/* markdown: a C implementation of John Gruber's Markdown markup language. * * Copyright (C) 2007 David L Parsons. * The redistribution terms are provided in the COPYRIGHT file that must * be distributed with this source code. */ #include "config.h" #include #include #include #include #include #include #include "cstring.h" #include "markdown.h" #include "amalloc.h" #include "tags.h" typedef int (*stfu)(const void*,const void*); typedef ANCHOR(Paragraph) ParagraphRoot; static Paragraph *Pp(ParagraphRoot *, Line *, int); static Paragraph *compile(Line *, int, MMIOT *); /* case insensitive string sort for Footnote tags. */ int __mkd_footsort(Footnote *a, Footnote *b) { int i; char ac, bc; if ( S(a->tag) != S(b->tag) ) return S(a->tag) - S(b->tag); for ( i=0; i < S(a->tag); i++) { ac = tolower(T(a->tag)[i]); bc = tolower(T(b->tag)[i]); if ( isspace(ac) && isspace(bc) ) continue; if ( ac != bc ) return ac - bc; } return 0; } /* find the first blank character after position */ static int nextblank(Line *t, int i) { while ( (i < S(t->text)) && !isspace(T(t->text)[i]) ) ++i; return i; } /* find the next nonblank character after position */ static int nextnonblank(Line *t, int i) { while ( (i < S(t->text)) && isspace(T(t->text)[i]) ) ++i; return i; } /* find the first nonblank character on the Line. */ int mkd_firstnonblank(Line *p) { return nextnonblank(p,0); } static inline int blankline(Line *p) { return ! (p && (S(p->text) > p->dle) ); } static Line * skipempty(Line *p) { while ( p && (p->dle == S(p->text)) ) p = p->next; return p; } void ___mkd_tidy(Cstring *t) { while ( S(*t) && isspace(T(*t)[S(*t)-1]) ) --S(*t); } static struct kw comment = { "!--", 3, 0 }; static struct kw * isopentag(Line *p) { int i=0, len; char *line; if ( !p ) return 0; line = T(p->text); len = S(p->text); if ( len < 3 || line[0] != '<' ) return 0; if ( line[1] == '!' && line[2] == '-' && line[3] == '-' ) /* comments need special case handling, because * the !-- doesn't need to end in a whitespace */ return &comment; /* find how long the tag is so we can check to see if * it's a block-level tag */ for ( i=1; i < len && T(p->text)[i] != '>' && T(p->text)[i] != '/' && !isspace(T(p->text)[i]); ++i ) ; return mkd_search_tags(T(p->text)+1, i-1); } typedef struct _flo { Line *t; int i; } FLO; #define floindex(x) (x.i) static int flogetc(FLO *f) { if ( f && f->t ) { if ( f->i < S(f->t->text) ) return T(f->t->text)[f->i++]; f->t = f->t->next; f->i = 0; return flogetc(f); } return EOF; } static void splitline(Line *t, int cutpoint) { if ( t && (cutpoint < S(t->text)) ) { Line *tmp = calloc(1, sizeof *tmp); tmp->next = t->next; t->next = tmp; tmp->dle = t->dle; SUFFIX(tmp->text, T(t->text)+cutpoint, S(t->text)-cutpoint); S(t->text) = cutpoint; } } #define UNCHECK(l) ((l)->flags &= ~CHECKED) #define UNLESS_FENCED(t) if (fenced) { \ other = 1; l->count += (c == ' ' ? 0 : -1); \ } else { t; } /* * walk a line, seeing if it's any of half a dozen interesting regular * types. */ static void checkline(Line *l) { int eol, i; int dashes = 0, spaces = 0, equals = 0, underscores = 0, stars = 0, tildes = 0, other = 0, backticks = 0, fenced = 0; l->flags |= CHECKED; l->kind = chk_text; l->count = 0; if (l->dle >= 4) { l->kind=chk_code; return; } for ( eol = S(l->text); eol > l->dle && isspace(T(l->text)[eol-1]); --eol ) ; for (i=l->dle; itext)[i]; if ( c != ' ' ) l->count++; switch (c) { case '-': UNLESS_FENCED(dashes = 1); break; case ' ': UNLESS_FENCED(spaces = 1); break; case '=': equals = 1; break; case '_': UNLESS_FENCED(underscores = 1); break; case '*': stars = 1; break; #if WITH_FENCED_CODE case '~': if (other) return; fenced = 1; tildes = 1; break; case '`': if (other) return; fenced = 1; backticks = 1; break; #endif default: other = 1; l->count--; if (!fenced) return; } } if ( dashes + equals + underscores + stars + tildes + backticks > 1 ) return; if ( spaces ) { if ( (underscores || stars || dashes) ) l->kind = chk_hr; return; } if ( stars || underscores ) { l->kind = chk_hr; } else if ( dashes ) { l->kind = chk_dash; } else if ( equals ) { l->kind = chk_equal; } #if WITH_FENCED_CODE else if ( tildes ) { l->kind = chk_tilde; } else if ( backticks ) { l->kind = chk_backtick; } #endif } static Line * commentblock(Paragraph *p, int *unclosed) { Line *t, *ret; char *end; for ( t = p->text; t ; t = t->next) { if ( end = strstr(T(t->text), "-->") ) { splitline(t, 3 + (end - T(t->text)) ); ret = t->next; t->next = 0; return ret; } } *unclosed = 1; return t; } static Line * htmlblock(Paragraph *p, struct kw *tag, int *unclosed) { Line *ret; FLO f = { p->text, 0 }; int c; int i, closing, depth=0; *unclosed = 0; if ( tag == &comment ) return commentblock(p, unclosed); if ( tag->selfclose ) { ret = f.t->next; f.t->next = 0; return ret; } while ( (c = flogetc(&f)) != EOF ) { if ( c == '<' ) { /* tag? */ c = flogetc(&f); if ( c == '!' ) { /* comment? */ if ( flogetc(&f) == '-' && flogetc(&f) == '-' ) { /* yes */ while ( (c = flogetc(&f)) != EOF ) { if ( c == '-' && flogetc(&f) == '-' && flogetc(&f) == '>') /* consumed whole comment */ break; } } } else { if ( closing = (c == '/') ) c = flogetc(&f); for ( i=0; i < tag->size; c=flogetc(&f) ) { if ( tag->id[i++] != toupper(c) ) break; } if ( (i == tag->size) && !isalnum(c) ) { depth = depth + (closing ? -1 : 1); if ( depth == 0 ) { while ( c != EOF && c != '>' ) { /* consume trailing gunk in close tag */ c = flogetc(&f); } if ( c == EOF ) break; if ( !f.t ) return 0; splitline(f.t, floindex(f)); ret = f.t->next; f.t->next = 0; return ret; } } } } } *unclosed = 1; return 0; } /* footnotes look like ^{0,3}[stuff]: $ */ static int isfootnote(Line *t) { int i; if ( ( (i = t->dle) > 3) || (T(t->text)[i] != '[') ) return 0; for ( ++i; i < S(t->text) ; ++i ) { if ( T(t->text)[i] == '[' ) return 0; else if ( T(t->text)[i] == ']' ) return ( T(t->text)[i+1] == ':' ) ; } return 0; } static inline int isquote(Line *t) { return (t->dle < 4 && T(t->text)[t->dle] == '>'); } static inline int iscode(Line *t) { return (t->dle >= 4); } static inline int ishr(Line *t) { if ( ! (t->flags & CHECKED) ) checkline(t); if ( t->count > 2 ) return t->kind == chk_hr || t->kind == chk_dash || t->kind == chk_equal; return 0; } static int issetext(Line *t, int *htyp) { Line *n; /* check for setext-style HEADER * ====== */ if ( (n = t->next) ) { if ( !(n->flags & CHECKED) ) checkline(n); if ( n->kind == chk_dash || n->kind == chk_equal ) { *htyp = SETEXT; return 1; } } return 0; } static int ishdr(Line *t, int *htyp) { /* ANY leading `#`'s make this into an ETX header */ if ( (t->dle == 0) && (S(t->text) > 1) && (T(t->text)[0] == '#') ) { *htyp = ETX; return 1; } /* And if not, maybe it's a SETEXT header instead */ return issetext(t, htyp); } static inline int end_of_block(Line *t) { int dummy; if ( !t ) return 0; return ( (S(t->text) <= t->dle) || ishr(t) || ishdr(t, &dummy) ); } static Line* is_discount_dt(Line *t, int *clip) { #if USE_DISCOUNT_DL if ( t && t->next && (S(t->text) > 2) && (t->dle == 0) && (T(t->text)[0] == '=') && (T(t->text)[S(t->text)-1] == '=') ) { if ( t->next->dle >= 4 ) { *clip = 4; return t; } else return is_discount_dt(t->next, clip); } #endif return 0; } static int is_extra_dd(Line *t) { return (t->dle < 4) && (T(t->text)[t->dle] == ':') && isspace(T(t->text)[t->dle+1]); } static Line* is_extra_dt(Line *t, int *clip) { #if USE_EXTRA_DL if ( t && t->next && S(t->text) && T(t->text)[0] != '=' && T(t->text)[S(t->text)-1] != '=') { Line *x; if ( iscode(t) || end_of_block(t) ) return 0; if ( (x = skipempty(t->next)) && is_extra_dd(x) ) { *clip = x->dle+2; return t; } if ( x=is_extra_dt(t->next, clip) ) return x; } #endif return 0; } static Line* isdefinition(Line *t, int *clip, int *kind) { Line *ret; *kind = 1; if ( ret = is_discount_dt(t,clip) ) return ret; *kind=2; return is_extra_dt(t,clip); } static int islist(Line *t, int *clip, DWORD flags, int *list_type) { int i, j; char *q; if ( end_of_block(t) ) return 0; if ( !(flags & (MKD_NODLIST|MKD_STRICT)) && isdefinition(t,clip,list_type) ) return DL; if ( strchr("*-+", T(t->text)[t->dle]) && isspace(T(t->text)[t->dle+1]) ) { i = nextnonblank(t, t->dle+1); *clip = (i > 4) ? 4 : i; *list_type = UL; return AL; } if ( (j = nextblank(t,t->dle)) > t->dle ) { if ( T(t->text)[j-1] == '.' ) { if ( !(flags & (MKD_NOALPHALIST|MKD_STRICT)) && (j == t->dle + 2) && isalpha(T(t->text)[t->dle]) ) { j = nextnonblank(t,j); *clip = (j > 4) ? 4 : j; *list_type = AL; return AL; } strtoul(T(t->text)+t->dle, &q, 10); if ( (q > T(t->text)+t->dle) && (q == T(t->text) + (j-1)) ) { j = nextnonblank(t,j); *clip = j; *list_type = OL; return AL; } } } return 0; } static Line * headerblock(Paragraph *pp, int htyp) { Line *ret = 0; Line *p = pp->text; int i, j; switch (htyp) { case SETEXT: /* p->text is header, p->next->text is -'s or ='s */ pp->hnumber = (T(p->next->text)[0] == '=') ? 1 : 2; ret = p->next->next; ___mkd_freeLine(p->next); p->next = 0; break; case ETX: /* p->text is ###header###, so we need to trim off * the leading and trailing `#`'s */ for (i=0; (T(p->text)[i] == T(p->text)[0]) && (i < S(p->text)-1) && (i < 6); i++) ; pp->hnumber = i; while ( (i < S(p->text)) && isspace(T(p->text)[i]) ) ++i; CLIP(p->text, 0, i); UNCHECK(p); for (j=S(p->text); (j > 1) && (T(p->text)[j-1] == '#'); --j) ; while ( j && isspace(T(p->text)[j-1]) ) --j; S(p->text) = j; ret = p->next; p->next = 0; break; } return ret; } static Line * codeblock(Paragraph *p) { Line *t = p->text, *r; for ( ; t; t = r ) { CLIP(t->text,0,4); t->dle = mkd_firstnonblank(t); if ( !( (r = skipempty(t->next)) && iscode(r)) ) { ___mkd_freeLineRange(t,r); t->next = 0; return r; } } return t; } #ifdef WITH_FENCED_CODE static int iscodefence(Line *r, int size, line_type kind) { if ( !(r->flags & CHECKED) ) checkline(r); if ( kind ) return (r->kind == kind) && (r->count >= size); else return (r->kind == chk_tilde || r->kind == chk_backtick) && (r->count >= size); } static Paragraph * fencedcodeblock(ParagraphRoot *d, Line **ptr) { Line *first, *r; Paragraph *ret; first = (*ptr); /* don't allow zero-length code fences */ if ( (first->next == 0) || iscodefence(first->next, first->count, 0) ) return 0; /* find the closing fence, discard the fences, * return a Paragraph with the contents */ for ( r = first; r && r->next; r = r->next ) if ( iscodefence(r->next, first->count, first->kind) ) { (*ptr) = r->next->next; ret = Pp(d, first->next, CODE); if (S(first->text) - first->count > 0) { char *lang_attr = T(first->text) + first->count; while ( *lang_attr != 0 && *lang_attr == ' ' ) lang_attr++; ret->lang = strdup(lang_attr); } else { ret->lang = 0; } ___mkd_freeLine(first); ___mkd_freeLine(r->next); r->next = 0; return ret; } return 0; } #endif static int centered(Line *first, Line *last) { if ( first&&last ) { int len = S(last->text); if ( (len > 2) && (strncmp(T(first->text), "->", 2) == 0) && (strncmp(T(last->text)+len-2, "<-", 2) == 0) ) { CLIP(first->text, 0, 2); S(last->text) -= 2; return CENTER; } } return 0; } static int endoftextblock(Line *t, int toplevelblock, DWORD flags) { int z; if ( end_of_block(t) || isquote(t) ) return 1; /* HORRIBLE STANDARDS KLUDGES: * 1. non-toplevel paragraphs absorb adjacent code blocks * 2. Toplevel paragraphs eat absorb adjacent list items, * but sublevel blocks behave properly. * (What this means is that we only need to check for code * blocks at toplevel, and only check for list items at * nested levels.) */ return toplevelblock ? 0 : islist(t,&z,flags,&z); } static Line * textblock(Paragraph *p, int toplevel, DWORD flags) { Line *t, *next; for ( t = p->text; t ; t = next ) { if ( ((next = t->next) == 0) || endoftextblock(next, toplevel, flags) ) { p->align = centered(p->text, t); t->next = 0; return next; } } return t; } /* length of the id: or class: kind in a special div-not-quote block */ static int szmarkerclass(char *p) { if ( strncasecmp(p, "id:", 3) == 0 ) return 3; if ( strncasecmp(p, "class:", 6) == 0 ) return 6; return 0; } /* * check if the first line of a quoted block is the special div-not-quote * marker %[kind:]name% */ #define iscsschar(c) (isalpha(c) || (c == '-') || (c == '_') ) static int isdivmarker(Line *p, int start, DWORD flags) { char *s; int last, i; if ( flags & (MKD_NODIVQUOTE|MKD_STRICT) ) return 0; start = nextnonblank(p, start); last= S(p->text) - (1 + start); s = T(p->text) + start; if ( (last <= 0) || (*s != '%') || (s[last] != '%') ) return 0; i = szmarkerclass(s+1); if ( !iscsschar(s[i+1]) ) return 0; while ( ++i < last ) if ( !(isdigit(s[i]) || iscsschar(s[i])) ) return 0; return 1; } /* * accumulate a blockquote. * * one sick horrible thing about blockquotes is that even though * it just takes ^> to start a quote, following lines, if quoted, * assume that the prefix is ``> ''. This means that code needs * to be indented *5* spaces from the leading '>', but *4* spaces * from the start of the line. This does not appear to be * documented in the reference implementation, but it's the * way the markdown sample web form at Daring Fireball works. */ static Line * quoteblock(Paragraph *p, DWORD flags) { Line *t, *q; int qp; for ( t = p->text; t ; t = q ) { if ( isquote(t) ) { /* clip leading spaces */ for (qp = 0; T(t->text)[qp] != '>'; qp ++) /* assert: the first nonblank character on this line * will be a > */; /* clip '>' */ qp++; /* clip next space, if any */ if ( T(t->text)[qp] == ' ' ) qp++; CLIP(t->text, 0, qp); UNCHECK(t); t->dle = mkd_firstnonblank(t); } q = skipempty(t->next); if ( (q == 0) || ((q != t->next) && (!isquote(q) || isdivmarker(q,1,flags))) ) { ___mkd_freeLineRange(t, q); t = q; break; } } if ( isdivmarker(p->text,0,flags) ) { char *prefix = "class"; int i; q = p->text; p->text = p->text->next; if ( (i = szmarkerclass(1+T(q->text))) == 3 ) /* and this would be an "%id:" prefix */ prefix="id"; if ( p->ident = malloc(4+strlen(prefix)+S(q->text)) ) sprintf(p->ident, "%s=\"%.*s\"", prefix, S(q->text)-(i+2), T(q->text)+(i+1) ); ___mkd_freeLine(q); } return t; } typedef int (*linefn)(Line *); /* * pull in a list block. A list block starts with a list marker and * runs until the next list marker, the next non-indented paragraph, * or EOF. You do not have to indent nonblank lines after the list * marker, but multiple paragraphs need to start with a 4-space indent. */ static Line * listitem(Paragraph *p, int indent, DWORD flags, linefn check) { Line *t, *q; int clip = indent; int z; for ( t = p->text; t ; t = q) { CLIP(t->text, 0, clip); UNCHECK(t); t->dle = mkd_firstnonblank(t); /* even though we had to trim a long leader off this item, * the indent for trailing paragraphs is still 4... */ if (indent > 4) { indent = 4; } if ( (q = skipempty(t->next)) == 0 ) { ___mkd_freeLineRange(t,q); return 0; } /* after a blank line, the next block needs to start with a line * that's indented 4(? -- reference implementation allows a 1 * character indent, but that has unfortunate side effects here) * spaces, but after that the line doesn't need any indentation */ if ( q != t->next ) { if (q->dle < indent) { q = t->next; t->next = 0; return q; } /* indent at least 2, and at most as * as far as the initial line was indented. */ indent = clip ? clip : 2; } if ( (q->dle < indent) && (ishr(q) || islist(q,&z,flags,&z) || (check && (*check)(q))) && !issetext(q,&z) ) { q = t->next; t->next = 0; return q; } clip = (q->dle > indent) ? indent : q->dle; } return t; } static Line * definition_block(Paragraph *top, int clip, MMIOT *f, int kind) { ParagraphRoot d = { 0, 0 }; Paragraph *p; Line *q = top->text, *text = 0, *labels; int z, para; while (( labels = q )) { if ( (q = isdefinition(labels, &z, &kind)) == 0 ) break; if ( (text = skipempty(q->next)) == 0 ) break; if ( para = (text != q->next) ) ___mkd_freeLineRange(q, text); q->next = 0; if ( kind == 1 /* discount dl */ ) for ( q = labels; q; q = q->next ) { CLIP(q->text, 0, 1); UNCHECK(q); S(q->text)--; } dd_block: p = Pp(&d, text, LISTITEM); text = listitem(p, clip, f->flags, (kind==2) ? is_extra_dd : 0); p->down = compile(p->text, 0, f); p->text = labels; labels = 0; if ( para && p->down ) p->down->align = PARA; if ( (q = skipempty(text)) == 0 ) break; if ( para = (q != text) ) { Line anchor; anchor.next = text; ___mkd_freeLineRange(&anchor,q); text = q; } if ( kind == 2 && is_extra_dd(q) ) goto dd_block; } top->text = 0; top->down = T(d); return text; } static Line * enumerated_block(Paragraph *top, int clip, MMIOT *f, int list_class) { ParagraphRoot d = { 0, 0 }; Paragraph *p; Line *q = top->text, *text; int para = 0, z; while (( text = q )) { p = Pp(&d, text, LISTITEM); text = listitem(p, clip, f->flags, 0); p->down = compile(p->text, 0, f); p->text = 0; if ( para && p->down ) p->down->align = PARA; if ( (q = skipempty(text)) == 0 || islist(q, &clip, f->flags, &z) != list_class ) break; if ( para = (q != text) ) { Line anchor; anchor.next = text; ___mkd_freeLineRange(&anchor, q); if ( p->down ) p->down->align = PARA; } } top->text = 0; top->down = T(d); return text; } static int tgood(char c) { switch (c) { case '\'': case '"': return c; case '(': return ')'; } return 0; } /* * add a new (image or link) footnote to the footnote table */ static Line* addfootnote(Line *p, MMIOT* f) { int j, i; int c; Line *np = p->next; Footnote *foot = &EXPAND(*f->footnotes); CREATE(foot->tag); CREATE(foot->link); CREATE(foot->title); foot->flags = foot->height = foot->width = 0; for (j=i=p->dle+1; T(p->text)[j] != ']'; j++) EXPAND(foot->tag) = T(p->text)[j]; EXPAND(foot->tag) = 0; S(foot->tag)--; j = nextnonblank(p, j+2); if ( (f->flags & MKD_EXTRA_FOOTNOTE) && (T(foot->tag)[0] == '^') ) { /* need to consume all lines until non-indented block? */ while ( j < S(p->text) ) EXPAND(foot->title) = T(p->text)[j++]; goto skip_to_end; } while ( (j < S(p->text)) && !isspace(T(p->text)[j]) ) EXPAND(foot->link) = T(p->text)[j++]; EXPAND(foot->link) = 0; S(foot->link)--; j = nextnonblank(p,j); if ( T(p->text)[j] == '=' ) { sscanf(T(p->text)+j, "=%dx%d", &foot->width, &foot->height); while ( (j < S(p->text)) && !isspace(T(p->text)[j]) ) ++j; j = nextnonblank(p,j); } if ( (j >= S(p->text)) && np && np->dle && tgood(T(np->text)[np->dle]) ) { ___mkd_freeLine(p); p = np; np = p->next; j = p->dle; } if ( (c = tgood(T(p->text)[j])) ) { /* Try to take the rest of the line as a comment; read to * EOL, then shrink the string back to before the final * quote. */ ++j; /* skip leading quote */ while ( j < S(p->text) ) EXPAND(foot->title) = T(p->text)[j++]; while ( S(foot->title) && T(foot->title)[S(foot->title)-1] != c ) --S(foot->title); if ( S(foot->title) ) /* skip trailing quote */ --S(foot->title); EXPAND(foot->title) = 0; --S(foot->title); } skip_to_end: ___mkd_freeLine(p); return np; } /* * allocate a paragraph header, link it to the * tail of the current document */ static Paragraph * Pp(ParagraphRoot *d, Line *ptr, int typ) { Paragraph *ret = calloc(sizeof *ret, 1); ret->text = ptr; ret->typ = typ; return ATTACH(*d, ret); } static Line* consume(Line *ptr, int *eaten) { Line *next; int blanks=0; for (; ptr && blankline(ptr); ptr = next, blanks++ ) { next = ptr->next; ___mkd_freeLine(ptr); } if ( ptr ) *eaten = blanks; return ptr; } /* * top-level compilation; break the document into * style, html, and source blocks with footnote links * weeded out. */ static Paragraph * compile_document(Line *ptr, MMIOT *f) { ParagraphRoot d = { 0, 0 }; ANCHOR(Line) source = { 0, 0 }; Paragraph *p = 0; struct kw *tag; int eaten, unclosed; while ( ptr ) { if ( !(f->flags & MKD_NOHTML) && (tag = isopentag(ptr)) ) { int blocktype; /* If we encounter a html/style block, compile and save all * of the cached source BEFORE processing the html/style. */ if ( T(source) ) { E(source)->next = 0; p = Pp(&d, 0, SOURCE); p->down = compile(T(source), 1, f); T(source) = E(source) = 0; } if ( f->flags & MKD_NOSTYLE ) blocktype = HTML; else blocktype = strcmp(tag->id, "STYLE") == 0 ? STYLE : HTML; p = Pp(&d, ptr, blocktype); ptr = htmlblock(p, tag, &unclosed); if ( unclosed ) { p->typ = SOURCE; p->down = compile(p->text, 1, f); p->text = 0; } } else if ( isfootnote(ptr) ) { /* footnotes, like cats, sleep anywhere; pull them * out of the input stream and file them away for * later processing */ ptr = consume(addfootnote(ptr, f), &eaten); } else { /* source; cache it up to wait for eof or the * next html/style block */ ATTACH(source,ptr); ptr = ptr->next; } } if ( T(source) ) { /* if there's any cached source at EOF, compile * it now. */ E(source)->next = 0; p = Pp(&d, 0, SOURCE); p->down = compile(T(source), 1, f); } return T(d); } static int first_nonblank_before(Line *j, int dle) { return (j->dle < dle) ? j->dle : dle; } static int actually_a_table(MMIOT *f, Line *pp) { Line *r; int j; int c; /* tables need to be turned on */ if ( f->flags & (MKD_STRICT|MKD_NOTABLES) ) return 0; /* tables need three lines */ if ( !(pp && pp->next && pp->next->next) ) { return 0; } /* all lines must contain |'s */ for (r = pp; r; r = r->next ) if ( !(r->flags & PIPECHAR) ) { return 0; } /* if the header has a leading |, all lines must have leading |'s */ if ( T(pp->text)[pp->dle] == '|' ) { for ( r = pp; r; r = r->next ) if ( T(r->text)[first_nonblank_before(r,pp->dle)] != '|' ) { return 0; } } /* second line must be only whitespace, -, |, or : */ r = pp->next; for ( j=r->dle; j < S(r->text); ++j ) { c = T(r->text)[j]; if ( !(isspace(c)||(c=='-')||(c==':')||(c=='|')) ) { return 0; } } return 1; } /* * break a collection of markdown input into * blocks of lists, code, html, and text to * be marked up. */ static Paragraph * compile(Line *ptr, int toplevel, MMIOT *f) { ParagraphRoot d = { 0, 0 }; Paragraph *p = 0; Line *r; int para = toplevel; int blocks = 0; int hdr_type, list_type, list_class, indent; ptr = consume(ptr, ¶); while ( ptr ) { if ( iscode(ptr) ) { p = Pp(&d, ptr, CODE); if ( f->flags & MKD_1_COMPAT) { /* HORRIBLE STANDARDS KLUDGE: the first line of every block * has trailing whitespace trimmed off. */ ___mkd_tidy(&p->text->text); } ptr = codeblock(p); } #if WITH_FENCED_CODE else if ( iscodefence(ptr,3,0) && (p=fencedcodeblock(&d, &ptr)) ) /* yay, it's already done */ ; #endif else if ( ishr(ptr) ) { p = Pp(&d, 0, HR); r = ptr; ptr = ptr->next; ___mkd_freeLine(r); } else if ( list_class = islist(ptr, &indent, f->flags, &list_type) ) { if ( list_class == DL ) { p = Pp(&d, ptr, DL); ptr = definition_block(p, indent, f, list_type); } else { p = Pp(&d, ptr, list_type); ptr = enumerated_block(p, indent, f, list_class); } } else if ( isquote(ptr) ) { p = Pp(&d, ptr, QUOTE); ptr = quoteblock(p, f->flags); p->down = compile(p->text, 1, f); p->text = 0; } else if ( ishdr(ptr, &hdr_type) ) { p = Pp(&d, ptr, HDR); ptr = headerblock(p, hdr_type); } else { p = Pp(&d, ptr, MARKUP); ptr = textblock(p, toplevel, f->flags); /* tables are a special kind of paragraph */ if ( actually_a_table(f, p->text) ) p->typ = TABLE; } if ( (para||toplevel) && !p->align ) p->align = PARA; blocks++; para = toplevel || (blocks > 1); ptr = consume(ptr, ¶); if ( para && !p->align ) p->align = PARA; } return T(d); } /* * the guts of the markdown() function, ripped out so I can do * debugging. */ /* * prepare and compile `text`, returning a Paragraph tree. */ int mkd_compile(Document *doc, DWORD flags) { if ( !doc ) return 0; if ( doc->compiled ) return 1; doc->compiled = 1; memset(doc->ctx, 0, sizeof(MMIOT) ); doc->ctx->ref_prefix= doc->ref_prefix; doc->ctx->cb = &(doc->cb); doc->ctx->flags = flags & USER_FLAGS; CREATE(doc->ctx->in); doc->ctx->footnotes = malloc(sizeof doc->ctx->footnotes[0]); CREATE(*doc->ctx->footnotes); mkd_initialize(); doc->code = compile_document(T(doc->content), doc->ctx); qsort(T(*doc->ctx->footnotes), S(*doc->ctx->footnotes), sizeof T(*doc->ctx->footnotes)[0], (stfu)__mkd_footsort); memset(&doc->content, 0, sizeof doc->content); return 1; }