/** * marked v14.0.0 - a markdown parser * Copyright (c) 2011-2024, Christopher Jeffrey. (MIT Licensed) * https://github.com/markedjs/marked */ /** * DO NOT EDIT THIS FILE * The code in this file is generated from files in ./src/ */ (function (global, factory) { typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports) : typeof define === 'function' && define.amd ? define(['exports'], factory) : (global = typeof globalThis !== 'undefined' ? globalThis : global || self, factory(global.marked = {})); })(this, (function (exports) { 'use strict'; /** * Gets the original marked default options. */ function _getDefaults() { return { async: false, breaks: false, extensions: null, gfm: true, hooks: null, pedantic: false, renderer: null, silent: false, tokenizer: null, walkTokens: null, }; } exports.defaults = _getDefaults(); function changeDefaults(newDefaults) { exports.defaults = newDefaults; } /** * Helpers */ const escapeTest = /[&<>"']/; const escapeReplace = new RegExp(escapeTest.source, 'g'); const escapeTestNoEncode = /[<>"']|&(?!(#\d{1,7}|#[Xx][a-fA-F0-9]{1,6}|\w+);)/; const escapeReplaceNoEncode = new RegExp(escapeTestNoEncode.source, 'g'); const escapeReplacements = { '&': '&', '<': '<', '>': '>', '"': '"', "'": ''', }; const getEscapeReplacement = (ch) => escapeReplacements[ch]; function escape$1(html, encode) { if (encode) { if (escapeTest.test(html)) { return html.replace(escapeReplace, getEscapeReplacement); } } else { if (escapeTestNoEncode.test(html)) { return html.replace(escapeReplaceNoEncode, getEscapeReplacement); } } return html; } const caret = /(^|[^\[])\^/g; function edit(regex, opt) { let source = typeof regex === 'string' ? regex : regex.source; opt = opt || ''; const obj = { replace: (name, val) => { let valSource = typeof val === 'string' ? val : val.source; valSource = valSource.replace(caret, '$1'); source = source.replace(name, valSource); return obj; }, getRegex: () => { return new RegExp(source, opt); }, }; return obj; } function cleanUrl(href) { try { href = encodeURI(href).replace(/%25/g, '%'); } catch { return null; } return href; } const noopTest = { exec: () => null }; function splitCells(tableRow, count) { // ensure that every cell-delimiting pipe has a space // before it to distinguish it from an escaped pipe const row = tableRow.replace(/\|/g, (match, offset, str) => { let escaped = false; let curr = offset; while (--curr >= 0 && str[curr] === '\\') escaped = !escaped; if (escaped) { // odd number of slashes means | is escaped // so we leave it alone return '|'; } else { // add space before unescaped | return ' |'; } }), cells = row.split(/ \|/); let i = 0; // First/last cell in a row cannot be empty if it has no leading/trailing pipe if (!cells[0].trim()) { cells.shift(); } if (cells.length > 0 && !cells[cells.length - 1].trim()) { cells.pop(); } if (count) { if (cells.length > count) { cells.splice(count); } else { while (cells.length < count) cells.push(''); } } for (; i < cells.length; i++) { // leading or trailing whitespace is ignored per the gfm spec cells[i] = cells[i].trim().replace(/\\\|/g, '|'); } return cells; } /** * Remove trailing 'c's. Equivalent to str.replace(/c*$/, ''). * /c*$/ is vulnerable to REDOS. * * @param str * @param c * @param invert Remove suffix of non-c chars instead. Default falsey. */ function rtrim(str, c, invert) { const l = str.length; if (l === 0) { return ''; } // Length of suffix matching the invert condition. let suffLen = 0; // Step left until we fail to match the invert condition. while (suffLen < l) { const currChar = str.charAt(l - suffLen - 1); if (currChar === c && !invert) { suffLen++; } else if (currChar !== c && invert) { suffLen++; } else { break; } } return str.slice(0, l - suffLen); } function findClosingBracket(str, b) { if (str.indexOf(b[1]) === -1) { return -1; } let level = 0; for (let i = 0; i < str.length; i++) { if (str[i] === '\\') { i++; } else if (str[i] === b[0]) { level++; } else if (str[i] === b[1]) { level--; if (level < 0) { return i; } } } return -1; } function outputLink(cap, link, raw, lexer) { const href = link.href; const title = link.title ? escape$1(link.title) : null; const text = cap[1].replace(/\\([\[\]])/g, '$1'); if (cap[0].charAt(0) !== '!') { lexer.state.inLink = true; const token = { type: 'link', raw, href, title, text, tokens: lexer.inlineTokens(text), }; lexer.state.inLink = false; return token; } return { type: 'image', raw, href, title, text: escape$1(text), }; } function indentCodeCompensation(raw, text) { const matchIndentToCode = raw.match(/^(\s+)(?:```)/); if (matchIndentToCode === null) { return text; } const indentToCode = matchIndentToCode[1]; return text .split('\n') .map(node => { const matchIndentInNode = node.match(/^\s+/); if (matchIndentInNode === null) { return node; } const [indentInNode] = matchIndentInNode; if (indentInNode.length >= indentToCode.length) { return node.slice(indentToCode.length); } return node; }) .join('\n'); } /** * Tokenizer */ class _Tokenizer { options; rules; // set by the lexer lexer; // set by the lexer constructor(options) { this.options = options || exports.defaults; } space(src) { const cap = this.rules.block.newline.exec(src); if (cap && cap[0].length > 0) { return { type: 'space', raw: cap[0], }; } } code(src) { const cap = this.rules.block.code.exec(src); if (cap) { const text = cap[0].replace(/^ {1,4}/gm, ''); return { type: 'code', raw: cap[0], codeBlockStyle: 'indented', text: !this.options.pedantic ? rtrim(text, '\n') : text, }; } } fences(src) { const cap = this.rules.block.fences.exec(src); if (cap) { const raw = cap[0]; const text = indentCodeCompensation(raw, cap[3] || ''); return { type: 'code', raw, lang: cap[2] ? cap[2].trim().replace(this.rules.inline.anyPunctuation, '$1') : cap[2], text, }; } } heading(src) { const cap = this.rules.block.heading.exec(src); if (cap) { let text = cap[2].trim(); // remove trailing #s if (/#$/.test(text)) { const trimmed = rtrim(text, '#'); if (this.options.pedantic) { text = trimmed.trim(); } else if (!trimmed || / $/.test(trimmed)) { // CommonMark requires space before trailing #s text = trimmed.trim(); } } return { type: 'heading', raw: cap[0], depth: cap[1].length, text, tokens: this.lexer.inline(text), }; } } hr(src) { const cap = this.rules.block.hr.exec(src); if (cap) { return { type: 'hr', raw: rtrim(cap[0], '\n'), }; } } blockquote(src) { const cap = this.rules.block.blockquote.exec(src); if (cap) { let lines = rtrim(cap[0], '\n').split('\n'); let raw = ''; let text = ''; const tokens = []; while (lines.length > 0) { let inBlockquote = false; const currentLines = []; let i; for (i = 0; i < lines.length; i++) { // get lines up to a continuation if (/^ {0,3}>/.test(lines[i])) { currentLines.push(lines[i]); inBlockquote = true; } else if (!inBlockquote) { currentLines.push(lines[i]); } else { break; } } lines = lines.slice(i); const currentRaw = currentLines.join('\n'); const currentText = currentRaw // precede setext continuation with 4 spaces so it isn't a setext .replace(/\n {0,3}((?:=+|-+) *)(?=\n|$)/g, '\n $1') .replace(/^ {0,3}>[ \t]?/gm, ''); raw = raw ? `${raw}\n${currentRaw}` : currentRaw; text = text ? `${text}\n${currentText}` : currentText; // parse blockquote lines as top level tokens // merge paragraphs if this is a continuation const top = this.lexer.state.top; this.lexer.state.top = true; this.lexer.blockTokens(currentText, tokens, true); this.lexer.state.top = top; // if there is no continuation then we are done if (lines.length === 0) { break; } const lastToken = tokens[tokens.length - 1]; if (lastToken?.type === 'code') { // blockquote continuation cannot be preceded by a code block break; } else if (lastToken?.type === 'blockquote') { // include continuation in nested blockquote const oldToken = lastToken; const newText = oldToken.raw + '\n' + lines.join('\n'); const newToken = this.blockquote(newText); tokens[tokens.length - 1] = newToken; raw = raw.substring(0, raw.length - oldToken.raw.length) + newToken.raw; text = text.substring(0, text.length - oldToken.text.length) + newToken.text; break; } else if (lastToken?.type === 'list') { // include continuation in nested list const oldToken = lastToken; const newText = oldToken.raw + '\n' + lines.join('\n'); const newToken = this.list(newText); tokens[tokens.length - 1] = newToken; raw = raw.substring(0, raw.length - lastToken.raw.length) + newToken.raw; text = text.substring(0, text.length - oldToken.raw.length) + newToken.raw; lines = newText.substring(tokens[tokens.length - 1].raw.length).split('\n'); continue; } } return { type: 'blockquote', raw, tokens, text, }; } } list(src) { let cap = this.rules.block.list.exec(src); if (cap) { let bull = cap[1].trim(); const isordered = bull.length > 1; const list = { type: 'list', raw: '', ordered: isordered, start: isordered ? +bull.slice(0, -1) : '', loose: false, items: [], }; bull = isordered ? `\\d{1,9}\\${bull.slice(-1)}` : `\\${bull}`; if (this.options.pedantic) { bull = isordered ? bull : '[*+-]'; } // Get next list item const itemRegex = new RegExp(`^( {0,3}${bull})((?:[\t ][^\\n]*)?(?:\\n|$))`); let endsWithBlankLine = false; // Check if current bullet point can start a new List Item while (src) { let endEarly = false; let raw = ''; let itemContents = ''; if (!(cap = itemRegex.exec(src))) { break; } if (this.rules.block.hr.test(src)) { // End list if bullet was actually HR (possibly move into itemRegex?) break; } raw = cap[0]; src = src.substring(raw.length); let line = cap[2].split('\n', 1)[0].replace(/^\t+/, (t) => ' '.repeat(3 * t.length)); let nextLine = src.split('\n', 1)[0]; let blankLine = !line.trim(); let indent = 0; if (this.options.pedantic) { indent = 2; itemContents = line.trimStart(); } else if (blankLine) { indent = cap[1].length + 1; } else { indent = cap[2].search(/[^ ]/); // Find first non-space char indent = indent > 4 ? 1 : indent; // Treat indented code blocks (> 4 spaces) as having only 1 indent itemContents = line.slice(indent); indent += cap[1].length; } if (blankLine && /^ *$/.test(nextLine)) { // Items begin with at most one blank line raw += nextLine + '\n'; src = src.substring(nextLine.length + 1); endEarly = true; } if (!endEarly) { const nextBulletRegex = new RegExp(`^ {0,${Math.min(3, indent - 1)}}(?:[*+-]|\\d{1,9}[.)])((?:[ \t][^\\n]*)?(?:\\n|$))`); const hrRegex = new RegExp(`^ {0,${Math.min(3, indent - 1)}}((?:- *){3,}|(?:_ *){3,}|(?:\\* *){3,})(?:\\n+|$)`); const fencesBeginRegex = new RegExp(`^ {0,${Math.min(3, indent - 1)}}(?:\`\`\`|~~~)`); const headingBeginRegex = new RegExp(`^ {0,${Math.min(3, indent - 1)}}#`); // Check if following lines should be included in List Item while (src) { const rawLine = src.split('\n', 1)[0]; nextLine = rawLine; // Re-align to follow commonmark nesting rules if (this.options.pedantic) { nextLine = nextLine.replace(/^ {1,4}(?=( {4})*[^ ])/g, ' '); } // End list item if found code fences if (fencesBeginRegex.test(nextLine)) { break; } // End list item if found start of new heading if (headingBeginRegex.test(nextLine)) { break; } // End list item if found start of new bullet if (nextBulletRegex.test(nextLine)) { break; } // Horizontal rule found if (hrRegex.test(src)) { break; } if (nextLine.search(/[^ ]/) >= indent || !nextLine.trim()) { // Dedent if possible itemContents += '\n' + nextLine.slice(indent); } else { // not enough indentation if (blankLine) { break; } // paragraph continuation unless last line was a different block level element if (line.search(/[^ ]/) >= 4) { // indented code block break; } if (fencesBeginRegex.test(line)) { break; } if (headingBeginRegex.test(line)) { break; } if (hrRegex.test(line)) { break; } itemContents += '\n' + nextLine; } if (!blankLine && !nextLine.trim()) { // Check if current line is blank blankLine = true; } raw += rawLine + '\n'; src = src.substring(rawLine.length + 1); line = nextLine.slice(indent); } } if (!list.loose) { // If the previous item ended with a blank line, the list is loose if (endsWithBlankLine) { list.loose = true; } else if (/\n *\n *$/.test(raw)) { endsWithBlankLine = true; } } let istask = null; let ischecked; // Check for task list items if (this.options.gfm) { istask = /^\[[ xX]\] /.exec(itemContents); if (istask) { ischecked = istask[0] !== '[ ] '; itemContents = itemContents.replace(/^\[[ xX]\] +/, ''); } } list.items.push({ type: 'list_item', raw, task: !!istask, checked: ischecked, loose: false, text: itemContents, tokens: [], }); list.raw += raw; } // Do not consume newlines at end of final item. Alternatively, make itemRegex *start* with any newlines to simplify/speed up endsWithBlankLine logic list.items[list.items.length - 1].raw = list.items[list.items.length - 1].raw.trimEnd(); list.items[list.items.length - 1].text = list.items[list.items.length - 1].text.trimEnd(); list.raw = list.raw.trimEnd(); // Item child tokens handled here at end because we needed to have the final item to trim it first for (let i = 0; i < list.items.length; i++) { this.lexer.state.top = false; list.items[i].tokens = this.lexer.blockTokens(list.items[i].text, []); if (!list.loose) { // Check if list should be loose const spacers = list.items[i].tokens.filter(t => t.type === 'space'); const hasMultipleLineBreaks = spacers.length > 0 && spacers.some(t => /\n.*\n/.test(t.raw)); list.loose = hasMultipleLineBreaks; } } // Set all items to loose if list is loose if (list.loose) { for (let i = 0; i < list.items.length; i++) { list.items[i].loose = true; } } return list; } } html(src) { const cap = this.rules.block.html.exec(src); if (cap) { const token = { type: 'html', block: true, raw: cap[0], pre: cap[1] === 'pre' || cap[1] === 'script' || cap[1] === 'style', text: cap[0], }; return token; } } def(src) { const cap = this.rules.block.def.exec(src); if (cap) { const tag = cap[1].toLowerCase().replace(/\s+/g, ' '); const href = cap[2] ? cap[2].replace(/^<(.*)>$/, '$1').replace(this.rules.inline.anyPunctuation, '$1') : ''; const title = cap[3] ? cap[3].substring(1, cap[3].length - 1).replace(this.rules.inline.anyPunctuation, '$1') : cap[3]; return { type: 'def', tag, raw: cap[0], href, title, }; } } table(src) { const cap = this.rules.block.table.exec(src); if (!cap) { return; } if (!/[:|]/.test(cap[2])) { // delimiter row must have a pipe (|) or colon (:) otherwise it is a setext heading return; } const headers = splitCells(cap[1]); const aligns = cap[2].replace(/^\||\| *$/g, '').split('|'); const rows = cap[3] && cap[3].trim() ? cap[3].replace(/\n[ \t]*$/, '').split('\n') : []; const item = { type: 'table', raw: cap[0], header: [], align: [], rows: [], }; if (headers.length !== aligns.length) { // header and align columns must be equal, rows can be different. return; } for (const align of aligns) { if (/^ *-+: *$/.test(align)) { item.align.push('right'); } else if (/^ *:-+: *$/.test(align)) { item.align.push('center'); } else if (/^ *:-+ *$/.test(align)) { item.align.push('left'); } else { item.align.push(null); } } for (let i = 0; i < headers.length; i++) { item.header.push({ text: headers[i], tokens: this.lexer.inline(headers[i]), header: true, align: item.align[i], }); } for (const row of rows) { item.rows.push(splitCells(row, item.header.length).map((cell, i) => { return { text: cell, tokens: this.lexer.inline(cell), header: false, align: item.align[i], }; })); } return item; } lheading(src) { const cap = this.rules.block.lheading.exec(src); if (cap) { return { type: 'heading', raw: cap[0], depth: cap[2].charAt(0) === '=' ? 1 : 2, text: cap[1], tokens: this.lexer.inline(cap[1]), }; } } paragraph(src) { const cap = this.rules.block.paragraph.exec(src); if (cap) { const text = cap[1].charAt(cap[1].length - 1) === '\n' ? cap[1].slice(0, -1) : cap[1]; return { type: 'paragraph', raw: cap[0], text, tokens: this.lexer.inline(text), }; } } text(src) { const cap = this.rules.block.text.exec(src); if (cap) { return { type: 'text', raw: cap[0], text: cap[0], tokens: this.lexer.inline(cap[0]), }; } } escape(src) { const cap = this.rules.inline.escape.exec(src); if (cap) { return { type: 'escape', raw: cap[0], text: escape$1(cap[1]), }; } } tag(src) { const cap = this.rules.inline.tag.exec(src); if (cap) { if (!this.lexer.state.inLink && /^/i.test(cap[0])) { this.lexer.state.inLink = false; } if (!this.lexer.state.inRawBlock && /^<(pre|code|kbd|script)(\s|>)/i.test(cap[0])) { this.lexer.state.inRawBlock = true; } else if (this.lexer.state.inRawBlock && /^<\/(pre|code|kbd|script)(\s|>)/i.test(cap[0])) { this.lexer.state.inRawBlock = false; } return { type: 'html', raw: cap[0], inLink: this.lexer.state.inLink, inRawBlock: this.lexer.state.inRawBlock, block: false, text: cap[0], }; } } link(src) { const cap = this.rules.inline.link.exec(src); if (cap) { const trimmedUrl = cap[2].trim(); if (!this.options.pedantic && /^$/.test(trimmedUrl))) { return; } // ending angle bracket cannot be escaped const rtrimSlash = rtrim(trimmedUrl.slice(0, -1), '\\'); if ((trimmedUrl.length - rtrimSlash.length) % 2 === 0) { return; } } else { // find closing parenthesis const lastParenIndex = findClosingBracket(cap[2], '()'); if (lastParenIndex > -1) { const start = cap[0].indexOf('!') === 0 ? 5 : 4; const linkLen = start + cap[1].length + lastParenIndex; cap[2] = cap[2].substring(0, lastParenIndex); cap[0] = cap[0].substring(0, linkLen).trim(); cap[3] = ''; } } let href = cap[2]; let title = ''; if (this.options.pedantic) { // split pedantic href and title const link = /^([^'"]*[^\s])\s+(['"])(.*)\2/.exec(href); if (link) { href = link[1]; title = link[3]; } } else { title = cap[3] ? cap[3].slice(1, -1) : ''; } href = href.trim(); if (/^$/.test(trimmedUrl))) { // pedantic allows starting angle bracket without ending angle bracket href = href.slice(1); } else { href = href.slice(1, -1); } } return outputLink(cap, { href: href ? href.replace(this.rules.inline.anyPunctuation, '$1') : href, title: title ? title.replace(this.rules.inline.anyPunctuation, '$1') : title, }, cap[0], this.lexer); } } reflink(src, links) { let cap; if ((cap = this.rules.inline.reflink.exec(src)) || (cap = this.rules.inline.nolink.exec(src))) { const linkString = (cap[2] || cap[1]).replace(/\s+/g, ' '); const link = links[linkString.toLowerCase()]; if (!link) { const text = cap[0].charAt(0); return { type: 'text', raw: text, text, }; } return outputLink(cap, link, cap[0], this.lexer); } } emStrong(src, maskedSrc, prevChar = '') { let match = this.rules.inline.emStrongLDelim.exec(src); if (!match) return; // _ can't be between two alphanumerics. \p{L}\p{N} includes non-english alphabet/numbers as well if (match[3] && prevChar.match(/[\p{L}\p{N}]/u)) return; const nextChar = match[1] || match[2] || ''; if (!nextChar || !prevChar || this.rules.inline.punctuation.exec(prevChar)) { // unicode Regex counts emoji as 1 char; spread into array for proper count (used multiple times below) const lLength = [...match[0]].length - 1; let rDelim, rLength, delimTotal = lLength, midDelimTotal = 0; const endReg = match[0][0] === '*' ? this.rules.inline.emStrongRDelimAst : this.rules.inline.emStrongRDelimUnd; endReg.lastIndex = 0; // Clip maskedSrc to same section of string as src (move to lexer?) maskedSrc = maskedSrc.slice(-1 * src.length + lLength); while ((match = endReg.exec(maskedSrc)) != null) { rDelim = match[1] || match[2] || match[3] || match[4] || match[5] || match[6]; if (!rDelim) continue; // skip single * in __abc*abc__ rLength = [...rDelim].length; if (match[3] || match[4]) { // found another Left Delim delimTotal += rLength; continue; } else if (match[5] || match[6]) { // either Left or Right Delim if (lLength % 3 && !((lLength + rLength) % 3)) { midDelimTotal += rLength; continue; // CommonMark Emphasis Rules 9-10 } } delimTotal -= rLength; if (delimTotal > 0) continue; // Haven't found enough closing delimiters // Remove extra characters. *a*** -> *a* rLength = Math.min(rLength, rLength + delimTotal + midDelimTotal); // char length can be >1 for unicode characters; const lastCharLength = [...match[0]][0].length; const raw = src.slice(0, lLength + match.index + lastCharLength + rLength); // Create `em` if smallest delimiter has odd char count. *a*** if (Math.min(lLength, rLength) % 2) { const text = raw.slice(1, -1); return { type: 'em', raw, text, tokens: this.lexer.inlineTokens(text), }; } // Create 'strong' if smallest delimiter has even char count. **a*** const text = raw.slice(2, -2); return { type: 'strong', raw, text, tokens: this.lexer.inlineTokens(text), }; } } } codespan(src) { const cap = this.rules.inline.code.exec(src); if (cap) { let text = cap[2].replace(/\n/g, ' '); const hasNonSpaceChars = /[^ ]/.test(text); const hasSpaceCharsOnBothEnds = /^ /.test(text) && / $/.test(text); if (hasNonSpaceChars && hasSpaceCharsOnBothEnds) { text = text.substring(1, text.length - 1); } text = escape$1(text, true); return { type: 'codespan', raw: cap[0], text, }; } } br(src) { const cap = this.rules.inline.br.exec(src); if (cap) { return { type: 'br', raw: cap[0], }; } } del(src) { const cap = this.rules.inline.del.exec(src); if (cap) { return { type: 'del', raw: cap[0], text: cap[2], tokens: this.lexer.inlineTokens(cap[2]), }; } } autolink(src) { const cap = this.rules.inline.autolink.exec(src); if (cap) { let text, href; if (cap[2] === '@') { text = escape$1(cap[1]); href = 'mailto:' + text; } else { text = escape$1(cap[1]); href = text; } return { type: 'link', raw: cap[0], text, href, tokens: [ { type: 'text', raw: text, text, }, ], }; } } url(src) { let cap; if (cap = this.rules.inline.url.exec(src)) { let text, href; if (cap[2] === '@') { text = escape$1(cap[0]); href = 'mailto:' + text; } else { // do extended autolink path validation let prevCapZero; do { prevCapZero = cap[0]; cap[0] = this.rules.inline._backpedal.exec(cap[0])?.[0] ?? ''; } while (prevCapZero !== cap[0]); text = escape$1(cap[0]); if (cap[1] === 'www.') { href = 'http://' + cap[0]; } else { href = cap[0]; } } return { type: 'link', raw: cap[0], text, href, tokens: [ { type: 'text', raw: text, text, }, ], }; } } inlineText(src) { const cap = this.rules.inline.text.exec(src); if (cap) { let text; if (this.lexer.state.inRawBlock) { text = cap[0]; } else { text = escape$1(cap[0]); } return { type: 'text', raw: cap[0], text, }; } } } /** * Block-Level Grammar */ const newline = /^(?: *(?:\n|$))+/; const blockCode = /^( {4}[^\n]+(?:\n(?: *(?:\n|$))*)?)+/; const fences = /^ {0,3}(`{3,}(?=[^`\n]*(?:\n|$))|~{3,})([^\n]*)(?:\n|$)(?:|([\s\S]*?)(?:\n|$))(?: {0,3}\1[~`]* *(?=\n|$)|$)/; const hr = /^ {0,3}((?:-[\t ]*){3,}|(?:_[ \t]*){3,}|(?:\*[ \t]*){3,})(?:\n+|$)/; const heading = /^ {0,3}(#{1,6})(?=\s|$)(.*)(?:\n+|$)/; const bullet = /(?:[*+-]|\d{1,9}[.)])/; const lheading = edit(/^(?!bull |blockCode|fences|blockquote|heading|html)((?:.|\n(?!\s*?\n|bull |blockCode|fences|blockquote|heading|html))+?)\n {0,3}(=+|-+) *(?:\n+|$)/) .replace(/bull/g, bullet) // lists can interrupt .replace(/blockCode/g, / {4}/) // indented code blocks can interrupt .replace(/fences/g, / {0,3}(?:`{3,}|~{3,})/) // fenced code blocks can interrupt .replace(/blockquote/g, / {0,3}>/) // blockquote can interrupt .replace(/heading/g, / {0,3}#{1,6}/) // ATX heading can interrupt .replace(/html/g, / {0,3}<[^\n>]+>\n/) // block html can interrupt .getRegex(); const _paragraph = /^([^\n]+(?:\n(?!hr|heading|lheading|blockquote|fences|list|html|table| +\n)[^\n]+)*)/; const blockText = /^[^\n]+/; const _blockLabel = /(?!\s*\])(?:\\.|[^\[\]\\])+/; const def = edit(/^ {0,3}\[(label)\]: *(?:\n *)?([^<\s][^\s]*|<.*?>)(?:(?: +(?:\n *)?| *\n *)(title))? *(?:\n+|$)/) .replace('label', _blockLabel) .replace('title', /(?:"(?:\\"?|[^"\\])*"|'[^'\n]*(?:\n[^'\n]+)*\n?'|\([^()]*\))/) .getRegex(); const list = edit(/^( {0,3}bull)([ \t][^\n]+?)?(?:\n|$)/) .replace(/bull/g, bullet) .getRegex(); const _tag = 'address|article|aside|base|basefont|blockquote|body|caption' + '|center|col|colgroup|dd|details|dialog|dir|div|dl|dt|fieldset|figcaption' + '|figure|footer|form|frame|frameset|h[1-6]|head|header|hr|html|iframe' + '|legend|li|link|main|menu|menuitem|meta|nav|noframes|ol|optgroup|option' + '|p|param|search|section|summary|table|tbody|td|tfoot|th|thead|title' + '|tr|track|ul'; const _comment = /|$))/; const html = edit('^ {0,3}(?:' // optional indentation + '<(script|pre|style|textarea)[\\s>][\\s\\S]*?(?:[^\\n]*\\n+|$)' // (1) + '|comment[^\\n]*(\\n+|$)' // (2) + '|<\\?[\\s\\S]*?(?:\\?>\\n*|$)' // (3) + '|\\n*|$)' // (4) + '|\\n*|$)' // (5) + '|)[\\s\\S]*?(?:(?:\\n *)+\\n|$)' // (6) + '|<(?!script|pre|style|textarea)([a-z][\\w-]*)(?:attribute)*? */?>(?=[ \\t]*(?:\\n|$))[\\s\\S]*?(?:(?:\\n *)+\\n|$)' // (7) open tag + '|(?=[ \\t]*(?:\\n|$))[\\s\\S]*?(?:(?:\\n *)+\\n|$)' // (7) closing tag + ')', 'i') .replace('comment', _comment) .replace('tag', _tag) .replace('attribute', / +[a-zA-Z:_][\w.:-]*(?: *= *"[^"\n]*"| *= *'[^'\n]*'| *= *[^\s"'=<>`]+)?/) .getRegex(); const paragraph = edit(_paragraph) .replace('hr', hr) .replace('heading', ' {0,3}#{1,6}(?:\\s|$)') .replace('|lheading', '') // setext headings don't interrupt commonmark paragraphs .replace('|table', '') .replace('blockquote', ' {0,3}>') .replace('fences', ' {0,3}(?:`{3,}(?=[^`\\n]*\\n)|~{3,})[^\\n]*\\n') .replace('list', ' {0,3}(?:[*+-]|1[.)]) ') // only lists starting from 1 can interrupt .replace('html', ')|<(?:script|pre|style|textarea|!--)') .replace('tag', _tag) // pars can be interrupted by type (6) html blocks .getRegex(); const blockquote = edit(/^( {0,3}> ?(paragraph|[^\n]*)(?:\n|$))+/) .replace('paragraph', paragraph) .getRegex(); /** * Normal Block Grammar */ const blockNormal = { blockquote, code: blockCode, def, fences, heading, hr, html, lheading, list, newline, paragraph, table: noopTest, text: blockText, }; /** * GFM Block Grammar */ const gfmTable = edit('^ *([^\\n ].*)\\n' // Header + ' {0,3}((?:\\| *)?:?-+:? *(?:\\| *:?-+:? *)*(?:\\| *)?)' // Align + '(?:\\n((?:(?! *\\n|hr|heading|blockquote|code|fences|list|html).*(?:\\n|$))*)\\n*|$)') // Cells .replace('hr', hr) .replace('heading', ' {0,3}#{1,6}(?:\\s|$)') .replace('blockquote', ' {0,3}>') .replace('code', ' {4}[^\\n]') .replace('fences', ' {0,3}(?:`{3,}(?=[^`\\n]*\\n)|~{3,})[^\\n]*\\n') .replace('list', ' {0,3}(?:[*+-]|1[.)]) ') // only lists starting from 1 can interrupt .replace('html', ')|<(?:script|pre|style|textarea|!--)') .replace('tag', _tag) // tables can be interrupted by type (6) html blocks .getRegex(); const blockGfm = { ...blockNormal, table: gfmTable, paragraph: edit(_paragraph) .replace('hr', hr) .replace('heading', ' {0,3}#{1,6}(?:\\s|$)') .replace('|lheading', '') // setext headings don't interrupt commonmark paragraphs .replace('table', gfmTable) // interrupt paragraphs with table .replace('blockquote', ' {0,3}>') .replace('fences', ' {0,3}(?:`{3,}(?=[^`\\n]*\\n)|~{3,})[^\\n]*\\n') .replace('list', ' {0,3}(?:[*+-]|1[.)]) ') // only lists starting from 1 can interrupt .replace('html', ')|<(?:script|pre|style|textarea|!--)') .replace('tag', _tag) // pars can be interrupted by type (6) html blocks .getRegex(), }; /** * Pedantic grammar (original John Gruber's loose markdown specification) */ const blockPedantic = { ...blockNormal, html: edit('^ *(?:comment *(?:\\n|\\s*$)' + '|<(tag)[\\s\\S]+? *(?:\\n{2,}|\\s*$)' // closed tag + '|\\s]*)*?/?> *(?:\\n{2,}|\\s*$))') .replace('comment', _comment) .replace(/tag/g, '(?!(?:' + 'a|em|strong|small|s|cite|q|dfn|abbr|data|time|code|var|samp|kbd|sub' + '|sup|i|b|u|mark|ruby|rt|rp|bdi|bdo|span|br|wbr|ins|del|img)' + '\\b)\\w+(?!:|[^\\w\\s@]*@)\\b') .getRegex(), def: /^ *\[([^\]]+)\]: *]+)>?(?: +(["(][^\n]+[")]))? *(?:\n+|$)/, heading: /^(#{1,6})(.*)(?:\n+|$)/, fences: noopTest, // fences not supported lheading: /^(.+?)\n {0,3}(=+|-+) *(?:\n+|$)/, paragraph: edit(_paragraph) .replace('hr', hr) .replace('heading', ' *#{1,6} *[^\n]') .replace('lheading', lheading) .replace('|table', '') .replace('blockquote', ' {0,3}>') .replace('|fences', '') .replace('|list', '') .replace('|html', '') .replace('|tag', '') .getRegex(), }; /** * Inline-Level Grammar */ const escape = /^\\([!"#$%&'()*+,\-./:;<=>?@\[\]\\^_`{|}~])/; const inlineCode = /^(`+)([^`]|[^`][\s\S]*?[^`])\1(?!`)/; const br = /^( {2,}|\\)\n(?!\s*$)/; const inlineText = /^(`+|[^`])(?:(?= {2,}\n)|[\s\S]*?(?:(?=[\\ const blockSkip = /\[[^[\]]*?\]\([^\(\)]*?\)|`[^`]*?`|<[^<>]*?>/g; const emStrongLDelim = edit(/^(?:\*+(?:((?!\*)[punct])|[^\s*]))|^_+(?:((?!_)[punct])|([^\s_]))/, 'u') .replace(/punct/g, _punctuation) .getRegex(); const emStrongRDelimAst = edit('^[^_*]*?__[^_*]*?\\*[^_*]*?(?=__)' // Skip orphan inside strong + '|[^*]+(?=[^*])' // Consume to delim + '|(?!\\*)[punct](\\*+)(?=[\\s]|$)' // (1) #*** can only be a Right Delimiter + '|[^punct\\s](\\*+)(?!\\*)(?=[punct\\s]|$)' // (2) a***#, a*** can only be a Right Delimiter + '|(?!\\*)[punct\\s](\\*+)(?=[^punct\\s])' // (3) #***a, ***a can only be Left Delimiter + '|[\\s](\\*+)(?!\\*)(?=[punct])' // (4) ***# can only be Left Delimiter + '|(?!\\*)[punct](\\*+)(?!\\*)(?=[punct])' // (5) #***# can be either Left or Right Delimiter + '|[^punct\\s](\\*+)(?=[^punct\\s])', 'gu') // (6) a***a can be either Left or Right Delimiter .replace(/punct/g, _punctuation) .getRegex(); // (6) Not allowed for _ const emStrongRDelimUnd = edit('^[^_*]*?\\*\\*[^_*]*?_[^_*]*?(?=\\*\\*)' // Skip orphan inside strong + '|[^_]+(?=[^_])' // Consume to delim + '|(?!_)[punct](_+)(?=[\\s]|$)' // (1) #___ can only be a Right Delimiter + '|[^punct\\s](_+)(?!_)(?=[punct\\s]|$)' // (2) a___#, a___ can only be a Right Delimiter + '|(?!_)[punct\\s](_+)(?=[^punct\\s])' // (3) #___a, ___a can only be Left Delimiter + '|[\\s](_+)(?!_)(?=[punct])' // (4) ___# can only be Left Delimiter + '|(?!_)[punct](_+)(?!_)(?=[punct])', 'gu') // (5) #___# can be either Left or Right Delimiter .replace(/punct/g, _punctuation) .getRegex(); const anyPunctuation = edit(/\\([punct])/, 'gu') .replace(/punct/g, _punctuation) .getRegex(); const autolink = edit(/^<(scheme:[^\s\x00-\x1f<>]*|email)>/) .replace('scheme', /[a-zA-Z][a-zA-Z0-9+.-]{1,31}/) .replace('email', /[a-zA-Z0-9.!#$%&'*+/=?^_`{|}~-]+(@)[a-zA-Z0-9](?:[a-zA-Z0-9-]{0,61}[a-zA-Z0-9])?(?:\.[a-zA-Z0-9](?:[a-zA-Z0-9-]{0,61}[a-zA-Z0-9])?)+(?![-_])/) .getRegex(); const _inlineComment = edit(_comment).replace('(?:-->|$)', '-->').getRegex(); const tag = edit('^comment' + '|^' // self-closing tag + '|^<[a-zA-Z][\\w-]*(?:attribute)*?\\s*/?>' // open tag + '|^<\\?[\\s\\S]*?\\?>' // processing instruction, e.g. + '|^' // declaration, e.g. + '|^') // CDATA section .replace('comment', _inlineComment) .replace('attribute', /\s+[a-zA-Z:_][\w.:-]*(?:\s*=\s*"[^"]*"|\s*=\s*'[^']*'|\s*=\s*[^\s"'=<>`]+)?/) .getRegex(); const _inlineLabel = /(?:\[(?:\\.|[^\[\]\\])*\]|\\.|`[^`]*`|[^\[\]\\`])*?/; const link = edit(/^!?\[(label)\]\(\s*(href)(?:\s+(title))?\s*\)/) .replace('label', _inlineLabel) .replace('href', /<(?:\\.|[^\n<>\\])+>|[^\s\x00-\x1f]*/) .replace('title', /"(?:\\"?|[^"\\])*"|'(?:\\'?|[^'\\])*'|\((?:\\\)?|[^)\\])*\)/) .getRegex(); const reflink = edit(/^!?\[(label)\]\[(ref)\]/) .replace('label', _inlineLabel) .replace('ref', _blockLabel) .getRegex(); const nolink = edit(/^!?\[(ref)\](?:\[\])?/) .replace('ref', _blockLabel) .getRegex(); const reflinkSearch = edit('reflink|nolink(?!\\()', 'g') .replace('reflink', reflink) .replace('nolink', nolink) .getRegex(); /** * Normal Inline Grammar */ const inlineNormal = { _backpedal: noopTest, // only used for GFM url anyPunctuation, autolink, blockSkip, br, code: inlineCode, del: noopTest, emStrongLDelim, emStrongRDelimAst, emStrongRDelimUnd, escape, link, nolink, punctuation, reflink, reflinkSearch, tag, text: inlineText, url: noopTest, }; /** * Pedantic Inline Grammar */ const inlinePedantic = { ...inlineNormal, link: edit(/^!?\[(label)\]\((.*?)\)/) .replace('label', _inlineLabel) .getRegex(), reflink: edit(/^!?\[(label)\]\s*\[([^\]]*)\]/) .replace('label', _inlineLabel) .getRegex(), }; /** * GFM Inline Grammar */ const inlineGfm = { ...inlineNormal, escape: edit(escape).replace('])', '~|])').getRegex(), url: edit(/^((?:ftp|https?):\/\/|www\.)(?:[a-zA-Z0-9\-]+\.?)+[^\s<]*|^email/, 'i') .replace('email', /[A-Za-z0-9._+-]+(@)[a-zA-Z0-9-_]+(?:\.[a-zA-Z0-9-_]*[a-zA-Z0-9])+(?![-_])/) .getRegex(), _backpedal: /(?:[^?!.,:;*_'"~()&]+|\([^)]*\)|&(?![a-zA-Z0-9]+;$)|[?!.,:;*_'"~)]+(?!$))+/, del: /^(~~?)(?=[^\s~])([\s\S]*?[^\s~])\1(?=[^~]|$)/, text: /^([`~]+|[^`~])(?:(?= {2,}\n)|(?=[a-zA-Z0-9.!#$%&'*+\/=?_`{\|}~-]+@)|[\s\S]*?(?:(?=[\\ { return leading + ' '.repeat(tabs.length); }); } let token; let lastToken; let cutSrc; while (src) { if (this.options.extensions && this.options.extensions.block && this.options.extensions.block.some((extTokenizer) => { if (token = extTokenizer.call({ lexer: this }, src, tokens)) { src = src.substring(token.raw.length); tokens.push(token); return true; } return false; })) { continue; } // newline if (token = this.tokenizer.space(src)) { src = src.substring(token.raw.length); if (token.raw.length === 1 && tokens.length > 0) { // if there's a single \n as a spacer, it's terminating the last line, // so move it there so that we don't get unnecessary paragraph tags tokens[tokens.length - 1].raw += '\n'; } else { tokens.push(token); } continue; } // code if (token = this.tokenizer.code(src)) { src = src.substring(token.raw.length); lastToken = tokens[tokens.length - 1]; // An indented code block cannot interrupt a paragraph. if (lastToken && (lastToken.type === 'paragraph' || lastToken.type === 'text')) { lastToken.raw += '\n' + token.raw; lastToken.text += '\n' + token.text; this.inlineQueue[this.inlineQueue.length - 1].src = lastToken.text; } else { tokens.push(token); } continue; } // fences if (token = this.tokenizer.fences(src)) { src = src.substring(token.raw.length); tokens.push(token); continue; } // heading if (token = this.tokenizer.heading(src)) { src = src.substring(token.raw.length); tokens.push(token); continue; } // hr if (token = this.tokenizer.hr(src)) { src = src.substring(token.raw.length); tokens.push(token); continue; } // blockquote if (token = this.tokenizer.blockquote(src)) { src = src.substring(token.raw.length); tokens.push(token); continue; } // list if (token = this.tokenizer.list(src)) { src = src.substring(token.raw.length); tokens.push(token); continue; } // html if (token = this.tokenizer.html(src)) { src = src.substring(token.raw.length); tokens.push(token); continue; } // def if (token = this.tokenizer.def(src)) { src = src.substring(token.raw.length); lastToken = tokens[tokens.length - 1]; if (lastToken && (lastToken.type === 'paragraph' || lastToken.type === 'text')) { lastToken.raw += '\n' + token.raw; lastToken.text += '\n' + token.raw; this.inlineQueue[this.inlineQueue.length - 1].src = lastToken.text; } else if (!this.tokens.links[token.tag]) { this.tokens.links[token.tag] = { href: token.href, title: token.title, }; } continue; } // table (gfm) if (token = this.tokenizer.table(src)) { src = src.substring(token.raw.length); tokens.push(token); continue; } // lheading if (token = this.tokenizer.lheading(src)) { src = src.substring(token.raw.length); tokens.push(token); continue; } // top-level paragraph // prevent paragraph consuming extensions by clipping 'src' to extension start cutSrc = src; if (this.options.extensions && this.options.extensions.startBlock) { let startIndex = Infinity; const tempSrc = src.slice(1); let tempStart; this.options.extensions.startBlock.forEach((getStartIndex) => { tempStart = getStartIndex.call({ lexer: this }, tempSrc); if (typeof tempStart === 'number' && tempStart >= 0) { startIndex = Math.min(startIndex, tempStart); } }); if (startIndex < Infinity && startIndex >= 0) { cutSrc = src.substring(0, startIndex + 1); } } if (this.state.top && (token = this.tokenizer.paragraph(cutSrc))) { lastToken = tokens[tokens.length - 1]; if (lastParagraphClipped && lastToken?.type === 'paragraph') { lastToken.raw += '\n' + token.raw; lastToken.text += '\n' + token.text; this.inlineQueue.pop(); this.inlineQueue[this.inlineQueue.length - 1].src = lastToken.text; } else { tokens.push(token); } lastParagraphClipped = (cutSrc.length !== src.length); src = src.substring(token.raw.length); continue; } // text if (token = this.tokenizer.text(src)) { src = src.substring(token.raw.length); lastToken = tokens[tokens.length - 1]; if (lastToken && lastToken.type === 'text') { lastToken.raw += '\n' + token.raw; lastToken.text += '\n' + token.text; this.inlineQueue.pop(); this.inlineQueue[this.inlineQueue.length - 1].src = lastToken.text; } else { tokens.push(token); } continue; } if (src) { const errMsg = 'Infinite loop on byte: ' + src.charCodeAt(0); if (this.options.silent) { console.error(errMsg); break; } else { throw new Error(errMsg); } } } this.state.top = true; return tokens; } inline(src, tokens = []) { this.inlineQueue.push({ src, tokens }); return tokens; } /** * Lexing/Compiling */ inlineTokens(src, tokens = []) { let token, lastToken, cutSrc; // String with links masked to avoid interference with em and strong let maskedSrc = src; let match; let keepPrevChar, prevChar; // Mask out reflinks if (this.tokens.links) { const links = Object.keys(this.tokens.links); if (links.length > 0) { while ((match = this.tokenizer.rules.inline.reflinkSearch.exec(maskedSrc)) != null) { if (links.includes(match[0].slice(match[0].lastIndexOf('[') + 1, -1))) { maskedSrc = maskedSrc.slice(0, match.index) + '[' + 'a'.repeat(match[0].length - 2) + ']' + maskedSrc.slice(this.tokenizer.rules.inline.reflinkSearch.lastIndex); } } } } // Mask out other blocks while ((match = this.tokenizer.rules.inline.blockSkip.exec(maskedSrc)) != null) { maskedSrc = maskedSrc.slice(0, match.index) + '[' + 'a'.repeat(match[0].length - 2) + ']' + maskedSrc.slice(this.tokenizer.rules.inline.blockSkip.lastIndex); } // Mask out escaped characters while ((match = this.tokenizer.rules.inline.anyPunctuation.exec(maskedSrc)) != null) { maskedSrc = maskedSrc.slice(0, match.index) + '++' + maskedSrc.slice(this.tokenizer.rules.inline.anyPunctuation.lastIndex); } while (src) { if (!keepPrevChar) { prevChar = ''; } keepPrevChar = false; // extensions if (this.options.extensions && this.options.extensions.inline && this.options.extensions.inline.some((extTokenizer) => { if (token = extTokenizer.call({ lexer: this }, src, tokens)) { src = src.substring(token.raw.length); tokens.push(token); return true; } return false; })) { continue; } // escape if (token = this.tokenizer.escape(src)) { src = src.substring(token.raw.length); tokens.push(token); continue; } // tag if (token = this.tokenizer.tag(src)) { src = src.substring(token.raw.length); lastToken = tokens[tokens.length - 1]; if (lastToken && token.type === 'text' && lastToken.type === 'text') { lastToken.raw += token.raw; lastToken.text += token.text; } else { tokens.push(token); } continue; } // link if (token = this.tokenizer.link(src)) { src = src.substring(token.raw.length); tokens.push(token); continue; } // reflink, nolink if (token = this.tokenizer.reflink(src, this.tokens.links)) { src = src.substring(token.raw.length); lastToken = tokens[tokens.length - 1]; if (lastToken && token.type === 'text' && lastToken.type === 'text') { lastToken.raw += token.raw; lastToken.text += token.text; } else { tokens.push(token); } continue; } // em & strong if (token = this.tokenizer.emStrong(src, maskedSrc, prevChar)) { src = src.substring(token.raw.length); tokens.push(token); continue; } // code if (token = this.tokenizer.codespan(src)) { src = src.substring(token.raw.length); tokens.push(token); continue; } // br if (token = this.tokenizer.br(src)) { src = src.substring(token.raw.length); tokens.push(token); continue; } // del (gfm) if (token = this.tokenizer.del(src)) { src = src.substring(token.raw.length); tokens.push(token); continue; } // autolink if (token = this.tokenizer.autolink(src)) { src = src.substring(token.raw.length); tokens.push(token); continue; } // url (gfm) if (!this.state.inLink && (token = this.tokenizer.url(src))) { src = src.substring(token.raw.length); tokens.push(token); continue; } // text // prevent inlineText consuming extensions by clipping 'src' to extension start cutSrc = src; if (this.options.extensions && this.options.extensions.startInline) { let startIndex = Infinity; const tempSrc = src.slice(1); let tempStart; this.options.extensions.startInline.forEach((getStartIndex) => { tempStart = getStartIndex.call({ lexer: this }, tempSrc); if (typeof tempStart === 'number' && tempStart >= 0) { startIndex = Math.min(startIndex, tempStart); } }); if (startIndex < Infinity && startIndex >= 0) { cutSrc = src.substring(0, startIndex + 1); } } if (token = this.tokenizer.inlineText(cutSrc)) { src = src.substring(token.raw.length); if (token.raw.slice(-1) !== '_') { // Track prevChar before string of ____ started prevChar = token.raw.slice(-1); } keepPrevChar = true; lastToken = tokens[tokens.length - 1]; if (lastToken && lastToken.type === 'text') { lastToken.raw += token.raw; lastToken.text += token.text; } else { tokens.push(token); } continue; } if (src) { const errMsg = 'Infinite loop on byte: ' + src.charCodeAt(0); if (this.options.silent) { console.error(errMsg); break; } else { throw new Error(errMsg); } } } return tokens; } } /** * Renderer */ class _Renderer { options; parser; // set by the parser constructor(options) { this.options = options || exports.defaults; } space(token) { return ''; } code({ text, lang, escaped }) { const langString = (lang || '').match(/^\S*/)?.[0]; const code = text.replace(/\n$/, '') + '\n'; if (!langString) { return '
'
                    + (escaped ? code : escape$1(code, true))
                    + '
\n'; } return '
'
                + (escaped ? code : escape$1(code, true))
                + '
\n'; } blockquote({ tokens }) { const body = this.parser.parse(tokens); return `
\n${body}
\n`; } html({ text }) { return text; } heading({ tokens, depth }) { return `${this.parser.parseInline(tokens)}\n`; } hr(token) { return '
\n'; } list(token) { const ordered = token.ordered; const start = token.start; let body = ''; for (let j = 0; j < token.items.length; j++) { const item = token.items[j]; body += this.listitem(item); } const type = ordered ? 'ol' : 'ul'; const startAttr = (ordered && start !== 1) ? (' start="' + start + '"') : ''; return '<' + type + startAttr + '>\n' + body + '\n'; } listitem(item) { let itemBody = ''; if (item.task) { const checkbox = this.checkbox({ checked: !!item.checked }); if (item.loose) { if (item.tokens.length > 0 && item.tokens[0].type === 'paragraph') { item.tokens[0].text = checkbox + ' ' + item.tokens[0].text; if (item.tokens[0].tokens && item.tokens[0].tokens.length > 0 && item.tokens[0].tokens[0].type === 'text') { item.tokens[0].tokens[0].text = checkbox + ' ' + item.tokens[0].tokens[0].text; } } else { item.tokens.unshift({ type: 'text', raw: checkbox + ' ', text: checkbox + ' ', }); } } else { itemBody += checkbox + ' '; } } itemBody += this.parser.parse(item.tokens, !!item.loose); return `
  • ${itemBody}
    • \n`; } checkbox({ checked }) { return ''; } paragraph({ tokens }) { return `

    ${this.parser.parseInline(tokens)}

    \n`; } table(token) { let header = ''; // header let cell = ''; for (let j = 0; j < token.header.length; j++) { cell += this.tablecell(token.header[j]); } header += this.tablerow({ text: cell }); let body = ''; for (let j = 0; j < token.rows.length; j++) { const row = token.rows[j]; cell = ''; for (let k = 0; k < row.length; k++) { cell += this.tablecell(row[k]); } body += this.tablerow({ text: cell }); } if (body) body = `${body}`; return '\n' + '\n' + header + '\n' + body + '
    \n'; } tablerow({ text }) { return `\n${text}\n`; } tablecell(token) { const content = this.parser.parseInline(token.tokens); const type = token.header ? 'th' : 'td'; const tag = token.align ? `<${type} align="${token.align}">` : `<${type}>`; return tag + content + `\n`; } /** * span level renderer */ strong({ tokens }) { return `${this.parser.parseInline(tokens)}`; } em({ tokens }) { return `${this.parser.parseInline(tokens)}`; } codespan({ text }) { return `${text}`; } br(token) { return '
    '; } del({ tokens }) { return `${this.parser.parseInline(tokens)}`; } link({ href, title, tokens }) { const text = this.parser.parseInline(tokens); const cleanHref = cleanUrl(href); if (cleanHref === null) { return text; } href = cleanHref; let out = '    '; return out; } image({ href, title, text }) { const cleanHref = cleanUrl(href); if (cleanHref === null) { return text; } href = cleanHref; let out = `${text} { const tokens = genericToken[childTokens].flat(Infinity); values = values.concat(this.walkTokens(tokens, callback)); }); } else if (genericToken.tokens) { values = values.concat(this.walkTokens(genericToken.tokens, callback)); } } } } return values; } use(...args) { const extensions = this.defaults.extensions || { renderers: {}, childTokens: {} }; args.forEach((pack) => { // copy options to new object const opts = { ...pack }; // set async to true if it was set to true before opts.async = this.defaults.async || opts.async || false; // ==-- Parse "addon" extensions --== // if (pack.extensions) { pack.extensions.forEach((ext) => { if (!ext.name) { throw new Error('extension name required'); } if ('renderer' in ext) { // Renderer extensions const prevRenderer = extensions.renderers[ext.name]; if (prevRenderer) { // Replace extension with func to run new extension but fall back if false extensions.renderers[ext.name] = function (...args) { let ret = ext.renderer.apply(this, args); if (ret === false) { ret = prevRenderer.apply(this, args); } return ret; }; } else { extensions.renderers[ext.name] = ext.renderer; } } if ('tokenizer' in ext) { // Tokenizer Extensions if (!ext.level || (ext.level !== 'block' && ext.level !== 'inline')) { throw new Error("extension level must be 'block' or 'inline'"); } const extLevel = extensions[ext.level]; if (extLevel) { extLevel.unshift(ext.tokenizer); } else { extensions[ext.level] = [ext.tokenizer]; } if (ext.start) { // Function to check for start of token if (ext.level === 'block') { if (extensions.startBlock) { extensions.startBlock.push(ext.start); } else { extensions.startBlock = [ext.start]; } } else if (ext.level === 'inline') { if (extensions.startInline) { extensions.startInline.push(ext.start); } else { extensions.startInline = [ext.start]; } } } } if ('childTokens' in ext && ext.childTokens) { // Child tokens to be visited by walkTokens extensions.childTokens[ext.name] = ext.childTokens; } }); opts.extensions = extensions; } // ==-- Parse "overwrite" extensions --== // if (pack.renderer) { const renderer = this.defaults.renderer || new _Renderer(this.defaults); for (const prop in pack.renderer) { if (!(prop in renderer)) { throw new Error(`renderer '${prop}' does not exist`); } if (['options', 'parser'].includes(prop)) { // ignore options property continue; } const rendererProp = prop; const rendererFunc = pack.renderer[rendererProp]; const prevRenderer = renderer[rendererProp]; // Replace renderer with func to run extension, but fall back if false renderer[rendererProp] = (...args) => { let ret = rendererFunc.apply(renderer, args); if (ret === false) { ret = prevRenderer.apply(renderer, args); } return ret || ''; }; } opts.renderer = renderer; } if (pack.tokenizer) { const tokenizer = this.defaults.tokenizer || new _Tokenizer(this.defaults); for (const prop in pack.tokenizer) { if (!(prop in tokenizer)) { throw new Error(`tokenizer '${prop}' does not exist`); } if (['options', 'rules', 'lexer'].includes(prop)) { // ignore options, rules, and lexer properties continue; } const tokenizerProp = prop; const tokenizerFunc = pack.tokenizer[tokenizerProp]; const prevTokenizer = tokenizer[tokenizerProp]; // Replace tokenizer with func to run extension, but fall back if false // @ts-expect-error cannot type tokenizer function dynamically tokenizer[tokenizerProp] = (...args) => { let ret = tokenizerFunc.apply(tokenizer, args); if (ret === false) { ret = prevTokenizer.apply(tokenizer, args); } return ret; }; } opts.tokenizer = tokenizer; } // ==-- Parse Hooks extensions --== // if (pack.hooks) { const hooks = this.defaults.hooks || new _Hooks(); for (const prop in pack.hooks) { if (!(prop in hooks)) { throw new Error(`hook '${prop}' does not exist`); } if (prop === 'options') { // ignore options property continue; } const hooksProp = prop; const hooksFunc = pack.hooks[hooksProp]; const prevHook = hooks[hooksProp]; if (_Hooks.passThroughHooks.has(prop)) { // @ts-expect-error cannot type hook function dynamically hooks[hooksProp] = (arg) => { if (this.defaults.async) { return Promise.resolve(hooksFunc.call(hooks, arg)).then(ret => { return prevHook.call(hooks, ret); }); } const ret = hooksFunc.call(hooks, arg); return prevHook.call(hooks, ret); }; } else { // @ts-expect-error cannot type hook function dynamically hooks[hooksProp] = (...args) => { let ret = hooksFunc.apply(hooks, args); if (ret === false) { ret = prevHook.apply(hooks, args); } return ret; }; } } opts.hooks = hooks; } // ==-- Parse WalkTokens extensions --== // if (pack.walkTokens) { const walkTokens = this.defaults.walkTokens; const packWalktokens = pack.walkTokens; opts.walkTokens = function (token) { let values = []; values.push(packWalktokens.call(this, token)); if (walkTokens) { values = values.concat(walkTokens.call(this, token)); } return values; }; } this.defaults = { ...this.defaults, ...opts }; }); return this; } setOptions(opt) { this.defaults = { ...this.defaults, ...opt }; return this; } lexer(src, options) { return _Lexer.lex(src, options ?? this.defaults); } parser(tokens, options) { return _Parser.parse(tokens, options ?? this.defaults); } parseMarkdown(lexer, parser) { // eslint-disable-next-line @typescript-eslint/no-explicit-any const parse = (src, options) => { const origOpt = { ...options }; const opt = { ...this.defaults, ...origOpt }; const throwError = this.onError(!!opt.silent, !!opt.async); // throw error if an extension set async to true but parse was called with async: false if (this.defaults.async === true && origOpt.async === false) { return throwError(new Error('marked(): The async option was set to true by an extension. Remove async: false from the parse options object to return a Promise.')); } // throw error in case of non string input if (typeof src === 'undefined' || src === null) { return throwError(new Error('marked(): input parameter is undefined or null')); } if (typeof src !== 'string') { return throwError(new Error('marked(): input parameter is of type ' + Object.prototype.toString.call(src) + ', string expected')); } if (opt.hooks) { opt.hooks.options = opt; } if (opt.async) { return Promise.resolve(opt.hooks ? opt.hooks.preprocess(src) : src) .then(src => lexer(src, opt)) .then(tokens => opt.hooks ? opt.hooks.processAllTokens(tokens) : tokens) .then(tokens => opt.walkTokens ? Promise.all(this.walkTokens(tokens, opt.walkTokens)).then(() => tokens) : tokens) .then(tokens => parser(tokens, opt)) .then(html => opt.hooks ? opt.hooks.postprocess(html) : html) .catch(throwError); } try { if (opt.hooks) { src = opt.hooks.preprocess(src); } let tokens = lexer(src, opt); if (opt.hooks) { tokens = opt.hooks.processAllTokens(tokens); } if (opt.walkTokens) { this.walkTokens(tokens, opt.walkTokens); } let html = parser(tokens, opt); if (opt.hooks) { html = opt.hooks.postprocess(html); } return html; } catch (e) { return throwError(e); } }; return parse; } onError(silent, async) { return (e) => { e.message += '\nPlease report this to https://github.com/markedjs/marked.'; if (silent) { const msg = '

    An error occurred:

    '
                        + escape$1(e.message + '', true)
                        + '
    '; if (async) { return Promise.resolve(msg); } return msg; } if (async) { return Promise.reject(e); } throw e; }; } } const markedInstance = new Marked(); function marked(src, opt) { return markedInstance.parse(src, opt); } /** * Sets the default options. * * @param options Hash of options */ marked.options = marked.setOptions = function (options) { markedInstance.setOptions(options); marked.defaults = markedInstance.defaults; changeDefaults(marked.defaults); return marked; }; /** * Gets the original marked default options. */ marked.getDefaults = _getDefaults; marked.defaults = exports.defaults; /** * Use Extension */ marked.use = function (...args) { markedInstance.use(...args); marked.defaults = markedInstance.defaults; changeDefaults(marked.defaults); return marked; }; /** * Run callback for every token */ marked.walkTokens = function (tokens, callback) { return markedInstance.walkTokens(tokens, callback); }; /** * Compiles markdown to HTML without enclosing `p` tag. * * @param src String of markdown source to be compiled * @param options Hash of options * @return String of compiled HTML */ marked.parseInline = markedInstance.parseInline; /** * Expose */ marked.Parser = _Parser; marked.parser = _Parser.parse; marked.Renderer = _Renderer; marked.TextRenderer = _TextRenderer; marked.Lexer = _Lexer; marked.lexer = _Lexer.lex; marked.Tokenizer = _Tokenizer; marked.Hooks = _Hooks; marked.parse = marked; const options = marked.options; const setOptions = marked.setOptions; const use = marked.use; const walkTokens = marked.walkTokens; const parseInline = marked.parseInline; const parse = marked; const parser = _Parser.parse; const lexer = _Lexer.lex; exports.Hooks = _Hooks; exports.Lexer = _Lexer; exports.Marked = Marked; exports.Parser = _Parser; exports.Renderer = _Renderer; exports.TextRenderer = _TextRenderer; exports.Tokenizer = _Tokenizer; exports.getDefaults = _getDefaults; exports.lexer = lexer; exports.marked = marked; exports.options = options; exports.parse = parse; exports.parseInline = parseInline; exports.parser = parser; exports.setOptions = setOptions; exports.use = use; exports.walkTokens = walkTokens; })); //# sourceMappingURL=marked.umd.js.map