/* $Id$ */ /* * Copyright (c) 2008, 2009 Kristaps Dzonsons * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include #include #include "libmdoc.h" /* * Routines to parse arguments of macros. Arguments follow the syntax * of `-arg [val [valN...]]'. Arguments come in all types: quoted * arguments, multiple arguments per value, no-value arguments, etc. * * There's no limit to the number or arguments that may be allocated. */ /* FIXME .Bf Li raises "macro-like parameter". */ #define ARGS_DELIM (1 << 1) #define ARGS_TABSEP (1 << 2) #define ARGV_NONE (1 << 0) #define ARGV_SINGLE (1 << 1) #define ARGV_MULTI (1 << 2) #define ARGV_OPT_SINGLE (1 << 3) #define MULTI_STEP 5 static int argv_a2arg(int, const char *); static int args(struct mdoc *, int, int *, char *, int, char **); static int argv(struct mdoc *, int, struct mdoc_argv *, int *, char *); static int argv_single(struct mdoc *, int, struct mdoc_argv *, int *, char *); static int argv_opt_single(struct mdoc *, int, struct mdoc_argv *, int *, char *); static int argv_multi(struct mdoc *, int, struct mdoc_argv *, int *, char *); /* Per-argument flags. */ static int mdoc_argvflags[MDOC_ARG_MAX] = { ARGV_NONE, /* MDOC_Split */ ARGV_NONE, /* MDOC_Nosplit */ ARGV_NONE, /* MDOC_Ragged */ ARGV_NONE, /* MDOC_Unfilled */ ARGV_NONE, /* MDOC_Literal */ ARGV_NONE, /* MDOC_File */ ARGV_SINGLE, /* MDOC_Offset */ ARGV_NONE, /* MDOC_Bullet */ ARGV_NONE, /* MDOC_Dash */ ARGV_NONE, /* MDOC_Hyphen */ ARGV_NONE, /* MDOC_Item */ ARGV_NONE, /* MDOC_Enum */ ARGV_NONE, /* MDOC_Tag */ ARGV_NONE, /* MDOC_Diag */ ARGV_NONE, /* MDOC_Hang */ ARGV_NONE, /* MDOC_Ohang */ ARGV_NONE, /* MDOC_Inset */ ARGV_MULTI, /* MDOC_Column */ ARGV_SINGLE, /* MDOC_Width */ ARGV_NONE, /* MDOC_Compact */ ARGV_OPT_SINGLE, /* MDOC_Std */ ARGV_NONE, /* MDOC_Filled */ ARGV_NONE, /* MDOC_Words */ ARGV_NONE, /* MDOC_Emphasis */ ARGV_NONE, /* MDOC_Symbolic */ ARGV_NONE /* MDOC_Symbolic */ }; static int mdoc_argflags[MDOC_MAX] = { 0, /* Ap */ 0, /* Dd */ 0, /* Dt */ 0, /* Os */ 0, /* Sh */ 0, /* Ss */ ARGS_DELIM, /* Pp */ ARGS_DELIM, /* D1 */ ARGS_DELIM, /* Dl */ 0, /* Bd */ 0, /* Ed */ 0, /* Bl */ 0, /* El */ 0, /* It */ ARGS_DELIM, /* Ad */ ARGS_DELIM, /* An */ ARGS_DELIM, /* Ar */ 0, /* Cd */ ARGS_DELIM, /* Cm */ ARGS_DELIM, /* Dv */ ARGS_DELIM, /* Er */ ARGS_DELIM, /* Ev */ 0, /* Ex */ ARGS_DELIM, /* Fa */ 0, /* Fd */ ARGS_DELIM, /* Fl */ ARGS_DELIM, /* Fn */ ARGS_DELIM, /* Ft */ ARGS_DELIM, /* Ic */ 0, /* In */ ARGS_DELIM, /* Li */ 0, /* Nd */ ARGS_DELIM, /* Nm */ ARGS_DELIM, /* Op */ 0, /* Ot */ ARGS_DELIM, /* Pa */ 0, /* Rv */ ARGS_DELIM, /* St */ ARGS_DELIM, /* Va */ ARGS_DELIM, /* Vt */ ARGS_DELIM, /* Xr */ 0, /* %A */ 0, /* %B */ 0, /* %D */ 0, /* %I */ 0, /* %J */ 0, /* %N */ 0, /* %O */ 0, /* %P */ 0, /* %R */ 0, /* %T */ 0, /* %V */ ARGS_DELIM, /* Ac */ 0, /* Ao */ ARGS_DELIM, /* Aq */ ARGS_DELIM, /* At */ ARGS_DELIM, /* Bc */ 0, /* Bf */ 0, /* Bo */ ARGS_DELIM, /* Bq */ ARGS_DELIM, /* Bsx */ ARGS_DELIM, /* Bx */ 0, /* Db */ ARGS_DELIM, /* Dc */ 0, /* Do */ ARGS_DELIM, /* Dq */ ARGS_DELIM, /* Ec */ 0, /* Ef */ ARGS_DELIM, /* Em */ 0, /* Eo */ ARGS_DELIM, /* Fx */ ARGS_DELIM, /* Ms */ ARGS_DELIM, /* No */ ARGS_DELIM, /* Ns */ ARGS_DELIM, /* Nx */ ARGS_DELIM, /* Ox */ ARGS_DELIM, /* Pc */ ARGS_DELIM, /* Pf */ 0, /* Po */ ARGS_DELIM, /* Pq */ ARGS_DELIM, /* Qc */ ARGS_DELIM, /* Ql */ 0, /* Qo */ ARGS_DELIM, /* Qq */ 0, /* Re */ 0, /* Rs */ ARGS_DELIM, /* Sc */ 0, /* So */ ARGS_DELIM, /* Sq */ 0, /* Sm */ ARGS_DELIM, /* Sx */ ARGS_DELIM, /* Sy */ ARGS_DELIM, /* Tn */ ARGS_DELIM, /* Ux */ ARGS_DELIM, /* Xc */ 0, /* Xo */ 0, /* Fo */ 0, /* Fc */ 0, /* Oo */ ARGS_DELIM, /* Oc */ 0, /* Bk */ 0, /* Ek */ 0, /* Bt */ 0, /* Hf */ 0, /* Fr */ 0, /* Ud */ 0, /* Lb */ ARGS_DELIM, /* Lp */ ARGS_DELIM, /* Lk */ ARGS_DELIM, /* Mt */ ARGS_DELIM, /* Brq */ 0, /* Bro */ ARGS_DELIM, /* Brc */ 0, /* %C */ 0, /* Es */ 0, /* En */ 0, /* Dx */ 0, /* %Q */ 0, /* br */ 0, /* sp */ }; /* * Parse an argument from line text. This comes in the form of -key * [value0...], which may either have a single mandatory value, at least * one mandatory value, an optional single value, or no value. */ int mdoc_argv(struct mdoc *m, int line, int tok, struct mdoc_arg **v, int *pos, char *buf) { char *p, sv; struct mdoc_argv tmp; struct mdoc_arg *arg; if (0 == buf[*pos]) return(ARGV_EOLN); assert(' ' != buf[*pos]); /* Parse through to the first unescaped space. */ p = &buf[++(*pos)]; assert(*pos > 0); /* LINTED */ while (buf[*pos]) { if (' ' == buf[*pos]) if ('\\' != buf[*pos - 1]) break; (*pos)++; } /* XXX - save zeroed byte, if not an argument. */ sv = 0; if (buf[*pos]) { sv = buf[*pos]; buf[(*pos)++] = 0; } (void)memset(&tmp, 0, sizeof(struct mdoc_argv)); tmp.line = line; tmp.pos = *pos; /* See if our token accepts the argument. */ if (MDOC_ARG_MAX == (tmp.arg = argv_a2arg(tok, p))) { /* XXX - restore saved zeroed byte. */ if (sv) buf[*pos - 1] = sv; return(ARGV_WORD); } while (buf[*pos] && ' ' == buf[*pos]) (*pos)++; if ( ! argv(m, line, &tmp, pos, buf)) return(ARGV_ERROR); if (NULL == (arg = *v)) { *v = calloc(1, sizeof(struct mdoc_arg)); if (NULL == *v) { (void)mdoc_nerr(m, m->last, EMALLOC); return(ARGV_ERROR); } arg = *v; } arg->argc++; arg->argv = realloc(arg->argv, arg->argc * sizeof(struct mdoc_argv)); if (NULL == arg->argv) { (void)mdoc_nerr(m, m->last, EMALLOC); return(ARGV_ERROR); } (void)memcpy(&arg->argv[(int)arg->argc - 1], &tmp, sizeof(struct mdoc_argv)); return(ARGV_ARG); } void mdoc_argv_free(struct mdoc_arg *p) { int i, j; if (NULL == p) return; if (p->refcnt) { --(p->refcnt); if (p->refcnt) return; } assert(p->argc); /* LINTED */ for (i = 0; i < (int)p->argc; i++) { if (0 == p->argv[i].sz) continue; /* LINTED */ for (j = 0; j < (int)p->argv[i].sz; j++) free(p->argv[i].value[j]); free(p->argv[i].value); } free(p->argv); free(p); } int mdoc_args(struct mdoc *m, int line, int *pos, char *buf, int tok, char **v) { int fl, c, i; struct mdoc_node *n; fl = (0 == tok) ? 0 : mdoc_argflags[tok]; if (MDOC_It != tok) return(args(m, line, pos, buf, fl, v)); /* * The `It' macro is a special case, as it acquires parameters from its * parent `Bl' context, specifically, we're concerned with -column. */ for (n = m->last; n; n = n->parent) if (MDOC_BLOCK == n->type && MDOC_Bl == n->tok) break; assert(n); c = (int)(n->args ? n->args->argc : 0); assert(c > 0); /* LINTED */ for (i = 0; i < c; i++) { if (MDOC_Column != n->args->argv[i].arg) continue; fl |= ARGS_TABSEP; fl &= ~ARGS_DELIM; break; } return(args(m, line, pos, buf, fl, v)); } static int args(struct mdoc *m, int line, int *pos, char *buf, int fl, char **v) { int i; char *p, *pp; assert(*pos); assert(' ' != buf[*pos]); if (0 == buf[*pos]) return(ARGS_EOLN); /* * If the first character is a delimiter and we're to look for * delimited strings, then pass down the buffer seeing if it * follows the pattern of [[::delim::][ ]+]+. */ if ((fl & ARGS_DELIM) && mdoc_iscdelim(buf[*pos])) { for (i = *pos; buf[i]; ) { if ( ! mdoc_iscdelim(buf[i])) break; i++; if (0 == buf[i] || ' ' != buf[i]) break; i++; while (buf[i] && ' ' == buf[i]) i++; } /* FIXME: warn about trailing whitespace. */ if (0 == buf[i]) { *v = &buf[*pos]; return(ARGS_PUNCT); } } *v = &buf[*pos]; /* * First handle TABSEP items, restricted to `Bl -column'. This * ignores conventional token parsing and instead uses tabs or * `Ta' macros to separate phrases. Phrases are parsed again * for arguments at a later phase. */ if (ARGS_TABSEP & fl) { /* Scan ahead to unescaped tab. */ p = strchr(*v, '\t'); /* Scan ahead to unescaped `Ta'. */ for (pp = *v; ; pp++) { if (NULL == (pp = strstr(pp, "Ta"))) break; if (pp > *v && ' ' != *(pp - 1)) continue; if (' ' == *(pp + 2) || 0 == *(pp + 2)) break; } /* Choose delimiter tab/Ta. */ if (p && pp) p = (p < pp ? p : pp); else if ( ! p && pp) p = pp; /* Strip delimiter's preceding whitespace. */ /* FIXME: escaped whitespace? */ if (p && p > *v) { pp = p - 1; while (pp > *v && ' ' == *pp) pp--; if (pp == *v && ' ' == *pp) *pp = 0; else if (' ' == *pp) *(pp + 1) = 0; } /* ...in- and proceding whitespace. */ if (p && ('\t' != *p)) { *p++ = 0; *p++ = 0; } else if (p) *p++ = 0; if (p) { while (' ' == *p) p++; if (0 != *p) *(p - 1) = 0; *pos += (int)(p - *v); } /* Some warnings, if applicable. */ if (p && 0 == *p) if ( ! mdoc_pwarn(m, line, *pos, ECOLEMPTY)) return(ARGS_ERROR); if (p && 0 == *p && p > *v && ' ' == *(p - 1)) if ( ! mdoc_pwarn(m, line, *pos, ETAILWS)) return(ARGS_ERROR); /* Non-eoln case returns now. */ if (p) return(ARGS_PHRASE); /* Configure the eoln case, too. */ p = strchr(*v, 0); assert(p); if (p > *v && ' ' == *(p - 1)) if ( ! mdoc_pwarn(m, line, *pos, ETAILWS)) return(ARGS_ERROR); *pos += (int)(p - *v); return(ARGS_PHRASE); } /* * Process a quoted literal. A quote begins with a double-quote * and ends with a double-quote NOT preceded by a double-quote. * Whitespace is NOT involved in literal termination. */ if ('\"' == buf[*pos]) { *v = &buf[++(*pos)]; for ( ; buf[*pos]; (*pos)++) { if ('\"' != buf[*pos]) continue; if ('\"' != buf[*pos + 1]) break; (*pos)++; } if (0 == buf[*pos]) { (void)mdoc_perr(m, line, *pos, EQUOTTERM); return(ARGS_ERROR); } buf[(*pos)++] = 0; if (0 == buf[*pos]) return(ARGS_QWORD); while (' ' == buf[*pos]) (*pos)++; if (0 == buf[*pos]) if ( ! mdoc_pwarn(m, line, *pos, ETAILWS)) return(ARGS_ERROR); return(ARGS_QWORD); } /* * A non-quoted term progresses until either the end of line or * a non-escaped whitespace. */ for ( ; buf[*pos]; (*pos)++) if (' ' == buf[*pos] && '\\' != buf[*pos - 1]) break; if (0 == buf[*pos]) return(ARGS_WORD); buf[(*pos)++] = 0; while (' ' == buf[*pos]) (*pos)++; if (0 == buf[*pos]) if ( ! mdoc_pwarn(m, line, *pos, ETAILWS)) return(ARGS_ERROR); return(ARGS_WORD); } static int argv_a2arg(int tok, const char *argv) { /* * Parse an argument identifier from its text. XXX - this * should really be table-driven to clarify the code. * * If you add an argument to the list, make sure that you * register it here with its one or more macros! */ switch (tok) { case (MDOC_An): if (0 == strcmp(argv, "split")) return(MDOC_Split); else if (0 == strcmp(argv, "nosplit")) return(MDOC_Nosplit); break; case (MDOC_Bd): if (0 == strcmp(argv, "ragged")) return(MDOC_Ragged); else if (0 == strcmp(argv, "unfilled")) return(MDOC_Unfilled); else if (0 == strcmp(argv, "filled")) return(MDOC_Filled); else if (0 == strcmp(argv, "literal")) return(MDOC_Literal); else if (0 == strcmp(argv, "file")) return(MDOC_File); else if (0 == strcmp(argv, "offset")) return(MDOC_Offset); else if (0 == strcmp(argv, "compact")) return(MDOC_Compact); break; case (MDOC_Bf): if (0 == strcmp(argv, "emphasis")) return(MDOC_Emphasis); else if (0 == strcmp(argv, "literal")) return(MDOC_Literal); else if (0 == strcmp(argv, "symbolic")) return(MDOC_Symbolic); break; case (MDOC_Bk): if (0 == strcmp(argv, "words")) return(MDOC_Words); break; case (MDOC_Bl): if (0 == strcmp(argv, "bullet")) return(MDOC_Bullet); else if (0 == strcmp(argv, "dash")) return(MDOC_Dash); else if (0 == strcmp(argv, "hyphen")) return(MDOC_Hyphen); else if (0 == strcmp(argv, "item")) return(MDOC_Item); else if (0 == strcmp(argv, "enum")) return(MDOC_Enum); else if (0 == strcmp(argv, "tag")) return(MDOC_Tag); else if (0 == strcmp(argv, "diag")) return(MDOC_Diag); else if (0 == strcmp(argv, "hang")) return(MDOC_Hang); else if (0 == strcmp(argv, "ohang")) return(MDOC_Ohang); else if (0 == strcmp(argv, "inset")) return(MDOC_Inset); else if (0 == strcmp(argv, "column")) return(MDOC_Column); else if (0 == strcmp(argv, "width")) return(MDOC_Width); else if (0 == strcmp(argv, "offset")) return(MDOC_Offset); else if (0 == strcmp(argv, "compact")) return(MDOC_Compact); else if (0 == strcmp(argv, "nested")) return(MDOC_Nested); break; case (MDOC_Rv): /* FALLTHROUGH */ case (MDOC_Ex): if (0 == strcmp(argv, "std")) return(MDOC_Std); break; default: break; } return(MDOC_ARG_MAX); } static int argv_multi(struct mdoc *m, int line, struct mdoc_argv *v, int *pos, char *buf) { int c; char *p; for (v->sz = 0; ; v->sz++) { if ('-' == buf[*pos]) break; c = args(m, line, pos, buf, 0, &p); if (ARGS_ERROR == c) return(0); else if (ARGS_EOLN == c) break; if (0 == v->sz % MULTI_STEP) { v->value = realloc(v->value, (v->sz + MULTI_STEP) * sizeof(char *)); if (NULL == v->value) { (void)mdoc_nerr(m, m->last, EMALLOC); return(ARGV_ERROR); } } if (NULL == (v->value[(int)v->sz] = strdup(p))) return(mdoc_nerr(m, m->last, EMALLOC)); } return(1); } static int argv_opt_single(struct mdoc *m, int line, struct mdoc_argv *v, int *pos, char *buf) { int c; char *p; if ('-' == buf[*pos]) return(1); c = args(m, line, pos, buf, 0, &p); if (ARGS_ERROR == c) return(0); if (ARGS_EOLN == c) return(1); v->sz = 1; if (NULL == (v->value = calloc(1, sizeof(char *)))) return(mdoc_nerr(m, m->last, EMALLOC)); if (NULL == (v->value[0] = strdup(p))) return(mdoc_nerr(m, m->last, EMALLOC)); return(1); } /* * Parse a single, mandatory value from the stream. */ static int argv_single(struct mdoc *m, int line, struct mdoc_argv *v, int *pos, char *buf) { int c, ppos; char *p; ppos = *pos; c = args(m, line, pos, buf, 0, &p); if (ARGS_ERROR == c) return(0); if (ARGS_EOLN == c) return(mdoc_perr(m, line, ppos, EARGVAL)); v->sz = 1; if (NULL == (v->value = calloc(1, sizeof(char *)))) return(mdoc_nerr(m, m->last, EMALLOC)); if (NULL == (v->value[0] = strdup(p))) return(mdoc_nerr(m, m->last, EMALLOC)); return(1); } /* * Determine rules for parsing arguments. Arguments can either accept * no parameters, an optional single parameter, one parameter, or * multiple parameters. */ static int argv(struct mdoc *mdoc, int line, struct mdoc_argv *v, int *pos, char *buf) { v->sz = 0; v->value = NULL; switch (mdoc_argvflags[v->arg]) { case (ARGV_SINGLE): return(argv_single(mdoc, line, v, pos, buf)); case (ARGV_MULTI): return(argv_multi(mdoc, line, v, pos, buf)); case (ARGV_OPT_SINGLE): return(argv_opt_single(mdoc, line, v, pos, buf)); default: /* ARGV_NONE */ break; } return(1); }