /* process new macro */
152: roffproc text; /* process as child text of macro */
153: roffproc sub; /* process as child of macro */
154: int flags;
155: #define ROFFMAC_STRUCT (1 << 0) /* always interpret */
1.85 kristaps 156: struct roffmac *next;
1.67 kristaps 157: };
158:
1.141 kristaps 159: struct predef {
160: const char *name; /* predefined input name */
161: const char *str; /* replacement symbol */
162: };
163:
164: #define PREDEF(__name, __str) \
165: { (__name), (__str) },
166:
1.155 kristaps 167: static enum rofft roffhash_find(const char *, size_t);
168: static void roffhash_init(void);
169: static void roffnode_cleanscope(struct roff *);
170: static void roffnode_pop(struct roff *);
171: static void roffnode_push(struct roff *, enum rofft,
172: const char *, int, int);
1.80 kristaps 173: static enum rofferr roff_block(ROFF_ARGS);
174: static enum rofferr roff_block_text(ROFF_ARGS);
175: static enum rofferr roff_block_sub(ROFF_ARGS);
176: static enum rofferr roff_cblock(ROFF_ARGS);
1.174 kristaps 177: static enum rofferr roff_cc(ROFF_ARGS);
1.195 schwarze 178: static void roff_ccond(struct roff *, int, int);
1.82 kristaps 179: static enum rofferr roff_cond(ROFF_ARGS);
180: static enum rofferr roff_cond_text(ROFF_ARGS);
181: static enum rofferr roff_cond_sub(ROFF_ARGS);
1.92 schwarze 182: static enum rofferr roff_ds(ROFF_ARGS);
1.198 schwarze 183: static int roff_evalcond(const char *, int *);
1.204 schwarze 184: static int roff_evalnum(const char *, int *, int *, int);
185: static int roff_evalpar(const char *, int *, int *);
1.198 schwarze 186: static int roff_evalstrcond(const char *, int *);
1.155 kristaps 187: static void roff_free1(struct roff *);
1.180 schwarze 188: static void roff_freereg(struct roffreg *);
1.167 kristaps 189: static void roff_freestr(struct roffkv *);
1.212 ! schwarze 190: static size_t roff_getname(struct roff *, char **, int, int);
1.184 schwarze 191: static int roff_getnum(const char *, int *, int *);
192: static int roff_getop(const char *, int *, char *);
1.181 schwarze 193: static int roff_getregn(const struct roff *,
194: const char *, size_t);
1.192 schwarze 195: static int roff_getregro(const char *name);
1.207 schwarze 196: static const char *roff_getstrn(const struct roff *,
1.94 kristaps 197: const char *, size_t);
1.178 schwarze 198: static enum rofferr roff_it(ROFF_ARGS);
1.103 kristaps 199: static enum rofferr roff_line_ignore(ROFF_ARGS);
1.89 kristaps 200: static enum rofferr roff_nr(ROFF_ARGS);
1.169 schwarze 201: static void roff_openeqn(struct roff *, const char *,
1.156 kristaps 202: int, int, const char *);
1.155 kristaps 203: static enum rofft roff_parse(struct roff *, const char *, int *);
1.178 schwarze 204: static enum rofferr roff_parsetext(char **, size_t *, int, int *);
1.207 schwarze 205: static enum rofferr roff_res(struct roff *,
1.142 kristaps 206: char **, size_t *, int, int);
1.122 schwarze 207: static enum rofferr roff_rm(ROFF_ARGS);
1.203 schwarze 208: static enum rofferr roff_rr(ROFF_ARGS);
1.94 kristaps 209: static void roff_setstr(struct roff *,
1.106 kristaps 210: const char *, const char *, int);
1.207 schwarze 211: static void roff_setstrn(struct roffkv **, const char *,
1.164 kristaps 212: size_t, const char *, size_t, int);
1.105 kristaps 213: static enum rofferr roff_so(ROFF_ARGS);
1.164 kristaps 214: static enum rofferr roff_tr(ROFF_ARGS);
1.175 schwarze 215: static enum rofferr roff_Dd(ROFF_ARGS);
216: static enum rofferr roff_TH(ROFF_ARGS);
1.109 kristaps 217: static enum rofferr roff_TE(ROFF_ARGS);
218: static enum rofferr roff_TS(ROFF_ARGS);
1.125 kristaps 219: static enum rofferr roff_EQ(ROFF_ARGS);
220: static enum rofferr roff_EN(ROFF_ARGS);
1.112 kristaps 221: static enum rofferr roff_T_(ROFF_ARGS);
1.106 kristaps 222: static enum rofferr roff_userdef(ROFF_ARGS);
1.67 kristaps 223:
1.155 kristaps 224: /* See roffhash_find() */
1.85 kristaps 225:
226: #define ASCII_HI 126
227: #define ASCII_LO 33
228: #define HASHWIDTH (ASCII_HI - ASCII_LO + 1)
229:
230: static struct roffmac *hash[HASHWIDTH];
231:
232: static struct roffmac roffs[ROFF_MAX] = {
1.103 kristaps 233: { "ad", roff_line_ignore, NULL, NULL, 0, NULL },
1.85 kristaps 234: { "am", roff_block, roff_block_text, roff_block_sub, 0, NULL },
235: { "ami", roff_block, roff_block_text, roff_block_sub, 0, NULL },
236: { "am1", roff_block, roff_block_text, roff_block_sub, 0, NULL },
1.193 schwarze 237: { "as", roff_ds, NULL, NULL, 0, NULL },
1.174 kristaps 238: { "cc", roff_cc, NULL, NULL, 0, NULL },
1.194 schwarze 239: { "ce", roff_line_ignore, NULL, NULL, 0, NULL },
1.85 kristaps 240: { "de", roff_block, roff_block_text, roff_block_sub, 0, NULL },
241: { "dei", roff_block, roff_block_text, roff_block_sub, 0, NULL },
242: { "de1", roff_block, roff_block_text, roff_block_sub, 0, NULL },
1.92 schwarze 243: { "ds", roff_ds, NULL, NULL, 0, NULL },
1.85 kristaps 244: { "el", roff_cond, roff_cond_text, roff_cond_sub, ROFFMAC_STRUCT, NULL },
1.185 schwarze 245: { "fam", roff_line_ignore, NULL, NULL, 0, NULL },
1.186 schwarze 246: { "hw", roff_line_ignore, NULL, NULL, 0, NULL },
1.103 kristaps 247: { "hy", roff_line_ignore, NULL, NULL, 0, NULL },
1.85 kristaps 248: { "ie", roff_cond, roff_cond_text, roff_cond_sub, ROFFMAC_STRUCT, NULL },
249: { "if", roff_cond, roff_cond_text, roff_cond_sub, ROFFMAC_STRUCT, NULL },
250: { "ig", roff_block, roff_block_text, roff_block_sub, 0, NULL },
1.178 schwarze 251: { "it", roff_it, NULL, NULL, 0, NULL },
1.103 kristaps 252: { "ne", roff_line_ignore, NULL, NULL, 0, NULL },
253: { "nh", roff_line_ignore, NULL, NULL, 0, NULL },
1.104 kristaps 254: { "nr", roff_nr, NULL, NULL, 0, NULL },
1.124 schwarze 255: { "ns", roff_line_ignore, NULL, NULL, 0, NULL },
256: { "ps", roff_line_ignore, NULL, NULL, 0, NULL },
1.122 schwarze 257: { "rm", roff_rm, NULL, NULL, 0, NULL },
1.203 schwarze 258: { "rr", roff_rr, NULL, NULL, 0, NULL },
1.105 kristaps 259: { "so", roff_so, NULL, NULL, 0, NULL },
1.124 schwarze 260: { "ta", roff_line_ignore, NULL, NULL, 0, NULL },
1.164 kristaps 261: { "tr", roff_tr, NULL, NULL, 0, NULL },
1.175 schwarze 262: { "Dd", roff_Dd, NULL, NULL, 0, NULL },
263: { "TH", roff_TH, NULL, NULL, 0, NULL },
1.109 kristaps 264: { "TS", roff_TS, NULL, NULL, 0, NULL },
265: { "TE", roff_TE, NULL, NULL, 0, NULL },
1.112 kristaps 266: { "T&", roff_T_, NULL, NULL, 0, NULL },
1.125 kristaps 267: { "EQ", roff_EQ, NULL, NULL, 0, NULL },
268: { "EN", roff_EN, NULL, NULL, 0, NULL },
1.85 kristaps 269: { ".", roff_cblock, NULL, NULL, 0, NULL },
1.106 kristaps 270: { NULL, roff_userdef, NULL, NULL, 0, NULL },
1.67 kristaps 271: };
272:
1.200 schwarze 273: /* not currently implemented: Ds em Eq LP Me PP pp Or Rd Sf SH */
1.175 schwarze 274: const char *const __mdoc_reserved[] = {
275: "Ac", "Ad", "An", "Ao", "Ap", "Aq", "Ar", "At",
276: "Bc", "Bd", "Bf", "Bk", "Bl", "Bo", "Bq",
277: "Brc", "Bro", "Brq", "Bsx", "Bt", "Bx",
278: "Cd", "Cm", "Db", "Dc", "Dd", "Dl", "Do", "Dq",
1.200 schwarze 279: "Dt", "Dv", "Dx", "D1",
280: "Ec", "Ed", "Ef", "Ek", "El", "Em",
281: "En", "Eo", "Er", "Es", "Ev", "Ex",
1.175 schwarze 282: "Fa", "Fc", "Fd", "Fl", "Fn", "Fo", "Fr", "Ft", "Fx",
1.200 schwarze 283: "Hf", "Ic", "In", "It", "Lb", "Li", "Lk", "Lp",
284: "Ms", "Mt", "Nd", "Nm", "No", "Ns", "Nx",
1.175 schwarze 285: "Oc", "Oo", "Op", "Os", "Ot", "Ox",
1.200 schwarze 286: "Pa", "Pc", "Pf", "Po", "Pp", "Pq",
287: "Qc", "Ql", "Qo", "Qq", "Re", "Rs", "Rv",
288: "Sc", "Sh", "Sm", "So", "Sq",
1.175 schwarze 289: "Ss", "St", "Sx", "Sy",
290: "Ta", "Tn", "Ud", "Ux", "Va", "Vt", "Xc", "Xo", "Xr",
1.200 schwarze 291: "%A", "%B", "%C", "%D", "%I", "%J", "%N", "%O",
1.175 schwarze 292: "%P", "%Q", "%R", "%T", "%U", "%V",
293: NULL
294: };
295:
1.200 schwarze 296: /* not currently implemented: BT DE DS ME MT PT SY TQ YS */
1.175 schwarze 297: const char *const __man_reserved[] = {
1.200 schwarze 298: "AT", "B", "BI", "BR", "DT",
299: "EE", "EN", "EQ", "EX", "HP", "I", "IB", "IP", "IR",
300: "LP", "OP", "P", "PD", "PP",
301: "R", "RB", "RE", "RI", "RS", "SB", "SH", "SM", "SS",
302: "TE", "TH", "TP", "TS", "T&", "UC", "UE", "UR",
1.175 schwarze 303: NULL
304: };
305:
1.141 kristaps 306: /* Array of injected predefined strings. */
307: #define PREDEFS_MAX 38
308: static const struct predef predefs[PREDEFS_MAX] = {
309: #include "predefs.in"
310: };
311:
1.155 kristaps 312: /* See roffhash_find() */
1.85 kristaps 313: #define ROFF_HASH(p) (p[0] - ASCII_LO)
314:
1.178 schwarze 315: static int roffit_lines; /* number of lines to delay */
316: static char *roffit_macro; /* nil-terminated macro line */
317:
1.207 schwarze 318:
1.85 kristaps 319: static void
1.155 kristaps 320: roffhash_init(void)
1.85 kristaps 321: {
322: struct roffmac *n;
323: int buc, i;
324:
1.106 kristaps 325: for (i = 0; i < (int)ROFF_USERDEF; i++) {
1.85 kristaps 326: assert(roffs[i].name[0] >= ASCII_LO);
327: assert(roffs[i].name[0] <= ASCII_HI);
328:
329: buc = ROFF_HASH(roffs[i].name);
330:
331: if (NULL != (n = hash[buc])) {
332: for ( ; n->next; n = n->next)
333: /* Do nothing. */ ;
334: n->next = &roffs[i];
335: } else
336: hash[buc] = &roffs[i];
337: }
338: }
339:
1.67 kristaps 340: /*
341: * Look up a roff token by its name. Returns ROFF_MAX if no macro by
342: * the nil-terminated string name could be found.
343: */
344: static enum rofft
1.155 kristaps 345: roffhash_find(const char *p, size_t s)
1.67 kristaps 346: {
1.85 kristaps 347: int buc;
348: struct roffmac *n;
1.67 kristaps 349:
1.85 kristaps 350: /*
351: * libroff has an extremely simple hashtable, for the time
352: * being, which simply keys on the first character, which must
353: * be printable, then walks a chain. It works well enough until
354: * optimised.
355: */
356:
357: if (p[0] < ASCII_LO || p[0] > ASCII_HI)
358: return(ROFF_MAX);
359:
360: buc = ROFF_HASH(p);
361:
362: if (NULL == (n = hash[buc]))
363: return(ROFF_MAX);
364: for ( ; n; n = n->next)
1.106 kristaps 365: if (0 == strncmp(n->name, p, s) && '\0' == n->name[(int)s])
1.85 kristaps 366: return((enum rofft)(n - roffs));
1.67 kristaps 367:
368: return(ROFF_MAX);
369: }
370:
371: /*
372: * Pop the current node off of the stack of roff instructions currently
373: * pending.
374: */
375: static void
376: roffnode_pop(struct roff *r)
377: {
378: struct roffnode *p;
379:
1.75 kristaps 380: assert(r->last);
1.207 schwarze 381: p = r->last;
1.82 kristaps 382:
1.75 kristaps 383: r->last = r->last->parent;
1.106 kristaps 384: free(p->name);
385: free(p->end);
1.67 kristaps 386: free(p);
387: }
388:
389: /*
390: * Push a roff node onto the instruction stack. This must later be
391: * removed with roffnode_pop().
392: */
1.98 schwarze 393: static void
1.106 kristaps 394: roffnode_push(struct roff *r, enum rofft tok, const char *name,
395: int line, int col)
1.67 kristaps 396: {
397: struct roffnode *p;
398:
1.98 schwarze 399: p = mandoc_calloc(1, sizeof(struct roffnode));
1.67 kristaps 400: p->tok = tok;
1.106 kristaps 401: if (name)
402: p->name = mandoc_strdup(name);
1.67 kristaps 403: p->parent = r->last;
404: p->line = line;
405: p->col = col;
1.198 schwarze 406: p->rule = p->parent ? p->parent->rule : 0;
1.67 kristaps 407:
408: r->last = p;
409: }
410:
411: static void
412: roff_free1(struct roff *r)
413: {
1.176 schwarze 414: struct tbl_node *tbl;
1.125 kristaps 415: struct eqn_node *e;
1.167 kristaps 416: int i;
1.67 kristaps 417:
1.176 schwarze 418: while (NULL != (tbl = r->first_tbl)) {
419: r->first_tbl = tbl->next;
420: tbl_free(tbl);
1.109 kristaps 421: }
422:
1.113 kristaps 423: r->first_tbl = r->last_tbl = r->tbl = NULL;
424:
1.125 kristaps 425: while (NULL != (e = r->first_eqn)) {
426: r->first_eqn = e->next;
427: eqn_free(e);
428: }
429:
430: r->first_eqn = r->last_eqn = r->eqn = NULL;
431:
1.67 kristaps 432: while (r->last)
433: roffnode_pop(r);
1.109 kristaps 434:
1.167 kristaps 435: roff_freestr(r->strtab);
436: roff_freestr(r->xmbtab);
437:
438: r->strtab = r->xmbtab = NULL;
439:
1.180 schwarze 440: roff_freereg(r->regtab);
441:
442: r->regtab = NULL;
443:
1.167 kristaps 444: if (r->xtab)
445: for (i = 0; i < 128; i++)
446: free(r->xtab[i].p);
447:
448: free(r->xtab);
449: r->xtab = NULL;
1.67 kristaps 450: }
451:
452: void
453: roff_reset(struct roff *r)
454: {
455:
456: roff_free1(r);
1.174 kristaps 457: r->control = 0;
1.67 kristaps 458: }
459:
460: void
461: roff_free(struct roff *r)
462: {
463:
464: roff_free1(r);
465: free(r);
466: }
467:
468: struct roff *
1.199 schwarze 469: roff_alloc(struct mparse *parse, int options)
1.67 kristaps 470: {
471: struct roff *r;
472:
1.98 schwarze 473: r = mandoc_calloc(1, sizeof(struct roff));
1.128 kristaps 474: r->parse = parse;
1.199 schwarze 475: r->options = options;
1.82 kristaps 476: r->rstackpos = -1;
1.207 schwarze 477:
1.155 kristaps 478: roffhash_init();
1.141 kristaps 479:
1.67 kristaps 480: return(r);
481: }
482:
1.94 kristaps 483: /*
1.206 schwarze 484: * In the current line, expand escape sequences that tend to get
485: * used in numerical expressions and conditional requests.
486: * Also check the syntax of the remaining escape sequences.
1.154 kristaps 487: */
1.172 schwarze 488: static enum rofferr
1.142 kristaps 489: roff_res(struct roff *r, char **bufp, size_t *szp, int ln, int pos)
1.94 kristaps 490: {
1.208 schwarze 491: char ubuf[24]; /* buffer to print the number */
1.205 schwarze 492: const char *start; /* start of the string to process */
1.209 schwarze 493: char *stesc; /* start of an escape sequence ('\\') */
1.108 schwarze 494: const char *stnam; /* start of the name, after "[(*" */
495: const char *cp; /* end of the name, e.g. before ']' */
496: const char *res; /* the string to be substituted */
1.181 schwarze 497: char *nbuf; /* new buffer to copy bufp to */
498: size_t maxl; /* expected length of the escape name */
499: size_t naml; /* actual length of the escape name */
500: int expand_count; /* to avoid infinite loops */
1.206 schwarze 501: int npos; /* position in numeric expression */
502: int irc; /* return code from roff_evalnum() */
503: char term; /* character terminating the escape */
1.94 kristaps 504:
1.170 schwarze 505: expand_count = 0;
1.205 schwarze 506: start = *bufp + pos;
507: stesc = strchr(start, '\0') - 1;
508: while (stesc-- > start) {
1.170 schwarze 509:
1.205 schwarze 510: /* Search backwards for the next backslash. */
511:
512: if ('\\' != *stesc)
513: continue;
514:
515: /* If it is escaped, skip it. */
516:
517: for (cp = stesc - 1; cp >= start; cp--)
518: if ('\\' != *cp)
519: break;
520:
521: if (0 == (stesc - cp) % 2) {
1.209 schwarze 522: stesc = (char *)cp;
1.205 schwarze 523: continue;
524: }
1.108 schwarze 525:
1.206 schwarze 526: /* Decide whether to expand or to check only. */
1.108 schwarze 527:
1.206 schwarze 528: term = '\0';
1.205 schwarze 529: cp = stesc + 1;
1.181 schwarze 530: switch (*cp) {
1.207 schwarze 531: case '*':
1.181 schwarze 532: res = NULL;
533: break;
1.207 schwarze 534: case 'B':
1.206 schwarze 535: /* FALLTHROUGH */
1.207 schwarze 536: case 'w':
1.206 schwarze 537: term = cp[1];
538: /* FALLTHROUGH */
1.207 schwarze 539: case 'n':
1.181 schwarze 540: res = ubuf;
541: break;
542: default:
1.205 schwarze 543: if (ESCAPE_ERROR == mandoc_escape(&cp, NULL, NULL))
544: mandoc_msg(MANDOCERR_BADESCAPE, r->parse,
545: ln, (int)(stesc - *bufp), NULL);
546: continue;
1.152 kristaps 547: }
548:
1.205 schwarze 549: if (EXPAND_LIMIT < ++expand_count) {
550: mandoc_msg(MANDOCERR_ROFFLOOP, r->parse,
551: ln, (int)(stesc - *bufp), NULL);
552: return(ROFF_IGN);
553: }
1.108 schwarze 554:
555: /*
556: * The third character decides the length
1.181 schwarze 557: * of the name of the string or register.
1.108 schwarze 558: * Save a pointer to the name.
559: */
560:
1.206 schwarze 561: if ('\0' == term) {
562: switch (*++cp) {
1.207 schwarze 563: case '\0':
1.206 schwarze 564: maxl = 0;
565: break;
1.207 schwarze 566: case '(':
1.206 schwarze 567: cp++;
568: maxl = 2;
569: break;
1.207 schwarze 570: case '[':
1.206 schwarze 571: cp++;
572: term = ']';
573: maxl = 0;
574: break;
575: default:
576: maxl = 1;
577: break;
578: }
579: } else {
580: cp += 2;
1.94 kristaps 581: maxl = 0;
582: }
1.108 schwarze 583: stnam = cp;
1.94 kristaps 584:
1.108 schwarze 585: /* Advance to the end of the name. */
1.94 kristaps 586:
1.181 schwarze 587: for (naml = 0; 0 == maxl || naml < maxl; naml++, cp++) {
1.153 kristaps 588: if ('\0' == *cp) {
1.207 schwarze 589: mandoc_msg(MANDOCERR_BADESCAPE, r->parse,
590: ln, (int)(stesc - *bufp), NULL);
1.206 schwarze 591: break;
1.153 kristaps 592: }
1.206 schwarze 593: if (0 == maxl && *cp == term) {
594: cp++;
1.94 kristaps 595: break;
1.206 schwarze 596: }
1.94 kristaps 597: }
598:
1.108 schwarze 599: /*
600: * Retrieve the replacement string; if it is
601: * undefined, resume searching for escapes.
602: */
603:
1.206 schwarze 604: switch (stesc[1]) {
1.207 schwarze 605: case '*':
1.181 schwarze 606: res = roff_getstrn(r, stnam, naml);
1.206 schwarze 607: break;
1.207 schwarze 608: case 'B':
1.206 schwarze 609: npos = 0;
610: irc = roff_evalnum(stnam, &npos, NULL, 0);
611: ubuf[0] = irc && stnam + npos + 1 == cp
612: ? '1' : '0';
613: ubuf[1] = '\0';
614: break;
1.207 schwarze 615: case 'n':
1.208 schwarze 616: (void)snprintf(ubuf, sizeof(ubuf), "%d",
1.181 schwarze 617: roff_getregn(r, stnam, naml));
1.206 schwarze 618: break;
1.207 schwarze 619: case 'w':
1.208 schwarze 620: (void)snprintf(ubuf, sizeof(ubuf), "%d",
1.206 schwarze 621: 24 * (int)naml);
622: break;
623: }
1.94 kristaps 624:
625: if (NULL == res) {
1.207 schwarze 626: mandoc_msg(MANDOCERR_BADESCAPE, r->parse,
627: ln, (int)(stesc - *bufp), NULL);
1.142 kristaps 628: res = "";
1.94 kristaps 629: }
630:
1.108 schwarze 631: /* Replace the escape sequence by the string. */
632:
1.209 schwarze 633: *stesc = '\0';
634: *szp = mandoc_asprintf(&nbuf, "%s%s%s",
635: *bufp, res, cp) + 1;
1.94 kristaps 636:
1.205 schwarze 637: /* Prepare for the next replacement. */
1.94 kristaps 638:
1.205 schwarze 639: start = nbuf + pos;
1.209 schwarze 640: stesc = nbuf + (stesc - *bufp) + strlen(res);
1.94 kristaps 641: free(*bufp);
1.181 schwarze 642: *bufp = nbuf;
1.154 kristaps 643: }
1.172 schwarze 644: return(ROFF_CONT);
1.154 kristaps 645: }
646:
647: /*
1.178 schwarze 648: * Process text streams:
649: * Convert all breakable hyphens into ASCII_HYPH.
650: * Decrement and spring input line trap.
1.154 kristaps 651: */
652: static enum rofferr
1.178 schwarze 653: roff_parsetext(char **bufp, size_t *szp, int pos, int *offs)
1.154 kristaps 654: {
655: size_t sz;
656: const char *start;
1.178 schwarze 657: char *p;
658: int isz;
1.154 kristaps 659: enum mandoc_esc esc;
660:
1.178 schwarze 661: start = p = *bufp + pos;
1.154 kristaps 662:
663: while ('\0' != *p) {
664: sz = strcspn(p, "-\\");
665: p += sz;
666:
1.159 kristaps 667: if ('\0' == *p)
668: break;
669:
1.154 kristaps 670: if ('\\' == *p) {
671: /* Skip over escapes. */
672: p++;
1.189 schwarze 673: esc = mandoc_escape((const char **)&p, NULL, NULL);
1.154 kristaps 674: if (ESCAPE_ERROR == esc)
675: break;
1.155 kristaps 676: continue;
1.159 kristaps 677: } else if (p == start) {
1.158 kristaps 678: p++;
1.155 kristaps 679: continue;
1.158 kristaps 680: }
1.155 kristaps 681:
1.171 schwarze 682: if (isalpha((unsigned char)p[-1]) &&
683: isalpha((unsigned char)p[1]))
1.155 kristaps 684: *p = ASCII_HYPH;
685: p++;
1.94 kristaps 686: }
687:
1.178 schwarze 688: /* Spring the input line trap. */
689: if (1 == roffit_lines) {
1.202 schwarze 690: isz = mandoc_asprintf(&p, "%s\n.%s", *bufp, roffit_macro);
1.178 schwarze 691: free(*bufp);
692: *bufp = p;
693: *szp = isz + 1;
694: *offs = 0;
695: free(roffit_macro);
696: roffit_lines = 0;
697: return(ROFF_REPARSE);
698: } else if (1 < roffit_lines)
699: --roffit_lines;
1.154 kristaps 700: return(ROFF_CONT);
1.94 kristaps 701: }
702:
1.67 kristaps 703: enum rofferr
1.207 schwarze 704: roff_parseln(struct roff *r, int ln, char **bufp,
1.90 kristaps 705: size_t *szp, int pos, int *offs)
1.67 kristaps 706: {
707: enum rofft t;
1.109 kristaps 708: enum rofferr e;
1.130 kristaps 709: int ppos, ctl;
1.79 kristaps 710:
711: /*
1.94 kristaps 712: * Run the reserved-word filter only if we have some reserved
713: * words to fill in.
714: */
715:
1.172 schwarze 716: e = roff_res(r, bufp, szp, ln, pos);
717: if (ROFF_IGN == e)
718: return(e);
719: assert(ROFF_CONT == e);
1.94 kristaps 720:
1.130 kristaps 721: ppos = pos;
1.174 kristaps 722: ctl = roff_getcontrol(r, *bufp, &pos);
1.130 kristaps 723:
1.94 kristaps 724: /*
1.79 kristaps 725: * First, if a scope is open and we're not a macro, pass the
726: * text through the macro's filter. If a scope isn't open and
727: * we're not a macro, just let it through.
1.125 kristaps 728: * Finally, if there's an equation scope open, divert it into it
729: * no matter our state.
1.79 kristaps 730: */
1.74 kristaps 731:
1.130 kristaps 732: if (r->last && ! ctl) {
1.78 kristaps 733: t = r->last->tok;
734: assert(roffs[t].text);
1.207 schwarze 735: e = (*roffs[t].text)(r, t, bufp, szp, ln, pos, pos, offs);
1.109 kristaps 736: assert(ROFF_IGN == e || ROFF_CONT == e);
1.125 kristaps 737: if (ROFF_CONT != e)
738: return(e);
1.182 schwarze 739: }
740: if (r->eqn)
741: return(eqn_read(&r->eqn, ln, *bufp, ppos, offs));
742: if ( ! ctl) {
1.125 kristaps 743: if (r->tbl)
1.130 kristaps 744: return(tbl_read(r->tbl, ln, *bufp, pos));
1.178 schwarze 745: return(roff_parsetext(bufp, szp, pos, offs));
1.182 schwarze 746: }
1.67 kristaps 747:
1.79 kristaps 748: /*
749: * If a scope is open, go to the child handler for that macro,
750: * as it may want to preprocess before doing anything with it.
1.125 kristaps 751: * Don't do so if an equation is open.
1.79 kristaps 752: */
1.78 kristaps 753:
1.79 kristaps 754: if (r->last) {
755: t = r->last->tok;
756: assert(roffs[t].sub);
1.207 schwarze 757: return((*roffs[t].sub)(r, t, bufp, szp,
758: ln, ppos, pos, offs));
1.79 kristaps 759: }
1.78 kristaps 760:
1.79 kristaps 761: /*
762: * Lastly, as we've no scope open, try to look up and execute
763: * the new macro. If no macro is found, simply return and let
764: * the compilers handle it.
765: */
1.67 kristaps 766:
1.106 kristaps 767: if (ROFF_MAX == (t = roff_parse(r, *bufp, &pos)))
1.79 kristaps 768: return(ROFF_CONT);
1.67 kristaps 769:
1.75 kristaps 770: assert(roffs[t].proc);
1.207 schwarze 771: return((*roffs[t].proc)(r, t, bufp, szp, ln, ppos, pos, offs));
1.74 kristaps 772: }
773:
1.117 kristaps 774: void
1.74 kristaps 775: roff_endparse(struct roff *r)
776: {
777:
1.110 kristaps 778: if (r->last)
1.128 kristaps 779: mandoc_msg(MANDOCERR_SCOPEEXIT, r->parse,
1.207 schwarze 780: r->last->line, r->last->col, NULL);
1.117 kristaps 781:
1.125 kristaps 782: if (r->eqn) {
1.207 schwarze 783: mandoc_msg(MANDOCERR_SCOPEEXIT, r->parse,
784: r->eqn->eqn.ln, r->eqn->eqn.pos, NULL);
1.151 kristaps 785: eqn_end(&r->eqn);
1.125 kristaps 786: }
787:
1.117 kristaps 788: if (r->tbl) {
1.207 schwarze 789: mandoc_msg(MANDOCERR_SCOPEEXIT, r->parse,
790: r->tbl->line, r->tbl->pos, NULL);
1.151 kristaps 791: tbl_end(&r->tbl);
1.117 kristaps 792: }
1.67 kristaps 793: }
794:
795: /*
796: * Parse a roff node's type from the input buffer. This must be in the
797: * form of ".foo xxx" in the usual way.
798: */
799: static enum rofft
1.106 kristaps 800: roff_parse(struct roff *r, const char *buf, int *pos)
1.67 kristaps 801: {
1.106 kristaps 802: const char *mac;
803: size_t maclen;
1.67 kristaps 804: enum rofft t;
805:
1.207 schwarze 806: if ('\0' == buf[*pos] || '"' == buf[*pos] ||
807: '\t' == buf[*pos] || ' ' == buf[*pos])
1.67 kristaps 808: return(ROFF_MAX);
809:
1.195 schwarze 810: /* We stop the macro parse at an escape, tab, space, or nil. */
1.144 kristaps 811:
1.106 kristaps 812: mac = buf + *pos;
1.195 schwarze 813: maclen = strcspn(mac, " \\\t\0");
1.67 kristaps 814:
1.106 kristaps 815: t = (r->current_string = roff_getstrn(r, mac, maclen))
1.155 kristaps 816: ? ROFF_USERDEF : roffhash_find(mac, maclen);
1.67 kristaps 817:
1.127 kristaps 818: *pos += (int)maclen;
1.130 kristaps 819:
1.67 kristaps 820: while (buf[*pos] && ' ' == buf[*pos])
821: (*pos)++;
822:
823: return(t);
824: }
825:
826: static enum rofferr
1.76 kristaps 827: roff_cblock(ROFF_ARGS)
1.67 kristaps 828: {
829:
1.79 kristaps 830: /*
831: * A block-close `..' should only be invoked as a child of an
832: * ignore macro, otherwise raise a warning and just ignore it.
833: */
834:
1.76 kristaps 835: if (NULL == r->last) {
1.128 kristaps 836: mandoc_msg(MANDOCERR_NOSCOPE, r->parse, ln, ppos, NULL);
1.76 kristaps 837: return(ROFF_IGN);
838: }
1.67 kristaps 839:
1.81 kristaps 840: switch (r->last->tok) {
1.207 schwarze 841: case ROFF_am:
1.81 kristaps 842: /* FALLTHROUGH */
1.207 schwarze 843: case ROFF_ami:
1.81 kristaps 844: /* FALLTHROUGH */
1.207 schwarze 845: case ROFF_am1:
1.81 kristaps 846: /* FALLTHROUGH */
1.207 schwarze 847: case ROFF_de:
1.108 schwarze 848: /* ROFF_de1 is remapped to ROFF_de in roff_block(). */
1.81 kristaps 849: /* FALLTHROUGH */
1.207 schwarze 850: case ROFF_dei:
1.81 kristaps 851: /* FALLTHROUGH */
1.207 schwarze 852: case ROFF_ig:
1.81 kristaps 853: break;
854: default:
1.128 kristaps 855: mandoc_msg(MANDOCERR_NOSCOPE, r->parse, ln, ppos, NULL);
1.67 kristaps 856: return(ROFF_IGN);
1.76 kristaps 857: }
1.67 kristaps 858:
1.76 kristaps 859: if ((*bufp)[pos])
1.128 kristaps 860: mandoc_msg(MANDOCERR_ARGSLOST, r->parse, ln, pos, NULL);
1.71 kristaps 861:
862: roffnode_pop(r);
1.76 kristaps 863: roffnode_cleanscope(r);
864: return(ROFF_IGN);
1.71 kristaps 865:
1.67 kristaps 866: }
867:
1.76 kristaps 868: static void
869: roffnode_cleanscope(struct roff *r)
1.67 kristaps 870: {
871:
1.76 kristaps 872: while (r->last) {
1.173 schwarze 873: if (--r->last->endspan != 0)
1.76 kristaps 874: break;
875: roffnode_pop(r);
876: }
1.67 kristaps 877: }
878:
1.195 schwarze 879: static void
880: roff_ccond(struct roff *r, int ln, int ppos)
1.74 kristaps 881: {
882:
1.76 kristaps 883: if (NULL == r->last) {
1.128 kristaps 884: mandoc_msg(MANDOCERR_NOSCOPE, r->parse, ln, ppos, NULL);
1.195 schwarze 885: return;
1.76 kristaps 886: }
887:
1.82 kristaps 888: switch (r->last->tok) {
1.207 schwarze 889: case ROFF_el:
1.82 kristaps 890: /* FALLTHROUGH */
1.207 schwarze 891: case ROFF_ie:
1.82 kristaps 892: /* FALLTHROUGH */
1.207 schwarze 893: case ROFF_if:
1.82 kristaps 894: break;
895: default:
1.128 kristaps 896: mandoc_msg(MANDOCERR_NOSCOPE, r->parse, ln, ppos, NULL);
1.195 schwarze 897: return;
1.75 kristaps 898: }
899:
1.76 kristaps 900: if (r->last->endspan > -1) {
1.128 kristaps 901: mandoc_msg(MANDOCERR_NOSCOPE, r->parse, ln, ppos, NULL);
1.195 schwarze 902: return;
1.76 kristaps 903: }
904:
1.75 kristaps 905: roffnode_pop(r);
1.76 kristaps 906: roffnode_cleanscope(r);
1.195 schwarze 907: return;
1.76 kristaps 908: }
909:
910: static enum rofferr
1.80 kristaps 911: roff_block(ROFF_ARGS)
1.76 kristaps 912: {
1.78 kristaps 913: int sv;
914: size_t sz;
1.106 kristaps 915: char *name;
916:
917: name = NULL;
1.76 kristaps 918:
1.106 kristaps 919: if (ROFF_ig != tok) {
920: if ('\0' == (*bufp)[pos]) {
1.128 kristaps 921: mandoc_msg(MANDOCERR_NOARGS, r->parse, ln, ppos, NULL);
1.106 kristaps 922: return(ROFF_IGN);
923: }
1.107 kristaps 924:
925: /*
926: * Re-write `de1', since we don't really care about
927: * groff's strange compatibility mode, into `de'.
928: */
929:
1.106 kristaps 930: if (ROFF_de1 == tok)
931: tok = ROFF_de;
932: if (ROFF_de == tok)
933: name = *bufp + pos;
934: else
1.128 kristaps 935: mandoc_msg(MANDOCERR_REQUEST, r->parse, ln, ppos,
1.106 kristaps 936: roffs[tok].name);
1.107 kristaps 937:
1.131 schwarze 938: while ((*bufp)[pos] && ! isspace((unsigned char)(*bufp)[pos]))
1.80 kristaps 939: pos++;
1.107 kristaps 940:
1.131 schwarze 941: while (isspace((unsigned char)(*bufp)[pos]))
1.106 kristaps 942: (*bufp)[pos++] = '\0';
1.80 kristaps 943: }
944:
1.106 kristaps 945: roffnode_push(r, tok, name, ln, ppos);
946:
947: /*
948: * At the beginning of a `de' macro, clear the existing string
949: * with the same name, if there is one. New content will be
1.193 schwarze 950: * appended from roff_block_text() in multiline mode.
1.106 kristaps 951: */
1.107 kristaps 952:
1.106 kristaps 953: if (ROFF_de == tok)
1.108 schwarze 954: roff_setstr(r, name, "", 0);
1.76 kristaps 955:
1.79 kristaps 956: if ('\0' == (*bufp)[pos])
1.78 kristaps 957: return(ROFF_IGN);
958:
1.107 kristaps 959: /* If present, process the custom end-of-line marker. */
960:
1.78 kristaps 961: sv = pos;
1.131 schwarze 962: while ((*bufp)[pos] && ! isspace((unsigned char)(*bufp)[pos]))
1.78 kristaps 963: pos++;
964:
965: /*
966: * Note: groff does NOT like escape characters in the input.
967: * Instead of detecting this, we're just going to let it fly and
968: * to hell with it.
969: */
970:
971: assert(pos > sv);
972: sz = (size_t)(pos - sv);
973:
1.79 kristaps 974: if (1 == sz && '.' == (*bufp)[sv])
975: return(ROFF_IGN);
976:
1.98 schwarze 977: r->last->end = mandoc_malloc(sz + 1);
1.78 kristaps 978:
979: memcpy(r->last->end, *bufp + sv, sz);
980: r->last->end[(int)sz] = '\0';
981:
1.77 kristaps 982: if ((*bufp)[pos])
1.128 kristaps 983: mandoc_msg(MANDOCERR_ARGSLOST, r->parse, ln, pos, NULL);
1.74 kristaps 984:
1.78 kristaps 985: return(ROFF_IGN);
986: }
987:
988: static enum rofferr
1.80 kristaps 989: roff_block_sub(ROFF_ARGS)
1.79 kristaps 990: {
991: enum rofft t;
992: int i, j;
993:
994: /*
995: * First check whether a custom macro exists at this level. If
996: * it does, then check against it. This is some of groff's
997: * stranger behaviours. If we encountered a custom end-scope
998: * tag and that tag also happens to be a "real" macro, then we
999: * need to try interpreting it again as a real macro. If it's
1000: * not, then return ignore. Else continue.
1001: */
1002:
1003: if (r->last->end) {
1.130 kristaps 1004: for (i = pos, j = 0; r->last->end[j]; j++, i++)
1.79 kristaps 1005: if ((*bufp)[i] != r->last->end[j])
1006: break;
1007:
1.207 schwarze 1008: if ('\0' == r->last->end[j] &&
1009: ('\0' == (*bufp)[i] ||
1010: ' ' == (*bufp)[i] ||
1011: '\t' == (*bufp)[i])) {
1.79 kristaps 1012: roffnode_pop(r);
1013: roffnode_cleanscope(r);
1014:
1.130 kristaps 1015: while (' ' == (*bufp)[i] || '\t' == (*bufp)[i])
1016: i++;
1017:
1018: pos = i;
1.106 kristaps 1019: if (ROFF_MAX != roff_parse(r, *bufp, &pos))
1.79 kristaps 1020: return(ROFF_RERUN);
1021: return(ROFF_IGN);
1022: }
1023: }
1024:
1025: /*
1026: * If we have no custom end-query or lookup failed, then try
1027: * pulling it out of the hashtable.
1028: */
1029:
1.137 schwarze 1030: t = roff_parse(r, *bufp, &pos);
1.79 kristaps 1031:
1.106 kristaps 1032: /*
1033: * Macros other than block-end are only significant
1034: * in `de' blocks; elsewhere, simply throw them away.
1035: */
1036: if (ROFF_cblock != t) {
1037: if (ROFF_de == tok)
1.193 schwarze 1038: roff_setstr(r, r->last->name, *bufp + ppos, 2);
1.79 kristaps 1039: return(ROFF_IGN);
1.106 kristaps 1040: }
1.79 kristaps 1041:
1042: assert(roffs[t].proc);
1.207 schwarze 1043: return((*roffs[t].proc)(r, t, bufp, szp, ln, ppos, pos, offs));
1.79 kristaps 1044: }
1045:
1046: static enum rofferr
1.80 kristaps 1047: roff_block_text(ROFF_ARGS)
1.78 kristaps 1048: {
1049:
1.106 kristaps 1050: if (ROFF_de == tok)
1.193 schwarze 1051: roff_setstr(r, r->last->name, *bufp + pos, 2);
1.106 kristaps 1052:
1.78 kristaps 1053: return(ROFF_IGN);
1054: }
1055:
1056: static enum rofferr
1.82 kristaps 1057: roff_cond_sub(ROFF_ARGS)
1058: {
1059: enum rofft t;
1.139 kristaps 1060: char *ep;
1.198 schwarze 1061: int rr;
1.82 kristaps 1062:
1063: rr = r->last->rule;
1.139 kristaps 1064: roffnode_cleanscope(r);
1.177 schwarze 1065: t = roff_parse(r, *bufp, &pos);
1.82 kristaps 1066:
1.139 kristaps 1067: /*
1.177 schwarze 1068: * Fully handle known macros when they are structurally
1069: * required or when the conditional evaluated to true.
1.87 kristaps 1070: */
1071:
1.177 schwarze 1072: if ((ROFF_MAX != t) &&
1.198 schwarze 1073: (rr || ROFFMAC_STRUCT & roffs[t].flags)) {
1.177 schwarze 1074: assert(roffs[t].proc);
1075: return((*roffs[t].proc)(r, t, bufp, szp,
1.207 schwarze 1076: ln, ppos, pos, offs));
1.177 schwarze 1077: }
1.144 kristaps 1078:
1.196 schwarze 1079: /*
1080: * If `\}' occurs on a macro line without a preceding macro,
1081: * drop the line completely.
1082: */
1083:
1084: ep = *bufp + pos;
1085: if ('\\' == ep[0] && '}' == ep[1])
1.198 schwarze 1086: rr = 0;
1.196 schwarze 1087:
1.177 schwarze 1088: /* Always check for the closing delimiter `\}'. */
1.144 kristaps 1089:
1.177 schwarze 1090: while (NULL != (ep = strchr(ep, '\\'))) {
1.197 schwarze 1091: if ('}' == *(++ep)) {
1092: *ep = '&';
1093: roff_ccond(r, ln, ep - *bufp - 1);
1094: }
1095: ++ep;
1.177 schwarze 1096: }
1.198 schwarze 1097: return(rr ? ROFF_CONT : ROFF_IGN);
1.82 kristaps 1098: }
1099:
1100: static enum rofferr
1101: roff_cond_text(ROFF_ARGS)
1.78 kristaps 1102: {
1.140 kristaps 1103: char *ep;
1.198 schwarze 1104: int rr;
1.82 kristaps 1105:
1106: rr = r->last->rule;
1.140 kristaps 1107: roffnode_cleanscope(r);
1.82 kristaps 1108:
1.197 schwarze 1109: ep = *bufp + pos;
1110: while (NULL != (ep = strchr(ep, '\\'))) {
1111: if ('}' == *(++ep)) {
1112: *ep = '&';
1113: roff_ccond(r, ln, ep - *bufp - 1);
1114: }
1115: ++ep;
1.78 kristaps 1116: }
1.198 schwarze 1117: return(rr ? ROFF_CONT : ROFF_IGN);
1.74 kristaps 1118: }
1119:
1.204 schwarze 1120: /*
1121: * Parse a single signed integer number. Stop at the first non-digit.
1122: * If there is at least one digit, return success and advance the
1123: * parse point, else return failure and let the parse point unchanged.
1124: * Ignore overflows, treat them just like the C language.
1125: */
1.184 schwarze 1126: static int
1127: roff_getnum(const char *v, int *pos, int *res)
1128: {
1.206 schwarze 1129: int myres, n, p;
1130:
1131: if (NULL == res)
1132: res = &myres;
1.184 schwarze 1133:
1134: p = *pos;
1135: n = v[p] == '-';
1136: if (n)
1137: p++;
1138:
1139: for (*res = 0; isdigit((unsigned char)v[p]); p++)
1.204 schwarze 1140: *res = 10 * *res + v[p] - '0';
1.184 schwarze 1141: if (p == *pos + n)
1142: return 0;
1143:
1144: if (n)
1145: *res = -*res;
1146:
1147: *pos = p;
1148: return 1;
1149: }
1150:
1.198 schwarze 1151: /*
1152: * Evaluate a string comparison condition.
1153: * The first character is the delimiter.
1154: * Succeed if the string up to its second occurrence
1155: * matches the string up to its third occurence.
1156: * Advance the cursor after the third occurrence
1157: * or lacking that, to the end of the line.
1158: */
1159: static int
1160: roff_evalstrcond(const char *v, int *pos)
1161: {
1162: const char *s1, *s2, *s3;
1163: int match;
1164:
1165: match = 0;
1166: s1 = v + *pos; /* initial delimiter */
1167: s2 = s1 + 1; /* for scanning the first string */
1168: s3 = strchr(s2, *s1); /* for scanning the second string */
1169:
1170: if (NULL == s3) /* found no middle delimiter */
1171: goto out;
1172:
1173: while ('\0' != *++s3) {
1174: if (*s2 != *s3) { /* mismatch */
1175: s3 = strchr(s3, *s1);
1176: break;
1177: }
1178: if (*s3 == *s1) { /* found the final delimiter */
1179: match = 1;
1180: break;
1181: }
1182: s2++;
1183: }
1184:
1185: out:
1186: if (NULL == s3)
1187: s3 = strchr(s2, '\0');
1188: else
1189: s3++;
1190: *pos = s3 - v;
1191: return(match);
1192: }
1193:
1.204 schwarze 1194: /*
1195: * Evaluate an optionally negated single character, numerical,
1196: * or string condition.
1197: */
1.198 schwarze 1198: static int
1.88 kristaps 1199: roff_evalcond(const char *v, int *pos)
1200: {
1.204 schwarze 1201: int wanttrue, number;
1.88 kristaps 1202:
1.198 schwarze 1203: if ('!' == v[*pos]) {
1204: wanttrue = 0;
1205: (*pos)++;
1206: } else
1207: wanttrue = 1;
1208:
1.88 kristaps 1209: switch (v[*pos]) {
1.207 schwarze 1210: case 'n':
1.198 schwarze 1211: /* FALLTHROUGH */
1.207 schwarze 1212: case 'o':
1.88 kristaps 1213: (*pos)++;
1.198 schwarze 1214: return(wanttrue);
1.207 schwarze 1215: case 'c':
1.198 schwarze 1216: /* FALLTHROUGH */
1.207 schwarze 1217: case 'd':
1.198 schwarze 1218: /* FALLTHROUGH */
1.207 schwarze 1219: case 'e':
1.88 kristaps 1220: /* FALLTHROUGH */
1.207 schwarze 1221: case 'r':
1.88 kristaps 1222: /* FALLTHROUGH */
1.207 schwarze 1223: case 't':
1.88 kristaps 1224: (*pos)++;
1.198 schwarze 1225: return(!wanttrue);
1.88 kristaps 1226: default:
1227: break;
1228: }
1229:
1.204 schwarze 1230: if (roff_evalnum(v, pos, &number, 0))
1231: return((number > 0) == wanttrue);
1232: else
1.198 schwarze 1233: return(roff_evalstrcond(v, pos) == wanttrue);
1.88 kristaps 1234: }
1235:
1.74 kristaps 1236: static enum rofferr
1.103 kristaps 1237: roff_line_ignore(ROFF_ARGS)
1.89 kristaps 1238: {
1.123 schwarze 1239:
1.89 kristaps 1240: return(ROFF_IGN);
1241: }
1242:
1.104 kristaps 1243: static enum rofferr
1.82 kristaps 1244: roff_cond(ROFF_ARGS)
1.74 kristaps 1245: {
1.173 schwarze 1246:
1247: roffnode_push(r, tok, NULL, ln, ppos);
1.74 kristaps 1248:
1.207 schwarze 1249: /*
1.134 kristaps 1250: * An `.el' has no conditional body: it will consume the value
1251: * of the current rstack entry set in prior `ie' calls or
1.207 schwarze 1252: * defaults to DENY.
1.134 kristaps 1253: *
1254: * If we're not an `el', however, then evaluate the conditional.
1255: */
1.133 kristaps 1256:
1.173 schwarze 1257: r->last->rule = ROFF_el == tok ?
1.207 schwarze 1258: (r->rstackpos < 0 ? 0 : r->rstack[r->rstackpos--]) :
1259: roff_evalcond(*bufp, &pos);
1.77 kristaps 1260:
1.134 kristaps 1261: /*
1262: * An if-else will put the NEGATION of the current evaluated
1263: * conditional into the stack of rules.
1264: */
1265:
1.84 schwarze 1266: if (ROFF_ie == tok) {
1.134 kristaps 1267: if (r->rstackpos == RSTACK_MAX - 1) {
1.207 schwarze 1268: mandoc_msg(MANDOCERR_MEM,
1269: r->parse, ln, ppos, NULL);
1.134 kristaps 1270: return(ROFF_ERR);
1271: }
1.198 schwarze 1272: r->rstack[++r->rstackpos] = !r->last->rule;
1.82 kristaps 1273: }
1.88 kristaps 1274:
1275: /* If the parent has false as its rule, then so do we. */
1276:
1.198 schwarze 1277: if (r->last->parent && !r->last->parent->rule)
1278: r->last->rule = 0;
1.88 kristaps 1279:
1280: /*
1.173 schwarze 1281: * Determine scope.
1282: * If there is nothing on the line after the conditional,
1283: * not even whitespace, use next-line scope.
1.88 kristaps 1284: */
1.74 kristaps 1285:
1.173 schwarze 1286: if ('\0' == (*bufp)[pos]) {
1287: r->last->endspan = 2;
1288: goto out;
1289: }
1290:
1291: while (' ' == (*bufp)[pos])
1292: pos++;
1293:
1294: /* An opening brace requests multiline scope. */
1.75 kristaps 1295:
1296: if ('\\' == (*bufp)[pos] && '{' == (*bufp)[pos + 1]) {
1297: r->last->endspan = -1;
1298: pos += 2;
1.173 schwarze 1299: goto out;
1.207 schwarze 1300: }
1.74 kristaps 1301:
1.77 kristaps 1302: /*
1.173 schwarze 1303: * Anything else following the conditional causes
1304: * single-line scope. Warn if the scope contains
1305: * nothing but trailing whitespace.
1.77 kristaps 1306: */
1307:
1.75 kristaps 1308: if ('\0' == (*bufp)[pos])
1.173 schwarze 1309: mandoc_msg(MANDOCERR_NOARGS, r->parse, ln, ppos, NULL);
1.77 kristaps 1310:
1.173 schwarze 1311: r->last->endspan = 1;
1.74 kristaps 1312:
1.173 schwarze 1313: out:
1.75 kristaps 1314: *offs = pos;
1315: return(ROFF_RERUN);
1.83 schwarze 1316: }
1317:
1318: static enum rofferr
1.92 schwarze 1319: roff_ds(ROFF_ARGS)
1320: {
1.212 ! schwarze 1321: char *string;
! 1322: const char *name;
! 1323: size_t namesz;
1.96 kristaps 1324:
1325: /*
1.212 ! schwarze 1326: * The first word is the name of the string.
! 1327: * If it is empty or terminated by an escape sequence,
! 1328: * abort the `ds' request without defining anything.
1.96 kristaps 1329: */
1.92 schwarze 1330:
1.212 ! schwarze 1331: name = string = *bufp + pos;
1.92 schwarze 1332: if ('\0' == *name)
1333: return(ROFF_IGN);
1334:
1.212 ! schwarze 1335: namesz = roff_getname(r, &string, ln, pos);
! 1336: if ('\\' == name[namesz])
! 1337: return(ROFF_IGN);
! 1338:
! 1339: /* Read past the initial double-quote, if any. */
1.121 schwarze 1340: if ('"' == *string)
1.92 schwarze 1341: string++;
1342:
1.96 kristaps 1343: /* The rest is the value. */
1.212 ! schwarze 1344: roff_setstrn(&r->strtab, name, namesz, string, strlen(string),
! 1345: ROFF_as == tok);
1.92 schwarze 1346: return(ROFF_IGN);
1347: }
1348:
1.204 schwarze 1349: /*
1350: * Parse a single operator, one or two characters long.
1351: * If the operator is recognized, return success and advance the
1352: * parse point, else return failure and let the parse point unchanged.
1353: */
1354: static int
1355: roff_getop(const char *v, int *pos, char *res)
1356: {
1357:
1358: *res = v[*pos];
1359:
1360: switch (*res) {
1.207 schwarze 1361: case '+':
1.204 schwarze 1362: /* FALLTHROUGH */
1.207 schwarze 1363: case '-':
1.204 schwarze 1364: /* FALLTHROUGH */
1.207 schwarze 1365: case '*':
1.204 schwarze 1366: /* FALLTHROUGH */
1.207 schwarze 1367: case '/':
1.204 schwarze 1368: /* FALLTHROUGH */
1.207 schwarze 1369: case '%':
1.204 schwarze 1370: /* FALLTHROUGH */
1.207 schwarze 1371: case '&':
1.204 schwarze 1372: /* FALLTHROUGH */
1.207 schwarze 1373: case ':':
1.204 schwarze 1374: break;
1375: case '<':
1376: switch (v[*pos + 1]) {
1.207 schwarze 1377: case '=':
1.204 schwarze 1378: *res = 'l';
1379: (*pos)++;
1380: break;
1.207 schwarze 1381: case '>':
1.204 schwarze 1382: *res = '!';
1383: (*pos)++;
1384: break;
1.207 schwarze 1385: case '?':
1.204 schwarze 1386: *res = 'i';
1387: (*pos)++;
1388: break;
1389: default:
1390: break;
1391: }
1392: break;
1393: case '>':
1394: switch (v[*pos + 1]) {
1.207 schwarze 1395: case '=':
1.204 schwarze 1396: *res = 'g';
1397: (*pos)++;
1398: break;
1.207 schwarze 1399: case '?':
1.204 schwarze 1400: *res = 'a';
1401: (*pos)++;
1402: break;
1403: default:
1404: break;
1405: }
1406: break;
1407: case '=':
1408: if ('=' == v[*pos + 1])
1409: (*pos)++;
1410: break;
1411: default:
1412: return(0);
1413: }
1414: (*pos)++;
1415:
1416: return(*res);
1417: }
1418:
1419: /*
1420: * Evaluate either a parenthesized numeric expression
1421: * or a single signed integer number.
1422: */
1423: static int
1424: roff_evalpar(const char *v, int *pos, int *res)
1425: {
1426:
1427: if ('(' != v[*pos])
1428: return(roff_getnum(v, pos, res));
1429:
1430: (*pos)++;
1431: if ( ! roff_evalnum(v, pos, res, 1))
1432: return(0);
1433:
1.206 schwarze 1434: /*
1435: * Omission of the closing parenthesis
1436: * is an error in validation mode,
1437: * but ignored in evaluation mode.
1438: */
1439:
1.204 schwarze 1440: if (')' == v[*pos])
1441: (*pos)++;
1.206 schwarze 1442: else if (NULL == res)
1443: return(0);
1.204 schwarze 1444:
1445: return(1);
1446: }
1447:
1448: /*
1449: * Evaluate a complete numeric expression.
1450: * Proceed left to right, there is no concept of precedence.
1451: */
1452: static int
1453: roff_evalnum(const char *v, int *pos, int *res, int skipwhite)
1454: {
1455: int mypos, operand2;
1456: char operator;
1457:
1458: if (NULL == pos) {
1459: mypos = 0;
1460: pos = &mypos;
1461: }
1462:
1463: if (skipwhite)
1464: while (isspace((unsigned char)v[*pos]))
1465: (*pos)++;
1466:
1467: if ( ! roff_evalpar(v, pos, res))
1468: return(0);
1469:
1470: while (1) {
1471: if (skipwhite)
1472: while (isspace((unsigned char)v[*pos]))
1473: (*pos)++;
1474:
1475: if ( ! roff_getop(v, pos, &operator))
1476: break;
1477:
1478: if (skipwhite)
1479: while (isspace((unsigned char)v[*pos]))
1480: (*pos)++;
1481:
1482: if ( ! roff_evalpar(v, pos, &operand2))
1483: return(0);
1484:
1485: if (skipwhite)
1486: while (isspace((unsigned char)v[*pos]))
1487: (*pos)++;
1.206 schwarze 1488:
1489: if (NULL == res)
1490: continue;
1.204 schwarze 1491:
1492: switch (operator) {
1.207 schwarze 1493: case '+':
1.204 schwarze 1494: *res += operand2;
1495: break;
1.207 schwarze 1496: case '-':
1.204 schwarze 1497: *res -= operand2;
1498: break;
1.207 schwarze 1499: case '*':
1.204 schwarze 1500: *res *= operand2;
1501: break;
1.207 schwarze 1502: case '/':
1.204 schwarze 1503: *res /= operand2;
1504: break;
1.207 schwarze 1505: case '%':
1.204 schwarze 1506: *res %= operand2;
1507: break;
1.207 schwarze 1508: case '<':
1.204 schwarze 1509: *res = *res < operand2;
1510: break;
1.207 schwarze 1511: case '>':
1.204 schwarze 1512: *res = *res > operand2;
1513: break;
1.207 schwarze 1514: case 'l':
1.204 schwarze 1515: *res = *res <= operand2;
1516: break;
1.207 schwarze 1517: case 'g':
1.204 schwarze 1518: *res = *res >= operand2;
1519: break;
1.207 schwarze 1520: case '=':
1.204 schwarze 1521: *res = *res == operand2;
1522: break;
1.207 schwarze 1523: case '!':
1.204 schwarze 1524: *res = *res != operand2;
1525: break;
1.207 schwarze 1526: case '&':
1.204 schwarze 1527: *res = *res && operand2;
1528: break;
1.207 schwarze 1529: case ':':
1.204 schwarze 1530: *res = *res || operand2;
1531: break;
1.207 schwarze 1532: case 'i':
1.204 schwarze 1533: if (operand2 < *res)
1534: *res = operand2;
1535: break;
1.207 schwarze 1536: case 'a':
1.204 schwarze 1537: if (operand2 > *res)
1538: *res = operand2;
1539: break;
1540: default:
1541: abort();
1542: }
1543: }
1544: return(1);
1545: }
1546:
1.180 schwarze 1547: void
1.187 schwarze 1548: roff_setreg(struct roff *r, const char *name, int val, char sign)
1.147 kristaps 1549: {
1.180 schwarze 1550: struct roffreg *reg;
1551:
1552: /* Search for an existing register with the same name. */
1553: reg = r->regtab;
1554:
1555: while (reg && strcmp(name, reg->key.p))
1556: reg = reg->next;
1.147 kristaps 1557:
1.180 schwarze 1558: if (NULL == reg) {
1559: /* Create a new register. */
1560: reg = mandoc_malloc(sizeof(struct roffreg));
1561: reg->key.p = mandoc_strdup(name);
1562: reg->key.sz = strlen(name);
1.187 schwarze 1563: reg->val = 0;
1.180 schwarze 1564: reg->next = r->regtab;
1565: r->regtab = reg;
1566: }
1567:
1.187 schwarze 1568: if ('+' == sign)
1569: reg->val += val;
1570: else if ('-' == sign)
1571: reg->val -= val;
1572: else
1573: reg->val = val;
1.147 kristaps 1574: }
1575:
1.192 schwarze 1576: /*
1577: * Handle some predefined read-only number registers.
1578: * For now, return -1 if the requested register is not predefined;
1579: * in case a predefined read-only register having the value -1
1580: * were to turn up, another special value would have to be chosen.
1581: */
1582: static int
1583: roff_getregro(const char *name)
1584: {
1585:
1586: switch (*name) {
1.207 schwarze 1587: case 'A': /* ASCII approximation mode is always off. */
1.192 schwarze 1588: return(0);
1.207 schwarze 1589: case 'g': /* Groff compatibility mode is always on. */
1.192 schwarze 1590: return(1);
1.207 schwarze 1591: case 'H': /* Fixed horizontal resolution. */
1.192 schwarze 1592: return (24);
1.207 schwarze 1593: case 'j': /* Always adjust left margin only. */
1.192 schwarze 1594: return(0);
1.207 schwarze 1595: case 'T': /* Some output device is always defined. */
1.192 schwarze 1596: return(1);
1.207 schwarze 1597: case 'V': /* Fixed vertical resolution. */
1.192 schwarze 1598: return (40);
1599: default:
1600: return (-1);
1601: }
1602: }
1603:
1.181 schwarze 1604: int
1.180 schwarze 1605: roff_getreg(const struct roff *r, const char *name)
1.147 kristaps 1606: {
1.180 schwarze 1607: struct roffreg *reg;
1.192 schwarze 1608: int val;
1609:
1610: if ('.' == name[0] && '\0' != name[1] && '\0' == name[2]) {
1611: val = roff_getregro(name + 1);
1612: if (-1 != val)
1613: return (val);
1614: }
1.180 schwarze 1615:
1616: for (reg = r->regtab; reg; reg = reg->next)
1617: if (0 == strcmp(name, reg->key.p))
1.181 schwarze 1618: return(reg->val);
1619:
1620: return(0);
1621: }
1622:
1623: static int
1624: roff_getregn(const struct roff *r, const char *name, size_t len)
1625: {
1626: struct roffreg *reg;
1.192 schwarze 1627: int val;
1628:
1629: if ('.' == name[0] && 2 == len) {
1630: val = roff_getregro(name + 1);
1631: if (-1 != val)
1632: return (val);
1633: }
1.181 schwarze 1634:
1635: for (reg = r->regtab; reg; reg = reg->next)
1636: if (len == reg->key.sz &&
1637: 0 == strncmp(name, reg->key.p, len))
1638: return(reg->val);
1.147 kristaps 1639:
1.180 schwarze 1640: return(0);
1.147 kristaps 1641: }
1642:
1.180 schwarze 1643: static void
1644: roff_freereg(struct roffreg *reg)
1.147 kristaps 1645: {
1.180 schwarze 1646: struct roffreg *old_reg;
1.147 kristaps 1647:
1.180 schwarze 1648: while (NULL != reg) {
1649: free(reg->key.p);
1650: old_reg = reg;
1651: reg = reg->next;
1652: free(old_reg);
1653: }
1.147 kristaps 1654: }
1.92 schwarze 1655:
1656: static enum rofferr
1.89 kristaps 1657: roff_nr(ROFF_ARGS)
1.83 schwarze 1658: {
1.212 ! schwarze 1659: char *key, *val;
! 1660: size_t keysz;
1.138 kristaps 1661: int iv;
1.187 schwarze 1662: char sign;
1.89 kristaps 1663:
1.212 ! schwarze 1664: key = val = *bufp + pos;
! 1665: if ('\0' == *key)
! 1666: return(ROFF_IGN);
! 1667:
! 1668: keysz = roff_getname(r, &val, ln, pos);
! 1669: if ('\\' == key[keysz])
! 1670: return(ROFF_IGN);
! 1671: key[keysz] = '\0';
1.89 kristaps 1672:
1.187 schwarze 1673: sign = *val;
1674: if ('+' == sign || '-' == sign)
1675: val++;
1676:
1.204 schwarze 1677: if (roff_evalnum(val, NULL, &iv, 0))
1678: roff_setreg(r, key, iv, sign);
1.109 kristaps 1679:
1.203 schwarze 1680: return(ROFF_IGN);
1681: }
1682:
1683: static enum rofferr
1684: roff_rr(ROFF_ARGS)
1685: {
1686: struct roffreg *reg, **prev;
1.212 ! schwarze 1687: char *name, *cp;
! 1688: size_t namesz;
1.203 schwarze 1689:
1.212 ! schwarze 1690: name = cp = *bufp + pos;
! 1691: if ('\0' == *name)
! 1692: return(ROFF_IGN);
! 1693: namesz = roff_getname(r, &cp, ln, pos);
! 1694: name[namesz] = '\0';
1.203 schwarze 1695:
1696: prev = &r->regtab;
1697: while (1) {
1698: reg = *prev;
1699: if (NULL == reg || !strcmp(name, reg->key.p))
1700: break;
1701: prev = ®->next;
1702: }
1703: if (NULL != reg) {
1704: *prev = reg->next;
1705: free(reg->key.p);
1706: free(reg);
1707: }
1.122 schwarze 1708: return(ROFF_IGN);
1709: }
1710:
1711: static enum rofferr
1712: roff_rm(ROFF_ARGS)
1713: {
1714: const char *name;
1715: char *cp;
1.212 ! schwarze 1716: size_t namesz;
1.122 schwarze 1717:
1718: cp = *bufp + pos;
1719: while ('\0' != *cp) {
1.212 ! schwarze 1720: name = cp;
! 1721: namesz = roff_getname(r, &cp, ln, (int)(cp - *bufp));
! 1722: roff_setstrn(&r->strtab, name, namesz, NULL, 0, 0);
! 1723: if ('\\' == name[namesz])
! 1724: break;
1.122 schwarze 1725: }
1.178 schwarze 1726: return(ROFF_IGN);
1727: }
1728:
1729: static enum rofferr
1730: roff_it(ROFF_ARGS)
1731: {
1732: char *cp;
1733: size_t len;
1734: int iv;
1735:
1736: /* Parse the number of lines. */
1737: cp = *bufp + pos;
1738: len = strcspn(cp, " \t");
1739: cp[len] = '\0';
1740: if ((iv = mandoc_strntoi(cp, len, 10)) <= 0) {
1741: mandoc_msg(MANDOCERR_NUMERIC, r->parse,
1.207 schwarze 1742: ln, ppos, *bufp + 1);
1.178 schwarze 1743: return(ROFF_IGN);
1744: }
1745: cp += len + 1;
1746:
1747: /* Arm the input line trap. */
1748: roffit_lines = iv;
1749: roffit_macro = mandoc_strdup(cp);
1.109 kristaps 1750: return(ROFF_IGN);
1.175 schwarze 1751: }
1752:
1753: static enum rofferr
1754: roff_Dd(ROFF_ARGS)
1755: {
1756: const char *const *cp;
1757:
1.199 schwarze 1758: if (0 == ((MPARSE_MDOC | MPARSE_QUICK) & r->options))
1.175 schwarze 1759: for (cp = __mdoc_reserved; *cp; cp++)
1760: roff_setstr(r, *cp, NULL, 0);
1761:
1762: return(ROFF_CONT);
1763: }
1764:
1765: static enum rofferr
1766: roff_TH(ROFF_ARGS)
1767: {
1768: const char *const *cp;
1769:
1.199 schwarze 1770: if (0 == (MPARSE_QUICK & r->options))
1.175 schwarze 1771: for (cp = __man_reserved; *cp; cp++)
1772: roff_setstr(r, *cp, NULL, 0);
1773:
1774: return(ROFF_CONT);
1.109 kristaps 1775: }
1776:
1777: static enum rofferr
1778: roff_TE(ROFF_ARGS)
1779: {
1780:
1781: if (NULL == r->tbl)
1.128 kristaps 1782: mandoc_msg(MANDOCERR_NOSCOPE, r->parse, ln, ppos, NULL);
1.115 kristaps 1783: else
1.151 kristaps 1784: tbl_end(&r->tbl);
1.109 kristaps 1785:
1.112 kristaps 1786: return(ROFF_IGN);
1787: }
1788:
1789: static enum rofferr
1790: roff_T_(ROFF_ARGS)
1791: {
1792:
1793: if (NULL == r->tbl)
1.128 kristaps 1794: mandoc_msg(MANDOCERR_NOSCOPE, r->parse, ln, ppos, NULL);
1.112 kristaps 1795: else
1.116 kristaps 1796: tbl_restart(ppos, ln, r->tbl);
1.112 kristaps 1797:
1.109 kristaps 1798: return(ROFF_IGN);
1799: }
1800:
1.156 kristaps 1801: #if 0
1802: static int
1.151 kristaps 1803: roff_closeeqn(struct roff *r)
1804: {
1805:
1806: return(r->eqn && ROFF_EQN == eqn_end(&r->eqn) ? 1 : 0);
1807: }
1.156 kristaps 1808: #endif
1.151 kristaps 1809:
1.156 kristaps 1810: static void
1.207 schwarze 1811: roff_openeqn(struct roff *r, const char *name, int line,
1.151 kristaps 1812: int offs, const char *buf)
1.125 kristaps 1813: {
1.151 kristaps 1814: struct eqn_node *e;
1815: int poff;
1.125 kristaps 1816:
1817: assert(NULL == r->eqn);
1.151 kristaps 1818: e = eqn_alloc(name, offs, line, r->parse);
1.125 kristaps 1819:
1820: if (r->last_eqn)
1821: r->last_eqn->next = e;
1822: else
1823: r->first_eqn = r->last_eqn = e;
1824:
1825: r->eqn = r->last_eqn = e;
1.151 kristaps 1826:
1827: if (buf) {
1828: poff = 0;
1829: eqn_read(&r->eqn, line, buf, offs, &poff);
1830: }
1831: }
1832:
1833: static enum rofferr
1834: roff_EQ(ROFF_ARGS)
1835: {
1836:
1837: roff_openeqn(r, *bufp + pos, ln, ppos, NULL);
1.125 kristaps 1838: return(ROFF_IGN);
1839: }
1840:
1841: static enum rofferr
1842: roff_EN(ROFF_ARGS)
1843: {
1844:
1.128 kristaps 1845: mandoc_msg(MANDOCERR_NOSCOPE, r->parse, ln, ppos, NULL);
1.125 kristaps 1846: return(ROFF_IGN);
1847: }
1848:
1849: static enum rofferr
1.109 kristaps 1850: roff_TS(ROFF_ARGS)
1851: {
1.176 schwarze 1852: struct tbl_node *tbl;
1.89 kristaps 1853:
1.115 kristaps 1854: if (r->tbl) {
1.128 kristaps 1855: mandoc_msg(MANDOCERR_SCOPEBROKEN, r->parse, ln, ppos, NULL);
1.151 kristaps 1856: tbl_end(&r->tbl);
1.115 kristaps 1857: }
1.83 schwarze 1858:
1.176 schwarze 1859: tbl = tbl_alloc(ppos, ln, r->parse);
1.113 kristaps 1860:
1861: if (r->last_tbl)
1.176 schwarze 1862: r->last_tbl->next = tbl;
1.113 kristaps 1863: else
1.176 schwarze 1864: r->first_tbl = r->last_tbl = tbl;
1.113 kristaps 1865:
1.176 schwarze 1866: r->tbl = r->last_tbl = tbl;
1.83 schwarze 1867: return(ROFF_IGN);
1.92 schwarze 1868: }
1869:
1.105 kristaps 1870: static enum rofferr
1.174 kristaps 1871: roff_cc(ROFF_ARGS)
1872: {
1873: const char *p;
1874:
1875: p = *bufp + pos;
1876:
1877: if ('\0' == *p || '.' == (r->control = *p++))
1878: r->control = 0;
1879:
1880: if ('\0' != *p)
1881: mandoc_msg(MANDOCERR_ARGCOUNT, r->parse, ln, ppos, NULL);
1882:
1883: return(ROFF_IGN);
1884: }
1885:
1886: static enum rofferr
1.164 kristaps 1887: roff_tr(ROFF_ARGS)
1888: {
1889: const char *p, *first, *second;
1890: size_t fsz, ssz;
1891: enum mandoc_esc esc;
1892:
1893: p = *bufp + pos;
1894:
1895: if ('\0' == *p) {
1896: mandoc_msg(MANDOCERR_ARGCOUNT, r->parse, ln, ppos, NULL);
1897: return(ROFF_IGN);
1898: }
1899:
1900: while ('\0' != *p) {
1901: fsz = ssz = 1;
1902:
1903: first = p++;
1904: if ('\\' == *first) {
1905: esc = mandoc_escape(&p, NULL, NULL);
1906: if (ESCAPE_ERROR == esc) {
1.207 schwarze 1907: mandoc_msg(MANDOCERR_BADESCAPE,
1908: r->parse, ln,
1909: (int)(p - *bufp), NULL);
1.164 kristaps 1910: return(ROFF_IGN);
1911: }
1912: fsz = (size_t)(p - first);
1913: }
1914:
1915: second = p++;
1916: if ('\\' == *second) {
1917: esc = mandoc_escape(&p, NULL, NULL);
1918: if (ESCAPE_ERROR == esc) {
1.207 schwarze 1919: mandoc_msg(MANDOCERR_BADESCAPE,
1920: r->parse, ln,
1921: (int)(p - *bufp), NULL);
1.164 kristaps 1922: return(ROFF_IGN);
1923: }
1924: ssz = (size_t)(p - second);
1.165 kristaps 1925: } else if ('\0' == *second) {
1.207 schwarze 1926: mandoc_msg(MANDOCERR_ARGCOUNT, r->parse,
1927: ln, (int)(p - *bufp), NULL);
1.164 kristaps 1928: second = " ";
1.165 kristaps 1929: p--;
1.164 kristaps 1930: }
1931:
1.167 kristaps 1932: if (fsz > 1) {
1.207 schwarze 1933: roff_setstrn(&r->xmbtab, first, fsz,
1934: second, ssz, 0);
1.167 kristaps 1935: continue;
1936: }
1937:
1938: if (NULL == r->xtab)
1.207 schwarze 1939: r->xtab = mandoc_calloc(128,
1940: sizeof(struct roffstr));
1.167 kristaps 1941:
1942: free(r->xtab[(int)*first].p);
1943: r->xtab[(int)*first].p = mandoc_strndup(second, ssz);
1944: r->xtab[(int)*first].sz = ssz;
1.164 kristaps 1945: }
1946:
1947: return(ROFF_IGN);
1948: }
1949:
1950: static enum rofferr
1.105 kristaps 1951: roff_so(ROFF_ARGS)
1952: {
1953: char *name;
1954:
1.210 schwarze 1955: name = *bufp + pos;
1956: mandoc_vmsg(MANDOCERR_SO, r->parse, ln, ppos, ".so %s", name);
1.105 kristaps 1957:
1958: /*
1959: * Handle `so'. Be EXTREMELY careful, as we shouldn't be
1960: * opening anything that's not in our cwd or anything beneath
1961: * it. Thus, explicitly disallow traversing up the file-system
1962: * or using absolute paths.
1963: */
1964:
1965: if ('/' == *name || strstr(name, "../") || strstr(name, "/..")) {
1.210 schwarze 1966: mandoc_vmsg(MANDOCERR_SO_PATH, r->parse, ln, ppos,
1967: ".so %s", name);
1.105 kristaps 1968: return(ROFF_ERR);
1969: }
1970:
1971: *offs = pos;
1972: return(ROFF_SO);
1973: }
1.92 schwarze 1974:
1.106 kristaps 1975: static enum rofferr
1976: roff_userdef(ROFF_ARGS)
1.99 kristaps 1977: {
1.106 kristaps 1978: const char *arg[9];
1979: char *cp, *n1, *n2;
1.119 schwarze 1980: int i;
1.106 kristaps 1981:
1982: /*
1983: * Collect pointers to macro argument strings
1.188 schwarze 1984: * and NUL-terminate them.
1.106 kristaps 1985: */
1986: cp = *bufp + pos;
1.119 schwarze 1987: for (i = 0; i < 9; i++)
1.120 schwarze 1988: arg[i] = '\0' == *cp ? "" :
1.136 kristaps 1989: mandoc_getarg(r->parse, &cp, ln, &pos);
1.99 kristaps 1990:
1.106 kristaps 1991: /*
1992: * Expand macro arguments.
1.99 kristaps 1993: */
1.106 kristaps 1994: *szp = 0;
1995: n1 = cp = mandoc_strdup(r->current_string);
1996: while (NULL != (cp = strstr(cp, "\\$"))) {
1997: i = cp[2] - '1';
1998: if (0 > i || 8 < i) {
1999: /* Not an argument invocation. */
2000: cp += 2;
2001: continue;
2002: }
1.209 schwarze 2003: *cp = '\0';
2004: *szp = mandoc_asprintf(&n2, "%s%s%s",
2005: n1, arg[i], cp + 3) + 1;
1.106 kristaps 2006: cp = n2 + (cp - n1);
2007: free(n1);
2008: n1 = n2;
1.99 kristaps 2009: }
2010:
1.106 kristaps 2011: /*
2012: * Replace the macro invocation
2013: * by the expanded macro.
2014: */
2015: free(*bufp);
2016: *bufp = n1;
2017: if (0 == *szp)
2018: *szp = strlen(*bufp) + 1;
2019:
2020: return(*szp > 1 && '\n' == (*bufp)[(int)*szp - 2] ?
2021: ROFF_REPARSE : ROFF_APPEND);
1.99 kristaps 2022: }
1.121 schwarze 2023:
1.212 ! schwarze 2024: static size_t
1.121 schwarze 2025: roff_getname(struct roff *r, char **cpp, int ln, int pos)
2026: {
2027: char *name, *cp;
1.212 ! schwarze 2028: size_t namesz;
1.121 schwarze 2029:
2030: name = *cpp;
2031: if ('\0' == *name)
1.212 ! schwarze 2032: return(0);
1.121 schwarze 2033:
1.212 ! schwarze 2034: /* Read until end of name and terminate it with NUL. */
! 2035: for (cp = name; 1; cp++) {
! 2036: if ('\0' == *cp || ' ' == *cp) {
! 2037: namesz = cp - name;
! 2038: break;
! 2039: }
1.121 schwarze 2040: if ('\\' != *cp)
2041: continue;
2042: cp++;
2043: if ('\\' == *cp)
2044: continue;
1.212 ! schwarze 2045: namesz = cp - name - 1;
1.128 kristaps 2046: mandoc_msg(MANDOCERR_NAMESC, r->parse, ln, pos, NULL);
1.212 ! schwarze 2047: mandoc_escape((const char **)&cp, NULL, NULL);
! 2048: break;
1.121 schwarze 2049: }
2050:
2051: /* Read past spaces. */
2052: while (' ' == *cp)
2053: cp++;
2054:
2055: *cpp = cp;
1.212 ! schwarze 2056: return(namesz);
1.121 schwarze 2057: }
2058:
1.106 kristaps 2059: /*
2060: * Store *string into the user-defined string called *name.
2061: * To clear an existing entry, call with (*r, *name, NULL, 0).
1.193 schwarze 2062: * append == 0: replace mode
2063: * append == 1: single-line append mode
2064: * append == 2: multiline append mode, append '\n' after each call
1.106 kristaps 2065: */
1.94 kristaps 2066: static void
1.106 kristaps 2067: roff_setstr(struct roff *r, const char *name, const char *string,
1.193 schwarze 2068: int append)
1.92 schwarze 2069: {
1.164 kristaps 2070:
2071: roff_setstrn(&r->strtab, name, strlen(name), string,
1.207 schwarze 2072: string ? strlen(string) : 0, append);
1.164 kristaps 2073: }
2074:
2075: static void
1.166 kristaps 2076: roff_setstrn(struct roffkv **r, const char *name, size_t namesz,
1.193 schwarze 2077: const char *string, size_t stringsz, int append)
1.164 kristaps 2078: {
1.166 kristaps 2079: struct roffkv *n;
1.164 kristaps 2080: char *c;
2081: int i;
2082: size_t oldch, newch;
1.92 schwarze 2083:
1.106 kristaps 2084: /* Search for an existing string with the same name. */
1.164 kristaps 2085: n = *r;
2086:
1.211 schwarze 2087: while (n && (namesz != n->key.sz ||
2088: strncmp(n->key.p, name, namesz)))
1.92 schwarze 2089: n = n->next;
1.94 kristaps 2090:
2091: if (NULL == n) {
1.106 kristaps 2092: /* Create a new string table entry. */
1.166 kristaps 2093: n = mandoc_malloc(sizeof(struct roffkv));
2094: n->key.p = mandoc_strndup(name, namesz);
2095: n->key.sz = namesz;
2096: n->val.p = NULL;
2097: n->val.sz = 0;
1.164 kristaps 2098: n->next = *r;
2099: *r = n;
1.193 schwarze 2100: } else if (0 == append) {
1.166 kristaps 2101: free(n->val.p);
2102: n->val.p = NULL;
2103: n->val.sz = 0;
1.106 kristaps 2104: }
2105:
2106: if (NULL == string)
2107: return;
2108:
2109: /*
2110: * One additional byte for the '\n' in multiline mode,
2111: * and one for the terminating '\0'.
2112: */
1.193 schwarze 2113: newch = stringsz + (1 < append ? 2u : 1u);
1.164 kristaps 2114:
1.166 kristaps 2115: if (NULL == n->val.p) {
2116: n->val.p = mandoc_malloc(newch);
2117: *n->val.p = '\0';
1.106 kristaps 2118: oldch = 0;
2119: } else {
1.166 kristaps 2120: oldch = n->val.sz;
2121: n->val.p = mandoc_realloc(n->val.p, oldch + newch);
1.106 kristaps 2122: }
2123:
2124: /* Skip existing content in the destination buffer. */
1.166 kristaps 2125: c = n->val.p + (int)oldch;
1.106 kristaps 2126:
2127: /* Append new content to the destination buffer. */
1.164 kristaps 2128: i = 0;
2129: while (i < (int)stringsz) {
1.106 kristaps 2130: /*
2131: * Rudimentary roff copy mode:
2132: * Handle escaped backslashes.
2133: */
1.164 kristaps 2134: if ('\\' == string[i] && '\\' == string[i + 1])
2135: i++;
2136: *c++ = string[i++];
1.106 kristaps 2137: }
1.94 kristaps 2138:
1.106 kristaps 2139: /* Append terminating bytes. */
1.193 schwarze 2140: if (1 < append)
1.106 kristaps 2141: *c++ = '\n';
1.163 kristaps 2142:
1.106 kristaps 2143: *c = '\0';
1.166 kristaps 2144: n->val.sz = (int)(c - n->val.p);
1.92 schwarze 2145: }
2146:
1.94 kristaps 2147: static const char *
2148: roff_getstrn(const struct roff *r, const char *name, size_t len)
1.92 schwarze 2149: {
1.166 kristaps 2150: const struct roffkv *n;
1.191 schwarze 2151: int i;
1.92 schwarze 2152:
1.164 kristaps 2153: for (n = r->strtab; n; n = n->next)
1.207 schwarze 2154: if (0 == strncmp(name, n->key.p, len) &&
2155: '\0' == n->key.p[(int)len])
1.166 kristaps 2156: return(n->val.p);
1.191 schwarze 2157:
2158: for (i = 0; i < PREDEFS_MAX; i++)
2159: if (0 == strncmp(name, predefs[i].name, len) &&
2160: '\0' == predefs[i].name[(int)len])
2161: return(predefs[i].str);
1.94 kristaps 2162:
1.157 kristaps 2163: return(NULL);
1.92 schwarze 2164: }
2165:
1.94 kristaps 2166: static void
1.167 kristaps 2167: roff_freestr(struct roffkv *r)
1.92 schwarze 2168: {
1.166 kristaps 2169: struct roffkv *n, *nn;
1.92 schwarze 2170:
1.167 kristaps 2171: for (n = r; n; n = nn) {
1.166 kristaps 2172: free(n->key.p);
2173: free(n->val.p);
1.92 schwarze 2174: nn = n->next;
2175: free(n);
2176: }
1.114 kristaps 2177: }
2178:
2179: const struct tbl_span *
2180: roff_span(const struct roff *r)
2181: {
1.207 schwarze 2182:
1.114 kristaps 2183: return(r->tbl ? tbl_span(r->tbl) : NULL);
1.125 kristaps 2184: }
2185:
2186: const struct eqn *
2187: roff_eqn(const struct roff *r)
2188: {
1.207 schwarze 2189:
1.125 kristaps 2190: return(r->last_eqn ? &r->last_eqn->eqn : NULL);
1.164 kristaps 2191: }
2192:
2193: /*
2194: * Duplicate an input string, making the appropriate character
2195: * conversations (as stipulated by `tr') along the way.
2196: * Returns a heap-allocated string with all the replacements made.
2197: */
2198: char *
2199: roff_strdup(const struct roff *r, const char *p)
2200: {
1.166 kristaps 2201: const struct roffkv *cp;
1.164 kristaps 2202: char *res;
2203: const char *pp;
2204: size_t ssz, sz;
2205: enum mandoc_esc esc;
2206:
1.167 kristaps 2207: if (NULL == r->xmbtab && NULL == r->xtab)
1.164 kristaps 2208: return(mandoc_strdup(p));
2209: else if ('\0' == *p)
2210: return(mandoc_strdup(""));
2211:
2212: /*
2213: * Step through each character looking for term matches
2214: * (remember that a `tr' can be invoked with an escape, which is
2215: * a glyph but the escape is multi-character).
2216: * We only do this if the character hash has been initialised
2217: * and the string is >0 length.
2218: */
2219:
2220: res = NULL;
2221: ssz = 0;
2222:
2223: while ('\0' != *p) {
1.167 kristaps 2224: if ('\\' != *p && r->xtab && r->xtab[(int)*p].p) {
2225: sz = r->xtab[(int)*p].sz;
2226: res = mandoc_realloc(res, ssz + sz + 1);
2227: memcpy(res + ssz, r->xtab[(int)*p].p, sz);
2228: ssz += sz;
2229: p++;
2230: continue;
2231: } else if ('\\' != *p) {
2232: res = mandoc_realloc(res, ssz + 2);
2233: res[ssz++] = *p++;
2234: continue;
2235: }
2236:
1.164 kristaps 2237: /* Search for term matches. */
1.167 kristaps 2238: for (cp = r->xmbtab; cp; cp = cp->next)
1.166 kristaps 2239: if (0 == strncmp(p, cp->key.p, cp->key.sz))
1.164 kristaps 2240: break;
2241:
2242: if (NULL != cp) {
2243: /*
2244: * A match has been found.
2245: * Append the match to the array and move
2246: * forward by its keysize.
2247: */
1.207 schwarze 2248: res = mandoc_realloc(res,
2249: ssz + cp->val.sz + 1);
1.166 kristaps 2250: memcpy(res + ssz, cp->val.p, cp->val.sz);
2251: ssz += cp->val.sz;
2252: p += (int)cp->key.sz;
1.164 kristaps 2253: continue;
2254: }
2255:
1.167 kristaps 2256: /*
2257: * Handle escapes carefully: we need to copy
2258: * over just the escape itself, or else we might
2259: * do replacements within the escape itself.
2260: * Make sure to pass along the bogus string.
2261: */
2262: pp = p++;
2263: esc = mandoc_escape(&p, NULL, NULL);
2264: if (ESCAPE_ERROR == esc) {
2265: sz = strlen(pp);
1.164 kristaps 2266: res = mandoc_realloc(res, ssz + sz + 1);
2267: memcpy(res + ssz, pp, sz);
1.167 kristaps 2268: break;
1.164 kristaps 2269: }
1.207 schwarze 2270: /*
2271: * We bail out on bad escapes.
1.167 kristaps 2272: * No need to warn: we already did so when
2273: * roff_res() was called.
2274: */
2275: sz = (int)(p - pp);
2276: res = mandoc_realloc(res, ssz + sz + 1);
2277: memcpy(res + ssz, pp, sz);
2278: ssz += sz;
1.164 kristaps 2279: }
2280:
2281: res[(int)ssz] = '\0';
2282: return(res);
1.174 kristaps 2283: }
2284:
2285: /*
1.207 schwarze 2286: * Find out whether a line is a macro line or not.
1.174 kristaps 2287: * If it is, adjust the current position and return one; if it isn't,
2288: * return zero and don't change the current position.
2289: * If the control character has been set with `.cc', then let that grain
2290: * precedence.
2291: * This is slighly contrary to groff, where using the non-breaking
2292: * control character when `cc' has been invoked will cause the
2293: * non-breaking macro contents to be printed verbatim.
2294: */
2295: int
2296: roff_getcontrol(const struct roff *r, const char *cp, int *ppos)
2297: {
2298: int pos;
2299:
2300: pos = *ppos;
2301:
2302: if (0 != r->control && cp[pos] == r->control)
2303: pos++;
2304: else if (0 != r->control)
2305: return(0);
2306: else if ('\\' == cp[pos] && '.' == cp[pos + 1])
2307: pos += 2;
2308: else if ('.' == cp[pos] || '\'' == cp[pos])
2309: pos++;
2310: else
2311: return(0);
2312:
2313: while (' ' == cp[pos] || '\t' == cp[pos])
2314: pos++;
2315:
2316: *ppos = pos;
2317: return(1);
1.74 kristaps 2318: }
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