/* $Id$ */ /* * Copyright (c) 2008 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 "libmdocml.h" #include "private.h" #include "ml.h" /* TODO: literal tokens. */ #define COLUMNS 72 #define INDENT 4 #define MAXINDENT 10 enum md_tok { MD_TEXT, MD_INLINE_IN, MD_INLINE_OUT, MD_BLK_IN, MD_BLK_OUT, }; struct md_mlg { const struct md_args *args; const struct md_rbuf *rbuf; struct md_mbuf *mbuf; struct rofftree *tree; size_t indent; size_t pos; enum md_tok last; void *arg; ml_begintag begintag; ml_endtag endtag; ml_begin begin; ml_end end; int flags; #define ML_OVERRIDE_ONE (1 << 0) #define ML_OVERRIDE_ALL (1 << 1) }; static void mlg_roffmsg(void *arg, enum roffmsg, const char *, const char *, char *); static int mlg_roffhead(void *); static int mlg_rofftail(void *); static int mlg_roffin(void *, int, int *, char **); static int mlg_roffdata(void *, int, char *); static int mlg_roffout(void *, int); static int mlg_roffblkin(void *, int, int *, char **); static int mlg_roffblkout(void *, int); static int mlg_roffspecial(void *, int, int *, char **, char **); static int mlg_roffblkheadin(void *, int, int *, char **); static int mlg_roffblkheadout(void *, int); static int mlg_roffblkbodyin(void *, int, int *, char **); static int mlg_roffblkbodyout(void *, int); static int mlg_beginblk(struct md_mlg *, enum md_ns, int, int *, char **); static int mlg_endblk(struct md_mlg *, enum md_ns, int); static int mlg_begintag(struct md_mlg *, enum md_ns, int, int *, char **); static int mlg_endtag(struct md_mlg *, enum md_ns, int); static int mlg_indent(struct md_mlg *); static int mlg_newline(struct md_mlg *); static void mlg_mode(struct md_mlg *, enum md_tok); static int mlg_data(struct md_mlg *, int, char *); #ifdef __linux__ extern size_t strlcat(char *, const char *, size_t); extern size_t strlcpy(char *, const char *, size_t); #endif static int mlg_beginblk(struct md_mlg *p, enum md_ns ns, int tok, int *argc, char **argv) { if (0 != p->pos) { if ( ! mlg_newline(p)) return(0); if ( ! mlg_indent(p)) return(0); } else if ( ! mlg_indent(p)) return(0); p->indent++; mlg_mode(p, MD_BLK_IN); if ( ! mlg_begintag(p, ns, tok, argc, argv)) return(0); return(mlg_newline(p)); } static int mlg_endblk(struct md_mlg *p, enum md_ns ns, int tok) { p->indent--; if (0 != p->pos) { if ( ! mlg_newline(p)) return(0); if ( ! mlg_indent(p)) return(0); } else if ( ! mlg_indent(p)) return(0); mlg_mode(p, MD_BLK_OUT); if ( ! mlg_endtag(p, ns, tok)) return(0); return(mlg_newline(p)); } static int mlg_begintag(struct md_mlg *p, enum md_ns ns, int tok, int *argc, char **argv) { ssize_t res; /* TODO: extra rules for block/inline. */ if ( ! ml_nputs(p->mbuf, "<", 1, &p->pos)) return(0); res = (*p->begintag)(p->mbuf, p->args, ns, tok, argc, (const char **)argv); if (-1 == res) return(0); assert(res >= 0); p->pos += (size_t)res; /* TODO: extra rules for block/inline. */ return(ml_nputs(p->mbuf, ">", 1, &p->pos)); } static int mlg_endtag(struct md_mlg *p, enum md_ns ns, int tok) { ssize_t res; /* TODO: extra rules for block/inline. */ if ( ! ml_nputs(p->mbuf, "pos)) return(0); res = (*p->endtag)(p->mbuf, p->args, ns, tok); if (-1 == res) return(0); assert(res >= 0); p->pos += (size_t)res; /* TODO: extra rules for block/inline. */ return(ml_nputs(p->mbuf, ">", 1, &p->pos)); } static int mlg_indent(struct md_mlg *p) { size_t count; count = p->indent > MAXINDENT ? (size_t)MAXINDENT : p->indent; count *= INDENT; assert(0 == p->pos); return(ml_putchars(p->mbuf, ' ', count, &p->pos)); } static int mlg_newline(struct md_mlg *p) { size_t dummy; if ( ! ml_nputs(p->mbuf, "\n", 1, &dummy)) return(0); p->pos = 0; return(1); } static void mlg_mode(struct md_mlg *p, enum md_tok ns) { p->flags &= ~ML_OVERRIDE_ONE; p->last = ns; } static int mlg_data(struct md_mlg *p, int space, char *buf) { size_t sz; char *bufp; assert(p->mbuf); assert(0 != p->indent); if (ML_OVERRIDE_ONE & p->flags || ML_OVERRIDE_ALL & p->flags) space = 0; while (*buf) { while (*buf && isspace(*buf)) buf++; if (0 == *buf) break; bufp = buf; while (*buf && ! isspace(*buf)) buf++; if (0 != *buf) *buf++ = 0; sz = strlen(bufp); if (0 == p->pos) { if ( ! mlg_indent(p)) return(0); if ( ! ml_nputstring(p->mbuf, bufp, sz, &p->pos)) return(0); if (p->indent * INDENT + sz >= COLUMNS) if ( ! mlg_newline(p)) return(0); if ( ! (ML_OVERRIDE_ALL & p->flags)) space = 1; continue; } if (space && sz + p->pos >= COLUMNS) { if ( ! mlg_newline(p)) return(0); if ( ! mlg_indent(p)) return(0); } else if (space) { if ( ! ml_nputs(p->mbuf, " ", 1, &p->pos)) return(0); } if ( ! ml_nputstring(p->mbuf, bufp, sz, &p->pos)) return(0); if ( ! (ML_OVERRIDE_ALL & p->flags)) space = 1; } return(1); } int mlg_line(struct md_mlg *p, char *buf) { return(roff_engine(p->tree, buf)); } int mlg_exit(struct md_mlg *p, int flush) { int c; c = roff_free(p->tree, flush); free(p); return(c); } struct md_mlg * mlg_alloc(const struct md_args *args, const struct md_rbuf *rbuf, struct md_mbuf *mbuf, ml_begintag begintag, ml_endtag endtag, ml_begin begin, ml_end end) { struct roffcb cb; struct md_mlg *p; cb.roffhead = mlg_roffhead; cb.rofftail = mlg_rofftail; cb.roffin = mlg_roffin; cb.roffout = mlg_roffout; cb.roffblkin = mlg_roffblkin; cb.roffblkheadin = mlg_roffblkheadin; cb.roffblkheadout = mlg_roffblkheadout; cb.roffblkbodyin = mlg_roffblkbodyin; cb.roffblkbodyout = mlg_roffblkbodyout; cb.roffblkout = mlg_roffblkout; cb.roffspecial = mlg_roffspecial; cb.roffmsg = mlg_roffmsg; cb.roffdata = mlg_roffdata; if (NULL == (p = calloc(1, sizeof(struct md_mlg)))) err(1, "calloc"); p->args = args; p->mbuf = mbuf; p->rbuf = rbuf; p->begintag = begintag; p->endtag = endtag; p->begin = begin; p->end = end; if (NULL == (p->tree = roff_alloc(&cb, p))) { free(p); return(NULL); } return(p); } static int mlg_roffhead(void *arg) { struct md_mlg *p; assert(arg); p = (struct md_mlg *)arg; mlg_mode(p, MD_BLK_IN); if ( ! (*p->begin)(p->mbuf, p->args)) return(0); p->indent++; return(mlg_newline(p)); } static int mlg_rofftail(void *arg) { struct md_mlg *p; assert(arg); p = (struct md_mlg *)arg; if (0 != p->pos && ! mlg_newline(p)) return(0); mlg_mode(p, MD_BLK_OUT); if ( ! (*p->end)(p->mbuf, p->args)) return(0); return(mlg_newline(p)); } /* ARGSUSED */ static int mlg_roffspecial(void *arg, int tok, int *argc, char **argv, char **more) { struct md_mlg *p; assert(arg); p = (struct md_mlg *)arg; switch (tok) { case (ROFF_Ns): p->flags |= ML_OVERRIDE_ONE; break; case (ROFF_Sm): assert(*more); if (0 == strcmp(*more, "on")) p->flags |= ML_OVERRIDE_ALL; else p->flags &= ~ML_OVERRIDE_ALL; break; default: break; } return(1); } static int mlg_roffblkin(void *arg, int tok, int *argc, char **argv) { return(mlg_beginblk((struct md_mlg *)arg, MD_NS_BLOCK, tok, argc, argv)); } static int mlg_roffblkout(void *arg, int tok) { return(mlg_endblk((struct md_mlg *)arg, MD_NS_BLOCK, tok)); } static int mlg_roffblkbodyin(void *arg, int tok, int *argc, char **argv) { return(mlg_beginblk((struct md_mlg *)arg, MD_NS_BODY, tok, argc, argv)); } static int mlg_roffblkbodyout(void *arg, int tok) { return(mlg_endblk((struct md_mlg *)arg, MD_NS_BODY, tok)); } static int mlg_roffblkheadin(void *arg, int tok, int *argc, char **argv) { return(mlg_beginblk((struct md_mlg *)arg, MD_NS_HEAD, tok, argc, argv)); } static int mlg_roffblkheadout(void *arg, int tok) { return(mlg_endblk((struct md_mlg *)arg, MD_NS_HEAD, tok)); } static int mlg_roffin(void *arg, int tok, int *argc, char **argv) { struct md_mlg *p; assert(arg); p = (struct md_mlg *)arg; /* FIXME: this part. */ if ( ! (ML_OVERRIDE_ONE & p->flags) && ! (ML_OVERRIDE_ALL & p->flags) && p->pos + 11 > COLUMNS) if ( ! mlg_newline(p)) return(0); if (0 != p->pos && (MD_TEXT == p->last || MD_INLINE_OUT == p->last) && ! (ML_OVERRIDE_ONE & p->flags) && ! (ML_OVERRIDE_ALL & p->flags)) if ( ! ml_nputs(p->mbuf, " ", 1, &p->pos)) return(0); if (0 == p->pos && ! mlg_indent(p)) return(0); mlg_mode(p, MD_INLINE_IN); return(mlg_begintag(p, MD_NS_INLINE, tok, argc, argv)); } static int mlg_roffout(void *arg, int tok) { struct md_mlg *p; assert(arg); p = (struct md_mlg *)arg; if (0 == p->pos && ! mlg_indent(p)) return(0); mlg_mode(p, MD_INLINE_OUT); return(mlg_endtag(p, MD_NS_INLINE, tok)); } static void mlg_roffmsg(void *arg, enum roffmsg lvl, const char *buf, const char *pos, char *msg) { char *level; struct md_mlg *p; assert(arg); p = (struct md_mlg *)arg; switch (lvl) { case (ROFF_WARN): if ( ! (MD_WARN_ALL & p->args->warnings)) return; level = "warning"; break; case (ROFF_ERROR): level = "error"; break; default: abort(); } if (pos) (void)fprintf(stderr, "%s:%zu: %s: %s (column %zu)\n", p->rbuf->name, p->rbuf->line, level, msg, pos - buf); else (void)fprintf(stderr, "%s: %s: %s\n", p->rbuf->name, level, msg); } static int mlg_roffdata(void *arg, int space, char *buf) { struct md_mlg *p; assert(arg); p = (struct md_mlg *)arg; if ( ! mlg_data(p, space, buf)) return(0); mlg_mode(p, MD_TEXT); return(1); }