#include #include #include #include #include #include "cmark.h" #include "html/houdini.h" #include "utf8.h" #include "scanners.h" #include "inlines.h" typedef struct InlineStack { struct InlineStack *previous; node_inl *first_inline; int delim_count; unsigned char delim_char; } inline_stack; typedef struct Subject { chunk input; int pos; int label_nestlevel; reference_map *refmap; inline_stack *emphasis_openers; } subject; static node_inl *parse_chunk_inlines(chunk *chunk, reference_map *refmap); static node_inl *parse_inlines_while(subject* subj, int (*f)(subject*)); static int parse_inline(subject* subj, node_inl ** last); static void subject_from_chunk(subject *e, chunk *chunk, reference_map *refmap); static void subject_from_buf(subject *e, strbuf *buffer, reference_map *refmap); static int subject_find_special_char(subject *subj); static unsigned char *bufdup(const unsigned char *buf) { unsigned char *new = NULL; if (buf) { int len = strlen((char *)buf); new = calloc(len + 1, sizeof(*new)); if(new != NULL) { memcpy(new, buf, len + 1); } } return new; } static inline node_inl *make_link_(node_inl *label, unsigned char *url, unsigned char *title) { node_inl* e = calloc(1, sizeof(*e)); if(e != NULL) { e->tag = INL_LINK; e->content.linkable.label = label; e->content.linkable.url = url; e->content.linkable.title = title; e->next = NULL; } return e; } inline static node_inl* make_ref_link(node_inl* label, reference *ref) { return make_link_(label, bufdup(ref->url), bufdup(ref->title)); } inline static node_inl* make_autolink(node_inl* label, chunk url, int is_email) { return make_link_(label, clean_autolink(&url, is_email), NULL); } // Create an inline with a linkable string value. inline static node_inl* make_link(node_inl* label, chunk url, chunk title) { return make_link_(label, clean_url(&url), clean_title(&title)); } inline static node_inl* make_inlines(int t, node_inl* contents) { node_inl * e = calloc(1, sizeof(*e)); if(e != NULL) { e->tag = t; e->content.inlines = contents; e->next = NULL; } return e; } // Create an inline with a literal string value. inline static node_inl* make_literal(int t, chunk s) { node_inl * e = calloc(1, sizeof(*e)); if(e != NULL) { e->tag = t; e->content.literal = s; e->next = NULL; } return e; } // Create an inline with no value. inline static node_inl* make_simple(int t) { node_inl* e = calloc(1, sizeof(*e)); if(e != NULL) { e->tag = t; e->next = NULL; } return e; } // Macros for creating various kinds of inlines. #define make_str(s) make_literal(INL_STRING, s) #define make_code(s) make_literal(INL_CODE, s) #define make_raw_html(s) make_literal(INL_RAW_HTML, s) #define make_linebreak() make_simple(INL_LINEBREAK) #define make_softbreak() make_simple(INL_SOFTBREAK) #define make_emph(contents) make_inlines(INL_EMPH, contents) #define make_strong(contents) make_inlines(INL_STRONG, contents) // Free an inline list. extern void free_inlines(node_inl* e) { node_inl * next; while (e != NULL) { switch (e->tag){ case INL_STRING: case INL_RAW_HTML: case INL_CODE: chunk_free(&e->content.literal); break; case INL_LINEBREAK: case INL_SOFTBREAK: break; case INL_LINK: case INL_IMAGE: free(e->content.linkable.url); free(e->content.linkable.title); free_inlines(e->content.linkable.label); break; case INL_EMPH: case INL_STRONG: free_inlines(e->content.inlines); break; default: break; } next = e->next; free(e); e = next; } } // Append inline list b to the end of inline list a. // Return pointer to head of new list. inline static node_inl* append_inlines(node_inl* a, node_inl* b) { if (a == NULL) { // NULL acts like an empty list return b; } node_inl* cur = a; while (cur->next) { cur = cur->next; } cur->next = b; return a; } static void subject_from_buf(subject *e, strbuf *buffer, reference_map *refmap) { e->input.data = buffer->ptr; e->input.len = buffer->size; e->input.alloc = 0; e->pos = 0; e->label_nestlevel = 0; e->refmap = refmap; e->emphasis_openers = NULL; chunk_rtrim(&e->input); } static void subject_from_chunk(subject *e, chunk *chunk, reference_map *refmap) { e->input.data = chunk->data; e->input.len = chunk->len; e->input.alloc = 0; e->pos = 0; e->label_nestlevel = 0; e->refmap = refmap; e->emphasis_openers = NULL; chunk_rtrim(&e->input); } inline static int isbacktick(int c) { return (c == '`'); } static inline unsigned char peek_char(subject *subj) { return (subj->pos < subj->input.len) ? subj->input.data[subj->pos] : 0; } static inline unsigned char peek_at(subject *subj, int pos) { return subj->input.data[pos]; } // Return true if there are more characters in the subject. inline static int is_eof(subject* subj) { return (subj->pos >= subj->input.len); } // Advance the subject. Doesn't check for eof. #define advance(subj) (subj)->pos += 1 // Take characters while a predicate holds, and return a string. inline static chunk take_while(subject* subj, int (*f)(int)) { unsigned char c; int startpos = subj->pos; int len = 0; while ((c = peek_char(subj)) && (*f)(c)) { advance(subj); len++; } return chunk_dup(&subj->input, startpos, len); } // Try to process a backtick code span that began with a // span of ticks of length openticklength length (already // parsed). Return 0 if you don't find matching closing // backticks, otherwise return the position in the subject // after the closing backticks. static int scan_to_closing_backticks(subject* subj, int openticklength) { // read non backticks unsigned char c; while ((c = peek_char(subj)) && c != '`') { advance(subj); } if (is_eof(subj)) { return 0; // did not find closing ticks, return 0 } int numticks = 0; while (peek_char(subj) == '`') { advance(subj); numticks++; } if (numticks != openticklength){ return(scan_to_closing_backticks(subj, openticklength)); } return (subj->pos); } // Parse backtick code section or raw backticks, return an inline. // Assumes that the subject has a backtick at the current position. static node_inl* handle_backticks(subject *subj) { chunk openticks = take_while(subj, isbacktick); int startpos = subj->pos; int endpos = scan_to_closing_backticks(subj, openticks.len); if (endpos == 0) { // not found subj->pos = startpos; // rewind return make_str(openticks); } else { strbuf buf = GH_BUF_INIT; strbuf_set(&buf, subj->input.data + startpos, endpos - startpos - openticks.len); strbuf_trim(&buf); strbuf_normalize_whitespace(&buf); return make_code(chunk_buf_detach(&buf)); } } // Scan ***, **, or * and return number scanned, or 0. // Advances position. static int scan_delims(subject* subj, unsigned char c, bool * can_open, bool * can_close) { int numdelims = 0; unsigned char char_before, char_after; char_before = subj->pos == 0 ? '\n' : peek_at(subj, subj->pos - 1); while (peek_char(subj) == c) { numdelims++; advance(subj); } char_after = peek_char(subj); *can_open = numdelims > 0 && numdelims <= 3 && !isspace(char_after); *can_close = numdelims > 0 && numdelims <= 3 && !isspace(char_before); if (c == '_') { *can_open = *can_open && !isalnum(char_before); *can_close = *can_close && !isalnum(char_after); } return numdelims; } static void free_openers(subject* subj, inline_stack* istack) { inline_stack * tempstack; while (subj->emphasis_openers != istack) { tempstack = subj->emphasis_openers; subj->emphasis_openers = subj->emphasis_openers->previous; free(tempstack); } } // Parse strong/emph or a fallback. // Assumes the subject has '_' or '*' at the current position. static node_inl* handle_strong_emph(subject* subj, unsigned char c, node_inl **last) { bool can_open, can_close; int numdelims; int useDelims; inline_stack * istack; node_inl * inl; node_inl * emph; node_inl * inl_text; numdelims = scan_delims(subj, c, &can_open, &can_close); if (can_close) { // walk the stack and find a matching opener, if there is one istack = subj->emphasis_openers; while (true) { if (istack == NULL) goto cannotClose; if (istack->delim_char == c) break; istack = istack->previous; } // calculate the actual number of delimeters used from this closer useDelims = istack->delim_count; if (useDelims == 3) useDelims = numdelims == 3 ? 1 : numdelims; else if (useDelims > numdelims) useDelims = 1; if (istack->delim_count == useDelims) { // the opener is completely used up - remove the stack entry and reuse the inline element inl = istack->first_inline; inl->tag = useDelims == 1 ? INL_EMPH : INL_STRONG; chunk_free(&inl->content.literal); inl->content.inlines = inl->next; inl->next = NULL; // remove this opener and all later ones from stack: free_openers(subj, istack->previous); *last = inl; } else { // the opener will only partially be used - stack entry remains (truncated) and a new inline is added. inl = istack->first_inline; istack->delim_count -= useDelims; inl->content.literal.len = istack->delim_count; emph = useDelims == 1 ? make_emph(inl->next) : make_strong(inl->next); inl->next = emph; // remove all later openers from stack: free_openers(subj, istack); *last = emph; } // if the closer was not fully used, move back a char or two and try again. if (useDelims < numdelims) { subj->pos = subj->pos - numdelims + useDelims; return handle_strong_emph(subj, c, last); } return NULL; // make_str(chunk_literal("")); } cannotClose: inl_text = make_str(chunk_dup(&subj->input, subj->pos - numdelims, numdelims)); if (can_open) { istack = (inline_stack*)malloc(sizeof(inline_stack)); if (istack == NULL) { return NULL; } istack->delim_count = numdelims; istack->delim_char = c; istack->first_inline = inl_text; istack->previous = subj->emphasis_openers; subj->emphasis_openers = istack; } return inl_text; } // Parse backslash-escape or just a backslash, returning an inline. static node_inl* handle_backslash(subject *subj) { advance(subj); unsigned char nextchar = peek_char(subj); if (ispunct(nextchar)) { // only ascii symbols and newline can be escaped advance(subj); return make_str(chunk_dup(&subj->input, subj->pos - 1, 1)); } else if (nextchar == '\n') { advance(subj); return make_linebreak(); } else { return make_str(chunk_literal("\\")); } } // Parse an entity or a regular "&" string. // Assumes the subject has an '&' character at the current position. static node_inl* handle_entity(subject* subj) { strbuf ent = GH_BUF_INIT; size_t len; advance(subj); len = houdini_unescape_ent(&ent, subj->input.data + subj->pos, subj->input.len - subj->pos ); if (len == 0) return make_str(chunk_literal("&")); subj->pos += len; return make_str(chunk_buf_detach(&ent)); } // Like make_str, but parses entities. // Returns an inline sequence consisting of str and entity elements. static node_inl *make_str_with_entities(chunk *content) { strbuf unescaped = GH_BUF_INIT; if (houdini_unescape_html(&unescaped, content->data, (size_t)content->len)) { return make_str(chunk_buf_detach(&unescaped)); } else { return make_str(*content); } } // Clean a URL: remove surrounding whitespace and surrounding <>, // and remove \ that escape punctuation. unsigned char *clean_url(chunk *url) { strbuf buf = GH_BUF_INIT; chunk_trim(url); if (url->len == 0) return NULL; if (url->data[0] == '<' && url->data[url->len - 1] == '>') { houdini_unescape_html_f(&buf, url->data + 1, url->len - 2); } else { houdini_unescape_html_f(&buf, url->data, url->len); } strbuf_unescape(&buf); return strbuf_detach(&buf); } unsigned char *clean_autolink(chunk *url, int is_email) { strbuf buf = GH_BUF_INIT; chunk_trim(url); if (url->len == 0) return NULL; if (is_email) strbuf_puts(&buf, "mailto:"); houdini_unescape_html_f(&buf, url->data, url->len); return strbuf_detach(&buf); } // Clean a title: remove surrounding quotes and remove \ that escape punctuation. unsigned char *clean_title(chunk *title) { strbuf buf = GH_BUF_INIT; unsigned char first, last; if (title->len == 0) return NULL; first = title->data[0]; last = title->data[title->len - 1]; // remove surrounding quotes if any: if ((first == '\'' && last == '\'') || (first == '(' && last == ')') || (first == '"' && last == '"')) { houdini_unescape_html_f(&buf, title->data + 1, title->len - 2); } else { houdini_unescape_html_f(&buf, title->data, title->len); } strbuf_unescape(&buf); return strbuf_detach(&buf); } // Parse an autolink or HTML tag. // Assumes the subject has a '<' character at the current position. static node_inl* handle_pointy_brace(subject* subj) { int matchlen = 0; chunk contents; advance(subj); // advance past first < // first try to match a URL autolink matchlen = scan_autolink_uri(&subj->input, subj->pos); if (matchlen > 0) { contents = chunk_dup(&subj->input, subj->pos, matchlen - 1); subj->pos += matchlen; return make_autolink( make_str_with_entities(&contents), contents, 0 ); } // next try to match an email autolink matchlen = scan_autolink_email(&subj->input, subj->pos); if (matchlen > 0) { contents = chunk_dup(&subj->input, subj->pos, matchlen - 1); subj->pos += matchlen; return make_autolink( make_str_with_entities(&contents), contents, 1 ); } // finally, try to match an html tag matchlen = scan_html_tag(&subj->input, subj->pos); if (matchlen > 0) { contents = chunk_dup(&subj->input, subj->pos - 1, matchlen + 1); subj->pos += matchlen; return make_raw_html(contents); } // if nothing matches, just return the opening <: return make_str(chunk_literal("<")); } // Parse a link label. Returns 1 if successful. // Unless raw_label is null, it is set to point to the raw contents of the []. // Assumes the subject has a '[' character at the current position. // Returns 0 and does not advance if no matching ] is found. // Note the precedence: code backticks have precedence over label bracket // markers, which have precedence over *, _, and other inline formatting // markers. So, 2 below contains a link while 1 does not: // 1. [a link `with a ](/url)` character // 2. [a link *with emphasized ](/url) text* static int link_label(subject* subj, chunk *raw_label) { int nestlevel = 0; node_inl* tmp = NULL; int startpos = subj->pos; if (subj->label_nestlevel) { // if we've already checked to the end of the subject // for a label, even with a different starting [, we // know we won't find one here and we can just return. // Note: nestlevel 1 would be: [foo [bar] // nestlevel 2 would be: [foo [bar [baz] subj->label_nestlevel--; return 0; } advance(subj); // advance past [ unsigned char c; while ((c = peek_char(subj)) && (c != ']' || nestlevel > 0)) { switch (c) { case '`': tmp = handle_backticks(subj); free_inlines(tmp); break; case '<': tmp = handle_pointy_brace(subj); free_inlines(tmp); break; case '[': // nested [] nestlevel++; advance(subj); break; case ']': // nested [] nestlevel--; advance(subj); break; case '\\': advance(subj); if (ispunct(peek_char(subj))) { advance(subj); } break; default: advance(subj); } } if (c == ']') { *raw_label = chunk_dup(&subj->input, startpos + 1, subj->pos - (startpos + 1)); subj->label_nestlevel = 0; advance(subj); // advance past ] return 1; } else { if (c == 0) { subj->label_nestlevel = nestlevel; } subj->pos = startpos; // rewind return 0; } } // Parse a link or the link portion of an image, or return a fallback. static node_inl* handle_left_bracket(subject* subj) { node_inl *lab = NULL; node_inl *result = NULL; reference *ref; int n; int sps; int found_label; int endlabel, starturl, endurl, starttitle, endtitle, endall; chunk rawlabel; chunk url, title; found_label = link_label(subj, &rawlabel); endlabel = subj->pos; if (found_label) { if (peek_char(subj) == '(' && ((sps = scan_spacechars(&subj->input, subj->pos + 1)) > -1) && ((n = scan_link_url(&subj->input, subj->pos + 1 + sps)) > -1)) { // try to parse an explicit link: starturl = subj->pos + 1 + sps; // after ( endurl = starturl + n; starttitle = endurl + scan_spacechars(&subj->input, endurl); // ensure there are spaces btw url and title endtitle = (starttitle == endurl) ? starttitle : starttitle + scan_link_title(&subj->input, starttitle); endall = endtitle + scan_spacechars(&subj->input, endtitle); if (peek_at(subj, endall) == ')') { subj->pos = endall + 1; url = chunk_dup(&subj->input, starturl, endurl - starturl); title = chunk_dup(&subj->input, starttitle, endtitle - starttitle); lab = parse_chunk_inlines(&rawlabel, NULL); return make_link(lab, url, title); } else { // if we get here, we matched a label but didn't get further: subj->pos = endlabel; lab = parse_chunk_inlines(&rawlabel, subj->refmap); result = append_inlines(make_str(chunk_literal("[")), append_inlines(lab, make_str(chunk_literal("]")))); return result; } } else { chunk rawlabel_tmp; chunk reflabel; // Check for reference link. // First, see if there's another label: subj->pos = subj->pos + scan_spacechars(&subj->input, endlabel); reflabel = rawlabel; // if followed by a nonempty link label, we change reflabel to it: if (peek_char(subj) == '[' && link_label(subj, &rawlabel_tmp)) { if (rawlabel_tmp.len > 0) reflabel = rawlabel_tmp; } else { subj->pos = endlabel; } // lookup rawlabel in subject->reference_map: ref = reference_lookup(subj->refmap, &reflabel); if (ref != NULL) { // found lab = parse_chunk_inlines(&rawlabel, NULL); result = make_ref_link(lab, ref); } else { subj->pos = endlabel; lab = parse_chunk_inlines(&rawlabel, subj->refmap); result = append_inlines(make_str(chunk_literal("[")), append_inlines(lab, make_str(chunk_literal("]")))); } return result; } } // If we fall through to here, it means we didn't match a link: advance(subj); // advance past [ return make_str(chunk_literal("[")); } // Parse a hard or soft linebreak, returning an inline. // Assumes the subject has a newline at the current position. static node_inl* handle_newline(subject *subj) { int nlpos = subj->pos; // skip over newline advance(subj); // skip spaces at beginning of line while (peek_char(subj) == ' ') { advance(subj); } if (nlpos > 1 && peek_at(subj, nlpos - 1) == ' ' && peek_at(subj, nlpos - 2) == ' ') { return make_linebreak(); } else { return make_softbreak(); } } inline static int not_eof(subject* subj) { return !is_eof(subj); } // Parse inlines while a predicate is satisfied. Return inlines. extern node_inl* parse_inlines_while(subject* subj, int (*f)(subject*)) { node_inl* result = NULL; node_inl** last = &result; node_inl* first = NULL; while ((*f)(subj) && parse_inline(subj, last)) { if (!first) { first = *last; } } inline_stack* istack = subj->emphasis_openers; inline_stack* temp; while (istack != NULL) { temp = istack->previous; free(istack); istack = temp; } return first; } node_inl *parse_chunk_inlines(chunk *chunk, reference_map *refmap) { subject subj; subject_from_chunk(&subj, chunk, refmap); return parse_inlines_while(&subj, not_eof); } static int subject_find_special_char(subject *subj) { // "\n\\`&_*[]pos + 1; while (n < subj->input.len) { if (SPECIAL_CHARS[subj->input.data[n]]) return n; n++; } return subj->input.len; } // Parse an inline, advancing subject, and add it to last element. // Adjust tail to point to new last element of list. // Return 0 if no inline can be parsed, 1 otherwise. static int parse_inline(subject* subj, node_inl ** last) { node_inl* new = NULL; chunk contents; unsigned char c; int endpos; c = peek_char(subj); if (c == 0) { return 0; } switch(c){ case '\n': new = handle_newline(subj); break; case '`': new = handle_backticks(subj); break; case '\\': new = handle_backslash(subj); break; case '&': new = handle_entity(subj); break; case '<': new = handle_pointy_brace(subj); break; case '_': new = handle_strong_emph(subj, '_', last); break; case '*': new = handle_strong_emph(subj, '*', last); break; case '[': new = handle_left_bracket(subj); break; case '!': advance(subj); if (peek_char(subj) == '[') { new = handle_left_bracket(subj); if (new != NULL && new->tag == INL_LINK) { new->tag = INL_IMAGE; } else { new = append_inlines(make_str(chunk_literal("!")), new); } } else { new = make_str(chunk_literal("!")); } break; default: endpos = subject_find_special_char(subj); contents = chunk_dup(&subj->input, subj->pos, endpos - subj->pos); subj->pos = endpos; // if we're at a newline, strip trailing spaces. if (peek_char(subj) == '\n') { chunk_rtrim(&contents); } new = make_str(contents); } if (*last == NULL) { *last = new; } else if (new) { append_inlines(*last, new); *last = new; } return 1; } extern node_inl* parse_inlines(strbuf *input, reference_map *refmap) { subject subj; subject_from_buf(&subj, input, refmap); return parse_inlines_while(&subj, not_eof); } // Parse zero or more space characters, including at most one newline. void spnl(subject* subj) { bool seen_newline = false; while (peek_char(subj) == ' ' || (!seen_newline && (seen_newline = peek_char(subj) == '\n'))) { advance(subj); } } // Parse reference. Assumes string begins with '[' character. // Modify refmap if a reference is encountered. // Return 0 if no reference found, otherwise position of subject // after reference is parsed. int parse_reference_inline(strbuf *input, reference_map *refmap) { subject subj; chunk lab; chunk url; chunk title; int matchlen = 0; int beforetitle; subject_from_buf(&subj, input, NULL); // parse label: if (!link_label(&subj, &lab)) return 0; // colon: if (peek_char(&subj) == ':') { advance(&subj); } else { return 0; } // parse link url: spnl(&subj); matchlen = scan_link_url(&subj.input, subj.pos); if (matchlen) { url = chunk_dup(&subj.input, subj.pos, matchlen); subj.pos += matchlen; } else { return 0; } // parse optional link_title beforetitle = subj.pos; spnl(&subj); matchlen = scan_link_title(&subj.input, subj.pos); if (matchlen) { title = chunk_dup(&subj.input, subj.pos, matchlen); subj.pos += matchlen; } else { subj.pos = beforetitle; title = chunk_literal(""); } // parse final spaces and newline: while (peek_char(&subj) == ' ') { advance(&subj); } if (peek_char(&subj) == '\n') { advance(&subj); } else if (peek_char(&subj) != 0) { return 0; } // insert reference into refmap reference_create(refmap, &lab, &url, &title); return subj.pos; }